- Unified : some definitions of unified \lambda\delta

- level-1    : \lambda\delta exported from Coq (not working)
- RELATIONAL : added some notation
- cicNotation: some patches to the parser and pp to make them match

diff --git a/helm/software/components/acic_content/cicNotationPp.ml b/helm/software/components/acic_content/cicNotationPp.ml
index a23d26add935eef6a406e1cc1a7a55bee7621f35..568faa927155143f892cd598264fa775c9cf80bf 100644 (file)
--- a/helm/software/components/acic_content/cicNotationPp.ml
+++ b/helm/software/components/acic_content/cicNotationPp.ml
@@ -92,10 +92,10 @@ let rec pp_term ?(pp_parens = true) t =
     | Ast.Binder (`Pi, (Ast.Ident ("_", None), typ), body) ->
         sprintf "%s \\to %s"
           (match typ with None -> "?" | Some typ -> pp_term typ)
-          (pp_term body)
+          (pp_term ~pp_parens:true body)
     | Ast.Binder (kind, var, body) ->
         sprintf "\\%s %s.%s" (pp_binder kind) (pp_capture_variable var)
-          (pp_term body)
+          (pp_term ~pp_parens:true body)
     | Ast.Case (term, indtype, typ, patterns) ->
         sprintf "match %s%s%s with %s"
           (pp_term term)
@@ -109,10 +109,10 @@ let rec pp_term ?(pp_parens = true) t =
                   sprintf "(i.e.%s)" (UriManager.string_of_uri uri)
               | _ -> ""))
           (pp_patterns patterns)
-    | Ast.Cast (t1, t2) -> sprintf "(%s: %s)" (pp_term t1) (pp_term t2)
+    | Ast.Cast (t1, t2) -> sprintf "(%s: %s)" (pp_term ~pp_parens:true t1) (pp_term ~pp_parens:true t2)
     | Ast.LetIn (var, t1, t2) ->
-        sprintf "let %s \\def %s in %s" (pp_capture_variable var) (pp_term t1)
-          (pp_term t2)
+        sprintf "let %s \\def %s in %s" (pp_capture_variable var) (pp_term ~pp_parens:true t1)
+          (pp_term ~pp_parens:true t2)
     | Ast.LetRec (kind, definitions, term) ->
         sprintf "let %s %s in %s"
           (match kind with `Inductive -> "rec" | `CoInductive -> "corec")
@@ -147,8 +147,11 @@ let rec pp_term ?(pp_parens = true) t =
     | Ast.Magic m -> pp_magic m
     | Ast.Variable v -> pp_variable v
   in
-  if pp_parens then sprintf "(%s)\n" t_pp
-  else t_pp
+  match pp_parens, t with
+    | false, _ 
+    | true, Ast.Ident (_, Some []) 
+    | true, Ast.Ident (_, None)    -> t_pp
+    | _                            -> sprintf "(%s)" t_pp
 
 and pp_subst (name, term) = sprintf "%s \\Assign %s" name (pp_term term)
 and pp_substs substs = String.concat "; " (List.map pp_subst substs)
@@ -172,13 +175,9 @@ and pp_patterns patterns =
   sprintf "[%s]" (String.concat " | " (List.map pp_pattern patterns))
 
 and pp_capture_variable = 
-  let clean s = 
-    let s = String.sub s 1 (String.length s - 1) in
-    String.sub s 0 (String.length s - 2) 
-  in
   function
-  | term, None -> pp_term term
-  | term, Some typ -> "(" ^ clean (pp_term term) ^ ": " ^ pp_term typ ^ ")"
+  | term, None -> pp_term ~pp_parens:false term
+  | term, Some typ -> "(" ^ pp_term ~pp_parens:false term ^ ": " ^ pp_term typ ^ ")"
 
 and pp_box_spec (kind, spacing, indent) =
   let int_of_bool b = if b then 1 else 0 in

diff --git a/helm/software/components/content_pres/cicNotationParser.ml b/helm/software/components/content_pres/cicNotationParser.ml
index 02c959ef78abd300712faf1d2238aa654f1c9369..7aa4efe170cc3a52a32e9bfd2383ec06b7a5bbfc 100644 (file)
--- a/helm/software/components/content_pres/cicNotationParser.ml
+++ b/helm/software/components/content_pres/cicNotationParser.ml
@@ -450,6 +450,7 @@ EXTEND
     [ LPAREN; id = single_arg; SYMBOL ":"; typ = term; RPAREN ->
         id, Some typ
     | arg = single_arg -> arg, None
+    | SYMBOL "_" -> Ast.Ident ("_", None), None
     ]
   ];
   match_pattern: [

diff --git a/helm/software/matita/contribs/LAMBDA-TYPES/Unified/Inc/defs.ma b/helm/software/matita/contribs/LAMBDA-TYPES/Unified/Inc/defs.ma
new file mode 100644 (file)
index 0000000..59c0859
--- /dev/null
+++ b/helm/software/matita/contribs/LAMBDA-TYPES/Unified/Inc/defs.ma
@@ -0,0 +1,28 @@
+(**************************************************************************)
+(*       ___                                                              *)
+(*      ||M||                                                             *)
+(*      ||A||       A project by Andrea Asperti                           *)
+(*      ||T||                                                             *)
+(*      ||I||       Developers:                                           *)
+(*      ||T||         The HELM team.                                      *)
+(*      ||A||         http://helm.cs.unibo.it                             *)
+(*      \   /                                                             *)
+(*       \ /        This file is distributed under the terms of the       *)
+(*        v         GNU General Public License Version 2                  *)
+(*                                                                        *)
+(**************************************************************************)
+
+set "baseuri" "cic:/matita/LAMBDA-TYPES/Unified/Inc/defs".
+
+(* DISPLACEMENT INCREMENT RELATION
+*)
+
+include "logic/equality.ma".
+
+include "P/defs.ma".
+
+inductive Inc (i:Nat): Bool \to Head \to Nat \to Prop \def
+   | inc_bind: \forall x. Inc i true (bind x) (succ i)
+   | inc_flat: \forall y. Inc i true (flat y) i   
+   | inc_neg : \forall z. Inc i false z i
+.

diff --git a/helm/software/matita/contribs/LAMBDA-TYPES/Unified/Lift/defs.ma b/helm/software/matita/contribs/LAMBDA-TYPES/Unified/Lift/defs.ma
new file mode 100644 (file)
index 0000000..a6c3345
--- /dev/null
+++ b/helm/software/matita/contribs/LAMBDA-TYPES/Unified/Lift/defs.ma
@@ -0,0 +1,41 @@
+(**************************************************************************)
+(*       ___                                                              *)
+(*      ||M||                                                             *)
+(*      ||A||       A project by Andrea Asperti                           *)
+(*      ||T||                                                             *)
+(*      ||I||       Developers:                                           *)
+(*      ||T||         The HELM team.                                      *)
+(*      ||A||         http://helm.cs.unibo.it                             *)
+(*      \   /                                                             *)
+(*       \ /        This file is distributed under the terms of the       *)
+(*        v         GNU General Public License Version 2                  *)
+(*                                                                        *)
+(**************************************************************************)
+
+set "baseuri" "cic:/matita/LAMBDA-TYPES/Unified/Lift/defs".
+
+(* LIFT RELATION
+   - Usage: invoke with positive polarity
+*)
+
+include "logic/equality.ma".
+include "../../RELATIONAL/NPlus/defs.ma".
+include "../../RELATIONAL/NLE/defs.ma".
+include "../../RELATIONAL/BEq/defs.ma".
+
+include "P/defs.ma".
+include "Inc/defs.ma".
+
+inductive Lift (l: Nat): Nat \to Bool \to P \to P \to Prop \def
+   | lift_sort    : \forall i,a,h. Lift l i a (sort h) (sort h)
+   | lift_lref_neg: \forall i,j. Lift l i false (lref j) (lref j)
+   | lift_lref_lt : \forall i,j. 
+                    j < i \to Lift l i true (lref j) (lref j)
+   | lift_lref_ge : \forall i,j1,j2.
+                    i <= j1 \to (j1 + l == j2) \to
+                    Lift l i true (lref j1) (lref j2)
+   | lift_head    : \forall i,i',a,b,a',z,q1,q2,p1,p2. 
+                    (a * b == a') \to Inc i a' z i' \to
+                    Lift l i a' q1 q2 \to Lift l i' a p1 p2 \to 
+                    Lift l i a (head b z q1 p1) (head b z q2 p2)
+.

diff --git a/helm/software/matita/contribs/LAMBDA-TYPES/Unified/P/defs.ma b/helm/software/matita/contribs/LAMBDA-TYPES/Unified/P/defs.ma
new file mode 100644 (file)
index 0000000..798ace4
--- /dev/null
+++ b/helm/software/matita/contribs/LAMBDA-TYPES/Unified/P/defs.ma
@@ -0,0 +1,52 @@
+(**************************************************************************)
+(*       ___                                                              *)
+(*      ||M||                                                             *)
+(*      ||A||       A project by Andrea Asperti                           *)
+(*      ||T||                                                             *)
+(*      ||I||       Developers:                                           *)
+(*      ||T||         The HELM team.                                      *)
+(*      ||A||         http://helm.cs.unibo.it                             *)
+(*      \   /                                                             *)
+(*       \ /        This file is distributed under the terms of the       *)
+(*        v         GNU General Public License Version 2                  *)
+(*                                                                        *)
+(**************************************************************************)
+
+(* Project started Tue Aug 22, 2006 ***************************************)
+
+set "baseuri" "cic:/matita/LAMBDA-TYPES/Unified/P/defs".
+
+(* POLARIZED TERMS
+   - Naming policy:
+     - natural numbers      : sorts h k, local references i j, lengths l
+     - boolean values       : a b
+     - generic binding items: x
+     - generic flat items   : y
+     - generic head items   : z
+     - terms                : p q
+*)
+
+include "../../RELATIONAL/Nat/defs.ma".
+include "../../RELATIONAL/Bool/defs.ma".
+
+inductive Bind: Set \def
+   | abbr: Bind
+   | abst: Bind
+   | excl: Bind
+.
+
+inductive Flat: Set \def
+   | appl: Flat
+   | cast: Flat
+.
+
+inductive Head: Set \def
+   | bind: Bind \to Head
+   | flat: Flat \to Head
+.
+
+inductive P: Set \def
+   | sort: Nat \to P
+   | lref: Nat \to P
+   | head: Bool \to Head \to P \to P \to P
+.

diff --git a/helm/software/matita/contribs/LAMBDA-TYPES/Unified/makefile b/helm/software/matita/contribs/LAMBDA-TYPES/Unified/makefile
new file mode 100644 (file)
index 0000000..a9ac218
--- /dev/null
+++ b/helm/software/matita/contribs/LAMBDA-TYPES/Unified/makefile
@@ -0,0 +1,33 @@
+H=@
+
+RT_BASEDIR=/home/fguidi/svn/software/matita/
+OPTIONS=-bench
+MMAKE=$(RT_BASEDIR)matitamake $(OPTIONS)
+CLEAN=$(RT_BASEDIR)matitaclean $(OPTIONS) 
+MMAKEO=$(RT_BASEDIR)matitamake.opt $(OPTIONS)
+CLEANO=$(RT_BASEDIR)matitaclean.opt $(OPTIONS) 
+
+devel:=$(shell basename `pwd`)
+
+all: preall
+       $(H)MATITA_FLAGS=$(MATITA_FLAGS) $(MMAKE) build $(devel)
+clean: preall
+       $(H)MATITA_FLAGS=$(MATITA_FLAGS) $(MMAKE) clean $(devel)
+cleanall: preall
+       $(H)MATITA_FLAGS=$(MATITA_FLAGS) $(MCLEAN) all
+
+all.opt opt: preall
+       $(H)MATITA_FLAGS=$(MATITA_FLAGS) $(MMAKEO) build $(devel)
+clean.opt: preall
+       $(H)MATITA_FLAGS=$(MATITA_FLAGS) $(MMAKEO) clean $(devel)
+cleanall.opt: preall
+       $(H)MATITA_FLAGS=$(MATITA_FLAGS) $(MCLEANO) all
+
+%.mo: preall
+       $(H)MATITA_FLAGS=$(MATITA_FLAGS) $(MMAKE) $@
+%.mo.opt: preall
+       $(H)MATITA_FLAGS=$(MATITA_FLAGS) $(MMAKEO) $@
+       
+preall:
+       $(H)MATITA_FLAGS=$(MATITA_FLAGS) $(MMAKE) init $(devel)
+

diff --git a/helm/software/matita/contribs/LAMBDA-TYPES/level-1/Base.ma b/helm/software/matita/contribs/LAMBDA-TYPES/level-1/Base.ma
new file mode 100644 (file)
index 0000000..990c32b
--- /dev/null
+++ b/helm/software/matita/contribs/LAMBDA-TYPES/level-1/Base.ma
@@ -0,0 +1,177 @@
+(**************************************************************************)
+(*       ___                                                              *)
+(*      ||M||                                                             *)
+(*      ||A||       A project by Andrea Asperti                           *)
+(*      ||T||                                                             *)
+(*      ||I||       Developers:                                           *)
+(*      ||T||         The HELM team.                                      *)
+(*      ||A||         http://helm.cs.unibo.it                             *)
+(*      \   /                                                             *)
+(*       \ /        This file is distributed under the terms of the       *)
+(*        v         GNU General Public License Version 2                  *)
+(*                                                                        *)
+(**************************************************************************)
+
+(* This file was automatically generated: do not edit *********************)
+
+set "baseuri" "cic:/matita/contribs/LAMBDA-TYPES/level-1/Base".
+
+include "legacy/coq.ma".
+
+theorem insert_eq: \forall (S: (Set)).(\forall (x: S).(\forall (P: ((S \to (Prop)))).(\forall (G: (Prop)).(((\forall (y: S).((P y) \to ((eq S y x) \to G)))) \to ((P x) \to G))))) \def \lambda (S: (Set)).(\lambda (x: S).(\lambda (P: ((S \to (Prop)))).(\lambda (G: (Prop)).(\lambda (H: ((\forall (y: S).((P y) \to ((eq S y x) \to G))))).(\lambda (H0: (P x)).(H x H0 (refl_equal S x))))))).
+
+theorem unintro: \forall (A: (Set)).(\forall (a: A).(\forall (P: ((A \to (Prop)))).(((\forall (x: A).(P x))) \to (P a)))) \def \lambda (A: (Set)).(\lambda (a: A).(\lambda (P: ((A \to (Prop)))).(\lambda (H: ((\forall (x: A).(P x)))).(H a)))).
+
+theorem xinduction: \forall (A: (Set)).(\forall (t: A).(\forall (P: ((A \to (Prop)))).(((\forall (x: A).((eq A t x) \to (P x)))) \to (P t)))) \def \lambda (A: (Set)).(\lambda (t: A).(\lambda (P: ((A \to (Prop)))).(\lambda (H: ((\forall (x: A).((eq A t x) \to (P x))))).(H t (refl_equal A t))))).
+
+alias id "nut" = "cic:/Coq/Init/Datatypes/nat.ind#xpointer(1/1)".
+alias id "net" = "cic:/Coq/Init/Datatypes/nat.ind#xpointer(1/1)".
+alias id "nit" = "cic:/Coq/Init/Datatypes/nat.ind#xpointer(1/1)".
+
+theorem nat_dec: \forall (n1: net).(\forall (n2: net).(or (eq nut n1 n2) ((eq nut n1 n2) \to (\forall (P: (Prop)).P)))) \def \lambda (n1: net).(nat_ind (\lambda (n: net).(\forall (n2: net).(or (eq nut n n2) ((eq nut n n2) \to (\forall (P: (Prop)).P))))) (\lambda (n2: net).(nat_ind (\lambda (n: net).(or (eq nut O n) ((eq nut O n) \to (\forall (P: (Prop)).P)))) (or_introl (eq nut O O) ((eq nut O O) \to (\forall (P: (Prop)).P)) (refl_equal nat O)) (\lambda (n: net).(\lambda (_: (or (eq nut O n) ((eq nut O n) \to (\forall (P: (Prop)).P)))).(or_intror (eq nut O (S n)) ((eq nut O (S n)) \to (\forall (P: (Prop)).P)) (\lambda (H0: (eq nut O (S n))).(\lambda (P: (Prop)).(let H1 \def (eq_ind nat O (\lambda (ee: net).(match ee return (Prop) with [O \Rightarrow True | (S _) \Rightarrow False])) I (S n) H0) in (False_ind P H1))))))) n2)) (\lambda (n: net).(\lambda (H: ((\forall (n2: net).(or (eq nut n n2) ((eq nut n n2) \to (\forall (P: (Prop)).P)))))).(\lambda (n2: net).(nat_ind (\lambda (n0: net).(or (eq nut (S n) n0) ((eq nut (S n) n0) \to (\forall (P: (Prop)).P)))) (or_intror (eq nut (S n) O) ((eq nut (S n) O) \to (\forall (P: (Prop)).P)) (\lambda (H0: (eq nut (S n) O)).(\lambda (P: (Prop)).(let H1 \def (eq_ind nat (S n) (\lambda (ee: net).(match ee return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True])) I O H0) in (False_ind P H1))))) (\lambda (n0: net).(\lambda (H0: (or (eq nut (S n) n0) ((eq nut (S n) n0) \to (\forall (P: (Prop)).P)))).(or_ind (eq nut n n0) ((eq nut n n0) \to (\forall (P: (Prop)).P)) (or (eq nut (S n) (S n0)) ((eq nut (S n) (S n0)) \to (\forall (P: (Prop)).P))) (\lambda (H1: (eq nut n n0)).(let H2 \def (eq_ind_r nat n0 (\lambda (n0: net).(or (eq nut (S n) n0) ((eq nut (S n) n0) \to (\forall (P: (Prop)).P)))) H0 n H1) in (eq_ind nat n (\lambda (n3: net).(or (eq nut (S n) (S n3)) ((eq nut (S n) (S n3)) \to (\forall (P: (Prop)).P)))) (or_introl (eq nut (S n) (S n)) ((eq nut (S n) (S n)) \to (\forall (P: (Prop)).P)) (refl_equal nat (S n))) n0 H1))) (\lambda (H1: (((eq nut n n0) \to (\forall (P: (Prop)).P)))).(or_intror (eq nut (S n) (S n0)) ((eq nut (S n) (S n0)) \to (\forall (P: (Prop)).P)) (\lambda (H2: (eq nut (S n) (S n0))).(\lambda (P: (Prop)).(let H3 \def (f_equal nat nat (\lambda (e: nit).(match (e:net) return nit with [O \Rightarrow n | (S n) \Rightarrow n])) (S n) (S n0) H2) in (let H4 \def (eq_ind_r nat n0 (\lambda (n0: net).((eq nut n n0) \to (\forall (P: (Prop)).P))) H1 n H3) in (let H5 \def (eq_ind_r nat n0 (\lambda (n0: net).(or (eq nut (S n) n0) ((eq nut (S n) n0) \to (\forall (P: (Prop)).P)))) H0 n H3) in (H4 (refl_equal nat n) P)))))))) (H n0)))) n2)))) n1).
+
+(*
+theorem simpl_plus_r: \forall (n: nat).(\forall (m: nat).(\forall (p: nat).((eq nat (plus m n) (plus p n)) \to (eq nat m p)))) \def \lambda (n: nat).(\lambda (m: nat).(\lambda (p: nat).(\lambda (H: (eq nat (plus m n) (plus p n))).(simpl_plus_l n m p (eq_ind_r nat (plus m n) (\lambda (n0: nat).(eq nat n0 (plus n p))) (eq_ind_r nat (plus p n) (\lambda (n0: nat).(eq nat n0 (plus n p))) (sym_eq nat (plus n p) (plus p n) (plus_sym n p)) (plus m n) H) (plus n m) (plus_sym n m)))))).
+
+theorem minus_plus_r: \forall (m: nat).(\forall (n: nat).(eq nat (minus (plus m n) n) m)) \def \lambda (m: nat).(\lambda (n: nat).(eq_ind_r nat (plus n m) (\lambda (n0: nat).(eq nat (minus n0 n) m)) (minus_plus n m) (plus m n) (plus_sym m n))).
+
+theorem plus_permute_2_in_3: \forall (x: nat).(\forall (y: nat).(\forall (z: nat).(eq nat (plus (plus x y) z) (plus (plus x z) y)))) \def \lambda (x: nat).(\lambda (y: nat).(\lambda (z: nat).(eq_ind_r nat (plus x (plus y z)) (\lambda (n: nat).(eq nat n (plus (plus x z) y))) (eq_ind_r nat (plus z y) (\lambda (n: nat).(eq nat (plus x n) (plus (plus x z) y))) (eq_ind nat (plus (plus x z) y) (\lambda (n: nat).(eq nat n (plus (plus x z) y))) (refl_equal nat (plus (plus x z) y)) (plus x (plus z y)) (plus_assoc_r x z y)) (plus y z) (plus_sym y z)) (plus (plus x y) z) (plus_assoc_r x y z)))).
+
+theorem plus_permute_2_in_3_assoc: \forall (n: nat).(\forall (h: nat).(\forall (k: nat).(eq nat (plus (plus n h) k) (plus n (plus k h))))) \def \lambda (n: nat).(\lambda (h: nat).(\lambda (k: nat).(eq_ind_r nat (plus (plus n k) h) (\lambda (n0: nat).(eq nat n0 (plus n (plus k h)))) (eq_ind_r nat (plus (plus n k) h) (\lambda (n0: nat).(eq nat (plus (plus n k) h) n0)) (refl_equal nat (plus (plus n k) h)) (plus n (plus k h)) (plus_assoc_l n k h)) (plus (plus n h) k) (plus_permute_2_in_3 n h k)))).
+
+theorem plus_O: \forall (x: nat).(\forall (y: nat).((eq nat (plus x y) O) \to (and (eq nat x O) (eq nat y O)))) \def \lambda (x: nat).(nat_ind (\lambda (n: nat).(\forall (y: nat).((eq nat (plus n y) O) \to (and (eq nat n O) (eq nat y O))))) (\lambda (y: nat).(\lambda (H: (eq nat (plus O y) O)).(conj (eq nat O O) (eq nat y O) (refl_equal nat O) H))) (\lambda (n: nat).(\lambda (_: ((\forall (y: nat).((eq nat (plus n y) O) \to (and (eq nat n O) (eq nat y O)))))).(\lambda (y: nat).(\lambda (H0: (eq nat (plus (S n) y) O)).(let H1 \def (match H0 return (\lambda (n0: nat).((eq nat n0 O) \to (and (eq nat (S n) O) (eq nat y O)))) with [refl_equal \Rightarrow (\lambda (H1: (eq nat (plus (S n) y) O)).(let H2 \def (eq_ind nat (plus (S n) y) (\lambda (e: nat).(match e return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True])) I O H1) in (False_ind (and (eq nat (S n) O) (eq nat y O)) H2)))]) in (H1 (refl_equal nat O))))))) x).
+
+theorem minus_Sx_SO: \forall (x: nat).(eq nat (minus (S x) (S O)) x) \def \lambda (x: nat).(eq_ind nat x (\lambda (n: nat).(eq nat n x)) (refl_equal nat x) (minus x O) (minus_n_O x)).
+
+theorem eq_nat_dec: \forall (i: nat).(\forall (j: nat).(or (not (eq nat i j)) (eq nat i j))) \def \lambda (i: nat).(nat_ind (\lambda (n: nat).(\forall (j: nat).(or (not (eq nat n j)) (eq nat n j)))) (\lambda (j: nat).(nat_ind (\lambda (n: nat).(or (not (eq nat O n)) (eq nat O n))) (or_intror (not (eq nat O O)) (eq nat O O) (refl_equal nat O)) (\lambda (n: nat).(\lambda (_: (or (not (eq nat O n)) (eq nat O n))).(or_introl (not (eq nat O (S n))) (eq nat O (S n)) (O_S n)))) j)) (\lambda (n: nat).(\lambda (H: ((\forall (j: nat).(or (not (eq nat n j)) (eq nat n j))))).(\lambda (j: nat).(nat_ind (\lambda (n0: nat).(or (not (eq nat (S n) n0)) (eq nat (S n) n0))) (or_introl (not (eq nat (S n) O)) (eq nat (S n) O) (sym_not_eq nat O (S n) (O_S n))) (\lambda (n0: nat).(\lambda (_: (or (not (eq nat (S n) n0)) (eq nat (S n) n0))).(or_ind (not (eq nat n n0)) (eq nat n n0) (or (not (eq nat (S n) (S n0))) (eq nat (S n) (S n0))) (\lambda (H1: (not (eq nat n n0))).(or_introl (not (eq nat (S n) (S n0))) (eq nat (S n) (S n0)) (not_eq_S n n0 H1))) (\lambda (H1: (eq nat n n0)).(or_intror (not (eq nat (S n) (S n0))) (eq nat (S n) (S n0)) (f_equal nat nat S n n0 H1))) (H n0)))) j)))) i).
+
+theorem neq_eq_e: \forall (i: nat).(\forall (j: nat).(\forall (P: (Prop)).((((not (eq nat i j)) \to P)) \to ((((eq nat i j) \to P)) \to P)))) \def \lambda (i: nat).(\lambda (j: nat).(\lambda (P: (Prop)).(\lambda (H: (((not (eq nat i j)) \to P))).(\lambda (H0: (((eq nat i j) \to P))).(let o \def (eq_nat_dec i j) in (or_ind (not (eq nat i j)) (eq nat i j) P H H0 o)))))).
+
+theorem le_false: \forall (m: nat).(\forall (n: nat).(\forall (P: (Prop)).((le m n) \to ((le (S n) m) \to P)))) \def \lambda (m: nat).(nat_ind (\lambda (n: nat).(\forall (n0: nat).(\forall (P: (Prop)).((le n n0) \to ((le (S n0) n) \to P))))) (\lambda (n: nat).(\lambda (P: (Prop)).(\lambda (_: (le O n)).(\lambda (H0: (le (S n) O)).(let H1 \def (match H0 return (\lambda (n: nat).((eq nat n O) \to P)) with [le_n \Rightarrow (\lambda (H1: (eq nat (S n) O)).(let H2 \def (eq_ind nat (S n) (\lambda (e: nat).(match e return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True])) I O H1) in (False_ind P H2))) | (le_S m H1) \Rightarrow (\lambda (H2: (eq nat (S m) O)).((let H3 \def (eq_ind nat (S m) (\lambda (e: nat).(match e return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True])) I O H2) in (False_ind ((le (S n) m) \to P) H3)) H1))]) in (H1 (refl_equal nat O))))))) (\lambda (n: nat).(\lambda (H: ((\forall (n0: nat).(\forall (P: (Prop)).((le n n0) \to ((le (S n0) n) \to P)))))).(\lambda (n0: nat).(nat_ind (\lambda (n1: nat).(\forall (P: (Prop)).((le (S n) n1) \to ((le (S n1) (S n)) \to P)))) (\lambda (P: (Prop)).(\lambda (H0: (le (S n) O)).(\lambda (_: (le (S O) (S n))).(let H2 \def (match H0 return (\lambda (n: nat).((eq nat n O) \to P)) with [le_n \Rightarrow (\lambda (H2: (eq nat (S n) O)).(let H3 \def (eq_ind nat (S n) (\lambda (e: nat).(match e return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True])) I O H2) in (False_ind P H3))) | (le_S m H2) \Rightarrow (\lambda (H3: (eq nat (S m) O)).((let H4 \def (eq_ind nat (S m) (\lambda (e: nat).(match e return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True])) I O H3) in (False_ind ((le (S n) m) \to P) H4)) H2))]) in (H2 (refl_equal nat O)))))) (\lambda (n1: nat).(\lambda (_: ((\forall (P: (Prop)).((le (S n) n1) \to ((le (S n1) (S n)) \to P))))).(\lambda (P: (Prop)).(\lambda (H1: (le (S n) (S n1))).(\lambda (H2: (le (S (S n1)) (S n))).(H n1 P (le_S_n n n1 H1) (le_S_n (S n1) n H2))))))) n0)))) m).
+
+theorem le_Sx_x: \forall (x: nat).((le (S x) x) \to (\forall (P: (Prop)).P)) \def \lambda (x: nat).(\lambda (H: (le (S x) x)).(\lambda (P: (Prop)).(let H0 \def le_Sn_n in (False_ind P (H0 x H))))).
+
+theorem minus_le: \forall (x: nat).(\forall (y: nat).(le (minus x y) x)) \def \lambda (x: nat).(nat_ind (\lambda (n: nat).(\forall (y: nat).(le (minus n y) n))) (\lambda (_: nat).(le_n O)) (\lambda (n: nat).(\lambda (H: ((\forall (y: nat).(le (minus n y) n)))).(\lambda (y: nat).(match y return (\lambda (n0: nat).(le (minus (S n) n0) (S n))) with [O \Rightarrow (le_n (S n)) | (S n0) \Rightarrow (le_S (minus n n0) n (H n0))])))) x).
+
+theorem le_plus_minus_sym: \forall (n: nat).(\forall (m: nat).((le n m) \to (eq nat m (plus (minus m n) n)))) \def \lambda (n: nat).(\lambda (m: nat).(\lambda (H: (le n m)).(eq_ind_r nat (plus n (minus m n)) (\lambda (n0: nat).(eq nat m n0)) (le_plus_minus n m H) (plus (minus m n) n) (plus_sym (minus m n) n)))).
+
+theorem le_minus_minus: \forall (x: nat).(\forall (y: nat).((le x y) \to (\forall (z: nat).((le y z) \to (le (minus y x) (minus z x)))))) \def \lambda (x: nat).(\lambda (y: nat).(\lambda (H: (le x y)).(\lambda (z: nat).(\lambda (H0: (le y z)).(simpl_le_plus_l x (minus y x) (minus z x) (eq_ind_r nat y (\lambda (n: nat).(le n (plus x (minus z x)))) (eq_ind_r nat z (\lambda (n: nat).(le y n)) H0 (plus x (minus z x)) (le_plus_minus_r x z (le_trans x y z H H0))) (plus x (minus y x)) (le_plus_minus_r x y H))))))).
+
+theorem le_minus_plus: \forall (z: nat).(\forall (x: nat).((le z x) \to (\forall (y: nat).(eq nat (minus (plus x y) z) (plus (minus x z) y))))) \def \lambda (z: nat).(nat_ind (\lambda (n: nat).(\forall (x: nat).((le n x) \to (\forall (y: nat).(eq nat (minus (plus x y) n) (plus (minus x n) y)))))) (\lambda (x: nat).(\lambda (H: (le O x)).(let H0 \def (match H return (\lambda (n: nat).((eq nat n x) \to (\forall (y: nat).(eq nat (minus (plus x y) O) (plus (minus x O) y))))) with [le_n \Rightarrow (\lambda (H0: (eq nat O x)).(eq_ind nat O (\lambda (n: nat).(\forall (y: nat).(eq nat (minus (plus n y) O) (plus (minus n O) y)))) (\lambda (y: nat).(sym_eq nat (plus (minus O O) y) (minus (plus O y) O) (minus_n_O (plus O y)))) x H0)) | (le_S m H0) \Rightarrow (\lambda (H1: (eq nat (S m) x)).(eq_ind nat (S m) (\lambda (n: nat).((le O m) \to (\forall (y: nat).(eq nat (minus (plus n y) O) (plus (minus n O) y))))) (\lambda (_: (le O m)).(\lambda (y: nat).(refl_equal nat (plus (minus (S m) O) y)))) x H1 H0))]) in (H0 (refl_equal nat x))))) (\lambda (z0: nat).(\lambda (H: ((\forall (x: nat).((le z0 x) \to (\forall (y: nat).(eq nat (minus (plus x y) z0) (plus (minus x z0) y))))))).(\lambda (x: nat).(nat_ind (\lambda (n: nat).((le (S z0) n) \to (\forall (y: nat).(eq nat (minus (plus n y) (S z0)) (plus (minus n (S z0)) y))))) (\lambda (H0: (le (S z0) O)).(\lambda (y: nat).(let H1 \def (match H0 return (\lambda (n: nat).((eq nat n O) \to (eq nat (minus (plus O y) (S z0)) (plus (minus O (S z0)) y)))) with [le_n \Rightarrow (\lambda (H1: (eq nat (S z0) O)).(let H2 \def (eq_ind nat (S z0) (\lambda (e: nat).(match e return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True])) I O H1) in (False_ind (eq nat (minus (plus O y) (S z0)) (plus (minus O (S z0)) y)) H2))) | (le_S m H1) \Rightarrow (\lambda (H2: (eq nat (S m) O)).((let H3 \def (eq_ind nat (S m) (\lambda (e: nat).(match e return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True])) I O H2) in (False_ind ((le (S z0) m) \to (eq nat (minus (plus O y) (S z0)) (plus (minus O (S z0)) y))) H3)) H1))]) in (H1 (refl_equal nat O))))) (\lambda (n: nat).(\lambda (_: (((le (S z0) n) \to (\forall (y: nat).(eq nat (minus (plus n y) (S z0)) (plus (minus n (S z0)) y)))))).(\lambda (H1: (le (S z0) (S n))).(\lambda (y: nat).(H n (le_S_n z0 n H1) y))))) x)))) z).
+
+theorem le_minus: \forall (x: nat).(\forall (z: nat).(\forall (y: nat).((le (plus x y) z) \to (le x (minus z y))))) \def \lambda (x: nat).(\lambda (z: nat).(\lambda (y: nat).(\lambda (H: (le (plus x y) z)).(eq_ind nat (minus (plus x y) y) (\lambda (n: nat).(le n (minus z y))) (le_minus_minus y (plus x y) (le_plus_r x y) z H) x (minus_plus_r x y))))).
+
+theorem le_trans_plus_r: \forall (x: nat).(\forall (y: nat).(\forall (z: nat).((le (plus x y) z) \to (le y z)))) \def \lambda (x: nat).(\lambda (y: nat).(\lambda (z: nat).(\lambda (H: (le (plus x y) z)).(le_trans y (plus x y) z (le_plus_r x y) H)))).
+
+theorem le_gen_S: \forall (m: nat).(\forall (x: nat).((le (S m) x) \to (ex2 nat (\lambda (n: nat).(eq nat x (S n))) (\lambda (n: nat).(le m n))))) \def \lambda (m: nat).(\lambda (x: nat).(\lambda (H: (le (S m) x)).(let H0 \def (match H return (\lambda (n: nat).((eq nat n x) \to (ex2 nat (\lambda (n0: nat).(eq nat x (S n0))) (\lambda (n0: nat).(le m n0))))) with [le_n \Rightarrow (\lambda (H0: (eq nat (S m) x)).(eq_ind nat (S m) (\lambda (n: nat).(ex2 nat (\lambda (n0: nat).(eq nat n (S n0))) (\lambda (n0: nat).(le m n0)))) (ex_intro2 nat (\lambda (n: nat).(eq nat (S m) (S n))) (\lambda (n: nat).(le m n)) m (refl_equal nat (S m)) (le_n m)) x H0)) | (le_S m0 H0) \Rightarrow (\lambda (H1: (eq nat (S m0) x)).(eq_ind nat (S m0) (\lambda (n: nat).((le (S m) m0) \to (ex2 nat (\lambda (n0: nat).(eq nat n (S n0))) (\lambda (n0: nat).(le m n0))))) (\lambda (H2: (le (S m) m0)).(ex_intro2 nat (\lambda (n: nat).(eq nat (S m0) (S n))) (\lambda (n: nat).(le m n)) m0 (refl_equal nat (S m0)) (le_S_n m m0 (le_S (S m) m0 H2)))) x H1 H0))]) in (H0 (refl_equal nat x))))).
+
+theorem lt_x_plus_x_Sy: \forall (x: nat).(\forall (y: nat).(lt x (plus x (S y)))) \def \lambda (x: nat).(\lambda (y: nat).(eq_ind_r nat (plus (S y) x) (\lambda (n: nat).(lt x n)) (le_S_n (S x) (S (plus y x)) (le_n_S (S x) (S (plus y x)) (le_n_S x (plus y x) (le_plus_r y x)))) (plus x (S y)) (plus_sym x (S y)))).
+
+theorem simpl_lt_plus_r: \forall (p: nat).(\forall (n: nat).(\forall (m: nat).((lt (plus n p) (plus m p)) \to (lt n m)))) \def \lambda (p: nat).(\lambda (n: nat).(\lambda (m: nat).(\lambda (H: (lt (plus n p) (plus m p))).(simpl_lt_plus_l n m p (let H0 \def (eq_ind nat (plus n p) (\lambda (n: nat).(lt n (plus m p))) H (plus p n) (plus_sym n p)) in (let H1 \def (eq_ind nat (plus m p) (\lambda (n0: nat).(lt (plus p n) n0)) H0 (plus p m) (plus_sym m p)) in H1)))))).
+
+theorem minus_x_Sy: \forall (x: nat).(\forall (y: nat).((lt y x) \to (eq nat (minus x y) (S (minus x (S y)))))) \def \lambda (x: nat).(nat_ind (\lambda (n: nat).(\forall (y: nat).((lt y n) \to (eq nat (minus n y) (S (minus n (S y))))))) (\lambda (y: nat).(\lambda (H: (lt y O)).(let H0 \def (match H return (\lambda (n: nat).((eq nat n O) \to (eq nat (minus O y) (S (minus O (S y)))))) with [le_n \Rightarrow (\lambda (H0: (eq nat (S y) O)).(let H1 \def (eq_ind nat (S y) (\lambda (e: nat).(match e return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True])) I O H0) in (False_ind (eq nat (minus O y) (S (minus O (S y)))) H1))) | (le_S m H0) \Rightarrow (\lambda (H1: (eq nat (S m) O)).((let H2 \def (eq_ind nat (S m) (\lambda (e: nat).(match e return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True])) I O H1) in (False_ind ((le (S y) m) \to (eq nat (minus O y) (S (minus O (S y))))) H2)) H0))]) in (H0 (refl_equal nat O))))) (\lambda (n: nat).(\lambda (H: ((\forall (y: nat).((lt y n) \to (eq nat (minus n y) (S (minus n (S y)))))))).(\lambda (y: nat).(nat_ind (\lambda (n0: nat).((lt n0 (S n)) \to (eq nat (minus (S n) n0) (S (minus (S n) (S n0)))))) (\lambda (_: (lt O (S n))).(eq_ind nat n (\lambda (n0: nat).(eq nat (S n) (S n0))) (refl_equal nat (S n)) (minus n O) (minus_n_O n))) (\lambda (n0: nat).(\lambda (_: (((lt n0 (S n)) \to (eq nat (minus (S n) n0) (S (minus (S n) (S n0))))))).(\lambda (H1: (lt (S n0) (S n))).(let H2 \def (le_S_n (S n0) n H1) in (H n0 H2))))) y)))) x).
+
+theorem lt_plus_minus: \forall (x: nat).(\forall (y: nat).((lt x y) \to (eq nat y (S (plus x (minus y (S x))))))) \def \lambda (x: nat).(\lambda (y: nat).(\lambda (H: (lt x y)).(le_plus_minus (S x) y H))).
+
+theorem lt_plus_minus_r: \forall (x: nat).(\forall (y: nat).((lt x y) \to (eq nat y (S (plus (minus y (S x)) x))))) \def \lambda (x: nat).(\lambda (y: nat).(\lambda (H: (lt x y)).(eq_ind_r nat (plus x (minus y (S x))) (\lambda (n: nat).(eq nat y (S n))) (lt_plus_minus x y H) (plus (minus y (S x)) x) (plus_sym (minus y (S x)) x)))).
+
+theorem minus_x_SO: \forall (x: nat).((lt O x) \to (eq nat x (S (minus x (S O))))) \def \lambda (x: nat).(\lambda (H: (lt O x)).(eq_ind nat (minus x O) (\lambda (n: nat).(eq nat x n)) (eq_ind nat x (\lambda (n: nat).(eq nat x n)) (refl_equal nat x) (minus x O) (minus_n_O x)) (S (minus x (S O))) (minus_x_Sy x O H))).
+
+theorem le_x_pred_y: \forall (y: nat).(\forall (x: nat).((lt x y) \to (le x (pred y)))) \def \lambda (y: nat).(nat_ind (\lambda (n: nat).(\forall (x: nat).((lt x n) \to (le x (pred n))))) (\lambda (x: nat).(\lambda (H: (lt x O)).(let H0 \def (match H return (\lambda (n: nat).((eq nat n O) \to (le x O))) with [le_n \Rightarrow (\lambda (H0: (eq nat (S x) O)).(let H1 \def (eq_ind nat (S x) (\lambda (e: nat).(match e return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True])) I O H0) in (False_ind (le x O) H1))) | (le_S m H0) \Rightarrow (\lambda (H1: (eq nat (S m) O)).((let H2 \def (eq_ind nat (S m) (\lambda (e: nat).(match e return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True])) I O H1) in (False_ind ((le (S x) m) \to (le x O)) H2)) H0))]) in (H0 (refl_equal nat O))))) (\lambda (n: nat).(\lambda (_: ((\forall (x: nat).((lt x n) \to (le x (pred n)))))).(\lambda (x: nat).(\lambda (H0: (lt x (S n))).(le_S_n x n H0))))) y).
+
+theorem lt_le_minus: \forall (x: nat).(\forall (y: nat).((lt x y) \to (le x (minus y (S O))))) \def \lambda (x: nat).(\lambda (y: nat).(\lambda (H: (lt x y)).(le_minus x y (S O) (eq_ind_r nat (plus (S O) x) (\lambda (n: nat).(le n y)) H (plus x (S O)) (plus_sym x (S O)))))).
+
+theorem lt_le_e: \forall (n: nat).(\forall (d: nat).(\forall (P: (Prop)).((((lt n d) \to P)) \to ((((le d n) \to P)) \to P)))) \def \lambda (n: nat).(\lambda (d: nat).(\lambda (P: (Prop)).(\lambda (H: (((lt n d) \to P))).(\lambda (H0: (((le d n) \to P))).(let H1 \def (le_or_lt d n) in (or_ind (le d n) (lt n d) P H0 H H1)))))).
+
+theorem lt_eq_e: \forall (x: nat).(\forall (y: nat).(\forall (P: (Prop)).((((lt x y) \to P)) \to ((((eq nat x y) \to P)) \to ((le x y) \to P))))) \def \lambda (x: nat).(\lambda (y: nat).(\lambda (P: (Prop)).(\lambda (H: (((lt x y) \to P))).(\lambda (H0: (((eq nat x y) \to P))).(\lambda (H1: (le x y)).(or_ind (lt x y) (eq nat x y) P H H0 (le_lt_or_eq x y H1))))))).
+
+theorem lt_eq_gt_e: \forall (x: nat).(\forall (y: nat).(\forall (P: (Prop)).((((lt x y) \to P)) \to ((((eq nat x y) \to P)) \to ((((lt y x) \to P)) \to P))))) \def \lambda (x: nat).(\lambda (y: nat).(\lambda (P: (Prop)).(\lambda (H: (((lt x y) \to P))).(\lambda (H0: (((eq nat x y) \to P))).(\lambda (H1: (((lt y x) \to P))).(lt_le_e x y P H (\lambda (H2: (le y x)).(lt_eq_e y x P H1 (\lambda (H3: (eq nat y x)).(H0 (sym_eq nat y x H3))) H2)))))))).
+
+theorem lt_gen_xS: \forall (x: nat).(\forall (n: nat).((lt x (S n)) \to (or (eq nat x O) (ex2 nat (\lambda (m: nat).(eq nat x (S m))) (\lambda (m: nat).(lt m n)))))) \def \lambda (x: nat).(nat_ind (\lambda (n: nat).(\forall (n0: nat).((lt n (S n0)) \to (or (eq nat n O) (ex2 nat (\lambda (m: nat).(eq nat n (S m))) (\lambda (m: nat).(lt m n0))))))) (\lambda (n: nat).(\lambda (_: (lt O (S n))).(or_introl (eq nat O O) (ex2 nat (\lambda (m: nat).(eq nat O (S m))) (\lambda (m: nat).(lt m n))) (refl_equal nat O)))) (\lambda (n: nat).(\lambda (_: ((\forall (n0: nat).((lt n (S n0)) \to (or (eq nat n O) (ex2 nat (\lambda (m: nat).(eq nat n (S m))) (\lambda (m: nat).(lt m n0)))))))).(\lambda (n0: nat).(\lambda (H0: (lt (S n) (S n0))).(or_intror (eq nat (S n) O) (ex2 nat (\lambda (m: nat).(eq nat (S n) (S m))) (\lambda (m: nat).(lt m n0))) (ex_intro2 nat (\lambda (m: nat).(eq nat (S n) (S m))) (\lambda (m: nat).(lt m n0)) n (refl_equal nat (S n)) (le_S_n (S n) n0 H0))))))) x).
+
+theorem le_lt_false: \forall (x: nat).(\forall (y: nat).((le x y) \to ((lt y x) \to (\forall (P: (Prop)).P)))) \def \lambda (x: nat).(\lambda (y: nat).(\lambda (H: (le x y)).(\lambda (H0: (lt y x)).(\lambda (P: (Prop)).(False_ind P (le_not_lt x y H H0)))))).
+
+theorem lt_neq: \forall (x: nat).(\forall (y: nat).((lt x y) \to (not (eq nat x y)))) \def \lambda (x: nat).(\lambda (y: nat).(\lambda (H: (lt x y)).(\lambda (H0: (eq nat x y)).(let H1 \def (eq_ind nat x (\lambda (n: nat).(lt n y)) H y H0) in (lt_n_n y H1))))).
+
+theorem arith0: \forall (h2: nat).(\forall (d2: nat).(\forall (n: nat).((le (plus d2 h2) n) \to (\forall (h1: nat).(le (plus d2 h1) (minus (plus n h1) h2)))))) \def \lambda (h2: nat).(\lambda (d2: nat).(\lambda (n: nat).(\lambda (H: (le (plus d2 h2) n)).(\lambda (h1: nat).(eq_ind nat (minus (plus h2 (plus d2 h1)) h2) (\lambda (n0: nat).(le n0 (minus (plus n h1) h2))) (le_minus_minus h2 (plus h2 (plus d2 h1)) (le_plus_l h2 (plus d2 h1)) (plus n h1) (eq_ind_r nat (plus (plus h2 d2) h1) (\lambda (n0: nat).(le n0 (plus n h1))) (eq_ind_r nat (plus d2 h2) (\lambda (n0: nat).(le (plus n0 h1) (plus n h1))) (le_S_n (plus (plus d2 h2) h1) (plus n h1) (lt_le_S (plus (plus d2 h2) h1) (S (plus n h1)) (le_lt_n_Sm (plus (plus d2 h2) h1) (plus n h1) (le_plus_plus (plus d2 h2) n h1 h1 H (le_n h1))))) (plus h2 d2) (plus_sym h2 d2)) (plus h2 (plus d2 h1)) (plus_assoc_l h2 d2 h1))) (plus d2 h1) (minus_plus h2 (plus d2 h1))))))).
+
+theorem O_minus: \forall (x: nat).(\forall (y: nat).((le x y) \to (eq nat (minus x y) O))) \def \lambda (x: nat).(nat_ind (\lambda (n: nat).(\forall (y: nat).((le n y) \to (eq nat (minus n y) O)))) (\lambda (y: nat).(\lambda (_: (le O y)).(refl_equal nat O))) (\lambda (x0: nat).(\lambda (H: ((\forall (y: nat).((le x0 y) \to (eq nat (minus x0 y) O))))).(\lambda (y: nat).(nat_ind (\lambda (n: nat).((le (S x0) n) \to (eq nat (match n with [O \Rightarrow (S x0) | (S l) \Rightarrow (minus x0 l)]) O))) (\lambda (H0: (le (S x0) O)).(ex2_ind nat (\lambda (n: nat).(eq nat O (S n))) (\lambda (n: nat).(le x0 n)) (eq nat (S x0) O) (\lambda (x1: nat).(\lambda (H1: (eq nat O (S x1))).(\lambda (_: (le x0 x1)).(let H3 \def (eq_ind nat O (\lambda (ee: nat).(match ee return (Prop) with [O \Rightarrow True | (S _) \Rightarrow False])) I (S x1) H1) in (False_ind (eq nat (S x0) O) H3))))) (le_gen_S x0 O H0))) (\lambda (n: nat).(\lambda (_: (((le (S x0) n) \to (eq nat (match n with [O \Rightarrow (S x0) | (S l) \Rightarrow (minus x0 l)]) O)))).(\lambda (H1: (le (S x0) (S n))).(H n (le_S_n x0 n H1))))) y)))) x).
+
+theorem minus_minus: \forall (z: nat).(\forall (x: nat).(\forall (y: nat).((le z x) \to ((le z y) \to ((eq nat (minus x z) (minus y z)) \to (eq nat x y)))))) \def \lambda (z: nat).(nat_ind (\lambda (n: nat).(\forall (x: nat).(\forall (y: nat).((le n x) \to ((le n y) \to ((eq nat (minus x n) (minus y n)) \to (eq nat x y))))))) (\lambda (x: nat).(\lambda (y: nat).(\lambda (_: (le O x)).(\lambda (_: (le O y)).(\lambda (H1: (eq nat (minus x O) (minus y O))).(let H2 \def (eq_ind_r nat (minus x O) (\lambda (n: nat).(eq nat n (minus y O))) H1 x (minus_n_O x)) in (let H3 \def (eq_ind_r nat (minus y O) (\lambda (n: nat).(eq nat x n)) H2 y (minus_n_O y)) in H3))))))) (\lambda (z0: nat).(\lambda (IH: ((\forall (x: nat).(\forall (y: nat).((le z0 x) \to ((le z0 y) \to ((eq nat (minus x z0) (minus y z0)) \to (eq nat x y)))))))).(\lambda (x: nat).(nat_ind (\lambda (n: nat).(\forall (y: nat).((le (S z0) n) \to ((le (S z0) y) \to ((eq nat (minus n (S z0)) (minus y (S z0))) \to (eq nat n y)))))) (\lambda (y: nat).(\lambda (H: (le (S z0) O)).(\lambda (_: (le (S z0) y)).(\lambda (_: (eq nat (minus O (S z0)) (minus y (S z0)))).(ex2_ind nat (\lambda (n: nat).(eq nat O (S n))) (\lambda (n: nat).(le z0 n)) (eq nat O y) (\lambda (x0: nat).(\lambda (H2: (eq nat O (S x0))).(\lambda (_: (le z0 x0)).(let H4 \def (eq_ind nat O (\lambda (ee: nat).(match ee return (Prop) with [O \Rightarrow True | (S _) \Rightarrow False])) I (S x0) H2) in (False_ind (eq nat O y) H4))))) (le_gen_S z0 O H)))))) (\lambda (x0: nat).(\lambda (_: ((\forall (y: nat).((le (S z0) x0) \to ((le (S z0) y) \to ((eq nat (minus x0 (S z0)) (minus y (S z0))) \to (eq nat x0 y))))))).(\lambda (y: nat).(nat_ind (\lambda (n: nat).((le (S z0) (S x0)) \to ((le (S z0) n) \to ((eq nat (minus (S x0) (S z0)) (minus n (S z0))) \to (eq nat (S x0) n))))) (\lambda (_: (le (S z0) (S x0))).(\lambda (H0: (le (S z0) O)).(\lambda (_: (eq nat (minus (S x0) (S z0)) (minus O (S z0)))).(ex2_ind nat (\lambda (n: nat).(eq nat O (S n))) (\lambda (n: nat).(le z0 n)) (eq nat (S x0) O) (\lambda (x1: nat).(\lambda (H2: (eq nat O (S x1))).(\lambda (_: (le z0 x1)).(let H4 \def (eq_ind nat O (\lambda (ee: nat).(match ee return (Prop) with [O \Rightarrow True | (S _) \Rightarrow False])) I (S x1) H2) in (False_ind (eq nat (S x0) O) H4))))) (le_gen_S z0 O H0))))) (\lambda (y0: nat).(\lambda (_: (((le (S z0) (S x0)) \to ((le (S z0) y0) \to ((eq nat (minus (S x0) (S z0)) (minus y0 (S z0))) \to (eq nat (S x0) y0)))))).(\lambda (H: (le (S z0) (S x0))).(\lambda (H0: (le (S z0) (S y0))).(\lambda (H1: (eq nat (minus (S x0) (S z0)) (minus (S y0) (S z0)))).(f_equal nat nat S x0 y0 (IH x0 y0 (le_S_n z0 x0 H) (le_S_n z0 y0 H0) H1))))))) y)))) x)))) z).
+
+theorem plus_plus: \forall (z: nat).(\forall (x1: nat).(\forall (x2: nat).(\forall (y1: nat).(\forall (y2: nat).((le x1 z) \to ((le x2 z) \to ((eq nat (plus (minus z x1) y1) (plus (minus z x2) y2)) \to (eq nat (plus x1 y2) (plus x2 y1))))))))) \def \lambda (z: nat).(nat_ind (\lambda (n: nat).(\forall (x1: nat).(\forall (x2: nat).(\forall (y1: nat).(\forall (y2: nat).((le x1 n) \to ((le x2 n) \to ((eq nat (plus (minus n x1) y1) (plus (minus n x2) y2)) \to (eq nat (plus x1 y2) (plus x2 y1)))))))))) (\lambda (x1: nat).(\lambda (x2: nat).(\lambda (y1: nat).(\lambda (y2: nat).(\lambda (H: (le x1 O)).(\lambda (H0: (le x2 O)).(\lambda (H1: (eq nat y1 y2)).(eq_ind nat y1 (\lambda (n: nat).(eq nat (plus x1 n) (plus x2 y1))) (let H_y \def (le_n_O_eq x2 H0) in (eq_ind nat O (\lambda (n: nat).(eq nat (plus x1 y1) (plus n y1))) (let H_y0 \def (le_n_O_eq x1 H) in (eq_ind nat O (\lambda (n: nat).(eq nat (plus n y1) (plus O y1))) (refl_equal nat (plus O y1)) x1 H_y0)) x2 H_y)) y2 H1)))))))) (\lambda (z0: nat).(\lambda (IH: ((\forall (x1: nat).(\forall (x2: nat).(\forall (y1: nat).(\forall (y2: nat).((le x1 z0) \to ((le x2 z0) \to ((eq nat (plus (minus z0 x1) y1) (plus (minus z0 x2) y2)) \to (eq nat (plus x1 y2) (plus x2 y1))))))))))).(\lambda (x1: nat).(nat_ind (\lambda (n: nat).(\forall (x2: nat).(\forall (y1: nat).(\forall (y2: nat).((le n (S z0)) \to ((le x2 (S z0)) \to ((eq nat (plus (minus (S z0) n) y1) (plus (minus (S z0) x2) y2)) \to (eq nat (plus n y2) (plus x2 y1))))))))) (\lambda (x2: nat).(nat_ind (\lambda (n: nat).(\forall (y1: nat).(\forall (y2: nat).((le O (S z0)) \to ((le n (S z0)) \to ((eq nat (plus (minus (S z0) O) y1) (plus (minus (S z0) n) y2)) \to (eq nat (plus O y2) (plus n y1)))))))) (\lambda (y1: nat).(\lambda (y2: nat).(\lambda (_: (le O (S z0))).(\lambda (_: (le O (S z0))).(\lambda (H1: (eq nat (S (plus z0 y1)) (S (plus z0 y2)))).(let H_y \def (IH O O) in (let H2 \def (eq_ind_r nat (minus z0 O) (\lambda (n: nat).(\forall (y1: nat).(\forall (y2: nat).((le O z0) \to ((le O z0) \to ((eq nat (plus n y1) (plus n y2)) \to (eq nat y2 y1))))))) H_y z0 (minus_n_O z0)) in (H2 y1 y2 (le_O_n z0) (le_O_n z0) (H2 (plus z0 y2) (plus z0 y1) (le_O_n z0) (le_O_n z0) (f_equal nat nat (plus z0) (plus z0 y2) (plus z0 y1) (sym_equal nat (plus z0 y1) (plus z0 y2) (eq_add_S (plus z0 y1) (plus z0 y2) H1)))))))))))) (\lambda (x3: nat).(\lambda (_: ((\forall (y1: nat).(\forall (y2: nat).((le O (S z0)) \to ((le x3 (S z0)) \to ((eq nat (S (plus z0 y1)) (plus (match x3 with [O \Rightarrow (S z0) | (S l) \Rightarrow (minus z0 l)]) y2)) \to (eq nat y2 (plus x3 y1))))))))).(\lambda (y1: nat).(\lambda (y2: nat).(\lambda (_: (le O (S z0))).(\lambda (H0: (le (S x3) (S z0))).(\lambda (H1: (eq nat (S (plus z0 y1)) (plus (minus z0 x3) y2))).(let H_y \def (IH O x3 (S y1)) in (let H2 \def (eq_ind_r nat (minus z0 O) (\lambda (n: nat).(\forall (y2: nat).((le O z0) \to ((le x3 z0) \to ((eq nat (plus n (S y1)) (plus (minus z0 x3) y2)) \to (eq nat y2 (plus x3 (S y1)))))))) H_y z0 (minus_n_O z0)) in (let H3 \def (eq_ind_r nat (plus z0 (S y1)) (\lambda (n: nat).(\forall (y2: nat).((le O z0) \to ((le x3 z0) \to ((eq nat n (plus (minus z0 x3) y2)) \to (eq nat y2 (plus x3 (S y1)))))))) H2 (S (plus z0 y1)) (plus_n_Sm z0 y1)) in (let H4 \def (eq_ind_r nat (plus x3 (S y1)) (\lambda (n: nat).(\forall (y2: nat).((le O z0) \to ((le x3 z0) \to ((eq nat (S (plus z0 y1)) (plus (minus z0 x3) y2)) \to (eq nat y2 n)))))) H3 (S (plus x3 y1)) (plus_n_Sm x3 y1)) in (H4 y2 (le_O_n z0) (le_S_n x3 z0 H0) H1)))))))))))) x2)) (\lambda (x2: nat).(\lambda (_: ((\forall (x3: nat).(\forall (y1: nat).(\forall (y2: nat).((le x2 (S z0)) \to ((le x3 (S z0)) \to ((eq nat (plus (minus (S z0) x2) y1) (plus (minus (S z0) x3) y2)) \to (eq nat (plus x2 y2) (plus x3 y1)))))))))).(\lambda (x3: nat).(nat_ind (\lambda (n: nat).(\forall (y1: nat).(\forall (y2: nat).((le (S x2) (S z0)) \to ((le n (S z0)) \to ((eq nat (plus (minus (S z0) (S x2)) y1) (plus (minus (S z0) n) y2)) \to (eq nat (plus (S x2) y2) (plus n y1)))))))) (\lambda (y1: nat).(\lambda (y2: nat).(\lambda (H: (le (S x2) (S z0))).(\lambda (_: (le O (S z0))).(\lambda (H1: (eq nat (plus (minus z0 x2) y1) (S (plus z0 y2)))).(let H_y \def (IH x2 O y1 (S y2)) in (let H2 \def (eq_ind_r nat (minus z0 O) (\lambda (n: nat).((le x2 z0) \to ((le O z0) \to ((eq nat (plus (minus z0 x2) y1) (plus n (S y2))) \to (eq nat (plus x2 (S y2)) y1))))) H_y z0 (minus_n_O z0)) in (let H3 \def (eq_ind_r nat (plus z0 (S y2)) (\lambda (n: nat).((le x2 z0) \to ((le O z0) \to ((eq nat (plus (minus z0 x2) y1) n) \to (eq nat (plus x2 (S y2)) y1))))) H2 (S (plus z0 y2)) (plus_n_Sm z0 y2)) in (let H4 \def (eq_ind_r nat (plus x2 (S y2)) (\lambda (n: nat).((le x2 z0) \to ((le O z0) \to ((eq nat (plus (minus z0 x2) y1) (S (plus z0 y2))) \to (eq nat n y1))))) H3 (S (plus x2 y2)) (plus_n_Sm x2 y2)) in (H4 (le_S_n x2 z0 H) (le_O_n z0) H1)))))))))) (\lambda (x4: nat).(\lambda (_: ((\forall (y1: nat).(\forall (y2: nat).((le (S x2) (S z0)) \to ((le x4 (S z0)) \to ((eq nat (plus (minus z0 x2) y1) (plus (match x4 with [O \Rightarrow (S z0) | (S l) \Rightarrow (minus z0 l)]) y2)) \to (eq nat (S (plus x2 y2)) (plus x4 y1))))))))).(\lambda (y1: nat).(\lambda (y2: nat).(\lambda (H: (le (S x2) (S z0))).(\lambda (H0: (le (S x4) (S z0))).(\lambda (H1: (eq nat (plus (minus z0 x2) y1) (plus (minus z0 x4) y2))).(f_equal nat nat S (plus x2 y2) (plus x4 y1) (IH x2 x4 y1 y2 (le_S_n x2 z0 H) (le_S_n x4 z0 H0) H1))))))))) x3)))) x1)))) z).
+
+theorem ex2_sym: \forall (A: (Set)).(\forall (P: ((A \to (Prop)))).(\forall (Q: ((A \to (Prop)))).((ex2 A (\lambda (x: A).(P x)) (\lambda (x: A).(Q x))) \to (ex2 A (\lambda (x: A).(Q x)) (\lambda (x: A).(P x)))))) \def \lambda (A: (Set)).(\lambda (P: ((A \to (Prop)))).(\lambda (Q: ((A \to (Prop)))).(\lambda (H: (ex2 A (\lambda (x: A).(P x)) (\lambda (x: A).(Q x)))).(ex2_ind A (\lambda (x: A).(P x)) (\lambda (x: A).(Q x)) (ex2 A (\lambda (x: A).(Q x)) (\lambda (x: A).(P x))) (\lambda (x: A).(\lambda (H0: (P x)).(\lambda (H1: (Q x)).(ex_intro2 A (\lambda (x0: A).(Q x0)) (\lambda (x0: A).(P x0)) x H1 H0)))) H)))).
+
+inductive and3 (P0:Prop) (P1:Prop) (P2:Prop): Prop \def
+| and3_intro: P0 \to (P1 \to (P2 \to (and3 P0 P1 P2))).
+
+inductive or3 (P0:Prop) (P1:Prop) (P2:Prop): Prop \def
+| or3_intro0: P0 \to (or3 P0 P1 P2)
+| or3_intro1: P1 \to (or3 P0 P1 P2)
+| or3_intro2: P2 \to (or3 P0 P1 P2).
+
+inductive or4 (P0:Prop) (P1:Prop) (P2:Prop) (P3:Prop): Prop \def
+| or4_intro0: P0 \to (or4 P0 P1 P2 P3)
+| or4_intro1: P1 \to (or4 P0 P1 P2 P3)
+| or4_intro2: P2 \to (or4 P0 P1 P2 P3)
+| or4_intro3: P3 \to (or4 P0 P1 P2 P3).
+
+inductive ex3 (A0:Set) (P0:A0 \to (Prop)) (P1:A0 \to (Prop)) (P2:A0 \to (Prop)): Prop \def
+| ex3_intro: \forall (x0: A0).((P0 x0) \to ((P1 x0) \to ((P2 x0) \to (ex3 A0 P0 P1 P2)))).
+
+inductive ex4 (A0:Set) (P0:A0 \to (Prop)) (P1:A0 \to (Prop)) (P2:A0 \to (Prop)) (P3:A0 \to (Prop)): Prop \def
+| ex4_intro: \forall (x0: A0).((P0 x0) \to ((P1 x0) \to ((P2 x0) \to ((P3 x0) \to (ex4 A0 P0 P1 P2 P3))))).
+
+inductive ex_2 (A0:Set) (A1:Set) (P0:A0 \to (A1 \to (Prop))): Prop \def
+| ex_2_intro: \forall (x0: A0).(\forall (x1: A1).((P0 x0 x1) \to (ex_2 A0 A1 P0))).
+
+inductive ex2_2 (A0:Set) (A1:Set) (P0:A0 \to (A1 \to (Prop))) (P1:A0 \to (A1 \to (Prop))): Prop \def
+| ex2_2_intro: \forall (x0: A0).(\forall (x1: A1).((P0 x0 x1) \to ((P1 x0 x1) \to (ex2_2 A0 A1 P0 P1)))).
+
+inductive ex3_2 (A0:Set) (A1:Set) (P0:A0 \to (A1 \to (Prop))) (P1:A0 \to (A1 \to (Prop))) (P2:A0 \to (A1 \to (Prop))): Prop \def
+| ex3_2_intro: \forall (x0: A0).(\forall (x1: A1).((P0 x0 x1) \to ((P1 x0 x1) \to ((P2 x0 x1) \to (ex3_2 A0 A1 P0 P1 P2))))).
+
+inductive ex4_2 (A0:Set) (A1:Set) (P0:A0 \to (A1 \to (Prop))) (P1:A0 \to (A1 \to (Prop))) (P2:A0 \to (A1 \to (Prop))) (P3:A0 \to (A1 \to (Prop))): Prop \def
+| ex4_2_intro: \forall (x0: A0).(\forall (x1: A1).((P0 x0 x1) \to ((P1 x0 x1) \to ((P2 x0 x1) \to ((P3 x0 x1) \to (ex4_2 A0 A1 P0 P1 P2 P3)))))).
+
+inductive ex_3 (A0:Set) (A1:Set) (A2:Set) (P0:A0 \to (A1 \to (A2 \to (Prop)))): Prop \def
+| ex_3_intro: \forall (x0: A0).(\forall (x1: A1).(\forall (x2: A2).((P0 x0 x1 x2) \to (ex_3 A0 A1 A2 P0)))).
+
+inductive ex2_3 (A0:Set) (A1:Set) (A2:Set) (P0:A0 \to (A1 \to (A2 \to (Prop)))) (P1:A0 \to (A1 \to (A2 \to (Prop)))): Prop \def
+| ex2_3_intro: \forall (x0: A0).(\forall (x1: A1).(\forall (x2: A2).((P0 x0 x1 x2) \to ((P1 x0 x1 x2) \to (ex2_3 A0 A1 A2 P0 P1))))).
+
+inductive ex3_3 (A0:Set) (A1:Set) (A2:Set) (P0:A0 \to (A1 \to (A2 \to (Prop)))) (P1:A0 \to (A1 \to (A2 \to (Prop)))) (P2:A0 \to (A1 \to (A2 \to (Prop)))): Prop \def
+| ex3_3_intro: \forall (x0: A0).(\forall (x1: A1).(\forall (x2: A2).((P0 x0 x1 x2) \to ((P1 x0 x1 x2) \to ((P2 x0 x1 x2) \to (ex3_3 A0 A1 A2 P0 P1 P2)))))).
+
+inductive ex4_3 (A0:Set) (A1:Set) (A2:Set) (P0:A0 \to (A1 \to (A2 \to (Prop)))) (P1:A0 \to (A1 \to (A2 \to (Prop)))) (P2:A0 \to (A1 \to (A2 \to (Prop)))) (P3:A0 \to (A1 \to (A2 \to (Prop)))): Prop \def
+| ex4_3_intro: \forall (x0: A0).(\forall (x1: A1).(\forall (x2: A2).((P0 x0 x1 x2) \to ((P1 x0 x1 x2) \to ((P2 x0 x1 x2) \to ((P3 x0 x1 x2) \to (ex4_3 A0 A1 A2 P0 P1 P2 P3))))))).
+
+inductive ex3_4 (A0:Set) (A1:Set) (A2:Set) (A3:Set) (P0:A0 \to (A1 \to (A2 \to (A3 \to (Prop))))) (P1:A0 \to (A1 \to (A2 \to (A3 \to (Prop))))) (P2:A0 \to (A1 \to (A2 \to (A3 \to (Prop))))): Prop \def
+| ex3_4_intro: \forall (x0: A0).(\forall (x1: A1).(\forall (x2: A2).(\forall (x3: A3).((P0 x0 x1 x2 x3) \to ((P1 x0 x1 x2 x3) \to ((P2 x0 x1 x2 x3) \to (ex3_4 A0 A1 A2 A3 P0 P1 P2))))))).
+
+inductive ex4_4 (A0:Set) (A1:Set) (A2:Set) (A3:Set) (P0:A0 \to (A1 \to (A2 \to (A3 \to (Prop))))) (P1:A0 \to (A1 \to (A2 \to (A3 \to (Prop))))) (P2:A0 \to (A1 \to (A2 \to (A3 \to (Prop))))) (P3:A0 \to (A1 \to (A2 \to (A3 \to (Prop))))): Prop \def
+| ex4_4_intro: \forall (x0: A0).(\forall (x1: A1).(\forall (x2: A2).(\forall (x3: A3).((P0 x0 x1 x2 x3) \to ((P1 x0 x1 x2 x3) \to ((P2 x0 x1 x2 x3) \to ((P3 x0 x1 x2 x3) \to (ex4_4 A0 A1 A2 A3 P0 P1 P2 P3)))))))).
+
+inductive ex4_5 (A0:Set) (A1:Set) (A2:Set) (A3:Set) (A4:Set) (P0:A0 \to (A1 \to (A2 \to (A3 \to (A4 \to (Prop)))))) (P1:A0 \to (A1 \to (A2 \to (A3 \to (A4 \to (Prop)))))) (P2:A0 \to (A1 \to (A2 \to (A3 \to (A4 \to (Prop)))))) (P3:A0 \to (A1 \to (A2 \to (A3 \to (A4 \to (Prop)))))): Prop \def
+| ex4_5_intro: \forall (x0: A0).(\forall (x1: A1).(\forall (x2: A2).(\forall (x3: A3).(\forall (x4: A4).((P0 x0 x1 x2 x3 x4) \to ((P1 x0 x1 x2 x3 x4) \to ((P2 x0 x1 x2 x3 x4) \to ((P3 x0 x1 x2 x3 x4) \to (ex4_5 A0 A1 A2 A3 A4 P0 P1 P2 P3))))))))).
+
+inductive ex5_5 (A0:Set) (A1:Set) (A2:Set) (A3:Set) (A4:Set) (P0:A0 \to (A1 \to (A2 \to (A3 \to (A4 \to (Prop)))))) (P1:A0 \to (A1 \to (A2 \to (A3 \to (A4 \to (Prop)))))) (P2:A0 \to (A1 \to (A2 \to (A3 \to (A4 \to (Prop)))))) (P3:A0 \to (A1 \to (A2 \to (A3 \to (A4 \to (Prop)))))) (P4:A0 \to (A1 \to (A2 \to (A3 \to (A4 \to (Prop)))))): Prop \def
+| ex5_5_intro: \forall (x0: A0).(\forall (x1: A1).(\forall (x2: A2).(\forall (x3: A3).(\forall (x4: A4).((P0 x0 x1 x2 x3 x4) \to ((P1 x0 x1 x2 x3 x4) \to ((P2 x0 x1 x2 x3 x4) \to ((P3 x0 x1 x2 x3 x4) \to ((P4 x0 x1 x2 x3 x4) \to (ex5_5 A0 A1 A2 A3 A4 P0 P1 P2 P3 P4)))))))))).
+
+inductive ex6_6 (A0:Set) (A1:Set) (A2:Set) (A3:Set) (A4:Set) (A5:Set) (P0:A0 \to (A1 \to (A2 \to (A3 \to (A4 \to (A5 \to (Prop))))))) (P1:A0 \to (A1 \to (A2 \to (A3 \to (A4 \to (A5 \to (Prop))))))) (P2:A0 \to (A1 \to (A2 \to (A3 \to (A4 \to (A5 \to (Prop))))))) (P3:A0 \to (A1 \to (A2 \to (A3 \to (A4 \to (A5 \to (Prop))))))) (P4:A0 \to (A1 \to (A2 \to (A3 \to (A4 \to (A5 \to (Prop))))))) (P5:A0 \to (A1 \to (A2 \to (A3 \to (A4 \to (A5 \to (Prop))))))): Prop \def
+| ex6_6_intro: \forall (x0: A0).(\forall (x1: A1).(\forall (x2: A2).(\forall (x3: A3).(\forall (x4: A4).(\forall (x5: A5).((P0 x0 x1 x2 x3 x4 x5) \to ((P1 x0 x1 x2 x3 x4 x5) \to ((P2 x0 x1 x2 x3 x4 x5) \to ((P3 x0 x1 x2 x3 x4 x5) \to ((P4 x0 x1 x2 x3 x4 x5) \to ((P5 x0 x1 x2 x3 x4 x5) \to (ex6_6 A0 A1 A2 A3 A4 A5 P0 P1 P2 P3 P4 P5)))))))))))).
+
+inductive ex6_7 (A0:Set) (A1:Set) (A2:Set) (A3:Set) (A4:Set) (A5:Set) (A6:Set) (P0:A0 \to (A1 \to (A2 \to (A3 \to (A4 \to (A5 \to (A6 \to (Prop)))))))) (P1:A0 \to (A1 \to (A2 \to (A3 \to (A4 \to (A5 \to (A6 \to (Prop)))))))) (P2:A0 \to (A1 \to (A2 \to (A3 \to (A4 \to (A5 \to (A6 \to (Prop)))))))) (P3:A0 \to (A1 \to (A2 \to (A3 \to (A4 \to (A5 \to (A6 \to (Prop)))))))) (P4:A0 \to (A1 \to (A2 \to (A3 \to (A4 \to (A5 \to (A6 \to (Prop)))))))) (P5:A0 \to (A1 \to (A2 \to (A3 \to (A4 \to (A5 \to (A6 \to (Prop)))))))): Prop \def
+| ex6_7_intro: \forall (x0: A0).(\forall (x1: A1).(\forall (x2: A2).(\forall (x3: A3).(\forall (x4: A4).(\forall (x5: A5).(\forall (x6: A6).((P0 x0 x1 x2 x3 x4 x5 x6) \to ((P1 x0 x1 x2 x3 x4 x5 x6) \to ((P2 x0 x1 x2 x3 x4 x5 x6) \to ((P3 x0 x1 x2 x3 x4 x5 x6) \to ((P4 x0 x1 x2 x3 x4 x5 x6) \to ((P5 x0 x1 x2 x3 x4 x5 x6) \to (ex6_7 A0 A1 A2 A3 A4 A5 A6 P0 P1 P2 P3 P4 P5))))))))))))).
+
+theorem blt: nat \to (nat \to bool) \def let rec (blt: (\forall (m: nat).(\forall (n: nat).bool))) = (\lambda (m: nat).(\lambda (n: nat).(match n with [O \Rightarrow false | (S n0) \Rightarrow (match m with [O \Rightarrow true | (S m0) \Rightarrow (blt m0 n0)])]))) in blt.
+
+theorem lt_blt: \forall (x: nat).(\forall (y: nat).((lt y x) \to (eq bool (blt y x) true))) \def \lambda (x: nat).(nat_ind (\lambda (n: nat).(\forall (y: nat).((lt y n) \to (eq bool (blt y n) true)))) (\lambda (y: nat).(\lambda (H: (lt y O)).(let H0 \def (match H return (\lambda (n: nat).((eq nat n O) \to (eq bool (blt y O) true))) with [le_n \Rightarrow (\lambda (H0: (eq nat (S y) O)).(let H1 \def (eq_ind nat (S y) (\lambda (e: nat).(match e return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True])) I O H0) in (False_ind (eq bool (blt y O) true) H1))) | (le_S m H0) \Rightarrow (\lambda (H1: (eq nat (S m) O)).((let H2 \def (eq_ind nat (S m) (\lambda (e: nat).(match e return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True])) I O H1) in (False_ind ((le (S y) m) \to (eq bool (blt y O) true)) H2)) H0))]) in (H0 (refl_equal nat O))))) (\lambda (n: nat).(\lambda (H: ((\forall (y: nat).((lt y n) \to (eq bool (blt y n) true))))).(\lambda (y: nat).(nat_ind (\lambda (n0: nat).((lt n0 (S n)) \to (eq bool (blt n0 (S n)) true))) (\lambda (_: (lt O (S n))).(refl_equal bool true)) (\lambda (n0: nat).(\lambda (_: (((lt n0 (S n)) \to (eq bool (match n0 with [O \Rightarrow true | (S m) \Rightarrow (blt m n)]) true)))).(\lambda (H1: (lt (S n0) (S n))).(H n0 (le_S_n (S n0) n H1))))) y)))) x).
+
+theorem le_bge: \forall (x: nat).(\forall (y: nat).((le x y) \to (eq bool (blt y x) false))) \def \lambda (x: nat).(nat_ind (\lambda (n: nat).(\forall (y: nat).((le n y) \to (eq bool (blt y n) false)))) (\lambda (y: nat).(\lambda (_: (le O y)).(refl_equal bool false))) (\lambda (n: nat).(\lambda (H: ((\forall (y: nat).((le n y) \to (eq bool (blt y n) false))))).(\lambda (y: nat).(nat_ind (\lambda (n0: nat).((le (S n) n0) \to (eq bool (blt n0 (S n)) false))) (\lambda (H0: (le (S n) O)).(let H1 \def (match H0 return (\lambda (n0: nat).((eq nat n0 O) \to (eq bool (blt O (S n)) false))) with [le_n \Rightarrow (\lambda (H1: (eq nat (S n) O)).(let H2 \def (eq_ind nat (S n) (\lambda (e: nat).(match e return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True])) I O H1) in (False_ind (eq bool (blt O (S n)) false) H2))) | (le_S m H1) \Rightarrow (\lambda (H2: (eq nat (S m) O)).((let H3 \def (eq_ind nat (S m) (\lambda (e: nat).(match e return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True])) I O H2) in (False_ind ((le (S n) m) \to (eq bool (blt O (S n)) false)) H3)) H1))]) in (H1 (refl_equal nat O)))) (\lambda (n0: nat).(\lambda (_: (((le (S n) n0) \to (eq bool (blt n0 (S n)) false)))).(\lambda (H1: (le (S n) (S n0))).(H n0 (le_S_n n n0 H1))))) y)))) x).
+
+theorem blt_lt: \forall (x: nat).(\forall (y: nat).((eq bool (blt y x) true) \to (lt y x))) \def \lambda (x: nat).(nat_ind (\lambda (n: nat).(\forall (y: nat).((eq bool (blt y n) true) \to (lt y n)))) (\lambda (y: nat).(\lambda (H: (eq bool (blt y O) true)).(let H0 \def (match H return (\lambda (b: bool).((eq bool b true) \to (lt y O))) with [refl_equal \Rightarrow (\lambda (H0: (eq bool (blt y O) true)).(let H1 \def (eq_ind bool (blt y O) (\lambda (e: bool).(match e return (Prop) with [true \Rightarrow False | false \Rightarrow True])) I true H0) in (False_ind (lt y O) H1)))]) in (H0 (refl_equal bool true))))) (\lambda (n: nat).(\lambda (H: ((\forall (y: nat).((eq bool (blt y n) true) \to (lt y n))))).(\lambda (y: nat).(nat_ind (\lambda (n0: nat).((eq bool (blt n0 (S n)) true) \to (lt n0 (S n)))) (\lambda (_: (eq bool true true)).(le_S_n (S O) (S n) (le_n_S (S O) (S n) (le_n_S O n (le_O_n n))))) (\lambda (n0: nat).(\lambda (_: (((eq bool (match n0 with [O \Rightarrow true | (S m) \Rightarrow (blt m n)]) true) \to (lt n0 (S n))))).(\lambda (H1: (eq bool (blt n0 n) true)).(lt_le_S (S n0) (S n) (lt_n_S n0 n (H n0 H1)))))) y)))) x).
+
+theorem bge_le: \forall (x: nat).(\forall (y: nat).((eq bool (blt y x) false) \to (le x y))) \def \lambda (x: nat).(nat_ind (\lambda (n: nat).(\forall (y: nat).((eq bool (blt y n) false) \to (le n y)))) (\lambda (y: nat).(\lambda (_: (eq bool (blt y O) false)).(le_O_n y))) (\lambda (n: nat).(\lambda (H: ((\forall (y: nat).((eq bool (blt y n) false) \to (le n y))))).(\lambda (y: nat).(nat_ind (\lambda (n0: nat).((eq bool (blt n0 (S n)) false) \to (le (S n) n0))) (\lambda (H0: (eq bool (blt O (S n)) false)).(let H1 \def (match H0 return (\lambda (b: bool).((eq bool b false) \to (le (S n) O))) with [refl_equal \Rightarrow (\lambda (H1: (eq bool (blt O (S n)) false)).(let H2 \def (eq_ind bool (blt O (S n)) (\lambda (e: bool).(match e return (Prop) with [true \Rightarrow True | false \Rightarrow False])) I false H1) in (False_ind (le (S n) O) H2)))]) in (H1 (refl_equal bool false)))) (\lambda (n0: nat).(\lambda (_: (((eq bool (blt n0 (S n)) false) \to (le (S n) n0)))).(\lambda (H1: (eq bool (blt (S n0) (S n)) false)).(le_S_n (S n) (S n0) (le_n_S (S n) (S n0) (le_n_S n n0 (H n0 H1))))))) y)))) x).
+*)

diff --git a/helm/software/matita/contribs/LAMBDA-TYPES/level-1/LambdaDelta.ma b/helm/software/matita/contribs/LAMBDA-TYPES/level-1/LambdaDelta.ma
new file mode 100644 (file)
index 0000000..d7304ed
--- /dev/null
+++ b/helm/software/matita/contribs/LAMBDA-TYPES/level-1/LambdaDelta.ma
@@ -0,0 +1,1386 @@
+(**************************************************************************)
+(*       ___                                                              *)
+(*      ||M||                                                             *)
+(*      ||A||       A project by Andrea Asperti                           *)
+(*      ||T||                                                             *)
+(*      ||I||       Developers:                                           *)
+(*      ||T||         The HELM team.                                      *)
+(*      ||A||         http://helm.cs.unibo.it                             *)
+(*      \   /                                                             *)
+(*       \ /        This file is distributed under the terms of the       *)
+(*        v         GNU General Public License Version 2                  *)
+(*                                                                        *)
+(**************************************************************************)
+
+(* This file was automatically generated: do not edit *********************)
+
+set "baseuri" "cic:/matita/contribs/LAMBDA-TYPES/level-1/LambdaDelta".
+
+include "Base.ma".
+
+inductive B: Set \def
+| Abbr: B
+| Abst: B
+| Void: B.
+
+inductive F: Set \def
+| Appl: F
+| Cast: F.
+
+inductive K: Set \def
+| Bind: B \to K
+| Flat: F \to K.
+
+inductive T: Set \def
+| TSort: nat \to T
+| TLRef: nat \to T
+| THead: K \to T \to T \to T.
+
+inductive TList: Set \def
+| TNil: TList
+| TCons: T \to TList \to TList.
+
+theorem THeads: K \to TList \to T \to T \def let rec (THeads: (\forall (k: K).\forall (us: TList).T \to T)) = (\lambda (k: K).\lambda (us: TList).\lambda (t: T).match us with [TNil \Rightarrow t | (TCons u ul) \Rightarrow (THead k u (THeads k ul t))]) in THeads.
+
+theorem s: K \to nat \to nat \def \lambda (k: K).\lambda (i: nat).match k with [(Bind _) \Rightarrow (S i) | (Flat _) \Rightarrow i].
+
+theorem not_abbr_abst: not (eq B Abbr Abst) \def \lambda (H: (eq B Abbr Abst)).let H0 \def eq_ind B Abbr (\lambda (ee: B).match ee return (Prop) with [Abbr \Rightarrow True | Abst \Rightarrow False | Void \Rightarrow False]) I Abst H in False_ind False H0.
+
+theorem not_void_abst: not (eq B Void Abst) \def \lambda (H: (eq B Void Abst)).let H0 \def eq_ind B Void (\lambda (ee: B).match ee return (Prop) with [Abbr \Rightarrow False | Abst \Rightarrow False | Void \Rightarrow True]) I Abst H in False_ind False H0.
+
+theorem terms_props.__bind_dec: \forall (b1: B).\forall (b2: B).or (eq B b1 b2) ((eq B b1 b2) \to \forall (P: (Prop)).P) \def \lambda (b1: B).B_ind (\lambda (b: B).\forall (b2: B).or (eq B b b2) ((eq B b b2) \to \forall (P: (Prop)).P)) (\lambda (b2: B).B_ind (\lambda (b: B).or (eq B Abbr b) ((eq B Abbr b) \to \forall (P: (Prop)).P)) (or_introl (eq B Abbr Abbr) ((eq B Abbr Abbr) \to \forall (P: (Prop)).P) (refl_equal B Abbr)) (or_intror (eq B Abbr Abst) ((eq B Abbr Abst) \to \forall (P: (Prop)).P) (\lambda (H: (eq B Abbr Abst)).\lambda (P: (Prop)).let H0 \def eq_ind B Abbr (\lambda (ee: B).match ee return (Prop) with [Abbr \Rightarrow True | Abst \Rightarrow False | Void \Rightarrow False]) I Abst H in False_ind P H0)) (or_intror (eq B Abbr Void) ((eq B Abbr Void) \to \forall (P: (Prop)).P) (\lambda (H: (eq B Abbr Void)).\lambda (P: (Prop)).let H0 \def eq_ind B Abbr (\lambda (ee: B).match ee return (Prop) with [Abbr \Rightarrow True | Abst \Rightarrow False | Void \Rightarrow False]) I Void H in False_ind P H0)) b2) (\lambda (b2: B).B_ind (\lambda (b: B).or (eq B Abst b) ((eq B Abst b) \to \forall (P: (Prop)).P)) (or_intror (eq B Abst Abbr) ((eq B Abst Abbr) \to \forall (P: (Prop)).P) (\lambda (H: (eq B Abst Abbr)).\lambda (P: (Prop)).let H0 \def eq_ind B Abst (\lambda (ee: B).match ee return (Prop) with [Abbr \Rightarrow False | Abst \Rightarrow True | Void \Rightarrow False]) I Abbr H in False_ind P H0)) (or_introl (eq B Abst Abst) ((eq B Abst Abst) \to \forall (P: (Prop)).P) (refl_equal B Abst)) (or_intror (eq B Abst Void) ((eq B Abst Void) \to \forall (P: (Prop)).P) (\lambda (H: (eq B Abst Void)).\lambda (P: (Prop)).let H0 \def eq_ind B Abst (\lambda (ee: B).match ee return (Prop) with [Abbr \Rightarrow False | Abst \Rightarrow True | Void \Rightarrow False]) I Void H in False_ind P H0)) b2) (\lambda (b2: B).B_ind (\lambda (b: B).or (eq B Void b) ((eq B Void b) \to \forall (P: (Prop)).P)) (or_intror (eq B Void Abbr) ((eq B Void Abbr) \to \forall (P: (Prop)).P) (\lambda (H: (eq B Void Abbr)).\lambda (P: (Prop)).let H0 \def eq_ind B Void (\lambda (ee: B).match ee return (Prop) with [Abbr \Rightarrow False | Abst \Rightarrow False | Void \Rightarrow True]) I Abbr H in False_ind P H0)) (or_intror (eq B Void Abst) ((eq B Void Abst) \to \forall (P: (Prop)).P) (\lambda (H: (eq B Void Abst)).\lambda (P: (Prop)).let H0 \def eq_ind B Void (\lambda (ee: B).match ee return (Prop) with [Abbr \Rightarrow False | Abst \Rightarrow False | Void \Rightarrow True]) I Abst H in False_ind P H0)) (or_introl (eq B Void Void) ((eq B Void Void) \to \forall (P: (Prop)).P) (refl_equal B Void)) b2) b1.
+
+theorem terms_props.__flat_dec: \forall (f1: F).\forall (f2: F).or (eq F f1 f2) ((eq F f1 f2) \to \forall (P: (Prop)).P) \def \lambda (f1: F).F_ind (\lambda (f: F).\forall (f2: F).or (eq F f f2) ((eq F f f2) \to \forall (P: (Prop)).P)) (\lambda (f2: F).F_ind (\lambda (f: F).or (eq F Appl f) ((eq F Appl f) \to \forall (P: (Prop)).P)) (or_introl (eq F Appl Appl) ((eq F Appl Appl) \to \forall (P: (Prop)).P) (refl_equal F Appl)) (or_intror (eq F Appl Cast) ((eq F Appl Cast) \to \forall (P: (Prop)).P) (\lambda (H: (eq F Appl Cast)).\lambda (P: (Prop)).let H0 \def eq_ind F Appl (\lambda (ee: F).match ee return (Prop) with [Appl \Rightarrow True | Cast \Rightarrow False]) I Cast H in False_ind P H0)) f2) (\lambda (f2: F).F_ind (\lambda (f: F).or (eq F Cast f) ((eq F Cast f) \to \forall (P: (Prop)).P)) (or_intror (eq F Cast Appl) ((eq F Cast Appl) \to \forall (P: (Prop)).P) (\lambda (H: (eq F Cast Appl)).\lambda (P: (Prop)).let H0 \def eq_ind F Cast (\lambda (ee: F).match ee return (Prop) with [Appl \Rightarrow False | Cast \Rightarrow True]) I Appl H in False_ind P H0)) (or_introl (eq F Cast Cast) ((eq F Cast Cast) \to \forall (P: (Prop)).P) (refl_equal F Cast)) f2) f1.
+
+theorem terms_props.__kind_dec: \forall (k1: K).\forall (k2: K).or (eq K k1 k2) ((eq K k1 k2) \to \forall (P: (Prop)).P) \def \lambda (k1: K).K_ind (\lambda (k: K).\forall (k2: K).or (eq K k k2) ((eq K k k2) \to \forall (P: (Prop)).P)) (\lambda (b: B).\lambda (k2: K).K_ind (\lambda (k: K).or (eq K (Bind b) k) ((eq K (Bind b) k) \to \forall (P: (Prop)).P)) (\lambda (b0: B).let H_x \def terms_props.__bind_dec b b0 in let H \def H_x in or_ind (eq B b b0) ((eq B b b0) \to \forall (P: (Prop)).P) (or (eq K (Bind b) (Bind b0)) ((eq K (Bind b) (Bind b0)) \to \forall (P: (Prop)).P)) (\lambda (H0: (eq B b b0)).eq_ind B b (\lambda (b1: B).or (eq K (Bind b) (Bind b1)) ((eq K (Bind b) (Bind b1)) \to \forall (P: (Prop)).P)) (or_introl (eq K (Bind b) (Bind b)) ((eq K (Bind b) (Bind b)) \to \forall (P: (Prop)).P) (refl_equal K (Bind b))) b0 H0) (\lambda (H0: (((eq B b b0) \to \forall (P: (Prop)).P))).or_intror (eq K (Bind b) (Bind b0)) ((eq K (Bind b) (Bind b0)) \to \forall (P: (Prop)).P) (\lambda (H1: (eq K (Bind b) (Bind b0))).\lambda (P: (Prop)).let H2 \def f_equal K B (\lambda (e: K).match e return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow b]) (Bind b) (Bind b0) H1 in let H3 \def eq_ind_r B b0 (\lambda (b0: B).(eq B b b0) \to \forall (P: (Prop)).P) H0 b H2 in H3 (refl_equal B b) P)) H) (\lambda (f: F).or_intror (eq K (Bind b) (Flat f)) ((eq K (Bind b) (Flat f)) \to \forall (P: (Prop)).P) (\lambda (H: (eq K (Bind b) (Flat f))).\lambda (P: (Prop)).let H0 \def eq_ind K (Bind b) (\lambda (ee: K).match ee return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False]) I (Flat f) H in False_ind P H0)) k2) (\lambda (f: F).\lambda (k2: K).K_ind (\lambda (k: K).or (eq K (Flat f) k) ((eq K (Flat f) k) \to \forall (P: (Prop)).P)) (\lambda (b: B).or_intror (eq K (Flat f) (Bind b)) ((eq K (Flat f) (Bind b)) \to \forall (P: (Prop)).P) (\lambda (H: (eq K (Flat f) (Bind b))).\lambda (P: (Prop)).let H0 \def eq_ind K (Flat f) (\lambda (ee: K).match ee return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True]) I (Bind b) H in False_ind P H0)) (\lambda (f0: F).let H_x \def terms_props.__flat_dec f f0 in let H \def H_x in or_ind (eq F f f0) ((eq F f f0) \to \forall (P: (Prop)).P) (or (eq K (Flat f) (Flat f0)) ((eq K (Flat f) (Flat f0)) \to \forall (P: (Prop)).P)) (\lambda (H0: (eq F f f0)).eq_ind F f (\lambda (f1: F).or (eq K (Flat f) (Flat f1)) ((eq K (Flat f) (Flat f1)) \to \forall (P: (Prop)).P)) (or_introl (eq K (Flat f) (Flat f)) ((eq K (Flat f) (Flat f)) \to \forall (P: (Prop)).P) (refl_equal K (Flat f))) f0 H0) (\lambda (H0: (((eq F f f0) \to \forall (P: (Prop)).P))).or_intror (eq K (Flat f) (Flat f0)) ((eq K (Flat f) (Flat f0)) \to \forall (P: (Prop)).P) (\lambda (H1: (eq K (Flat f) (Flat f0))).\lambda (P: (Prop)).let H2 \def f_equal K F (\lambda (e: K).match e return F with [(Bind _) \Rightarrow f | (Flat f) \Rightarrow f]) (Flat f) (Flat f0) H1 in let H3 \def eq_ind_r F f0 (\lambda (f0: F).(eq F f f0) \to \forall (P: (Prop)).P) H0 f H2 in H3 (refl_equal F f) P)) H) k2) k1.
+
+theorem term_dec: \forall (t1: T).\forall (t2: T).or (eq T t1 t2) ((eq T t1 t2) \to \forall (P: (Prop)).P) \def \lambda (t1: T).T_ind (\lambda (t: T).\forall (t2: T).or (eq T t t2) ((eq T t t2) \to \forall (P: (Prop)).P)) (\lambda (n: nat).\lambda (t2: T).T_ind (\lambda (t: T).or (eq T (TSort n) t) ((eq T (TSort n) t) \to \forall (P: (Prop)).P)) (\lambda (n0: nat).let H_x \def nat_dec n n0 in let H \def H_x in or_ind (eq nat n n0) ((eq nat n n0) \to \forall (P: (Prop)).P) (or (eq T (TSort n) (TSort n0)) ((eq T (TSort n) (TSort n0)) \to \forall (P: (Prop)).P)) (\lambda (H0: (eq nat n n0)).eq_ind nat n (\lambda (n1: nat).or (eq T (TSort n) (TSort n1)) ((eq T (TSort n) (TSort n1)) \to \forall (P: (Prop)).P)) (or_introl (eq T (TSort n) (TSort n)) ((eq T (TSort n) (TSort n)) \to \forall (P: (Prop)).P) (refl_equal T (TSort n))) n0 H0) (\lambda (H0: (((eq nat n n0) \to \forall (P: (Prop)).P))).or_intror (eq T (TSort n) (TSort n0)) ((eq T (TSort n) (TSort n0)) \to \forall (P: (Prop)).P) (\lambda (H1: (eq T (TSort n) (TSort n0))).\lambda (P: (Prop)).let H2 \def f_equal T nat (\lambda (e: T).match e return nat with [(TSort n) \Rightarrow n | (TLRef _) \Rightarrow n | (THead _ _ _) \Rightarrow n]) (TSort n) (TSort n0) H1 in let H3 \def eq_ind_r nat n0 (\lambda (n0: nat).(eq nat n n0) \to \forall (P: (Prop)).P) H0 n H2 in H3 (refl_equal nat n) P)) H) (\lambda (n0: nat).or_intror (eq T (TSort n) (TLRef n0)) ((eq T (TSort n) (TLRef n0)) \to \forall (P: (Prop)).P) (\lambda (H: (eq T (TSort n) (TLRef n0))).\lambda (P: (Prop)).let H0 \def eq_ind T (TSort n) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow True | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow False]) I (TLRef n0) H in False_ind P H0)) (\lambda (k: K).\lambda (t: T).\lambda (_: (or (eq T (TSort n) t) ((eq T (TSort n) t) \to \forall (P: (Prop)).P))).\lambda (t0: T).\lambda (_: (or (eq T (TSort n) t0) ((eq T (TSort n) t0) \to \forall (P: (Prop)).P))).or_intror (eq T (TSort n) (THead k t t0)) ((eq T (TSort n) (THead k t t0)) \to \forall (P: (Prop)).P) (\lambda (H1: (eq T (TSort n) (THead k t t0))).\lambda (P: (Prop)).let H2 \def eq_ind T (TSort n) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow True | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow False]) I (THead k t t0) H1 in False_ind P H2)) t2) (\lambda (n: nat).\lambda (t2: T).T_ind (\lambda (t: T).or (eq T (TLRef n) t) ((eq T (TLRef n) t) \to \forall (P: (Prop)).P)) (\lambda (n0: nat).or_intror (eq T (TLRef n) (TSort n0)) ((eq T (TLRef n) (TSort n0)) \to \forall (P: (Prop)).P) (\lambda (H: (eq T (TLRef n) (TSort n0))).\lambda (P: (Prop)).let H0 \def eq_ind T (TLRef n) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (TSort n0) H in False_ind P H0)) (\lambda (n0: nat).let H_x \def nat_dec n n0 in let H \def H_x in or_ind (eq nat n n0) ((eq nat n n0) \to \forall (P: (Prop)).P) (or (eq T (TLRef n) (TLRef n0)) ((eq T (TLRef n) (TLRef n0)) \to \forall (P: (Prop)).P)) (\lambda (H0: (eq nat n n0)).eq_ind nat n (\lambda (n1: nat).or (eq T (TLRef n) (TLRef n1)) ((eq T (TLRef n) (TLRef n1)) \to \forall (P: (Prop)).P)) (or_introl (eq T (TLRef n) (TLRef n)) ((eq T (TLRef n) (TLRef n)) \to \forall (P: (Prop)).P) (refl_equal T (TLRef n))) n0 H0) (\lambda (H0: (((eq nat n n0) \to \forall (P: (Prop)).P))).or_intror (eq T (TLRef n) (TLRef n0)) ((eq T (TLRef n) (TLRef n0)) \to \forall (P: (Prop)).P) (\lambda (H1: (eq T (TLRef n) (TLRef n0))).\lambda (P: (Prop)).let H2 \def f_equal T nat (\lambda (e: T).match e return nat with [(TSort _) \Rightarrow n | (TLRef n) \Rightarrow n | (THead _ _ _) \Rightarrow n]) (TLRef n) (TLRef n0) H1 in let H3 \def eq_ind_r nat n0 (\lambda (n0: nat).(eq nat n n0) \to \forall (P: (Prop)).P) H0 n H2 in H3 (refl_equal nat n) P)) H) (\lambda (k: K).\lambda (t: T).\lambda (_: (or (eq T (TLRef n) t) ((eq T (TLRef n) t) \to \forall (P: (Prop)).P))).\lambda (t0: T).\lambda (_: (or (eq T (TLRef n) t0) ((eq T (TLRef n) t0) \to \forall (P: (Prop)).P))).or_intror (eq T (TLRef n) (THead k t t0)) ((eq T (TLRef n) (THead k t t0)) \to \forall (P: (Prop)).P) (\lambda (H1: (eq T (TLRef n) (THead k t t0))).\lambda (P: (Prop)).let H2 \def eq_ind T (TLRef n) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead k t t0) H1 in False_ind P H2)) t2) (\lambda (k: K).\lambda (t: T).\lambda (H: ((\forall (t2: T).or (eq T t t2) ((eq T t t2) \to \forall (P: (Prop)).P)))).\lambda (t0: T).\lambda (H0: ((\forall (t2: T).or (eq T t0 t2) ((eq T t0 t2) \to \forall (P: (Prop)).P)))).\lambda (t2: T).T_ind (\lambda (t3: T).or (eq T (THead k t t0) t3) ((eq T (THead k t t0) t3) \to \forall (P: (Prop)).P)) (\lambda (n: nat).or_intror (eq T (THead k t t0) (TSort n)) ((eq T (THead k t t0) (TSort n)) \to \forall (P: (Prop)).P) (\lambda (H1: (eq T (THead k t t0) (TSort n))).\lambda (P: (Prop)).let H2 \def eq_ind T (THead k t t0) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TSort n) H1 in False_ind P H2)) (\lambda (n: nat).or_intror (eq T (THead k t t0) (TLRef n)) ((eq T (THead k t t0) (TLRef n)) \to \forall (P: (Prop)).P) (\lambda (H1: (eq T (THead k t t0) (TLRef n))).\lambda (P: (Prop)).let H2 \def eq_ind T (THead k t t0) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef n) H1 in False_ind P H2)) (\lambda (k0: K).\lambda (t3: T).\lambda (H1: (or (eq T (THead k t t0) t3) ((eq T (THead k t t0) t3) \to \forall (P: (Prop)).P))).\lambda (t4: T).\lambda (H2: (or (eq T (THead k t t0) t4) ((eq T (THead k t t0) t4) \to \forall (P: (Prop)).P))).let H_x \def H t3 in let H3 \def H_x in or_ind (eq T t t3) ((eq T t t3) \to \forall (P: (Prop)).P) (or (eq T (THead k t t0) (THead k0 t3 t4)) ((eq T (THead k t t0) (THead k0 t3 t4)) \to \forall (P: (Prop)).P)) (\lambda (H4: (eq T t t3)).let H5 \def eq_ind_r T t3 (\lambda (t1: T).or (eq T (THead k t t0) t1) ((eq T (THead k t t0) t1) \to \forall (P: (Prop)).P)) H1 t H4 in eq_ind T t (\lambda (t5: T).or (eq T (THead k t t0) (THead k0 t5 t4)) ((eq T (THead k t t0) (THead k0 t5 t4)) \to \forall (P: (Prop)).P)) (let H_x0 \def H0 t4 in let H6 \def H_x0 in or_ind (eq T t0 t4) ((eq T t0 t4) \to \forall (P: (Prop)).P) (or (eq T (THead k t t0) (THead k0 t t4)) ((eq T (THead k t t0) (THead k0 t t4)) \to \forall (P: (Prop)).P)) (\lambda (H7: (eq T t0 t4)).let H8 \def eq_ind_r T t4 (\lambda (t1: T).or (eq T (THead k t t0) t1) ((eq T (THead k t t0) t1) \to \forall (P: (Prop)).P)) H2 t0 H7 in eq_ind T t0 (\lambda (t5: T).or (eq T (THead k t t0) (THead k0 t t5)) ((eq T (THead k t t0) (THead k0 t t5)) \to \forall (P: (Prop)).P)) (let H_x1 \def terms_props.__kind_dec k k0 in let H9 \def H_x1 in or_ind (eq K k k0) ((eq K k k0) \to \forall (P: (Prop)).P) (or (eq T (THead k t t0) (THead k0 t t0)) ((eq T (THead k t t0) (THead k0 t t0)) \to \forall (P: (Prop)).P)) (\lambda (H10: (eq K k k0)).eq_ind K k (\lambda (k1: K).or (eq T (THead k t t0) (THead k1 t t0)) ((eq T (THead k t t0) (THead k1 t t0)) \to \forall (P: (Prop)).P)) (or_introl (eq T (THead k t t0) (THead k t t0)) ((eq T (THead k t t0) (THead k t t0)) \to \forall (P: (Prop)).P) (refl_equal T (THead k t t0))) k0 H10) (\lambda (H10: (((eq K k k0) \to \forall (P: (Prop)).P))).or_intror (eq T (THead k t t0) (THead k0 t t0)) ((eq T (THead k t t0) (THead k0 t t0)) \to \forall (P: (Prop)).P) (\lambda (H11: (eq T (THead k t t0) (THead k0 t t0))).\lambda (P: (Prop)).let H12 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k t t0) (THead k0 t t0) H11 in let H13 \def eq_ind_r K k0 (\lambda (k0: K).(eq K k k0) \to \forall (P: (Prop)).P) H10 k H12 in H13 (refl_equal K k) P)) H9) t4 H7) (\lambda (H7: (((eq T t0 t4) \to \forall (P: (Prop)).P))).or_intror (eq T (THead k t t0) (THead k0 t t4)) ((eq T (THead k t t0) (THead k0 t t4)) \to \forall (P: (Prop)).P) (\lambda (H8: (eq T (THead k t t0) (THead k0 t t4))).\lambda (P: (Prop)).let H9 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k t t0) (THead k0 t t4) H8 in (let H10 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead k t t0) (THead k0 t t4) H8 in \lambda (_: (eq K k k0)).let H12 \def eq_ind_r T t4 (\lambda (t: T).(eq T t0 t) \to \forall (P: (Prop)).P) H7 t0 H10 in let H13 \def eq_ind_r T t4 (\lambda (t1: T).or (eq T (THead k t t0) t1) ((eq T (THead k t t0) t1) \to \forall (P: (Prop)).P)) H2 t0 H10 in H12 (refl_equal T t0) P) H9)) H6) t3 H4) (\lambda (H4: (((eq T t t3) \to \forall (P: (Prop)).P))).or_intror (eq T (THead k t t0) (THead k0 t3 t4)) ((eq T (THead k t t0) (THead k0 t3 t4)) \to \forall (P: (Prop)).P) (\lambda (H5: (eq T (THead k t t0) (THead k0 t3 t4))).\lambda (P: (Prop)).let H6 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k t t0) (THead k0 t3 t4) H5 in (let H7 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t | (TLRef _) \Rightarrow t | (THead _ t _) \Rightarrow t]) (THead k t t0) (THead k0 t3 t4) H5 in (let H8 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead k t t0) (THead k0 t3 t4) H5 in \lambda (H9: (eq T t t3)).\lambda (_: (eq K k k0)).let H11 \def eq_ind_r T t4 (\lambda (t1: T).or (eq T (THead k t t0) t1) ((eq T (THead k t t0) t1) \to \forall (P: (Prop)).P)) H2 t0 H8 in let H12 \def eq_ind_r T t3 (\lambda (t0: T).(eq T t t0) \to \forall (P: (Prop)).P) H4 t H9 in let H13 \def eq_ind_r T t3 (\lambda (t1: T).or (eq T (THead k t t0) t1) ((eq T (THead k t t0) t1) \to \forall (P: (Prop)).P)) H1 t H9 in H12 (refl_equal T t) P) H7) H6)) H3) t2) t1.
+
+theorem binder_dec: \forall (t: T).or (ex_3 B T T (\lambda (b: B).\lambda (w: T).\lambda (u: T).eq T t (THead (Bind b) w u))) (\forall (b: B).\forall (w: T).\forall (u: T).(eq T t (THead (Bind b) w u)) \to \forall (P: (Prop)).P) \def \lambda (t: T).T_ind (\lambda (t0: T).or (ex_3 B T T (\lambda (b: B).\lambda (w: T).\lambda (u: T).eq T t0 (THead (Bind b) w u))) (\forall (b: B).\forall (w: T).\forall (u: T).(eq T t0 (THead (Bind b) w u)) \to \forall (P: (Prop)).P)) (\lambda (n: nat).or_intror (ex_3 B T T (\lambda (b: B).\lambda (w: T).\lambda (u: T).eq T (TSort n) (THead (Bind b) w u))) (\forall (b: B).\forall (w: T).\forall (u: T).(eq T (TSort n) (THead (Bind b) w u)) \to \forall (P: (Prop)).P) (\lambda (b: B).\lambda (w: T).\lambda (u: T).\lambda (H: (eq T (TSort n) (THead (Bind b) w u))).\lambda (P: (Prop)).let H0 \def eq_ind T (TSort n) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow True | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow False]) I (THead (Bind b) w u) H in False_ind P H0)) (\lambda (n: nat).or_intror (ex_3 B T T (\lambda (b: B).\lambda (w: T).\lambda (u: T).eq T (TLRef n) (THead (Bind b) w u))) (\forall (b: B).\forall (w: T).\forall (u: T).(eq T (TLRef n) (THead (Bind b) w u)) \to \forall (P: (Prop)).P) (\lambda (b: B).\lambda (w: T).\lambda (u: T).\lambda (H: (eq T (TLRef n) (THead (Bind b) w u))).\lambda (P: (Prop)).let H0 \def eq_ind T (TLRef n) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Bind b) w u) H in False_ind P H0)) (\lambda (k: K).match k return (\lambda (k0: K).\forall (t0: T).(or (ex_3 B T T (\lambda (b: B).\lambda (w: T).\lambda (u: T).eq T t0 (THead (Bind b) w u))) (\forall (b: B).\forall (w: T).\forall (u: T).(eq T t0 (THead (Bind b) w u)) \to \forall (P: (Prop)).P)) \to \forall (t1: T).(or (ex_3 B T T (\lambda (b: B).\lambda (w: T).\lambda (u: T).eq T t1 (THead (Bind b) w u))) (\forall (b: B).\forall (w: T).\forall (u: T).(eq T t1 (THead (Bind b) w u)) \to \forall (P: (Prop)).P)) \to or (ex_3 B T T (\lambda (b: B).\lambda (w: T).\lambda (u: T).eq T (THead k0 t0 t1) (THead (Bind b) w u))) (\forall (b: B).\forall (w: T).\forall (u: T).(eq T (THead k0 t0 t1) (THead (Bind b) w u)) \to \forall (P: (Prop)).P)) with [(Bind b) \Rightarrow (\lambda (t0: T).\lambda (_: (or (ex_3 B T T (\lambda (b: B).\lambda (w: T).\lambda (u: T).eq T t0 (THead (Bind b) w u))) (\forall (b: B).\forall (w: T).\forall (u: T).(eq T t0 (THead (Bind b) w u)) \to \forall (P: (Prop)).P))).\lambda (t1: T).\lambda (_: (or (ex_3 B T T (\lambda (b: B).\lambda (w: T).\lambda (u: T).eq T t1 (THead (Bind b) w u))) (\forall (b: B).\forall (w: T).\forall (u: T).(eq T t1 (THead (Bind b) w u)) \to \forall (P: (Prop)).P))).or_introl (ex_3 B T T (\lambda (b0: B).\lambda (w: T).\lambda (u: T).eq T (THead (Bind b) t0 t1) (THead (Bind b0) w u))) (\forall (b0: B).\forall (w: T).\forall (u: T).(eq T (THead (Bind b) t0 t1) (THead (Bind b0) w u)) \to \forall (P: (Prop)).P) (ex_3_intro B T T (\lambda (b0: B).\lambda (w: T).\lambda (u: T).eq T (THead (Bind b) t0 t1) (THead (Bind b0) w u)) b t0 t1 (refl_equal T (THead (Bind b) t0 t1)))) | (Flat f) \Rightarrow (\lambda (t0: T).\lambda (_: (or (ex_3 B T T (\lambda (b: B).\lambda (w: T).\lambda (u: T).eq T t0 (THead (Bind b) w u))) (\forall (b: B).\forall (w: T).\forall (u: T).(eq T t0 (THead (Bind b) w u)) \to \forall (P: (Prop)).P))).\lambda (t1: T).\lambda (_: (or (ex_3 B T T (\lambda (b: B).\lambda (w: T).\lambda (u: T).eq T t1 (THead (Bind b) w u))) (\forall (b: B).\forall (w: T).\forall (u: T).(eq T t1 (THead (Bind b) w u)) \to \forall (P: (Prop)).P))).or_intror (ex_3 B T T (\lambda (b: B).\lambda (w: T).\lambda (u: T).eq T (THead (Flat f) t0 t1) (THead (Bind b) w u))) (\forall (b: B).\forall (w: T).\forall (u: T).(eq T (THead (Flat f) t0 t1) (THead (Bind b) w u)) \to \forall (P: (Prop)).P) (\lambda (b: B).\lambda (w: T).\lambda (u: T).\lambda (H1: (eq T (THead (Flat f) t0 t1) (THead (Bind b) w u))).\lambda (P: (Prop)).let H2 \def eq_ind T (THead (Flat f) t0 t1) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind b) w u) H1 in False_ind P H2))]) t.
+
+theorem abst_dec: \forall (u: T).\forall (v: T).or (ex T (\lambda (t: T).eq T u (THead (Bind Abst) v t))) (\forall (t: T).(eq T u (THead (Bind Abst) v t)) \to \forall (P: (Prop)).P) \def \lambda (u: T).match u return (\lambda (t: T).\forall (v: T).or (ex T (\lambda (t0: T).eq T t (THead (Bind Abst) v t0))) (\forall (t0: T).(eq T t (THead (Bind Abst) v t0)) \to \forall (P: (Prop)).P)) with [(TSort n) \Rightarrow (\lambda (v: T).or_intror (ex T (\lambda (t: T).eq T (TSort n) (THead (Bind Abst) v t))) (\forall (t: T).(eq T (TSort n) (THead (Bind Abst) v t)) \to \forall (P: (Prop)).P) (\lambda (t: T).\lambda (H: (eq T (TSort n) (THead (Bind Abst) v t))).\lambda (P: (Prop)).let H0 \def eq_ind T (TSort n) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow True | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow False]) I (THead (Bind Abst) v t) H in False_ind P H0)) | (TLRef n) \Rightarrow (\lambda (v: T).or_intror (ex T (\lambda (t: T).eq T (TLRef n) (THead (Bind Abst) v t))) (\forall (t: T).(eq T (TLRef n) (THead (Bind Abst) v t)) \to \forall (P: (Prop)).P) (\lambda (t: T).\lambda (H: (eq T (TLRef n) (THead (Bind Abst) v t))).\lambda (P: (Prop)).let H0 \def eq_ind T (TLRef n) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Bind Abst) v t) H in False_ind P H0)) | (THead k t t0) \Rightarrow (\lambda (v: T).let H_x \def terms_props.__kind_dec k (Bind Abst) in let H \def H_x in or_ind (eq K k (Bind Abst)) ((eq K k (Bind Abst)) \to \forall (P: (Prop)).P) (or (ex T (\lambda (t1: T).eq T (THead k t t0) (THead (Bind Abst) v t1))) (\forall (t1: T).(eq T (THead k t t0) (THead (Bind Abst) v t1)) \to \forall (P: (Prop)).P)) (\lambda (H0: (eq K k (Bind Abst))).eq_ind_r K (Bind Abst) (\lambda (k0: K).or (ex T (\lambda (t1: T).eq T (THead k0 t t0) (THead (Bind Abst) v t1))) (\forall (t1: T).(eq T (THead k0 t t0) (THead (Bind Abst) v t1)) \to \forall (P: (Prop)).P)) (let H_x0 \def term_dec t v in let H1 \def H_x0 in or_ind (eq T t v) ((eq T t v) \to \forall (P: (Prop)).P) (or (ex T (\lambda (t1: T).eq T (THead (Bind Abst) t t0) (THead (Bind Abst) v t1))) (\forall (t1: T).(eq T (THead (Bind Abst) t t0) (THead (Bind Abst) v t1)) \to \forall (P: (Prop)).P)) (\lambda (H2: (eq T t v)).eq_ind T t (\lambda (t1: T).or (ex T (\lambda (t2: T).eq T (THead (Bind Abst) t t0) (THead (Bind Abst) t1 t2))) (\forall (t2: T).(eq T (THead (Bind Abst) t t0) (THead (Bind Abst) t1 t2)) \to \forall (P: (Prop)).P)) (or_introl (ex T (\lambda (t1: T).eq T (THead (Bind Abst) t t0) (THead (Bind Abst) t t1))) (\forall (t1: T).(eq T (THead (Bind Abst) t t0) (THead (Bind Abst) t t1)) \to \forall (P: (Prop)).P) (ex_intro T (\lambda (t1: T).eq T (THead (Bind Abst) t t0) (THead (Bind Abst) t t1)) t0 (refl_equal T (THead (Bind Abst) t t0)))) v H2) (\lambda (H2: (((eq T t v) \to \forall (P: (Prop)).P))).or_intror (ex T (\lambda (t1: T).eq T (THead (Bind Abst) t t0) (THead (Bind Abst) v t1))) (\forall (t1: T).(eq T (THead (Bind Abst) t t0) (THead (Bind Abst) v t1)) \to \forall (P: (Prop)).P) (\lambda (t1: T).\lambda (H3: (eq T (THead (Bind Abst) t t0) (THead (Bind Abst) v t1))).\lambda (P: (Prop)).let H4 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t | (TLRef _) \Rightarrow t | (THead _ t _) \Rightarrow t]) (THead (Bind Abst) t t0) (THead (Bind Abst) v t1) H3 in (let H5 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead (Bind Abst) t t0) (THead (Bind Abst) v t1) H3 in \lambda (H6: (eq T t v)).H2 H6 P) H4)) H1) k H0) (\lambda (H0: (((eq K k (Bind Abst)) \to \forall (P: (Prop)).P))).or_intror (ex T (\lambda (t1: T).eq T (THead k t t0) (THead (Bind Abst) v t1))) (\forall (t1: T).(eq T (THead k t t0) (THead (Bind Abst) v t1)) \to \forall (P: (Prop)).P) (\lambda (t1: T).\lambda (H1: (eq T (THead k t t0) (THead (Bind Abst) v t1))).\lambda (P: (Prop)).let H2 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k t t0) (THead (Bind Abst) v t1) H1 in (let H3 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t | (TLRef _) \Rightarrow t | (THead _ t _) \Rightarrow t]) (THead k t t0) (THead (Bind Abst) v t1) H1 in (let H4 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead k t t0) (THead (Bind Abst) v t1) H1 in \lambda (_: (eq T t v)).\lambda (H6: (eq K k (Bind Abst))).H0 H6 P) H3) H2)) H)].
+
+theorem thead_x_y_y: \forall (k: K).\forall (v: T).\forall (t: T).(eq T (THead k v t) t) \to \forall (P: (Prop)).P \def \lambda (k: K).\lambda (v: T).\lambda (t: T).T_ind (\lambda (t0: T).(eq T (THead k v t0) t0) \to \forall (P: (Prop)).P) (\lambda (n: nat).\lambda (H: (eq T (THead k v (TSort n)) (TSort n))).\lambda (P: (Prop)).let H0 \def eq_ind T (THead k v (TSort n)) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TSort n) H in False_ind P H0) (\lambda (n: nat).\lambda (H: (eq T (THead k v (TLRef n)) (TLRef n))).\lambda (P: (Prop)).let H0 \def eq_ind T (THead k v (TLRef n)) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef n) H in False_ind P H0) (\lambda (k0: K).\lambda (t0: T).\lambda (_: (((eq T (THead k v t0) t0) \to \forall (P: (Prop)).P))).\lambda (t1: T).\lambda (H0: (((eq T (THead k v t1) t1) \to \forall (P: (Prop)).P))).\lambda (H1: (eq T (THead k v (THead k0 t0 t1)) (THead k0 t0 t1))).\lambda (P: (Prop)).let H2 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k v (THead k0 t0 t1)) (THead k0 t0 t1) H1 in (let H3 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow v | (TLRef _) \Rightarrow v | (THead _ t _) \Rightarrow t]) (THead k v (THead k0 t0 t1)) (THead k0 t0 t1) H1 in (let H4 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow (THead k0 t0 t1) | (TLRef _) \Rightarrow (THead k0 t0 t1) | (THead _ _ t) \Rightarrow t]) (THead k v (THead k0 t0 t1)) (THead k0 t0 t1) H1 in \lambda (H5: (eq T v t0)).\lambda (H6: (eq K k k0)).let H7 \def eq_ind T v (\lambda (t: T).(eq T (THead k t t1) t1) \to \forall (P: (Prop)).P) H0 t0 H5 in let H8 \def eq_ind K k (\lambda (k: K).(eq T (THead k t0 t1) t1) \to \forall (P: (Prop)).P) H7 k0 H6 in H8 H4 P) H3) H2) t.
+
+theorem s_S: \forall (k: K).\forall (i: nat).eq nat (s k (S i)) (S (s k i)) \def \lambda (k: K).K_ind (\lambda (k0: K).\forall (i: nat).eq nat (s k0 (S i)) (S (s k0 i))) (\lambda (b: B).\lambda (i: nat).refl_equal nat (S (s (Bind b) i))) (\lambda (f: F).\lambda (i: nat).refl_equal nat (S (s (Flat f) i))) k.
+
+theorem s_plus: \forall (k: K).\forall (i: nat).\forall (j: nat).eq nat (s k (plus i j)) (plus (s k i) j) \def \lambda (k: K).K_ind (\lambda (k0: K).\forall (i: nat).\forall (j: nat).eq nat (s k0 (plus i j)) (plus (s k0 i) j)) (\lambda (b: B).\lambda (i: nat).\lambda (j: nat).refl_equal nat (plus (s (Bind b) i) j)) (\lambda (f: F).\lambda (i: nat).\lambda (j: nat).refl_equal nat (plus (s (Flat f) i) j)) k.
+
+theorem s_plus_sym: \forall (k: K).\forall (i: nat).\forall (j: nat).eq nat (s k (plus i j)) (plus i (s k j)) \def \lambda (k: K).K_ind (\lambda (k0: K).\forall (i: nat).\forall (j: nat).eq nat (s k0 (plus i j)) (plus i (s k0 j))) (\lambda (_: B).\lambda (i: nat).\lambda (j: nat).eq_ind_r nat (plus i (S j)) (\lambda (n: nat).eq nat n (plus i (S j))) (refl_equal nat (plus i (S j))) (S (plus i j)) (plus_n_Sm i j)) (\lambda (f: F).\lambda (i: nat).\lambda (j: nat).refl_equal nat (plus i (s (Flat f) j))) k.
+
+theorem s_minus: \forall (k: K).\forall (i: nat).\forall (j: nat).(le j i) \to eq nat (s k (minus i j)) (minus (s k i) j) \def \lambda (k: K).K_ind (\lambda (k0: K).\forall (i: nat).\forall (j: nat).(le j i) \to eq nat (s k0 (minus i j)) (minus (s k0 i) j)) (\lambda (_: B).\lambda (i: nat).\lambda (j: nat).\lambda (H: (le j i)).eq_ind_r nat (minus (S i) j) (\lambda (n: nat).eq nat n (minus (S i) j)) (refl_equal nat (minus (S i) j)) (S (minus i j)) (minus_Sn_m i j H)) (\lambda (f: F).\lambda (i: nat).\lambda (j: nat).\lambda (_: (le j i)).refl_equal nat (minus (s (Flat f) i) j)) k.
+
+theorem minus_s_s: \forall (k: K).\forall (i: nat).\forall (j: nat).eq nat (minus (s k i) (s k j)) (minus i j) \def \lambda (k: K).K_ind (\lambda (k0: K).\forall (i: nat).\forall (j: nat).eq nat (minus (s k0 i) (s k0 j)) (minus i j)) (\lambda (_: B).\lambda (i: nat).\lambda (j: nat).refl_equal nat (minus i j)) (\lambda (_: F).\lambda (i: nat).\lambda (j: nat).refl_equal nat (minus i j)) k.
+
+theorem s_le: \forall (k: K).\forall (i: nat).\forall (j: nat).(le i j) \to le (s k i) (s k j) \def \lambda (k: K).K_ind (\lambda (k0: K).\forall (i: nat).\forall (j: nat).(le i j) \to le (s k0 i) (s k0 j)) (\lambda (_: B).\lambda (i: nat).\lambda (j: nat).\lambda (H: (le i j)).le_S_n (S i) (S j) (lt_le_S (S i) (S (S j)) (lt_n_S i (S j) (le_lt_n_Sm i j H)))) (\lambda (_: F).\lambda (i: nat).\lambda (j: nat).\lambda (H: (le i j)).H) k.
+
+theorem s_lt: \forall (k: K).\forall (i: nat).\forall (j: nat).(lt i j) \to lt (s k i) (s k j) \def \lambda (k: K).K_ind (\lambda (k0: K).\forall (i: nat).\forall (j: nat).(lt i j) \to lt (s k0 i) (s k0 j)) (\lambda (_: B).\lambda (i: nat).\lambda (j: nat).\lambda (H: (lt i j)).le_S_n (S (S i)) (S j) (le_n_S (S (S i)) (S j) (le_n_S (S i) j H))) (\lambda (_: F).\lambda (i: nat).\lambda (j: nat).\lambda (H: (lt i j)).H) k.
+
+theorem s_inj: \forall (k: K).\forall (i: nat).\forall (j: nat).(eq nat (s k i) (s k j)) \to eq nat i j \def \lambda (k: K).K_ind (\lambda (k0: K).\forall (i: nat).\forall (j: nat).(eq nat (s k0 i) (s k0 j)) \to eq nat i j) (\lambda (b: B).\lambda (i: nat).\lambda (j: nat).\lambda (H: (eq nat (s (Bind b) i) (s (Bind b) j))).eq_add_S i j H) (\lambda (f: F).\lambda (i: nat).\lambda (j: nat).\lambda (H: (eq nat (s (Flat f) i) (s (Flat f) j))).H) k.
+
+theorem s_arith0: \forall (k: K).\forall (i: nat).eq nat (minus (s k i) (s k O)) i \def \lambda (k: K).\lambda (i: nat).eq_ind_r nat (minus i O) (\lambda (n: nat).eq nat n i) (eq_ind nat i (\lambda (n: nat).eq nat n i) (refl_equal nat i) (minus i O) (minus_n_O i)) (minus (s k i) (s k O)) (minus_s_s k i O).
+
+theorem s_arith1: \forall (b: B).\forall (i: nat).eq nat (minus (s (Bind b) i) (S O)) i \def \lambda (_: B).\lambda (i: nat).eq_ind nat i (\lambda (n: nat).eq nat n i) (refl_equal nat i) (minus i O) (minus_n_O i).
+
+theorem wadd: ((nat \to nat)) \to nat \to nat \to nat \def \lambda (f: ((nat \to nat))).\lambda (w: nat).\lambda (n: nat).match n with [O \Rightarrow w | (S m) \Rightarrow (f m)].
+
+theorem weight_map: ((nat \to nat)) \to T \to nat \def let rec (weight_map: (\forall (f: ((nat \to nat))).\forall (t: T).nat)) = (\lambda (f: ((nat \to nat))).\lambda (t: T).match t with [(TSort _) \Rightarrow O | (TLRef n) \Rightarrow (f n) | (THead k u t0) \Rightarrow (match k with [(Bind b) \Rightarrow (match b with [Abbr \Rightarrow (S (plus (weight_map f u) (weight_map (wadd f (S (weight_map f u))) t0))) | Abst \Rightarrow (S (plus (weight_map f u) (weight_map (wadd f O) t0))) | Void \Rightarrow (S (plus (weight_map f u) (weight_map (wadd f O) t0)))]) | (Flat _) \Rightarrow (S (plus (weight_map f u) (weight_map f t0)))])]) in weight_map.
+
+theorem weight: T \to nat \def weight_map (\lambda (_: nat).O).
+
+theorem tlt: T \to T \to Prop \def \lambda (t1: T).\lambda (t2: T).lt (weight t1) (weight t2).
+
+theorem wadd_le: \forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (n: nat).le (f n) (g n))) \to \forall (v: nat).\forall (w: nat).(le v w) \to \forall (n: nat).le (wadd f v n) (wadd g w n) \def \lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H: ((\forall (n: nat).le (f n) (g n)))).\lambda (v: nat).\lambda (w: nat).\lambda (H0: (le v w)).\lambda (n: nat).nat_ind (\lambda (n0: nat).le (wadd f v n0) (wadd g w n0)) H0 (\lambda (n0: nat).\lambda (_: (le (wadd f v n0) (wadd g w n0))).H n0) n.
+
+theorem wadd_lt: \forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (n: nat).le (f n) (g n))) \to \forall (v: nat).\forall (w: nat).(lt v w) \to \forall (n: nat).le (wadd f v n) (wadd g w n) \def \lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H: ((\forall (n: nat).le (f n) (g n)))).\lambda (v: nat).\lambda (w: nat).\lambda (H0: (lt v w)).\lambda (n: nat).nat_ind (\lambda (n0: nat).le (wadd f v n0) (wadd g w n0)) (le_S_n v w (le_S (S v) w H0)) (\lambda (n0: nat).\lambda (_: (le (wadd f v n0) (wadd g w n0))).H n0) n.
+
+theorem wadd_O: \forall (n: nat).eq nat (wadd (\lambda (_: nat).O) O n) O \def \lambda (n: nat).nat_ind (\lambda (n0: nat).eq nat (wadd (\lambda (_: nat).O) O n0) O) (refl_equal nat O) (\lambda (n0: nat).\lambda (_: (eq nat (wadd (\lambda (_: nat).O) O n0) O)).refl_equal nat O) n.
+
+theorem weight_le: \forall (t: T).\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (n: nat).le (f n) (g n))) \to le (weight_map f t) (weight_map g t) \def \lambda (t: T).T_ind (\lambda (t0: T).\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (n: nat).le (f n) (g n))) \to le (weight_map f t0) (weight_map g t0)) (\lambda (n: nat).\lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (_: ((\forall (n: nat).le (f n) (g n)))).le_n (weight_map g (TSort n))) (\lambda (n: nat).\lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H: ((\forall (n: nat).le (f n) (g n)))).H n) (\lambda (k: K).K_ind (\lambda (k0: K).\forall (t0: T).((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (n: nat).le (f n) (g n))) \to le (weight_map f t0) (weight_map g t0))) \to \forall (t1: T).((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (n: nat).le (f n) (g n))) \to le (weight_map f t1) (weight_map g t1))) \to \forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (n: nat).le (f n) (g n))) \to le (weight_map f (THead k0 t0 t1)) (weight_map g (THead k0 t0 t1))) (\lambda (b: B).B_ind (\lambda (b0: B).\forall (t0: T).((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (n: nat).le (f n) (g n))) \to le (weight_map f t0) (weight_map g t0))) \to \forall (t1: T).((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (n: nat).le (f n) (g n))) \to le (weight_map f t1) (weight_map g t1))) \to \forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (n: nat).le (f n) (g n))) \to le (match b0 with [Abbr \Rightarrow (S (plus (weight_map f t0) (weight_map (wadd f (S (weight_map f t0))) t1))) | Abst \Rightarrow (S (plus (weight_map f t0) (weight_map (wadd f O) t1))) | Void \Rightarrow (S (plus (weight_map f t0) (weight_map (wadd f O) t1)))]) (match b0 with [Abbr \Rightarrow (S (plus (weight_map g t0) (weight_map (wadd g (S (weight_map g t0))) t1))) | Abst \Rightarrow (S (plus (weight_map g t0) (weight_map (wadd g O) t1))) | Void \Rightarrow (S (plus (weight_map g t0) (weight_map (wadd g O) t1)))])) (\lambda (t0: T).\lambda (H: ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (n: nat).le (f n) (g n))) \to le (weight_map f t0) (weight_map g t0)))).\lambda (t1: T).\lambda (H0: ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (n: nat).le (f n) (g n))) \to le (weight_map f t1) (weight_map g t1)))).\lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H1: ((\forall (n: nat).le (f n) (g n)))).le_n_S (plus (weight_map f t0) (weight_map (wadd f (S (weight_map f t0))) t1)) (plus (weight_map g t0) (weight_map (wadd g (S (weight_map g t0))) t1)) (le_plus_plus (weight_map f t0) (weight_map g t0) (weight_map (wadd f (S (weight_map f t0))) t1) (weight_map (wadd g (S (weight_map g t0))) t1) (H f g H1) (H0 (wadd f (S (weight_map f t0))) (wadd g (S (weight_map g t0))) (\lambda (n: nat).wadd_le f g H1 (S (weight_map f t0)) (S (weight_map g t0)) (le_n_S (weight_map f t0) (weight_map g t0) (H f g H1)) n)))) (\lambda (t0: T).\lambda (H: ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (n: nat).le (f n) (g n))) \to le (weight_map f t0) (weight_map g t0)))).\lambda (t1: T).\lambda (H0: ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (n: nat).le (f n) (g n))) \to le (weight_map f t1) (weight_map g t1)))).\lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H1: ((\forall (n: nat).le (f n) (g n)))).le_S_n (S (plus (weight_map f t0) (weight_map (wadd f O) t1))) (S (plus (weight_map g t0) (weight_map (wadd g O) t1))) (le_n_S (S (plus (weight_map f t0) (weight_map (wadd f O) t1))) (S (plus (weight_map g t0) (weight_map (wadd g O) t1))) (le_n_S (plus (weight_map f t0) (weight_map (wadd f O) t1)) (plus (weight_map g t0) (weight_map (wadd g O) t1)) (le_plus_plus (weight_map f t0) (weight_map g t0) (weight_map (wadd f O) t1) (weight_map (wadd g O) t1) (H f g H1) (H0 (wadd f O) (wadd g O) (\lambda (n: nat).wadd_le f g H1 O O (le_n O) n)))))) (\lambda (t0: T).\lambda (H: ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (n: nat).le (f n) (g n))) \to le (weight_map f t0) (weight_map g t0)))).\lambda (t1: T).\lambda (H0: ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (n: nat).le (f n) (g n))) \to le (weight_map f t1) (weight_map g t1)))).\lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H1: ((\forall (n: nat).le (f n) (g n)))).le_S_n (S (plus (weight_map f t0) (weight_map (wadd f O) t1))) (S (plus (weight_map g t0) (weight_map (wadd g O) t1))) (le_n_S (S (plus (weight_map f t0) (weight_map (wadd f O) t1))) (S (plus (weight_map g t0) (weight_map (wadd g O) t1))) (le_n_S (plus (weight_map f t0) (weight_map (wadd f O) t1)) (plus (weight_map g t0) (weight_map (wadd g O) t1)) (le_plus_plus (weight_map f t0) (weight_map g t0) (weight_map (wadd f O) t1) (weight_map (wadd g O) t1) (H f g H1) (H0 (wadd f O) (wadd g O) (\lambda (n: nat).wadd_le f g H1 O O (le_n O) n)))))) b) (\lambda (_: F).\lambda (t0: T).\lambda (H: ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (n: nat).le (f n) (g n))) \to le (weight_map f t0) (weight_map g t0)))).\lambda (t1: T).\lambda (H0: ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (n: nat).le (f n) (g n))) \to le (weight_map f t1) (weight_map g t1)))).\lambda (f0: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H1: ((\forall (n: nat).le (f0 n) (g n)))).lt_le_S (plus (weight_map f0 t0) (weight_map f0 t1)) (S (plus (weight_map g t0) (weight_map g t1))) (le_lt_n_Sm (plus (weight_map f0 t0) (weight_map f0 t1)) (plus (weight_map g t0) (weight_map g t1)) (le_plus_plus (weight_map f0 t0) (weight_map g t0) (weight_map f0 t1) (weight_map g t1) (H f0 g H1) (H0 f0 g H1)))) k) t.
+
+theorem weight_eq: \forall (t: T).\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (n: nat).eq nat (f n) (g n))) \to eq nat (weight_map f t) (weight_map g t) \def \lambda (t: T).\lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H: ((\forall (n: nat).eq nat (f n) (g n)))).le_antisym (weight_map f t) (weight_map g t) (weight_le t f g (\lambda (n: nat).eq_ind_r nat (g n) (\lambda (n0: nat).le n0 (g n)) (le_n (g n)) (f n) (H n))) (weight_le t g f (\lambda (n: nat).eq_ind_r nat (g n) (\lambda (n0: nat).le (g n) n0) (le_n (g n)) (f n) (H n))).
+
+theorem weight_add_O: \forall (t: T).eq nat (weight_map (wadd (\lambda (_: nat).O) O) t) (weight_map (\lambda (_: nat).O) t) \def \lambda (t: T).weight_eq t (wadd (\lambda (_: nat).O) O) (\lambda (_: nat).O) (\lambda (n: nat).wadd_O n).
+
+theorem weight_add_S: \forall (t: T).\forall (m: nat).le (weight_map (wadd (\lambda (_: nat).O) O) t) (weight_map (wadd (\lambda (_: nat).O) (S m)) t) \def \lambda (t: T).\lambda (m: nat).weight_le t (wadd (\lambda (_: nat).O) O) (wadd (\lambda (_: nat).O) (S m)) (\lambda (n: nat).le_S_n (wadd (\lambda (_: nat).O) O n) (wadd (\lambda (_: nat).O) (S m) n) (le_n_S (wadd (\lambda (_: nat).O) O n) (wadd (\lambda (_: nat).O) (S m) n) (wadd_le (\lambda (_: nat).O) (\lambda (_: nat).O) (\lambda (_: nat).le_n O) O (S m) (le_O_n (S m)) n))).
+
+theorem tlt_trans: \forall (v: T).\forall (u: T).\forall (t: T).(tlt u v) \to (tlt v t) \to tlt u t \def \lambda (v: T).\lambda (u: T).\lambda (t: T).\lambda (H: (lt (weight u) (weight v))).\lambda (H0: (lt (weight v) (weight t))).lt_trans (weight u) (weight v) (weight t) H H0.
+
+theorem tlt_head_sx: \forall (k: K).\forall (u: T).\forall (t: T).tlt u (THead k u t) \def \lambda (k: K).K_ind (\lambda (k0: K).\forall (u: T).\forall (t: T).lt (weight_map (\lambda (_: nat).O) u) (weight_map (\lambda (_: nat).O) (THead k0 u t))) (\lambda (b: B).B_ind (\lambda (b0: B).\forall (u: T).\forall (t: T).lt (weight_map (\lambda (_: nat).O) u) (match b0 with [Abbr \Rightarrow (S (plus (weight_map (\lambda (_: nat).O) u) (weight_map (wadd (\lambda (_: nat).O) (S (weight_map (\lambda (_: nat).O) u))) t))) | Abst \Rightarrow (S (plus (weight_map (\lambda (_: nat).O) u) (weight_map (wadd (\lambda (_: nat).O) O) t))) | Void \Rightarrow (S (plus (weight_map (\lambda (_: nat).O) u) (weight_map (wadd (\lambda (_: nat).O) O) t)))])) (\lambda (u: T).\lambda (t: T).le_S_n (S (weight_map (\lambda (_: nat).O) u)) (S (plus (weight_map (\lambda (_: nat).O) u) (weight_map (wadd (\lambda (_: nat).O) (S (weight_map (\lambda (_: nat).O) u))) t))) (le_n_S (S (weight_map (\lambda (_: nat).O) u)) (S (plus (weight_map (\lambda (_: nat).O) u) (weight_map (wadd (\lambda (_: nat).O) (S (weight_map (\lambda (_: nat).O) u))) t))) (le_n_S (weight_map (\lambda (_: nat).O) u) (plus (weight_map (\lambda (_: nat).O) u) (weight_map (wadd (\lambda (_: nat).O) (S (weight_map (\lambda (_: nat).O) u))) t)) (le_plus_l (weight_map (\lambda (_: nat).O) u) (weight_map (wadd (\lambda (_: nat).O) (S (weight_map (\lambda (_: nat).O) u))) t))))) (\lambda (u: T).\lambda (t: T).le_S_n (S (weight_map (\lambda (_: nat).O) u)) (S (plus (weight_map (\lambda (_: nat).O) u) (weight_map (wadd (\lambda (_: nat).O) O) t))) (le_n_S (S (weight_map (\lambda (_: nat).O) u)) (S (plus (weight_map (\lambda (_: nat).O) u) (weight_map (wadd (\lambda (_: nat).O) O) t))) (le_n_S (weight_map (\lambda (_: nat).O) u) (plus (weight_map (\lambda (_: nat).O) u) (weight_map (wadd (\lambda (_: nat).O) O) t)) (le_plus_l (weight_map (\lambda (_: nat).O) u) (weight_map (wadd (\lambda (_: nat).O) O) t))))) (\lambda (u: T).\lambda (t: T).le_S_n (S (weight_map (\lambda (_: nat).O) u)) (S (plus (weight_map (\lambda (_: nat).O) u) (weight_map (wadd (\lambda (_: nat).O) O) t))) (le_n_S (S (weight_map (\lambda (_: nat).O) u)) (S (plus (weight_map (\lambda (_: nat).O) u) (weight_map (wadd (\lambda (_: nat).O) O) t))) (le_n_S (weight_map (\lambda (_: nat).O) u) (plus (weight_map (\lambda (_: nat).O) u) (weight_map (wadd (\lambda (_: nat).O) O) t)) (le_plus_l (weight_map (\lambda (_: nat).O) u) (weight_map (wadd (\lambda (_: nat).O) O) t))))) b) (\lambda (_: F).\lambda (u: T).\lambda (t: T).le_S_n (S (weight_map (\lambda (_: nat).O) u)) (S (plus (weight_map (\lambda (_: nat).O) u) (weight_map (\lambda (_: nat).O) t))) (le_n_S (S (weight_map (\lambda (_: nat).O) u)) (S (plus (weight_map (\lambda (_: nat).O) u) (weight_map (\lambda (_: nat).O) t))) (le_n_S (weight_map (\lambda (_: nat).O) u) (plus (weight_map (\lambda (_: nat).O) u) (weight_map (\lambda (_: nat).O) t)) (le_plus_l (weight_map (\lambda (_: nat).O) u) (weight_map (\lambda (_: nat).O) t))))) k.
+
+theorem tlt_head_dx: \forall (k: K).\forall (u: T).\forall (t: T).tlt t (THead k u t) \def \lambda (k: K).K_ind (\lambda (k0: K).\forall (u: T).\forall (t: T).lt (weight_map (\lambda (_: nat).O) t) (weight_map (\lambda (_: nat).O) (THead k0 u t))) (\lambda (b: B).B_ind (\lambda (b0: B).\forall (u: T).\forall (t: T).lt (weight_map (\lambda (_: nat).O) t) (match b0 with [Abbr \Rightarrow (S (plus (weight_map (\lambda (_: nat).O) u) (weight_map (wadd (\lambda (_: nat).O) (S (weight_map (\lambda (_: nat).O) u))) t))) | Abst \Rightarrow (S (plus (weight_map (\lambda (_: nat).O) u) (weight_map (wadd (\lambda (_: nat).O) O) t))) | Void \Rightarrow (S (plus (weight_map (\lambda (_: nat).O) u) (weight_map (wadd (\lambda (_: nat).O) O) t)))])) (\lambda (u: T).\lambda (t: T).lt_le_trans (weight_map (\lambda (_: nat).O) t) (S (weight_map (\lambda (_: nat).O) t)) (S (plus (weight_map (\lambda (_: nat).O) u) (weight_map (wadd (\lambda (_: nat).O) (S (weight_map (\lambda (_: nat).O) u))) t))) (lt_n_Sn (weight_map (\lambda (_: nat).O) t)) (le_n_S (weight_map (\lambda (_: nat).O) t) (plus (weight_map (\lambda (_: nat).O) u) (weight_map (wadd (\lambda (_: nat).O) (S (weight_map (\lambda (_: nat).O) u))) t)) (le_trans (weight_map (\lambda (_: nat).O) t) (weight_map (wadd (\lambda (_: nat).O) (S (weight_map (\lambda (_: nat).O) u))) t) (plus (weight_map (\lambda (_: nat).O) u) (weight_map (wadd (\lambda (_: nat).O) (S (weight_map (\lambda (_: nat).O) u))) t)) (eq_ind nat (weight_map (wadd (\lambda (_: nat).O) O) t) (\lambda (n: nat).le n (weight_map (wadd (\lambda (_: nat).O) (S (weight_map (\lambda (_: nat).O) u))) t)) (weight_add_S t (weight_map (\lambda (_: nat).O) u)) (weight_map (\lambda (_: nat).O) t) (weight_add_O t)) (le_plus_r (weight_map (\lambda (_: nat).O) u) (weight_map (wadd (\lambda (_: nat).O) (S (weight_map (\lambda (_: nat).O) u))) t))))) (\lambda (u: T).\lambda (t: T).eq_ind_r nat (weight_map (\lambda (_: nat).O) t) (\lambda (n: nat).lt (weight_map (\lambda (_: nat).O) t) (S (plus (weight_map (\lambda (_: nat).O) u) n))) (le_S_n (S (weight_map (\lambda (_: nat).O) t)) (S (plus (weight_map (\lambda (_: nat).O) u) (weight_map (\lambda (_: nat).O) t))) (le_n_S (S (weight_map (\lambda (_: nat).O) t)) (S (plus (weight_map (\lambda (_: nat).O) u) (weight_map (\lambda (_: nat).O) t))) (le_n_S (weight_map (\lambda (_: nat).O) t) (plus (weight_map (\lambda (_: nat).O) u) (weight_map (\lambda (_: nat).O) t)) (le_plus_r (weight_map (\lambda (_: nat).O) u) (weight_map (\lambda (_: nat).O) t))))) (weight_map (wadd (\lambda (_: nat).O) O) t) (weight_add_O t)) (\lambda (u: T).\lambda (t: T).eq_ind_r nat (weight_map (\lambda (_: nat).O) t) (\lambda (n: nat).lt (weight_map (\lambda (_: nat).O) t) (S (plus (weight_map (\lambda (_: nat).O) u) n))) (le_S_n (S (weight_map (\lambda (_: nat).O) t)) (S (plus (weight_map (\lambda (_: nat).O) u) (weight_map (\lambda (_: nat).O) t))) (le_n_S (S (weight_map (\lambda (_: nat).O) t)) (S (plus (weight_map (\lambda (_: nat).O) u) (weight_map (\lambda (_: nat).O) t))) (le_n_S (weight_map (\lambda (_: nat).O) t) (plus (weight_map (\lambda (_: nat).O) u) (weight_map (\lambda (_: nat).O) t)) (le_plus_r (weight_map (\lambda (_: nat).O) u) (weight_map (\lambda (_: nat).O) t))))) (weight_map (wadd (\lambda (_: nat).O) O) t) (weight_add_O t)) b) (\lambda (_: F).\lambda (u: T).\lambda (t: T).le_S_n (S (weight_map (\lambda (_: nat).O) t)) (S (plus (weight_map (\lambda (_: nat).O) u) (weight_map (\lambda (_: nat).O) t))) (le_n_S (S (weight_map (\lambda (_: nat).O) t)) (S (plus (weight_map (\lambda (_: nat).O) u) (weight_map (\lambda (_: nat).O) t))) (le_n_S (weight_map (\lambda (_: nat).O) t) (plus (weight_map (\lambda (_: nat).O) u) (weight_map (\lambda (_: nat).O) t)) (le_plus_r (weight_map (\lambda (_: nat).O) u) (weight_map (\lambda (_: nat).O) t))))) k.
+
+theorem tlt_wf.__q_ind: \forall (P: ((T \to Prop))).((\forall (n: nat).(\lambda (P: ((T \to Prop))).\lambda (n0: nat).\forall (t: T).(eq nat (weight t) n0) \to P t) P n)) \to \forall (t: T).P t \def let Q \def \lambda (P: ((T \to Prop))).\lambda (n: nat).\forall (t: T).(eq nat (weight t) n) \to P t in \lambda (P: ((T \to Prop))).\lambda (H: ((\forall (n: nat).\forall (t: T).(eq nat (weight t) n) \to P t))).\lambda (t: T).H (weight t) t (refl_equal nat (weight t)).
+
+theorem tlt_wf_ind: \forall (P: ((T \to Prop))).((\forall (t: T).((\forall (v: T).(tlt v t) \to P v)) \to P t)) \to \forall (t: T).P t \def let Q \def \lambda (P: ((T \to Prop))).\lambda (n: nat).\forall (t: T).(eq nat (weight t) n) \to P t in \lambda (P: ((T \to Prop))).\lambda (H: ((\forall (t: T).((\forall (v: T).(lt (weight v) (weight t)) \to P v)) \to P t))).\lambda (t: T).tlt_wf.__q_ind (\lambda (t0: T).P t0) (\lambda (n: nat).lt_wf_ind n (Q (\lambda (t0: T).P t0)) (\lambda (n0: nat).\lambda (H0: ((\forall (m: nat).(lt m n0) \to Q (\lambda (t: T).P t) m))).\lambda (t0: T).\lambda (H1: (eq nat (weight t0) n0)).let H2 \def eq_ind_r nat n0 (\lambda (n: nat).\forall (m: nat).(lt m n) \to \forall (t: T).(eq nat (weight t) m) \to P t) H0 (weight t0) H1 in H t0 (\lambda (v: T).\lambda (H3: (lt (weight v) (weight t0))).H2 (weight v) H3 v (refl_equal nat (weight v))))) t.
+
+inductive iso: T \to T \to Prop \def
+| iso_sort: \forall (n1: nat).\forall (n2: nat).iso (TSort n1) (TSort n2)
+| iso_lref: \forall (i1: nat).\forall (i2: nat).iso (TLRef i1) (TLRef i2)
+| iso_head: \forall (k: K).\forall (v1: T).\forall (v2: T).\forall (t1: T).\forall (t2: T).iso (THead k v1 t1) (THead k v2 t2).
+
+theorem iso_flats_lref_bind_false: \forall (f: F).\forall (b: B).\forall (i: nat).\forall (v: T).\forall (t: T).\forall (vs: TList).(iso (THeads (Flat f) vs (TLRef i)) (THead (Bind b) v t)) \to \forall (P: (Prop)).P \def \lambda (f: F).\lambda (b: B).\lambda (i: nat).\lambda (v: T).\lambda (t: T).\lambda (vs: TList).TList_ind (\lambda (t0: TList).(iso (THeads (Flat f) t0 (TLRef i)) (THead (Bind b) v t)) \to \forall (P: (Prop)).P) (\lambda (H: (iso (TLRef i) (THead (Bind b) v t))).\lambda (P: (Prop)).let H0 \def match H return (\lambda (t0: T).\lambda (t1: T).(eq T t0 (TLRef i)) \to (eq T t1 (THead (Bind b) v t)) \to P) with [(iso_sort n1 n2) \Rightarrow (\lambda (H0: (eq T (TSort n1) (TLRef i))).\lambda (H1: (eq T (TSort n2) (THead (Bind b) v t))).(let H2 \def eq_ind T (TSort n1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow True | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow False]) I (TLRef i) H0 in False_ind ((eq T (TSort n2) (THead (Bind b) v t)) \to P) H2) H1) | (iso_lref i1 i2) \Rightarrow (\lambda (H0: (eq T (TLRef i1) (TLRef i))).\lambda (H1: (eq T (TLRef i2) (THead (Bind b) v t))).(let H2 \def f_equal T nat (\lambda (e: T).match e return nat with [(TSort _) \Rightarrow i1 | (TLRef n) \Rightarrow n | (THead _ _ _) \Rightarrow i1]) (TLRef i1) (TLRef i) H0 in eq_ind nat i (\lambda (_: nat).(eq T (TLRef i2) (THead (Bind b) v t)) \to P) (\lambda (H3: (eq T (TLRef i2) (THead (Bind b) v t))).let H4 \def eq_ind T (TLRef i2) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Bind b) v t) H3 in False_ind P H4) i1 (sym_eq nat i1 i H2)) H1) | (iso_head k v1 v2 t1 t2) \Rightarrow (\lambda (H0: (eq T (THead k v1 t1) (TLRef i))).\lambda (H1: (eq T (THead k v2 t2) (THead (Bind b) v t))).(let H2 \def eq_ind T (THead k v1 t1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef i) H0 in False_ind ((eq T (THead k v2 t2) (THead (Bind b) v t)) \to P) H2) H1)] in H0 (refl_equal T (TLRef i)) (refl_equal T (THead (Bind b) v t))) (\lambda (t0: T).\lambda (t1: TList).\lambda (_: (((iso (THeads (Flat f) t1 (TLRef i)) (THead (Bind b) v t)) \to \forall (P: (Prop)).P))).\lambda (H0: (iso (THead (Flat f) t0 (THeads (Flat f) t1 (TLRef i))) (THead (Bind b) v t))).\lambda (P: (Prop)).let H1 \def match H0 return (\lambda (t2: T).\lambda (t3: T).(eq T t2 (THead (Flat f) t0 (THeads (Flat f) t1 (TLRef i)))) \to (eq T t3 (THead (Bind b) v t)) \to P) with [(iso_sort n1 n2) \Rightarrow (\lambda (H1: (eq T (TSort n1) (THead (Flat f) t0 (THeads (Flat f) t1 (TLRef i))))).\lambda (H2: (eq T (TSort n2) (THead (Bind b) v t))).(let H3 \def eq_ind T (TSort n1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow True | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow False]) I (THead (Flat f) t0 (THeads (Flat f) t1 (TLRef i))) H1 in False_ind ((eq T (TSort n2) (THead (Bind b) v t)) \to P) H3) H2) | (iso_lref i1 i2) \Rightarrow (\lambda (H1: (eq T (TLRef i1) (THead (Flat f) t0 (THeads (Flat f) t1 (TLRef i))))).\lambda (H2: (eq T (TLRef i2) (THead (Bind b) v t))).(let H3 \def eq_ind T (TLRef i1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Flat f) t0 (THeads (Flat f) t1 (TLRef i))) H1 in False_ind ((eq T (TLRef i2) (THead (Bind b) v t)) \to P) H3) H2) | (iso_head k v1 v2 t2 t3) \Rightarrow (\lambda (H1: (eq T (THead k v1 t2) (THead (Flat f) t0 (THeads (Flat f) t1 (TLRef i))))).\lambda (H2: (eq T (THead k v2 t3) (THead (Bind b) v t))).(let H3 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t2 | (TLRef _) \Rightarrow t2 | (THead _ _ t) \Rightarrow t]) (THead k v1 t2) (THead (Flat f) t0 (THeads (Flat f) t1 (TLRef i))) H1 in (let H4 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow v1 | (TLRef _) \Rightarrow v1 | (THead _ t _) \Rightarrow t]) (THead k v1 t2) (THead (Flat f) t0 (THeads (Flat f) t1 (TLRef i))) H1 in (let H5 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k v1 t2) (THead (Flat f) t0 (THeads (Flat f) t1 (TLRef i))) H1 in eq_ind K (Flat f) (\lambda (k0: K).(eq T v1 t0) \to (eq T t2 (THeads (Flat f) t1 (TLRef i))) \to (eq T (THead k0 v2 t3) (THead (Bind b) v t)) \to P) (\lambda (H6: (eq T v1 t0)).eq_ind T t0 (\lambda (_: T).(eq T t2 (THeads (Flat f) t1 (TLRef i))) \to (eq T (THead (Flat f) v2 t3) (THead (Bind b) v t)) \to P) (\lambda (H7: (eq T t2 (THeads (Flat f) t1 (TLRef i)))).eq_ind T (THeads (Flat f) t1 (TLRef i)) (\lambda (_: T).(eq T (THead (Flat f) v2 t3) (THead (Bind b) v t)) \to P) (\lambda (H8: (eq T (THead (Flat f) v2 t3) (THead (Bind b) v t))).let H9 \def eq_ind T (THead (Flat f) v2 t3) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind b) v t) H8 in False_ind P H9) t2 (sym_eq T t2 (THeads (Flat f) t1 (TLRef i)) H7)) v1 (sym_eq T v1 t0 H6)) k (sym_eq K k (Flat f) H5)) H4) H3) H2)] in H1 (refl_equal T (THead (Flat f) t0 (THeads (Flat f) t1 (TLRef i)))) (refl_equal T (THead (Bind b) v t))) vs.
+
+theorem iso_flats_flat_bind_false: \forall (f1: F).\forall (f2: F).\forall (b: B).\forall (v: T).\forall (v2: T).\forall (t: T).\forall (t2: T).\forall (vs: TList).(iso (THeads (Flat f1) vs (THead (Flat f2) v2 t2)) (THead (Bind b) v t)) \to \forall (P: (Prop)).P \def \lambda (f1: F).\lambda (f2: F).\lambda (b: B).\lambda (v: T).\lambda (v2: T).\lambda (t: T).\lambda (t2: T).\lambda (vs: TList).TList_ind (\lambda (t0: TList).(iso (THeads (Flat f1) t0 (THead (Flat f2) v2 t2)) (THead (Bind b) v t)) \to \forall (P: (Prop)).P) (\lambda (H: (iso (THead (Flat f2) v2 t2) (THead (Bind b) v t))).\lambda (P: (Prop)).let H0 \def match H return (\lambda (t0: T).\lambda (t1: T).(eq T t0 (THead (Flat f2) v2 t2)) \to (eq T t1 (THead (Bind b) v t)) \to P) with [(iso_sort n1 n2) \Rightarrow (\lambda (H0: (eq T (TSort n1) (THead (Flat f2) v2 t2))).\lambda (H1: (eq T (TSort n2) (THead (Bind b) v t))).(let H2 \def eq_ind T (TSort n1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow True | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow False]) I (THead (Flat f2) v2 t2) H0 in False_ind ((eq T (TSort n2) (THead (Bind b) v t)) \to P) H2) H1) | (iso_lref i1 i2) \Rightarrow (\lambda (H0: (eq T (TLRef i1) (THead (Flat f2) v2 t2))).\lambda (H1: (eq T (TLRef i2) (THead (Bind b) v t))).(let H2 \def eq_ind T (TLRef i1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Flat f2) v2 t2) H0 in False_ind ((eq T (TLRef i2) (THead (Bind b) v t)) \to P) H2) H1) | (iso_head k v1 v0 t1 t0) \Rightarrow (\lambda (H0: (eq T (THead k v1 t1) (THead (Flat f2) v2 t2))).\lambda (H1: (eq T (THead k v0 t0) (THead (Bind b) v t))).(let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t1 | (TLRef _) \Rightarrow t1 | (THead _ _ t) \Rightarrow t]) (THead k v1 t1) (THead (Flat f2) v2 t2) H0 in (let H3 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow v1 | (TLRef _) \Rightarrow v1 | (THead _ t _) \Rightarrow t]) (THead k v1 t1) (THead (Flat f2) v2 t2) H0 in (let H4 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k v1 t1) (THead (Flat f2) v2 t2) H0 in eq_ind K (Flat f2) (\lambda (k0: K).(eq T v1 v2) \to (eq T t1 t2) \to (eq T (THead k0 v0 t0) (THead (Bind b) v t)) \to P) (\lambda (H5: (eq T v1 v2)).eq_ind T v2 (\lambda (_: T).(eq T t1 t2) \to (eq T (THead (Flat f2) v0 t0) (THead (Bind b) v t)) \to P) (\lambda (H6: (eq T t1 t2)).eq_ind T t2 (\lambda (_: T).(eq T (THead (Flat f2) v0 t0) (THead (Bind b) v t)) \to P) (\lambda (H7: (eq T (THead (Flat f2) v0 t0) (THead (Bind b) v t))).let H8 \def eq_ind T (THead (Flat f2) v0 t0) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind b) v t) H7 in False_ind P H8) t1 (sym_eq T t1 t2 H6)) v1 (sym_eq T v1 v2 H5)) k (sym_eq K k (Flat f2) H4)) H3) H2) H1)] in H0 (refl_equal T (THead (Flat f2) v2 t2)) (refl_equal T (THead (Bind b) v t))) (\lambda (t0: T).\lambda (t1: TList).\lambda (_: (((iso (THeads (Flat f1) t1 (THead (Flat f2) v2 t2)) (THead (Bind b) v t)) \to \forall (P: (Prop)).P))).\lambda (H0: (iso (THead (Flat f1) t0 (THeads (Flat f1) t1 (THead (Flat f2) v2 t2))) (THead (Bind b) v t))).\lambda (P: (Prop)).let H1 \def match H0 return (\lambda (t3: T).\lambda (t4: T).(eq T t3 (THead (Flat f1) t0 (THeads (Flat f1) t1 (THead (Flat f2) v2 t2)))) \to (eq T t4 (THead (Bind b) v t)) \to P) with [(iso_sort n1 n2) \Rightarrow (\lambda (H1: (eq T (TSort n1) (THead (Flat f1) t0 (THeads (Flat f1) t1 (THead (Flat f2) v2 t2))))).\lambda (H2: (eq T (TSort n2) (THead (Bind b) v t))).(let H3 \def eq_ind T (TSort n1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow True | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow False]) I (THead (Flat f1) t0 (THeads (Flat f1) t1 (THead (Flat f2) v2 t2))) H1 in False_ind ((eq T (TSort n2) (THead (Bind b) v t)) \to P) H3) H2) | (iso_lref i1 i2) \Rightarrow (\lambda (H1: (eq T (TLRef i1) (THead (Flat f1) t0 (THeads (Flat f1) t1 (THead (Flat f2) v2 t2))))).\lambda (H2: (eq T (TLRef i2) (THead (Bind b) v t))).(let H3 \def eq_ind T (TLRef i1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Flat f1) t0 (THeads (Flat f1) t1 (THead (Flat f2) v2 t2))) H1 in False_ind ((eq T (TLRef i2) (THead (Bind b) v t)) \to P) H3) H2) | (iso_head k v1 v0 t3 t4) \Rightarrow (\lambda (H1: (eq T (THead k v1 t3) (THead (Flat f1) t0 (THeads (Flat f1) t1 (THead (Flat f2) v2 t2))))).\lambda (H2: (eq T (THead k v0 t4) (THead (Bind b) v t))).(let H3 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t3 | (TLRef _) \Rightarrow t3 | (THead _ _ t) \Rightarrow t]) (THead k v1 t3) (THead (Flat f1) t0 (THeads (Flat f1) t1 (THead (Flat f2) v2 t2))) H1 in (let H4 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow v1 | (TLRef _) \Rightarrow v1 | (THead _ t _) \Rightarrow t]) (THead k v1 t3) (THead (Flat f1) t0 (THeads (Flat f1) t1 (THead (Flat f2) v2 t2))) H1 in (let H5 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k v1 t3) (THead (Flat f1) t0 (THeads (Flat f1) t1 (THead (Flat f2) v2 t2))) H1 in eq_ind K (Flat f1) (\lambda (k0: K).(eq T v1 t0) \to (eq T t3 (THeads (Flat f1) t1 (THead (Flat f2) v2 t2))) \to (eq T (THead k0 v0 t4) (THead (Bind b) v t)) \to P) (\lambda (H6: (eq T v1 t0)).eq_ind T t0 (\lambda (_: T).(eq T t3 (THeads (Flat f1) t1 (THead (Flat f2) v2 t2))) \to (eq T (THead (Flat f1) v0 t4) (THead (Bind b) v t)) \to P) (\lambda (H7: (eq T t3 (THeads (Flat f1) t1 (THead (Flat f2) v2 t2)))).eq_ind T (THeads (Flat f1) t1 (THead (Flat f2) v2 t2)) (\lambda (_: T).(eq T (THead (Flat f1) v0 t4) (THead (Bind b) v t)) \to P) (\lambda (H8: (eq T (THead (Flat f1) v0 t4) (THead (Bind b) v t))).let H9 \def eq_ind T (THead (Flat f1) v0 t4) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind b) v t) H8 in False_ind P H9) t3 (sym_eq T t3 (THeads (Flat f1) t1 (THead (Flat f2) v2 t2)) H7)) v1 (sym_eq T v1 t0 H6)) k (sym_eq K k (Flat f1) H5)) H4) H3) H2)] in H1 (refl_equal T (THead (Flat f1) t0 (THeads (Flat f1) t1 (THead (Flat f2) v2 t2)))) (refl_equal T (THead (Bind b) v t))) vs.
+
+theorem iso_trans: \forall (t1: T).\forall (t2: T).(iso t1 t2) \to \forall (t3: T).(iso t2 t3) \to iso t1 t3 \def \lambda (t1: T).\lambda (t2: T).\lambda (H: (iso t1 t2)).iso_ind (\lambda (t: T).\lambda (t0: T).\forall (t3: T).(iso t0 t3) \to iso t t3) (\lambda (n1: nat).\lambda (n2: nat).\lambda (t3: T).\lambda (H0: (iso (TSort n2) t3)).let H1 \def match H0 return (\lambda (t: T).\lambda (t0: T).(eq T t (TSort n2)) \to (eq T t0 t3) \to iso (TSort n1) t3) with [(iso_sort n0 n3) \Rightarrow (\lambda (H0: (eq T (TSort n0) (TSort n2))).\lambda (H1: (eq T (TSort n3) t3)).(let H2 \def f_equal T nat (\lambda (e: T).match e return nat with [(TSort n) \Rightarrow n | (TLRef _) \Rightarrow n0 | (THead _ _ _) \Rightarrow n0]) (TSort n0) (TSort n2) H0 in eq_ind nat n2 (\lambda (_: nat).(eq T (TSort n3) t3) \to iso (TSort n1) t3) (\lambda (H3: (eq T (TSort n3) t3)).eq_ind T (TSort n3) (\lambda (t: T).iso (TSort n1) t) (iso_sort n1 n3) t3 H3) n0 (sym_eq nat n0 n2 H2)) H1) | (iso_lref i1 i2) \Rightarrow (\lambda (H0: (eq T (TLRef i1) (TSort n2))).\lambda (H1: (eq T (TLRef i2) t3)).(let H2 \def eq_ind T (TLRef i1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (TSort n2) H0 in False_ind ((eq T (TLRef i2) t3) \to iso (TSort n1) t3) H2) H1) | (iso_head k v1 v2 t1 t2) \Rightarrow (\lambda (H0: (eq T (THead k v1 t1) (TSort n2))).\lambda (H1: (eq T (THead k v2 t2) t3)).(let H2 \def eq_ind T (THead k v1 t1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TSort n2) H0 in False_ind ((eq T (THead k v2 t2) t3) \to iso (TSort n1) t3) H2) H1)] in H1 (refl_equal T (TSort n2)) (refl_equal T t3)) (\lambda (i1: nat).\lambda (i2: nat).\lambda (t3: T).\lambda (H0: (iso (TLRef i2) t3)).let H1 \def match H0 return (\lambda (t: T).\lambda (t0: T).(eq T t (TLRef i2)) \to (eq T t0 t3) \to iso (TLRef i1) t3) with [(iso_sort n1 n2) \Rightarrow (\lambda (H0: (eq T (TSort n1) (TLRef i2))).\lambda (H1: (eq T (TSort n2) t3)).(let H2 \def eq_ind T (TSort n1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow True | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow False]) I (TLRef i2) H0 in False_ind ((eq T (TSort n2) t3) \to iso (TLRef i1) t3) H2) H1) | (iso_lref i0 i3) \Rightarrow (\lambda (H0: (eq T (TLRef i0) (TLRef i2))).\lambda (H1: (eq T (TLRef i3) t3)).(let H2 \def f_equal T nat (\lambda (e: T).match e return nat with [(TSort _) \Rightarrow i0 | (TLRef n) \Rightarrow n | (THead _ _ _) \Rightarrow i0]) (TLRef i0) (TLRef i2) H0 in eq_ind nat i2 (\lambda (_: nat).(eq T (TLRef i3) t3) \to iso (TLRef i1) t3) (\lambda (H3: (eq T (TLRef i3) t3)).eq_ind T (TLRef i3) (\lambda (t: T).iso (TLRef i1) t) (iso_lref i1 i3) t3 H3) i0 (sym_eq nat i0 i2 H2)) H1) | (iso_head k v1 v2 t1 t2) \Rightarrow (\lambda (H0: (eq T (THead k v1 t1) (TLRef i2))).\lambda (H1: (eq T (THead k v2 t2) t3)).(let H2 \def eq_ind T (THead k v1 t1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef i2) H0 in False_ind ((eq T (THead k v2 t2) t3) \to iso (TLRef i1) t3) H2) H1)] in H1 (refl_equal T (TLRef i2)) (refl_equal T t3)) (\lambda (k: K).\lambda (v1: T).\lambda (v2: T).\lambda (t3: T).\lambda (t4: T).\lambda (t5: T).\lambda (H0: (iso (THead k v2 t4) t5)).let H1 \def match H0 return (\lambda (t: T).\lambda (t0: T).(eq T t (THead k v2 t4)) \to (eq T t0 t5) \to iso (THead k v1 t3) t5) with [(iso_sort n1 n2) \Rightarrow (\lambda (H0: (eq T (TSort n1) (THead k v2 t4))).\lambda (H1: (eq T (TSort n2) t5)).(let H2 \def eq_ind T (TSort n1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow True | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow False]) I (THead k v2 t4) H0 in False_ind ((eq T (TSort n2) t5) \to iso (THead k v1 t3) t5) H2) H1) | (iso_lref i1 i2) \Rightarrow (\lambda (H0: (eq T (TLRef i1) (THead k v2 t4))).\lambda (H1: (eq T (TLRef i2) t5)).(let H2 \def eq_ind T (TLRef i1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead k v2 t4) H0 in False_ind ((eq T (TLRef i2) t5) \to iso (THead k v1 t3) t5) H2) H1) | (iso_head k0 v0 v3 t0 t4) \Rightarrow (\lambda (H0: (eq T (THead k0 v0 t0) (THead k v2 t4))).\lambda (H1: (eq T (THead k0 v3 t4) t5)).(let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead k0 v0 t0) (THead k v2 t4) H0 in (let H3 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow v0 | (TLRef _) \Rightarrow v0 | (THead _ t _) \Rightarrow t]) (THead k0 v0 t0) (THead k v2 t4) H0 in (let H4 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k0 | (TLRef _) \Rightarrow k0 | (THead k _ _) \Rightarrow k]) (THead k0 v0 t0) (THead k v2 t4) H0 in eq_ind K k (\lambda (k1: K).(eq T v0 v2) \to (eq T t0 t4) \to (eq T (THead k1 v3 t4) t5) \to iso (THead k v1 t3) t5) (\lambda (H5: (eq T v0 v2)).eq_ind T v2 (\lambda (_: T).(eq T t0 t4) \to (eq T (THead k v3 t4) t5) \to iso (THead k v1 t3) t5) (\lambda (H6: (eq T t0 t4)).eq_ind T t4 (\lambda (_: T).(eq T (THead k v3 t4) t5) \to iso (THead k v1 t3) t5) (\lambda (H7: (eq T (THead k v3 t4) t5)).eq_ind T (THead k v3 t4) (\lambda (t: T).iso (THead k v1 t3) t) (iso_head k v1 v3 t3 t4) t5 H7) t0 (sym_eq T t0 t4 H6)) v0 (sym_eq T v0 v2 H5)) k0 (sym_eq K k0 k H4)) H3) H2) H1)] in H1 (refl_equal T (THead k v2 t4)) (refl_equal T t5)) t1 t2 H.
+
+inductive C: Set \def
+| CSort: nat \to C
+| CHead: C \to K \to T \to C.
+
+theorem r: K \to nat \to nat \def \lambda (k: K).\lambda (i: nat).match k with [(Bind _) \Rightarrow i | (Flat _) \Rightarrow (S i)].
+
+theorem clen: C \to nat \def let rec (clen: (\forall (c: C).nat)) = (\lambda (c: C).match c with [(CSort _) \Rightarrow O | (CHead c0 k _) \Rightarrow (s k (clen c0))]) in clen.
+
+theorem r_S: \forall (k: K).\forall (i: nat).eq nat (r k (S i)) (S (r k i)) \def \lambda (k: K).K_ind (\lambda (k0: K).\forall (i: nat).eq nat (r k0 (S i)) (S (r k0 i))) (\lambda (b: B).\lambda (i: nat).refl_equal nat (S (r (Bind b) i))) (\lambda (f: F).\lambda (i: nat).refl_equal nat (S (r (Flat f) i))) k.
+
+theorem r_plus: \forall (k: K).\forall (i: nat).\forall (j: nat).eq nat (r k (plus i j)) (plus (r k i) j) \def \lambda (k: K).K_ind (\lambda (k0: K).\forall (i: nat).\forall (j: nat).eq nat (r k0 (plus i j)) (plus (r k0 i) j)) (\lambda (b: B).\lambda (i: nat).\lambda (j: nat).refl_equal nat (plus (r (Bind b) i) j)) (\lambda (f: F).\lambda (i: nat).\lambda (j: nat).refl_equal nat (plus (r (Flat f) i) j)) k.
+
+theorem r_plus_sym: \forall (k: K).\forall (i: nat).\forall (j: nat).eq nat (r k (plus i j)) (plus i (r k j)) \def \lambda (k: K).K_ind (\lambda (k0: K).\forall (i: nat).\forall (j: nat).eq nat (r k0 (plus i j)) (plus i (r k0 j))) (\lambda (_: B).\lambda (i: nat).\lambda (j: nat).refl_equal nat (plus i j)) (\lambda (_: F).\lambda (i: nat).\lambda (j: nat).plus_n_Sm i j) k.
+
+theorem r_minus: \forall (i: nat).\forall (n: nat).(lt n i) \to \forall (k: K).eq nat (minus (r k i) (S n)) (r k (minus i (S n))) \def \lambda (i: nat).\lambda (n: nat).\lambda (H: (lt n i)).\lambda (k: K).K_ind (\lambda (k0: K).eq nat (minus (r k0 i) (S n)) (r k0 (minus i (S n)))) (\lambda (_: B).refl_equal nat (minus i (S n))) (\lambda (_: F).minus_x_Sy i n H) k.
+
+theorem r_dis: \forall (k: K).\forall (P: (Prop)).((((\forall (i: nat).eq nat (r k i) i)) \to P)) \to ((((\forall (i: nat).eq nat (r k i) (S i))) \to P)) \to P \def \lambda (k: K).K_ind (\lambda (k0: K).\forall (P: (Prop)).((((\forall (i: nat).eq nat (r k0 i) i)) \to P)) \to ((((\forall (i: nat).eq nat (r k0 i) (S i))) \to P)) \to P) (\lambda (b: B).\lambda (P: (Prop)).\lambda (H: ((((\forall (i: nat).eq nat (r (Bind b) i) i)) \to P))).\lambda (_: ((((\forall (i: nat).eq nat (r (Bind b) i) (S i))) \to P))).H (\lambda (i: nat).refl_equal nat i)) (\lambda (f: F).\lambda (P: (Prop)).\lambda (_: ((((\forall (i: nat).eq nat (r (Flat f) i) i)) \to P))).\lambda (H0: ((((\forall (i: nat).eq nat (r (Flat f) i) (S i))) \to P))).H0 (\lambda (i: nat).refl_equal nat (S i))) k.
+
+theorem s_r: \forall (k: K).\forall (i: nat).eq nat (s k (r k i)) (S i) \def \lambda (k: K).match k return (\lambda (k0: K).\forall (i: nat).eq nat (s k0 (r k0 i)) (S i)) with [(Bind _) \Rightarrow (\lambda (i: nat).refl_equal nat (S i)) | (Flat _) \Rightarrow (\lambda (i: nat).refl_equal nat (S i))].
+
+theorem r_arith0: \forall (k: K).\forall (i: nat).eq nat (minus (r k (S i)) (S O)) (r k i) \def \lambda (k: K).\lambda (i: nat).eq_ind_r nat (S (r k i)) (\lambda (n: nat).eq nat (minus n (S O)) (r k i)) (eq_ind_r nat (r k i) (\lambda (n: nat).eq nat n (r k i)) (refl_equal nat (r k i)) (minus (S (r k i)) (S O)) (minus_Sx_SO (r k i))) (r k (S i)) (r_S k i).
+
+theorem r_arith1: \forall (k: K).\forall (i: nat).\forall (j: nat).eq nat (minus (r k (S i)) (S j)) (minus (r k i) j) \def \lambda (k: K).\lambda (i: nat).\lambda (j: nat).eq_ind_r nat (S (r k i)) (\lambda (n: nat).eq nat (minus n (S j)) (minus (r k i) j)) (refl_equal nat (minus (r k i) j)) (r k (S i)) (r_S k i).
+
+theorem tweight: T \to nat \def let rec (tweight: (\forall (t: T).nat)) = (\lambda (t: T).match t with [(TSort _) \Rightarrow (S O) | (TLRef _) \Rightarrow (S O) | (THead _ u t0) \Rightarrow (S (plus (tweight u) (tweight t0)))]) in tweight.
+
+theorem cweight: C \to nat \def let rec (cweight: (\forall (c: C).nat)) = (\lambda (c: C).match c with [(CSort _) \Rightarrow O | (CHead c0 _ t) \Rightarrow (plus (cweight c0) (tweight t))]) in cweight.
+
+theorem clt: C \to C \to Prop \def \lambda (c1: C).\lambda (c2: C).lt (cweight c1) (cweight c2).
+
+theorem cle: C \to C \to Prop \def \lambda (c1: C).\lambda (c2: C).le (cweight c1) (cweight c2).
+
+theorem tweight_lt: \forall (t: T).lt O (tweight t) \def \lambda (t: T).match t return (\lambda (t0: T).lt O (tweight t0)) with [(TSort _) \Rightarrow (le_n (S O)) | (TLRef _) \Rightarrow (le_n (S O)) | (THead _ t0 t1) \Rightarrow (le_S_n (S O) (S (plus (tweight t0) (tweight t1))) (le_n_S (S O) (S (plus (tweight t0) (tweight t1))) (le_n_S O (plus (tweight t0) (tweight t1)) (le_O_n (plus (tweight t0) (tweight t1))))))].
+
+theorem clt_cong: \forall (c: C).\forall (d: C).(clt c d) \to \forall (k: K).\forall (t: T).clt (CHead c k t) (CHead d k t) \def \lambda (c: C).\lambda (d: C).\lambda (H: (lt (cweight c) (cweight d))).\lambda (_: K).\lambda (t: T).lt_le_S (plus (cweight c) (tweight t)) (plus (cweight d) (tweight t)) (lt_reg_r (cweight c) (cweight d) (tweight t) H).
+
+theorem clt_head: \forall (k: K).\forall (c: C).\forall (u: T).clt c (CHead c k u) \def \lambda (_: K).\lambda (c: C).\lambda (u: T).eq_ind_r nat (plus (cweight c) O) (\lambda (n: nat).lt n (plus (cweight c) (tweight u))) (lt_le_S (plus (cweight c) O) (plus (cweight c) (tweight u)) (le_lt_plus_plus (cweight c) (cweight c) O (tweight u) (le_n (cweight c)) (tweight_lt u))) (cweight c) (plus_n_O (cweight c)).
+
+theorem clt_wf.__q_ind: \forall (P: ((C \to Prop))).((\forall (n: nat).(\lambda (P: ((C \to Prop))).\lambda (n0: nat).\forall (c: C).(eq nat (cweight c) n0) \to P c) P n)) \to \forall (c: C).P c \def let Q \def \lambda (P: ((C \to Prop))).\lambda (n: nat).\forall (c: C).(eq nat (cweight c) n) \to P c in \lambda (P: ((C \to Prop))).\lambda (H: ((\forall (n: nat).\forall (c: C).(eq nat (cweight c) n) \to P c))).\lambda (c: C).H (cweight c) c (refl_equal nat (cweight c)).
+
+theorem clt_wf_ind: \forall (P: ((C \to Prop))).((\forall (c: C).((\forall (d: C).(clt d c) \to P d)) \to P c)) \to \forall (c: C).P c \def let Q \def \lambda (P: ((C \to Prop))).\lambda (n: nat).\forall (c: C).(eq nat (cweight c) n) \to P c in \lambda (P: ((C \to Prop))).\lambda (H: ((\forall (c: C).((\forall (d: C).(lt (cweight d) (cweight c)) \to P d)) \to P c))).\lambda (c: C).clt_wf.__q_ind (\lambda (c0: C).P c0) (\lambda (n: nat).lt_wf_ind n (Q (\lambda (c0: C).P c0)) (\lambda (n0: nat).\lambda (H0: ((\forall (m: nat).(lt m n0) \to Q (\lambda (c: C).P c) m))).\lambda (c0: C).\lambda (H1: (eq nat (cweight c0) n0)).let H2 \def eq_ind_r nat n0 (\lambda (n: nat).\forall (m: nat).(lt m n) \to \forall (c: C).(eq nat (cweight c) m) \to P c) H0 (cweight c0) H1 in H c0 (\lambda (d: C).\lambda (H3: (lt (cweight d) (cweight c0))).H2 (cweight d) H3 d (refl_equal nat (cweight d))))) c.
+
+theorem CTail: K \to T \to C \to C \def let rec (CTail: (\forall (k: K).\forall (t: T).\forall (c: C).C)) = (\lambda (k: K).\lambda (t: T).\lambda (c: C).match c with [(CSort n) \Rightarrow (CHead (CSort n) k t) | (CHead d h u) \Rightarrow (CHead (CTail k t d) h u)]) in CTail.
+
+theorem chead_ctail: \forall (c: C).\forall (t: T).\forall (k: K).ex_3 K C T (\lambda (h: K).\lambda (d: C).\lambda (u: T).eq C (CHead c k t) (CTail h u d)) \def \lambda (c: C).C_ind (\lambda (c0: C).\forall (t: T).\forall (k: K).ex_3 K C T (\lambda (h: K).\lambda (d: C).\lambda (u: T).eq C (CHead c0 k t) (CTail h u d))) (\lambda (n: nat).\lambda (t: T).\lambda (k: K).ex_3_intro K C T (\lambda (h: K).\lambda (d: C).\lambda (u: T).eq C (CHead (CSort n) k t) (CTail h u d)) k (CSort n) t (refl_equal C (CHead (CSort n) k t))) (\lambda (c0: C).\lambda (H: ((\forall (t: T).\forall (k: K).ex_3 K C T (\lambda (h: K).\lambda (d: C).\lambda (u: T).eq C (CHead c0 k t) (CTail h u d))))).\lambda (k: K).\lambda (t: T).\lambda (t0: T).\lambda (k0: K).let H_x \def H t k in let H0 \def H_x in ex_3_ind K C T (\lambda (h: K).\lambda (d: C).\lambda (u: T).eq C (CHead c0 k t) (CTail h u d)) (ex_3 K C T (\lambda (h: K).\lambda (d: C).\lambda (u: T).eq C (CHead (CHead c0 k t) k0 t0) (CTail h u d))) (\lambda (x0: K).\lambda (x1: C).\lambda (x2: T).\lambda (H1: (eq C (CHead c0 k t) (CTail x0 x2 x1))).eq_ind_r C (CTail x0 x2 x1) (\lambda (c1: C).ex_3 K C T (\lambda (h: K).\lambda (d: C).\lambda (u: T).eq C (CHead c1 k0 t0) (CTail h u d))) (ex_3_intro K C T (\lambda (h: K).\lambda (d: C).\lambda (u: T).eq C (CHead (CTail x0 x2 x1) k0 t0) (CTail h u d)) x0 (CHead x1 k0 t0) x2 (refl_equal C (CHead (CTail x0 x2 x1) k0 t0))) (CHead c0 k t) H1) H0) c.
+
+theorem clt_thead: \forall (k: K).\forall (u: T).\forall (c: C).clt c (CTail k u c) \def \lambda (k: K).\lambda (u: T).\lambda (c: C).C_ind (\lambda (c0: C).clt c0 (CTail k u c0)) (\lambda (n: nat).clt_head k (CSort n) u) (\lambda (c0: C).\lambda (H: (clt c0 (CTail k u c0))).\lambda (k0: K).\lambda (t: T).clt_cong c0 (CTail k u c0) H k0 t) c.
+
+theorem c_tail_ind: \forall (P: ((C \to Prop))).((\forall (n: nat).P (CSort n))) \to ((\forall (c: C).(P c) \to \forall (k: K).\forall (t: T).P (CTail k t c))) \to \forall (c: C).P c \def \lambda (P: ((C \to Prop))).\lambda (H: ((\forall (n: nat).P (CSort n)))).\lambda (H0: ((\forall (c: C).(P c) \to \forall (k: K).\forall (t: T).P (CTail k t c)))).\lambda (c: C).clt_wf_ind (\lambda (c0: C).P c0) (\lambda (c0: C).match c0 return (\lambda (c1: C).((\forall (d: C).(clt d c1) \to P d)) \to P c1) with [(CSort n) \Rightarrow (\lambda (_: ((\forall (d: C).(clt d (CSort n)) \to P d))).H n) | (CHead c1 k t) \Rightarrow (\lambda (H1: ((\forall (d: C).(clt d (CHead c1 k t)) \to P d))).let H_x \def chead_ctail c1 t k in let H2 \def H_x in ex_3_ind K C T (\lambda (h: K).\lambda (d: C).\lambda (u: T).eq C (CHead c1 k t) (CTail h u d)) (P (CHead c1 k t)) (\lambda (x0: K).\lambda (x1: C).\lambda (x2: T).\lambda (H3: (eq C (CHead c1 k t) (CTail x0 x2 x1))).eq_ind_r C (CTail x0 x2 x1) (\lambda (c2: C).P c2) (let H4 \def eq_ind C (CHead c1 k t) (\lambda (c: C).\forall (d: C).(clt d c) \to P d) H1 (CTail x0 x2 x1) H3 in H0 x1 (H4 x1 (clt_thead x0 x2 x1)) x0 x2) (CHead c1 k t) H3) H2)]) c.
+
+theorem fweight: C \to T \to nat \def \lambda (c: C).\lambda (t: T).plus (cweight c) (tweight t).
+
+theorem flt: C \to T \to C \to T \to Prop \def \lambda (c1: C).\lambda (t1: T).\lambda (c2: C).\lambda (t2: T).lt (fweight c1 t1) (fweight c2 t2).
+
+theorem flt_thead_sx: \forall (k: K).\forall (c: C).\forall (u: T).\forall (t: T).flt c u c (THead k u t) \def \lambda (_: K).\lambda (c: C).\lambda (u: T).\lambda (t: T).lt_le_S (plus (cweight c) (tweight u)) (plus (cweight c) (S (plus (tweight u) (tweight t)))) (le_lt_plus_plus (cweight c) (cweight c) (tweight u) (S (plus (tweight u) (tweight t))) (le_n (cweight c)) (le_lt_n_Sm (tweight u) (plus (tweight u) (tweight t)) (le_plus_l (tweight u) (tweight t)))).
+
+theorem flt_thead_dx: \forall (k: K).\forall (c: C).\forall (u: T).\forall (t: T).flt c t c (THead k u t) \def \lambda (_: K).\lambda (c: C).\lambda (u: T).\lambda (t: T).lt_le_S (plus (cweight c) (tweight t)) (plus (cweight c) (S (plus (tweight u) (tweight t)))) (le_lt_plus_plus (cweight c) (cweight c) (tweight t) (S (plus (tweight u) (tweight t))) (le_n (cweight c)) (le_lt_n_Sm (tweight t) (plus (tweight u) (tweight t)) (le_plus_r (tweight u) (tweight t)))).
+
+theorem flt_shift: \forall (k: K).\forall (c: C).\forall (u: T).\forall (t: T).flt (CHead c k u) t c (THead k u t) \def \lambda (_: K).\lambda (c: C).\lambda (u: T).\lambda (t: T).eq_ind nat (S (plus (cweight c) (plus (tweight u) (tweight t)))) (\lambda (n: nat).lt (plus (plus (cweight c) (tweight u)) (tweight t)) n) (eq_ind_r nat (plus (plus (cweight c) (tweight u)) (tweight t)) (\lambda (n: nat).lt (plus (plus (cweight c) (tweight u)) (tweight t)) (S n)) (le_n (S (plus (plus (cweight c) (tweight u)) (tweight t)))) (plus (cweight c) (plus (tweight u) (tweight t))) (plus_assoc_l (cweight c) (tweight u) (tweight t))) (plus (cweight c) (S (plus (tweight u) (tweight t)))) (plus_n_Sm (cweight c) (plus (tweight u) (tweight t))).
+
+theorem flt_arith0: \forall (k: K).\forall (c: C).\forall (t: T).\forall (i: nat).flt c t (CHead c k t) (TLRef i) \def \lambda (_: K).\lambda (c: C).\lambda (t: T).\lambda (_: nat).le_S_n (S (plus (cweight c) (tweight t))) (plus (plus (cweight c) (tweight t)) (S O)) (lt_le_S (S (plus (cweight c) (tweight t))) (S (plus (plus (cweight c) (tweight t)) (S O))) (lt_n_S (plus (cweight c) (tweight t)) (plus (plus (cweight c) (tweight t)) (S O)) (lt_x_plus_x_Sy (plus (cweight c) (tweight t)) O))).
+
+theorem flt_arith1: \forall (k1: K).\forall (c1: C).\forall (c2: C).\forall (t1: T).(cle (CHead c1 k1 t1) c2) \to \forall (k2: K).\forall (t2: T).\forall (i: nat).flt c1 t1 (CHead c2 k2 t2) (TLRef i) \def \lambda (_: K).\lambda (c1: C).\lambda (c2: C).\lambda (t1: T).\lambda (H: (le (plus (cweight c1) (tweight t1)) (cweight c2))).\lambda (_: K).\lambda (t2: T).\lambda (_: nat).le_lt_trans (plus (cweight c1) (tweight t1)) (cweight c2) (plus (plus (cweight c2) (tweight t2)) (S O)) H (eq_ind_r nat (plus (S O) (plus (cweight c2) (tweight t2))) (\lambda (n: nat).lt (cweight c2) n) (le_lt_n_Sm (cweight c2) (plus (cweight c2) (tweight t2)) (le_plus_l (cweight c2) (tweight t2))) (plus (plus (cweight c2) (tweight t2)) (S O)) (plus_sym (plus (cweight c2) (tweight t2)) (S O))).
+
+theorem flt_arith2: \forall (c1: C).\forall (c2: C).\forall (t1: T).\forall (i: nat).(flt c1 t1 c2 (TLRef i)) \to \forall (k2: K).\forall (t2: T).\forall (j: nat).flt c1 t1 (CHead c2 k2 t2) (TLRef j) \def \lambda (c1: C).\lambda (c2: C).\lambda (t1: T).\lambda (_: nat).\lambda (H: (lt (plus (cweight c1) (tweight t1)) (plus (cweight c2) (S O)))).\lambda (_: K).\lambda (t2: T).\lambda (_: nat).lt_le_trans (plus (cweight c1) (tweight t1)) (plus (cweight c2) (S O)) (plus (plus (cweight c2) (tweight t2)) (S O)) H (le_S_n (plus (cweight c2) (S O)) (plus (plus (cweight c2) (tweight t2)) (S O)) (lt_le_S (plus (cweight c2) (S O)) (S (plus (plus (cweight c2) (tweight t2)) (S O))) (le_lt_n_Sm (plus (cweight c2) (S O)) (plus (plus (cweight c2) (tweight t2)) (S O)) (le_plus_plus (cweight c2) (plus (cweight c2) (tweight t2)) (S O) (S O) (le_plus_l (cweight c2) (tweight t2)) (le_n (S O)))))).
+
+theorem flt_wf.__q_ind: \forall (P: ((C \to T \to Prop))).((\forall (n: nat).(\lambda (P: ((C \to T \to Prop))).\lambda (n0: nat).\forall (c: C).\forall (t: T).(eq nat (fweight c t) n0) \to P c t) P n)) \to \forall (c: C).\forall (t: T).P c t \def let Q \def \lambda (P: ((C \to T \to Prop))).\lambda (n: nat).\forall (c: C).\forall (t: T).(eq nat (fweight c t) n) \to P c t in \lambda (P: ((C \to T \to Prop))).\lambda (H: ((\forall (n: nat).\forall (c: C).\forall (t: T).(eq nat (fweight c t) n) \to P c t))).\lambda (c: C).\lambda (t: T).H (fweight c t) c t (refl_equal nat (fweight c t)).
+
+theorem flt_wf_ind: \forall (P: ((C \to T \to Prop))).((\forall (c2: C).\forall (t2: T).((\forall (c1: C).\forall (t1: T).(flt c1 t1 c2 t2) \to P c1 t1)) \to P c2 t2)) \to \forall (c: C).\forall (t: T).P c t \def let Q \def \lambda (P: ((C \to T \to Prop))).\lambda (n: nat).\forall (c: C).\forall (t: T).(eq nat (fweight c t) n) \to P c t in \lambda (P: ((C \to T \to Prop))).\lambda (H: ((\forall (c2: C).\forall (t2: T).((\forall (c1: C).\forall (t1: T).(flt c1 t1 c2 t2) \to P c1 t1)) \to P c2 t2))).\lambda (c: C).\lambda (t: T).flt_wf.__q_ind P (\lambda (n: nat).lt_wf_ind n (Q P) (\lambda (n0: nat).\lambda (H0: ((\forall (m: nat).(lt m n0) \to Q P m))).\lambda (c0: C).\lambda (t0: T).\lambda (H1: (eq nat (fweight c0 t0) n0)).let H2 \def eq_ind_r nat n0 (\lambda (n: nat).\forall (m: nat).(lt m n) \to \forall (c: C).\forall (t: T).(eq nat (fweight c t) m) \to P c t) H0 (fweight c0 t0) H1 in H c0 t0 (\lambda (c1: C).\lambda (t1: T).\lambda (H3: (flt c1 t1 c0 t0)).H2 (fweight c1 t1) H3 c1 t1 (refl_equal nat (fweight c1 t1))))) c t.
+
+theorem lref_map: ((nat \to nat)) \to nat \to T \to T \def let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map.
+
+theorem lift: nat \to nat \to T \to T \def \lambda (h: nat).\lambda (i: nat).\lambda (t: T).lref_map (\lambda (x: nat).plus x h) i t.
+
+theorem lifts: nat \to nat \to TList \to TList \def let rec (lifts: (\forall (h: nat).\forall (d: nat).\forall (ts: TList).TList)) = (\lambda (h: nat).\lambda (d: nat).\lambda (ts: TList).match ts with [TNil \Rightarrow TNil | (TCons t ts0) \Rightarrow (TCons (lift h d t) (lifts h d ts0))]) in lifts.
+
+theorem lift_sort: \forall (n: nat).\forall (h: nat).\forall (d: nat).eq T (lift h d (TSort n)) (TSort n) \def \lambda (n: nat).\lambda (_: nat).\lambda (_: nat).refl_equal T (TSort n).
+
+theorem lift_lref_lt: \forall (n: nat).\forall (h: nat).\forall (d: nat).(lt n d) \to eq T (lift h d (TLRef n)) (TLRef n) \def \lambda (n: nat).\lambda (h: nat).\lambda (d: nat).\lambda (H: (lt n d)).eq_ind bool true (\lambda (b: bool).eq T (TLRef (match b with [true \Rightarrow n | false \Rightarrow (plus n h)])) (TLRef n)) (refl_equal T (TLRef n)) (blt n d) (sym_equal bool (blt n d) true (lt_blt d n H)).
+
+theorem lift_lref_ge: \forall (n: nat).\forall (h: nat).\forall (d: nat).(le d n) \to eq T (lift h d (TLRef n)) (TLRef (plus n h)) \def \lambda (n: nat).\lambda (h: nat).\lambda (d: nat).\lambda (H: (le d n)).eq_ind bool false (\lambda (b: bool).eq T (TLRef (match b with [true \Rightarrow n | false \Rightarrow (plus n h)])) (TLRef (plus n h))) (refl_equal T (TLRef (plus n h))) (blt n d) (sym_equal bool (blt n d) false (le_bge d n H)).
+
+theorem lift_head: \forall (k: K).\forall (u: T).\forall (t: T).\forall (h: nat).\forall (d: nat).eq T (lift h d (THead k u t)) (THead k (lift h d u) (lift h (s k d) t)) \def \lambda (k: K).\lambda (u: T).\lambda (t: T).\lambda (h: nat).\lambda (d: nat).refl_equal T (THead k (lift h d u) (lift h (s k d) t)).
+
+theorem lift_bind: \forall (b: B).\forall (u: T).\forall (t: T).\forall (h: nat).\forall (d: nat).eq T (lift h d (THead (Bind b) u t)) (THead (Bind b) (lift h d u) (lift h (S d) t)) \def \lambda (b: B).\lambda (u: T).\lambda (t: T).\lambda (h: nat).\lambda (d: nat).refl_equal T (THead (Bind b) (lift h d u) (lift h (S d) t)).
+
+theorem lift_flat: \forall (f: F).\forall (u: T).\forall (t: T).\forall (h: nat).\forall (d: nat).eq T (lift h d (THead (Flat f) u t)) (THead (Flat f) (lift h d u) (lift h d t)) \def \lambda (f: F).\lambda (u: T).\lambda (t: T).\lambda (h: nat).\lambda (d: nat).refl_equal T (THead (Flat f) (lift h d u) (lift h d t)).
+
+theorem lift_gen_sort: \forall (h: nat).\forall (d: nat).\forall (n: nat).\forall (t: T).(eq T (TSort n) (lift h d t)) \to eq T t (TSort n) \def \lambda (h: nat).\lambda (d: nat).\lambda (n: nat).\lambda (t: T).T_ind (\lambda (t0: T).(eq T (TSort n) (lift h d t0)) \to eq T t0 (TSort n)) (\lambda (n0: nat).\lambda (H: (eq T (TSort n) (lift h d (TSort n0)))).sym_eq T (TSort n) (TSort n0) H) (\lambda (n0: nat).\lambda (H: (eq T (TSort n) (lift h d (TLRef n0)))).lt_le_e n0 d (eq T (TLRef n0) (TSort n)) (\lambda (H0: (lt n0 d)).let H1 \def eq_ind T (lift h d (TLRef n0)) (\lambda (t: T).eq T (TSort n) t) H (TLRef n0) (lift_lref_lt n0 h d H0) in let H2 \def match H1 return (\lambda (t: T).(eq T t (TLRef n0)) \to eq T (TLRef n0) (TSort n)) with [refl_equal \Rightarrow (\lambda (H1: (eq T (TSort n) (TLRef n0))).let H2 \def eq_ind T (TSort n) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow True | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow False]) I (TLRef n0) H1 in False_ind (eq T (TLRef n0) (TSort n)) H2)] in H2 (refl_equal T (TLRef n0))) (\lambda (H0: (le d n0)).let H1 \def eq_ind T (lift h d (TLRef n0)) (\lambda (t: T).eq T (TSort n) t) H (TLRef (plus n0 h)) (lift_lref_ge n0 h d H0) in let H2 \def match H1 return (\lambda (t: T).(eq T t (TLRef (plus n0 h))) \to eq T (TLRef n0) (TSort n)) with [refl_equal \Rightarrow (\lambda (H1: (eq T (TSort n) (TLRef (plus n0 h)))).let H2 \def eq_ind T (TSort n) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow True | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow False]) I (TLRef (plus n0 h)) H1 in False_ind (eq T (TLRef n0) (TSort n)) H2)] in H2 (refl_equal T (TLRef (plus n0 h))))) (\lambda (k: K).\lambda (t0: T).\lambda (_: (((eq T (TSort n) (lift h d t0)) \to eq T t0 (TSort n)))).\lambda (t1: T).\lambda (_: (((eq T (TSort n) (lift h d t1)) \to eq T t1 (TSort n)))).\lambda (H1: (eq T (TSort n) (lift h d (THead k t0 t1)))).let H2 \def eq_ind T (lift h d (THead k t0 t1)) (\lambda (t: T).eq T (TSort n) t) H1 (THead k (lift h d t0) (lift h (s k d) t1)) (lift_head k t0 t1 h d) in let H3 \def match H2 return (\lambda (t: T).(eq T t (THead k (lift h d t0) (lift h (s k d) t1))) \to eq T (THead k t0 t1) (TSort n)) with [refl_equal \Rightarrow (\lambda (H2: (eq T (TSort n) (THead k (lift h d t0) (lift h (s k d) t1)))).let H3 \def eq_ind T (TSort n) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow True | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow False]) I (THead k (lift h d t0) (lift h (s k d) t1)) H2 in False_ind (eq T (THead k t0 t1) (TSort n)) H3)] in H3 (refl_equal T (THead k (lift h d t0) (lift h (s k d) t1)))) t.
+
+theorem lift_gen_lref: \forall (t: T).\forall (d: nat).\forall (h: nat).\forall (i: nat).(eq T (TLRef i) (lift h d t)) \to or (and (lt i d) (eq T t (TLRef i))) (and (le (plus d h) i) (eq T t (TLRef (minus i h)))) \def \lambda (t: T).T_ind (\lambda (t0: T).\forall (d: nat).\forall (h: nat).\forall (i: nat).(eq T (TLRef i) (lift h d t0)) \to or (and (lt i d) (eq T t0 (TLRef i))) (and (le (plus d h) i) (eq T t0 (TLRef (minus i h))))) (\lambda (n: nat).\lambda (d: nat).\lambda (h: nat).\lambda (i: nat).\lambda (H: (eq T (TLRef i) (lift h d (TSort n)))).let H0 \def eq_ind T (lift h d (TSort n)) (\lambda (t: T).eq T (TLRef i) t) H (TSort n) (lift_sort n h d) in let H1 \def eq_ind T (TLRef i) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (TSort n) H0 in False_ind (or (and (lt i d) (eq T (TSort n) (TLRef i))) (and (le (plus d h) i) (eq T (TSort n) (TLRef (minus i h))))) H1) (\lambda (n: nat).\lambda (d: nat).\lambda (h: nat).\lambda (i: nat).\lambda (H: (eq T (TLRef i) (lift h d (TLRef n)))).lt_le_e n d (or (and (lt i d) (eq T (TLRef n) (TLRef i))) (and (le (plus d h) i) (eq T (TLRef n) (TLRef (minus i h))))) (\lambda (H0: (lt n d)).let H1 \def eq_ind T (lift h d (TLRef n)) (\lambda (t: T).eq T (TLRef i) t) H (TLRef n) (lift_lref_lt n h d H0) in let H2 \def f_equal T nat (\lambda (e: T).match e return nat with [(TSort _) \Rightarrow i | (TLRef n) \Rightarrow n | (THead _ _ _) \Rightarrow i]) (TLRef i) (TLRef n) H1 in eq_ind_r nat n (\lambda (n0: nat).or (and (lt n0 d) (eq T (TLRef n) (TLRef n0))) (and (le (plus d h) n0) (eq T (TLRef n) (TLRef (minus n0 h))))) (or_introl (and (lt n d) (eq T (TLRef n) (TLRef n))) (and (le (plus d h) n) (eq T (TLRef n) (TLRef (minus n h)))) (conj (lt n d) (eq T (TLRef n) (TLRef n)) H0 (refl_equal T (TLRef n)))) i H2) (\lambda (H0: (le d n)).let H1 \def eq_ind T (lift h d (TLRef n)) (\lambda (t: T).eq T (TLRef i) t) H (TLRef (plus n h)) (lift_lref_ge n h d H0) in let H2 \def f_equal T nat (\lambda (e: T).match e return nat with [(TSort _) \Rightarrow i | (TLRef n) \Rightarrow n | (THead _ _ _) \Rightarrow i]) (TLRef i) (TLRef (plus n h)) H1 in eq_ind_r nat (plus n h) (\lambda (n0: nat).or (and (lt n0 d) (eq T (TLRef n) (TLRef n0))) (and (le (plus d h) n0) (eq T (TLRef n) (TLRef (minus n0 h))))) (eq_ind_r nat n (\lambda (n0: nat).or (and (lt (plus n h) d) (eq T (TLRef n) (TLRef (plus n h)))) (and (le (plus d h) (plus n h)) (eq T (TLRef n) (TLRef n0)))) (or_intror (and (lt (plus n h) d) (eq T (TLRef n) (TLRef (plus n h)))) (and (le (plus d h) (plus n h)) (eq T (TLRef n) (TLRef n))) (conj (le (plus d h) (plus n h)) (eq T (TLRef n) (TLRef n)) (le_plus_plus d n h h H0 (le_n h)) (refl_equal T (TLRef n)))) (minus (plus n h) h) (minus_plus_r n h)) i H2)) (\lambda (k: K).\lambda (t0: T).\lambda (_: ((\forall (d: nat).\forall (h: nat).\forall (i: nat).(eq T (TLRef i) (lift h d t0)) \to or (and (lt i d) (eq T t0 (TLRef i))) (and (le (plus d h) i) (eq T t0 (TLRef (minus i h))))))).\lambda (t1: T).\lambda (_: ((\forall (d: nat).\forall (h: nat).\forall (i: nat).(eq T (TLRef i) (lift h d t1)) \to or (and (lt i d) (eq T t1 (TLRef i))) (and (le (plus d h) i) (eq T t1 (TLRef (minus i h))))))).\lambda (d: nat).\lambda (h: nat).\lambda (i: nat).\lambda (H1: (eq T (TLRef i) (lift h d (THead k t0 t1)))).let H2 \def eq_ind T (lift h d (THead k t0 t1)) (\lambda (t: T).eq T (TLRef i) t) H1 (THead k (lift h d t0) (lift h (s k d) t1)) (lift_head k t0 t1 h d) in let H3 \def eq_ind T (TLRef i) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead k (lift h d t0) (lift h (s k d) t1)) H2 in False_ind (or (and (lt i d) (eq T (THead k t0 t1) (TLRef i))) (and (le (plus d h) i) (eq T (THead k t0 t1) (TLRef (minus i h))))) H3) t.
+
+theorem lift_gen_lref_lt: \forall (h: nat).\forall (d: nat).\forall (n: nat).(lt n d) \to \forall (t: T).(eq T (TLRef n) (lift h d t)) \to eq T t (TLRef n) \def \lambda (h: nat).\lambda (d: nat).\lambda (n: nat).\lambda (H: (lt n d)).\lambda (t: T).T_ind (\lambda (t0: T).(eq T (TLRef n) (lift h d t0)) \to eq T t0 (TLRef n)) (\lambda (n0: nat).\lambda (H0: (eq T (TLRef n) (lift h d (TSort n0)))).sym_eq T (TLRef n) (TSort n0) H0) (\lambda (n0: nat).\lambda (H0: (eq T (TLRef n) (lift h d (TLRef n0)))).lt_le_e n0 d (eq T (TLRef n0) (TLRef n)) (\lambda (H1: (lt n0 d)).let H2 \def eq_ind T (lift h d (TLRef n0)) (\lambda (t: T).eq T (TLRef n) t) H0 (TLRef n0) (lift_lref_lt n0 h d H1) in sym_eq T (TLRef n) (TLRef n0) H2) (\lambda (H1: (le d n0)).let H2 \def eq_ind T (lift h d (TLRef n0)) (\lambda (t: T).eq T (TLRef n) t) H0 (TLRef (plus n0 h)) (lift_lref_ge n0 h d H1) in let H3 \def match H2 return (\lambda (t: T).(eq T t (TLRef (plus n0 h))) \to eq T (TLRef n0) (TLRef n)) with [refl_equal \Rightarrow (\lambda (H2: (eq T (TLRef n) (TLRef (plus n0 h)))).let H3 \def f_equal T nat (\lambda (e: T).match e return nat with [(TSort _) \Rightarrow n | (TLRef n) \Rightarrow n | (THead _ _ _) \Rightarrow n]) (TLRef n) (TLRef (plus n0 h)) H2 in eq_ind nat (plus n0 h) (\lambda (n: nat).eq T (TLRef n0) (TLRef n)) (let H0 \def eq_ind nat n (\lambda (n: nat).lt n d) H (plus n0 h) H3 in le_false d n0 (eq T (TLRef n0) (TLRef (plus n0 h))) H1 (lt_le_S n0 d (le_lt_trans n0 (plus n0 h) d (le_plus_l n0 h) H0))) n (sym_eq nat n (plus n0 h) H3))] in H3 (refl_equal T (TLRef (plus n0 h))))) (\lambda (k: K).\lambda (t0: T).\lambda (_: (((eq T (TLRef n) (lift h d t0)) \to eq T t0 (TLRef n)))).\lambda (t1: T).\lambda (_: (((eq T (TLRef n) (lift h d t1)) \to eq T t1 (TLRef n)))).\lambda (H2: (eq T (TLRef n) (lift h d (THead k t0 t1)))).let H3 \def eq_ind T (lift h d (THead k t0 t1)) (\lambda (t: T).eq T (TLRef n) t) H2 (THead k (lift h d t0) (lift h (s k d) t1)) (lift_head k t0 t1 h d) in let H4 \def match H3 return (\lambda (t: T).(eq T t (THead k (lift h d t0) (lift h (s k d) t1))) \to eq T (THead k t0 t1) (TLRef n)) with [refl_equal \Rightarrow (\lambda (H3: (eq T (TLRef n) (THead k (lift h d t0) (lift h (s k d) t1)))).let H4 \def eq_ind T (TLRef n) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead k (lift h d t0) (lift h (s k d) t1)) H3 in False_ind (eq T (THead k t0 t1) (TLRef n)) H4)] in H4 (refl_equal T (THead k (lift h d t0) (lift h (s k d) t1)))) t.
+
+theorem lift_gen_lref_false: \forall (h: nat).\forall (d: nat).\forall (n: nat).(le d n) \to (lt n (plus d h)) \to \forall (t: T).(eq T (TLRef n) (lift h d t)) \to \forall (P: (Prop)).P \def \lambda (h: nat).\lambda (d: nat).\lambda (n: nat).\lambda (H: (le d n)).\lambda (H0: (lt n (plus d h))).\lambda (t: T).T_ind (\lambda (t0: T).(eq T (TLRef n) (lift h d t0)) \to \forall (P: (Prop)).P) (\lambda (n0: nat).\lambda (H1: (eq T (TLRef n) (lift h d (TSort n0)))).\lambda (P: (Prop)).let H2 \def match H1 return (\lambda (t: T).(eq T t (lift h d (TSort n0))) \to P) with [refl_equal \Rightarrow (\lambda (H2: (eq T (TLRef n) (lift h d (TSort n0)))).let H3 \def eq_ind T (TLRef n) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (lift h d (TSort n0)) H2 in False_ind P H3)] in H2 (refl_equal T (lift h d (TSort n0)))) (\lambda (n0: nat).\lambda (H1: (eq T (TLRef n) (lift h d (TLRef n0)))).\lambda (P: (Prop)).lt_le_e n0 d P (\lambda (H2: (lt n0 d)).let H3 \def eq_ind T (lift h d (TLRef n0)) (\lambda (t: T).eq T (TLRef n) t) H1 (TLRef n0) (lift_lref_lt n0 h d H2) in let H4 \def match H3 return (\lambda (t: T).(eq T t (TLRef n0)) \to P) with [refl_equal \Rightarrow (\lambda (H3: (eq T (TLRef n) (TLRef n0))).let H4 \def f_equal T nat (\lambda (e: T).match e return nat with [(TSort _) \Rightarrow n | (TLRef n) \Rightarrow n | (THead _ _ _) \Rightarrow n]) (TLRef n) (TLRef n0) H3 in eq_ind nat n0 (\lambda (_: nat).P) (let H1 \def eq_ind_r nat n0 (\lambda (n: nat).lt n d) H2 n H4 in le_false d n P H H1) n (sym_eq nat n n0 H4))] in H4 (refl_equal T (TLRef n0))) (\lambda (H2: (le d n0)).let H3 \def eq_ind T (lift h d (TLRef n0)) (\lambda (t: T).eq T (TLRef n) t) H1 (TLRef (plus n0 h)) (lift_lref_ge n0 h d H2) in let H4 \def match H3 return (\lambda (t: T).(eq T t (TLRef (plus n0 h))) \to P) with [refl_equal \Rightarrow (\lambda (H3: (eq T (TLRef n) (TLRef (plus n0 h)))).let H4 \def f_equal T nat (\lambda (e: T).match e return nat with [(TSort _) \Rightarrow n | (TLRef n) \Rightarrow n | (THead _ _ _) \Rightarrow n]) (TLRef n) (TLRef (plus n0 h)) H3 in eq_ind nat (plus n0 h) (\lambda (_: nat).P) (let H1 \def eq_ind nat n (\lambda (n: nat).lt n (plus d h)) H0 (plus n0 h) H4 in le_false d n0 P H2 (lt_le_S n0 d (simpl_lt_plus_r h n0 d H1))) n (sym_eq nat n (plus n0 h) H4))] in H4 (refl_equal T (TLRef (plus n0 h))))) (\lambda (k: K).\lambda (t0: T).\lambda (_: (((eq T (TLRef n) (lift h d t0)) \to \forall (P: (Prop)).P))).\lambda (t1: T).\lambda (_: (((eq T (TLRef n) (lift h d t1)) \to \forall (P: (Prop)).P))).\lambda (H3: (eq T (TLRef n) (lift h d (THead k t0 t1)))).\lambda (P: (Prop)).let H4 \def eq_ind T (lift h d (THead k t0 t1)) (\lambda (t: T).eq T (TLRef n) t) H3 (THead k (lift h d t0) (lift h (s k d) t1)) (lift_head k t0 t1 h d) in let H5 \def match H4 return (\lambda (t: T).(eq T t (THead k (lift h d t0) (lift h (s k d) t1))) \to P) with [refl_equal \Rightarrow (\lambda (H4: (eq T (TLRef n) (THead k (lift h d t0) (lift h (s k d) t1)))).let H5 \def eq_ind T (TLRef n) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead k (lift h d t0) (lift h (s k d) t1)) H4 in False_ind P H5)] in H5 (refl_equal T (THead k (lift h d t0) (lift h (s k d) t1)))) t.
+
+theorem lift_gen_lref_ge: \forall (h: nat).\forall (d: nat).\forall (n: nat).(le d n) \to \forall (t: T).(eq T (TLRef (plus n h)) (lift h d t)) \to eq T t (TLRef n) \def \lambda (h: nat).\lambda (d: nat).\lambda (n: nat).\lambda (H: (le d n)).\lambda (t: T).T_ind (\lambda (t0: T).(eq T (TLRef (plus n h)) (lift h d t0)) \to eq T t0 (TLRef n)) (\lambda (n0: nat).\lambda (H0: (eq T (TLRef (plus n h)) (lift h d (TSort n0)))).let H1 \def match H0 return (\lambda (t: T).(eq T t (lift h d (TSort n0))) \to eq T (TSort n0) (TLRef n)) with [refl_equal \Rightarrow (\lambda (H1: (eq T (TLRef (plus n h)) (lift h d (TSort n0)))).let H2 \def eq_ind T (TLRef (plus n h)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (lift h d (TSort n0)) H1 in False_ind (eq T (TSort n0) (TLRef n)) H2)] in H1 (refl_equal T (lift h d (TSort n0)))) (\lambda (n0: nat).\lambda (H0: (eq T (TLRef (plus n h)) (lift h d (TLRef n0)))).lt_le_e n0 d (eq T (TLRef n0) (TLRef n)) (\lambda (H1: (lt n0 d)).let H2 \def eq_ind T (lift h d (TLRef n0)) (\lambda (t: T).eq T (TLRef (plus n h)) t) H0 (TLRef n0) (lift_lref_lt n0 h d H1) in let H3 \def match H2 return (\lambda (t: T).(eq T t (TLRef n0)) \to eq T (TLRef n0) (TLRef n)) with [refl_equal \Rightarrow (\lambda (H2: (eq T (TLRef (plus n h)) (TLRef n0))).let H3 \def f_equal T nat (\lambda (e: T).match e return nat with [(TSort _) \Rightarrow ((let rec (plus: (\forall (n: nat).nat \to nat)) = (\lambda (n: nat).\lambda (m: nat).match n with [O \Rightarrow m | (S p) \Rightarrow (S (plus p m))]) in plus) n h) | (TLRef n) \Rightarrow n | (THead _ _ _) \Rightarrow ((let rec (plus: (\forall (n: nat).nat \to nat)) = (\lambda (n: nat).\lambda (m: nat).match n with [O \Rightarrow m | (S p) \Rightarrow (S (plus p m))]) in plus) n h)]) (TLRef (plus n h)) (TLRef n0) H2 in eq_ind nat (plus n h) (\lambda (n0: nat).eq T (TLRef n0) (TLRef n)) (let H0 \def eq_ind_r nat n0 (\lambda (n: nat).lt n d) H1 (plus n h) H3 in le_false d n (eq T (TLRef (plus n h)) (TLRef n)) H (lt_le_S n d (le_lt_trans n (plus n h) d (le_plus_l n h) H0))) n0 H3)] in H3 (refl_equal T (TLRef n0))) (\lambda (H1: (le d n0)).let H2 \def eq_ind T (lift h d (TLRef n0)) (\lambda (t: T).eq T (TLRef (plus n h)) t) H0 (TLRef (plus n0 h)) (lift_lref_ge n0 h d H1) in let H3 \def match H2 return (\lambda (t: T).(eq T t (TLRef (plus n0 h))) \to eq T (TLRef n0) (TLRef n)) with [refl_equal \Rightarrow (\lambda (H2: (eq T (TLRef (plus n h)) (TLRef (plus n0 h)))).let H3 \def f_equal T nat (\lambda (e: T).match e return nat with [(TSort _) \Rightarrow ((let rec (plus: (\forall (n: nat).nat \to nat)) = (\lambda (n: nat).\lambda (m: nat).match n with [O \Rightarrow m | (S p) \Rightarrow (S (plus p m))]) in plus) n h) | (TLRef n) \Rightarrow n | (THead _ _ _) \Rightarrow ((let rec (plus: (\forall (n: nat).nat \to nat)) = (\lambda (n: nat).\lambda (m: nat).match n with [O \Rightarrow m | (S p) \Rightarrow (S (plus p m))]) in plus) n h)]) (TLRef (plus n h)) (TLRef (plus n0 h)) H2 in eq_ind nat (plus n h) (\lambda (_: nat).eq T (TLRef n0) (TLRef n)) (f_equal nat T TLRef n0 n (simpl_plus_r h n0 n (sym_eq nat (plus n h) (plus n0 h) H3))) (plus n0 h) H3)] in H3 (refl_equal T (TLRef (plus n0 h))))) (\lambda (k: K).\lambda (t0: T).\lambda (_: (((eq T (TLRef (plus n h)) (lift h d t0)) \to eq T t0 (TLRef n)))).\lambda (t1: T).\lambda (_: (((eq T (TLRef (plus n h)) (lift h d t1)) \to eq T t1 (TLRef n)))).\lambda (H2: (eq T (TLRef (plus n h)) (lift h d (THead k t0 t1)))).let H3 \def eq_ind T (lift h d (THead k t0 t1)) (\lambda (t: T).eq T (TLRef (plus n h)) t) H2 (THead k (lift h d t0) (lift h (s k d) t1)) (lift_head k t0 t1 h d) in let H4 \def match H3 return (\lambda (t: T).(eq T t (THead k (lift h d t0) (lift h (s k d) t1))) \to eq T (THead k t0 t1) (TLRef n)) with [refl_equal \Rightarrow (\lambda (H3: (eq T (TLRef (plus n h)) (THead k (lift h d t0) (lift h (s k d) t1)))).let H4 \def eq_ind T (TLRef (plus n h)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead k (lift h d t0) (lift h (s k d) t1)) H3 in False_ind (eq T (THead k t0 t1) (TLRef n)) H4)] in H4 (refl_equal T (THead k (lift h d t0) (lift h (s k d) t1)))) t.
+
+theorem lift_gen_head: \forall (k: K).\forall (u: T).\forall (t: T).\forall (x: T).\forall (h: nat).\forall (d: nat).(eq T (THead k u t) (lift h d x)) \to ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T x (THead k y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h (s k d) z)) \def \lambda (k: K).\lambda (u: T).\lambda (t: T).\lambda (x: T).T_ind (\lambda (t0: T).\forall (h: nat).\forall (d: nat).(eq T (THead k u t) (lift h d t0)) \to ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T t0 (THead k y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h (s k d) z))) (\lambda (n: nat).\lambda (h: nat).\lambda (d: nat).\lambda (H: (eq T (THead k u t) (lift h d (TSort n)))).let H0 \def match H return (\lambda (t0: T).(eq T t0 (lift h d (TSort n))) \to ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (TSort n) (THead k y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h (s k d) z))) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead k u t) (lift h d (TSort n)))).let H1 \def eq_ind T (THead k u t) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (lift h d (TSort n)) H0 in False_ind (ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (TSort n) (THead k y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h (s k d) z))) H1)] in H0 (refl_equal T (lift h d (TSort n)))) (\lambda (n: nat).\lambda (h: nat).\lambda (d: nat).\lambda (H: (eq T (THead k u t) (lift h d (TLRef n)))).lt_le_e n d (ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (TLRef n) (THead k y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h (s k d) z))) (\lambda (H0: (lt n d)).let H1 \def eq_ind T (lift h d (TLRef n)) (\lambda (t0: T).eq T (THead k u t) t0) H (TLRef n) (lift_lref_lt n h d H0) in let H2 \def match H1 return (\lambda (t0: T).(eq T t0 (TLRef n)) \to ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (TLRef n) (THead k y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h (s k d) z))) with [refl_equal \Rightarrow (\lambda (H1: (eq T (THead k u t) (TLRef n))).let H2 \def eq_ind T (THead k u t) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef n) H1 in False_ind (ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (TLRef n) (THead k y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h (s k d) z))) H2)] in H2 (refl_equal T (TLRef n))) (\lambda (H0: (le d n)).let H1 \def eq_ind T (lift h d (TLRef n)) (\lambda (t0: T).eq T (THead k u t) t0) H (TLRef (plus n h)) (lift_lref_ge n h d H0) in let H2 \def match H1 return (\lambda (t0: T).(eq T t0 (TLRef (plus n h))) \to ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (TLRef n) (THead k y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h (s k d) z))) with [refl_equal \Rightarrow (\lambda (H1: (eq T (THead k u t) (TLRef (plus n h)))).let H2 \def eq_ind T (THead k u t) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef (plus n h)) H1 in False_ind (ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (TLRef n) (THead k y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h (s k d) z))) H2)] in H2 (refl_equal T (TLRef (plus n h))))) (\lambda (k0: K).\lambda (t0: T).\lambda (_: ((\forall (h: nat).\forall (d: nat).(eq T (THead k u t) (lift h d t0)) \to ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T t0 (THead k y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h (s k d) z))))).\lambda (t1: T).\lambda (_: ((\forall (h: nat).\forall (d: nat).(eq T (THead k u t) (lift h d t1)) \to ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T t1 (THead k y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h (s k d) z))))).\lambda (h: nat).\lambda (d: nat).\lambda (H1: (eq T (THead k u t) (lift h d (THead k0 t0 t1)))).let H2 \def eq_ind T (lift h d (THead k0 t0 t1)) (\lambda (t0: T).eq T (THead k u t) t0) H1 (THead k0 (lift h d t0) (lift h (s k0 d) t1)) (lift_head k0 t0 t1 h d) in let H3 \def match H2 return (\lambda (t2: T).(eq T t2 (THead k0 (lift h d t0) (lift h (s k0 d) t1))) \to ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (THead k0 t0 t1) (THead k y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h (s k d) z))) with [refl_equal \Rightarrow (\lambda (H2: (eq T (THead k u t) (THead k0 (lift h d t0) (lift h (s k0 d) t1)))).let H3 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t | (TLRef _) \Rightarrow t | (THead _ _ t) \Rightarrow t]) (THead k u t) (THead k0 (lift h d t0) (lift h (s k0 d) t1)) H2 in (let H4 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u | (TLRef _) \Rightarrow u | (THead _ t _) \Rightarrow t]) (THead k u t) (THead k0 (lift h d t0) (lift h (s k0 d) t1)) H2 in (let H5 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k u t) (THead k0 (lift h d t0) (lift h (s k0 d) t1)) H2 in eq_ind K k0 (\lambda (k: K).(eq T u (lift h d t0)) \to (eq T t (lift h (s k0 d) t1)) \to ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (THead k0 t0 t1) (THead k y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h (s k d) z))) (\lambda (H6: (eq T u (lift h d t0))).eq_ind T (lift h d t0) (\lambda (t2: T).(eq T t (lift h (s k0 d) t1)) \to ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (THead k0 t0 t1) (THead k0 y z)) (\lambda (y: T).\lambda (_: T).eq T t2 (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h (s k0 d) z))) (\lambda (H7: (eq T t (lift h (s k0 d) t1))).eq_ind T (lift h (s k0 d) t1) (\lambda (t: T).ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (THead k0 t0 t1) (THead k0 y z)) (\lambda (y: T).\lambda (_: T).eq T (lift h d t0) (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h (s k0 d) z))) (ex3_2_intro T T (\lambda (y: T).\lambda (z: T).eq T (THead k0 t0 t1) (THead k0 y z)) (\lambda (y: T).\lambda (_: T).eq T (lift h d t0) (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T (lift h (s k0 d) t1) (lift h (s k0 d) z)) t0 t1 (refl_equal T (THead k0 t0 t1)) (refl_equal T (lift h d t0)) (refl_equal T (lift h (s k0 d) t1))) t (sym_eq T t (lift h (s k0 d) t1) H7)) u (sym_eq T u (lift h d t0) H6)) k (sym_eq K k k0 H5)) H4) H3)] in H3 (refl_equal T (THead k0 (lift h d t0) (lift h (s k0 d) t1)))) x.
+
+theorem lift_gen_bind: \forall (b: B).\forall (u: T).\forall (t: T).\forall (x: T).\forall (h: nat).\forall (d: nat).(eq T (THead (Bind b) u t) (lift h d x)) \to ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T x (THead (Bind b) y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h (S d) z)) \def \lambda (b: B).\lambda (u: T).\lambda (t: T).\lambda (x: T).T_ind (\lambda (t0: T).\forall (h: nat).\forall (d: nat).(eq T (THead (Bind b) u t) (lift h d t0)) \to ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T t0 (THead (Bind b) y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h (S d) z))) (\lambda (n: nat).\lambda (h: nat).\lambda (d: nat).\lambda (H: (eq T (THead (Bind b) u t) (lift h d (TSort n)))).let H0 \def match H return (\lambda (t0: T).(eq T t0 (lift h d (TSort n))) \to ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (TSort n) (THead (Bind b) y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h (S d) z))) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Bind b) u t) (lift h d (TSort n)))).let H1 \def eq_ind T (THead (Bind b) u t) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (lift h d (TSort n)) H0 in False_ind (ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (TSort n) (THead (Bind b) y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h (S d) z))) H1)] in H0 (refl_equal T (lift h d (TSort n)))) (\lambda (n: nat).\lambda (h: nat).\lambda (d: nat).\lambda (H: (eq T (THead (Bind b) u t) (lift h d (TLRef n)))).lt_le_e n d (ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (TLRef n) (THead (Bind b) y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h (S d) z))) (\lambda (H0: (lt n d)).let H1 \def eq_ind T (lift h d (TLRef n)) (\lambda (t0: T).eq T (THead (Bind b) u t) t0) H (TLRef n) (lift_lref_lt n h d H0) in let H2 \def match H1 return (\lambda (t0: T).(eq T t0 (TLRef n)) \to ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (TLRef n) (THead (Bind b) y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h (S d) z))) with [refl_equal \Rightarrow (\lambda (H1: (eq T (THead (Bind b) u t) (TLRef n))).let H2 \def eq_ind T (THead (Bind b) u t) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef n) H1 in False_ind (ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (TLRef n) (THead (Bind b) y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h (S d) z))) H2)] in H2 (refl_equal T (TLRef n))) (\lambda (H0: (le d n)).let H1 \def eq_ind T (lift h d (TLRef n)) (\lambda (t0: T).eq T (THead (Bind b) u t) t0) H (TLRef (plus n h)) (lift_lref_ge n h d H0) in let H2 \def match H1 return (\lambda (t0: T).(eq T t0 (TLRef (plus n h))) \to ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (TLRef n) (THead (Bind b) y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h (S d) z))) with [refl_equal \Rightarrow (\lambda (H1: (eq T (THead (Bind b) u t) (TLRef (plus n h)))).let H2 \def eq_ind T (THead (Bind b) u t) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef (plus n h)) H1 in False_ind (ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (TLRef n) (THead (Bind b) y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h (S d) z))) H2)] in H2 (refl_equal T (TLRef (plus n h))))) (\lambda (k: K).\lambda (t0: T).\lambda (_: ((\forall (h: nat).\forall (d: nat).(eq T (THead (Bind b) u t) (lift h d t0)) \to ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T t0 (THead (Bind b) y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h (S d) z))))).\lambda (t1: T).\lambda (_: ((\forall (h: nat).\forall (d: nat).(eq T (THead (Bind b) u t) (lift h d t1)) \to ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T t1 (THead (Bind b) y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h (S d) z))))).\lambda (h: nat).\lambda (d: nat).\lambda (H1: (eq T (THead (Bind b) u t) (lift h d (THead k t0 t1)))).let H2 \def eq_ind T (lift h d (THead k t0 t1)) (\lambda (t0: T).eq T (THead (Bind b) u t) t0) H1 (THead k (lift h d t0) (lift h (s k d) t1)) (lift_head k t0 t1 h d) in let H3 \def match H2 return (\lambda (t2: T).(eq T t2 (THead k (lift h d t0) (lift h (s k d) t1))) \to ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (THead k t0 t1) (THead (Bind b) y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h (S d) z))) with [refl_equal \Rightarrow (\lambda (H2: (eq T (THead (Bind b) u t) (THead k (lift h d t0) (lift h (s k d) t1)))).let H3 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t | (TLRef _) \Rightarrow t | (THead _ _ t) \Rightarrow t]) (THead (Bind b) u t) (THead k (lift h d t0) (lift h (s k d) t1)) H2 in (let H4 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u | (TLRef _) \Rightarrow u | (THead _ t _) \Rightarrow t]) (THead (Bind b) u t) (THead k (lift h d t0) (lift h (s k d) t1)) H2 in (let H5 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow (Bind b) | (TLRef _) \Rightarrow (Bind b) | (THead k _ _) \Rightarrow k]) (THead (Bind b) u t) (THead k (lift h d t0) (lift h (s k d) t1)) H2 in eq_ind K (Bind b) (\lambda (k: K).(eq T u (lift h d t0)) \to (eq T t (lift h (s k d) t1)) \to ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (THead k t0 t1) (THead (Bind b) y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h (S d) z))) (\lambda (H6: (eq T u (lift h d t0))).eq_ind T (lift h d t0) (\lambda (t2: T).(eq T t (lift h (s (Bind b) d) t1)) \to ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (THead (Bind b) t0 t1) (THead (Bind b) y z)) (\lambda (y: T).\lambda (_: T).eq T t2 (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h (S d) z))) (\lambda (H7: (eq T t (lift h (s (Bind b) d) t1))).eq_ind T (lift h (s (Bind b) d) t1) (\lambda (t: T).ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (THead (Bind b) t0 t1) (THead (Bind b) y z)) (\lambda (y: T).\lambda (_: T).eq T (lift h d t0) (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h (S d) z))) (ex3_2_intro T T (\lambda (y: T).\lambda (z: T).eq T (THead (Bind b) t0 t1) (THead (Bind b) y z)) (\lambda (y: T).\lambda (_: T).eq T (lift h d t0) (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T (lift h (s (Bind b) d) t1) (lift h (S d) z)) t0 t1 (refl_equal T (THead (Bind b) t0 t1)) (refl_equal T (lift h d t0)) (refl_equal T (lift h (S d) t1))) t (sym_eq T t (lift h (s (Bind b) d) t1) H7)) u (sym_eq T u (lift h d t0) H6)) k H5) H4) H3)] in H3 (refl_equal T (THead k (lift h d t0) (lift h (s k d) t1)))) x.
+
+theorem lift_gen_flat: \forall (f: F).\forall (u: T).\forall (t: T).\forall (x: T).\forall (h: nat).\forall (d: nat).(eq T (THead (Flat f) u t) (lift h d x)) \to ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T x (THead (Flat f) y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h d z)) \def \lambda (f: F).\lambda (u: T).\lambda (t: T).\lambda (x: T).T_ind (\lambda (t0: T).\forall (h: nat).\forall (d: nat).(eq T (THead (Flat f) u t) (lift h d t0)) \to ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T t0 (THead (Flat f) y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h d z))) (\lambda (n: nat).\lambda (h: nat).\lambda (d: nat).\lambda (H: (eq T (THead (Flat f) u t) (lift h d (TSort n)))).let H0 \def match H return (\lambda (t0: T).(eq T t0 (lift h d (TSort n))) \to ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (TSort n) (THead (Flat f) y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h d z))) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Flat f) u t) (lift h d (TSort n)))).let H1 \def eq_ind T (THead (Flat f) u t) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (lift h d (TSort n)) H0 in False_ind (ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (TSort n) (THead (Flat f) y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h d z))) H1)] in H0 (refl_equal T (lift h d (TSort n)))) (\lambda (n: nat).\lambda (h: nat).\lambda (d: nat).\lambda (H: (eq T (THead (Flat f) u t) (lift h d (TLRef n)))).lt_le_e n d (ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (TLRef n) (THead (Flat f) y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h d z))) (\lambda (H0: (lt n d)).let H1 \def eq_ind T (lift h d (TLRef n)) (\lambda (t0: T).eq T (THead (Flat f) u t) t0) H (TLRef n) (lift_lref_lt n h d H0) in let H2 \def match H1 return (\lambda (t0: T).(eq T t0 (TLRef n)) \to ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (TLRef n) (THead (Flat f) y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h d z))) with [refl_equal \Rightarrow (\lambda (H1: (eq T (THead (Flat f) u t) (TLRef n))).let H2 \def eq_ind T (THead (Flat f) u t) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef n) H1 in False_ind (ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (TLRef n) (THead (Flat f) y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h d z))) H2)] in H2 (refl_equal T (TLRef n))) (\lambda (H0: (le d n)).let H1 \def eq_ind T (lift h d (TLRef n)) (\lambda (t0: T).eq T (THead (Flat f) u t) t0) H (TLRef (plus n h)) (lift_lref_ge n h d H0) in let H2 \def match H1 return (\lambda (t0: T).(eq T t0 (TLRef (plus n h))) \to ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (TLRef n) (THead (Flat f) y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h d z))) with [refl_equal \Rightarrow (\lambda (H1: (eq T (THead (Flat f) u t) (TLRef (plus n h)))).let H2 \def eq_ind T (THead (Flat f) u t) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef (plus n h)) H1 in False_ind (ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (TLRef n) (THead (Flat f) y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h d z))) H2)] in H2 (refl_equal T (TLRef (plus n h))))) (\lambda (k: K).\lambda (t0: T).\lambda (_: ((\forall (h: nat).\forall (d: nat).(eq T (THead (Flat f) u t) (lift h d t0)) \to ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T t0 (THead (Flat f) y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h d z))))).\lambda (t1: T).\lambda (_: ((\forall (h: nat).\forall (d: nat).(eq T (THead (Flat f) u t) (lift h d t1)) \to ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T t1 (THead (Flat f) y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h d z))))).\lambda (h: nat).\lambda (d: nat).\lambda (H1: (eq T (THead (Flat f) u t) (lift h d (THead k t0 t1)))).let H2 \def eq_ind T (lift h d (THead k t0 t1)) (\lambda (t0: T).eq T (THead (Flat f) u t) t0) H1 (THead k (lift h d t0) (lift h (s k d) t1)) (lift_head k t0 t1 h d) in let H3 \def match H2 return (\lambda (t2: T).(eq T t2 (THead k (lift h d t0) (lift h (s k d) t1))) \to ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (THead k t0 t1) (THead (Flat f) y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h d z))) with [refl_equal \Rightarrow (\lambda (H2: (eq T (THead (Flat f) u t) (THead k (lift h d t0) (lift h (s k d) t1)))).let H3 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t | (TLRef _) \Rightarrow t | (THead _ _ t) \Rightarrow t]) (THead (Flat f) u t) (THead k (lift h d t0) (lift h (s k d) t1)) H2 in (let H4 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u | (TLRef _) \Rightarrow u | (THead _ t _) \Rightarrow t]) (THead (Flat f) u t) (THead k (lift h d t0) (lift h (s k d) t1)) H2 in (let H5 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow (Flat f) | (TLRef _) \Rightarrow (Flat f) | (THead k _ _) \Rightarrow k]) (THead (Flat f) u t) (THead k (lift h d t0) (lift h (s k d) t1)) H2 in eq_ind K (Flat f) (\lambda (k: K).(eq T u (lift h d t0)) \to (eq T t (lift h (s k d) t1)) \to ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (THead k t0 t1) (THead (Flat f) y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h d z))) (\lambda (H6: (eq T u (lift h d t0))).eq_ind T (lift h d t0) (\lambda (t2: T).(eq T t (lift h (s (Flat f) d) t1)) \to ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (THead (Flat f) t0 t1) (THead (Flat f) y z)) (\lambda (y: T).\lambda (_: T).eq T t2 (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h d z))) (\lambda (H7: (eq T t (lift h (s (Flat f) d) t1))).eq_ind T (lift h (s (Flat f) d) t1) (\lambda (t: T).ex3_2 T T (\lambda (y: T).\lambda (z: T).eq T (THead (Flat f) t0 t1) (THead (Flat f) y z)) (\lambda (y: T).\lambda (_: T).eq T (lift h d t0) (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift h d z))) (ex3_2_intro T T (\lambda (y: T).\lambda (z: T).eq T (THead (Flat f) t0 t1) (THead (Flat f) y z)) (\lambda (y: T).\lambda (_: T).eq T (lift h d t0) (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T (lift h (s (Flat f) d) t1) (lift h d z)) t0 t1 (refl_equal T (THead (Flat f) t0 t1)) (refl_equal T (lift h d t0)) (refl_equal T (lift h d t1))) t (sym_eq T t (lift h (s (Flat f) d) t1) H7)) u (sym_eq T u (lift h d t0) H6)) k H5) H4) H3)] in H3 (refl_equal T (THead k (lift h d t0) (lift h (s k d) t1)))) x.
+
+theorem thead_x_lift_y_y: \forall (k: K).\forall (t: T).\forall (v: T).\forall (h: nat).\forall (d: nat).(eq T (THead k v (lift h d t)) t) \to \forall (P: (Prop)).P \def \lambda (k: K).\lambda (t: T).T_ind (\lambda (t0: T).\forall (v: T).\forall (h: nat).\forall (d: nat).(eq T (THead k v (lift h d t0)) t0) \to \forall (P: (Prop)).P) (\lambda (n: nat).\lambda (v: T).\lambda (h: nat).\lambda (d: nat).\lambda (H: (eq T (THead k v (lift h d (TSort n))) (TSort n))).\lambda (P: (Prop)).let H0 \def eq_ind T (THead k v (lift h d (TSort n))) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TSort n) H in False_ind P H0) (\lambda (n: nat).\lambda (v: T).\lambda (h: nat).\lambda (d: nat).\lambda (H: (eq T (THead k v (lift h d (TLRef n))) (TLRef n))).\lambda (P: (Prop)).let H0 \def eq_ind T (THead k v (lift h d (TLRef n))) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef n) H in False_ind P H0) (\lambda (k0: K).\lambda (t0: T).\lambda (_: ((\forall (v: T).\forall (h: nat).\forall (d: nat).(eq T (THead k v (lift h d t0)) t0) \to \forall (P: (Prop)).P))).\lambda (t1: T).\lambda (H0: ((\forall (v: T).\forall (h: nat).\forall (d: nat).(eq T (THead k v (lift h d t1)) t1) \to \forall (P: (Prop)).P))).\lambda (v: T).\lambda (h: nat).\lambda (d: nat).\lambda (H1: (eq T (THead k v (lift h d (THead k0 t0 t1))) (THead k0 t0 t1))).\lambda (P: (Prop)).let H2 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k v (lift h d (THead k0 t0 t1))) (THead k0 t0 t1) H1 in (let H3 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow v | (TLRef _) \Rightarrow v | (THead _ t _) \Rightarrow t]) (THead k v (lift h d (THead k0 t0 t1))) (THead k0 t0 t1) H1 in (let H4 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow (THead k0 ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x h) d t0) ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x h) (s k0 d) t1)) | (TLRef _) \Rightarrow (THead k0 ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x h) d t0) ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x h) (s k0 d) t1)) | (THead _ _ t) \Rightarrow t]) (THead k v (lift h d (THead k0 t0 t1))) (THead k0 t0 t1) H1 in \lambda (_: (eq T v t0)).\lambda (H6: (eq K k k0)).let H7 \def eq_ind K k (\lambda (k: K).\forall (v: T).\forall (h: nat).\forall (d: nat).(eq T (THead k v (lift h d t1)) t1) \to \forall (P: (Prop)).P) H0 k0 H6 in let H8 \def eq_ind T (lift h d (THead k0 t0 t1)) (\lambda (t: T).eq T t t1) H4 (THead k0 (lift h d t0) (lift h (s k0 d) t1)) (lift_head k0 t0 t1 h d) in H7 (lift h d t0) h (s k0 d) H8 P) H3) H2) t.
+
+theorem lift_r: \forall (t: T).\forall (d: nat).eq T (lift O d t) t \def \lambda (t: T).T_ind (\lambda (t0: T).\forall (d: nat).eq T (lift O d t0) t0) (\lambda (n: nat).\lambda (_: nat).refl_equal T (TSort n)) (\lambda (n: nat).\lambda (d: nat).lt_le_e n d (eq T (lift O d (TLRef n)) (TLRef n)) (\lambda (H: (lt n d)).eq_ind_r T (TLRef n) (\lambda (t0: T).eq T t0 (TLRef n)) (refl_equal T (TLRef n)) (lift O d (TLRef n)) (lift_lref_lt n O d H)) (\lambda (H: (le d n)).eq_ind_r T (TLRef (plus n O)) (\lambda (t0: T).eq T t0 (TLRef n)) (f_equal nat T TLRef (plus n O) n (sym_eq nat n (plus n O) (plus_n_O n))) (lift O d (TLRef n)) (lift_lref_ge n O d H))) (\lambda (k: K).\lambda (t0: T).\lambda (H: ((\forall (d: nat).eq T (lift O d t0) t0))).\lambda (t1: T).\lambda (H0: ((\forall (d: nat).eq T (lift O d t1) t1))).\lambda (d: nat).eq_ind_r T (THead k (lift O d t0) (lift O (s k d) t1)) (\lambda (t2: T).eq T t2 (THead k t0 t1)) (sym_equal T (THead k t0 t1) (THead k (lift O d t0) (lift O (s k d) t1)) (sym_equal T (THead k (lift O d t0) (lift O (s k d) t1)) (THead k t0 t1) (sym_equal T (THead k t0 t1) (THead k (lift O d t0) (lift O (s k d) t1)) (f_equal3 K T T T THead k k t0 (lift O d t0) t1 (lift O (s k d) t1) (refl_equal K k) (sym_eq T (lift O d t0) t0 (H d)) (sym_eq T (lift O (s k d) t1) t1 (H0 (s k d))))))) (lift O d (THead k t0 t1)) (lift_head k t0 t1 O d)) t.
+
+theorem lift_lref_gt: \forall (d: nat).\forall (n: nat).(lt d n) \to eq T (lift (S O) d (TLRef (pred n))) (TLRef n) \def \lambda (d: nat).\lambda (n: nat).\lambda (H: (lt d n)).eq_ind_r T (TLRef (plus (pred n) (S O))) (\lambda (t: T).eq T t (TLRef n)) (eq_ind nat (plus (S O) (pred n)) (\lambda (n0: nat).eq T (TLRef n0) (TLRef n)) (eq_ind nat n (\lambda (n0: nat).eq T (TLRef n0) (TLRef n)) (refl_equal T (TLRef n)) (S (pred n)) (S_pred n d H)) (plus (pred n) (S O)) (plus_sym (S O) (pred n))) (lift (S O) d (TLRef (pred n))) (lift_lref_ge (pred n) (S O) d (le_S_n d (pred n) (eq_ind nat n (\lambda (n0: nat).le (S d) n0) H (S (pred n)) (S_pred n d H)))).
+
+theorem lift_inj: \forall (x: T).\forall (t: T).\forall (h: nat).\forall (d: nat).(eq T (lift h d x) (lift h d t)) \to eq T x t \def \lambda (x: T).T_ind (\lambda (t: T).\forall (t0: T).\forall (h: nat).\forall (d: nat).(eq T (lift h d t) (lift h d t0)) \to eq T t t0) (\lambda (n: nat).\lambda (t: T).\lambda (h: nat).\lambda (d: nat).\lambda (H: (eq T (lift h d (TSort n)) (lift h d t))).let H0 \def eq_ind T (lift h d (TSort n)) (\lambda (t0: T).eq T t0 (lift h d t)) H (TSort n) (lift_sort n h d) in sym_eq T t (TSort n) (lift_gen_sort h d n t H0)) (\lambda (n: nat).\lambda (t: T).\lambda (h: nat).\lambda (d: nat).\lambda (H: (eq T (lift h d (TLRef n)) (lift h d t))).lt_le_e n d (eq T (TLRef n) t) (\lambda (H0: (lt n d)).let H1 \def eq_ind T (lift h d (TLRef n)) (\lambda (t0: T).eq T t0 (lift h d t)) H (TLRef n) (lift_lref_lt n h d H0) in sym_eq T t (TLRef n) (lift_gen_lref_lt h d n (lt_le_trans n d d H0 (le_n d)) t H1)) (\lambda (H0: (le d n)).let H1 \def eq_ind T (lift h d (TLRef n)) (\lambda (t0: T).eq T t0 (lift h d t)) H (TLRef (plus n h)) (lift_lref_ge n h d H0) in sym_eq T t (TLRef n) (lift_gen_lref_ge h d n H0 t H1))) (\lambda (k: K).K_ind (\lambda (k0: K).\forall (t: T).((\forall (t0: T).\forall (h: nat).\forall (d: nat).(eq T (lift h d t) (lift h d t0)) \to eq T t t0)) \to \forall (t0: T).((\forall (t: T).\forall (h: nat).\forall (d: nat).(eq T (lift h d t0) (lift h d t)) \to eq T t0 t)) \to \forall (t1: T).\forall (h: nat).\forall (d: nat).(eq T (lift h d (THead k0 t t0)) (lift h d t1)) \to eq T (THead k0 t t0) t1) (\lambda (b: B).\lambda (t: T).\lambda (H: ((\forall (t0: T).\forall (h: nat).\forall (d: nat).(eq T (lift h d t) (lift h d t0)) \to eq T t t0))).\lambda (t0: T).\lambda (H0: ((\forall (t: T).\forall (h: nat).\forall (d: nat).(eq T (lift h d t0) (lift h d t)) \to eq T t0 t))).\lambda (t1: T).\lambda (h: nat).\lambda (d: nat).\lambda (H1: (eq T (lift h d (THead (Bind b) t t0)) (lift h d t1))).let H2 \def eq_ind T (lift h d (THead (Bind b) t t0)) (\lambda (t: T).eq T t (lift h d t1)) H1 (THead (Bind b) (lift h d t) (lift h (S d) t0)) (lift_bind b t t0 h d) in ex3_2_ind T T (\lambda (y: T).\lambda (z: T).eq T t1 (THead (Bind b) y z)) (\lambda (y: T).\lambda (_: T).eq T (lift h d t) (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T (lift h (S d) t0) (lift h (S d) z)) (eq T (THead (Bind b) t t0) t1) (\lambda (x0: T).\lambda (x1: T).\lambda (H3: (eq T t1 (THead (Bind b) x0 x1))).\lambda (H4: (eq T (lift h d t) (lift h d x0))).\lambda (H5: (eq T (lift h (S d) t0) (lift h (S d) x1))).eq_ind_r T (THead (Bind b) x0 x1) (\lambda (t2: T).eq T (THead (Bind b) t t0) t2) (sym_equal T (THead (Bind b) x0 x1) (THead (Bind b) t t0) (sym_equal T (THead (Bind b) t t0) (THead (Bind b) x0 x1) (sym_equal T (THead (Bind b) x0 x1) (THead (Bind b) t t0) (f_equal3 K T T T THead (Bind b) (Bind b) x0 t x1 t0 (refl_equal K (Bind b)) (sym_eq T t x0 (H x0 h d H4)) (sym_eq T t0 x1 (H0 x1 h (S d) H5)))))) t1 H3) (lift_gen_bind b (lift h d t) (lift h (S d) t0) t1 h d H2)) (\lambda (f: F).\lambda (t: T).\lambda (H: ((\forall (t0: T).\forall (h: nat).\forall (d: nat).(eq T (lift h d t) (lift h d t0)) \to eq T t t0))).\lambda (t0: T).\lambda (H0: ((\forall (t: T).\forall (h: nat).\forall (d: nat).(eq T (lift h d t0) (lift h d t)) \to eq T t0 t))).\lambda (t1: T).\lambda (h: nat).\lambda (d: nat).\lambda (H1: (eq T (lift h d (THead (Flat f) t t0)) (lift h d t1))).let H2 \def eq_ind T (lift h d (THead (Flat f) t t0)) (\lambda (t: T).eq T t (lift h d t1)) H1 (THead (Flat f) (lift h d t) (lift h d t0)) (lift_flat f t t0 h d) in ex3_2_ind T T (\lambda (y: T).\lambda (z: T).eq T t1 (THead (Flat f) y z)) (\lambda (y: T).\lambda (_: T).eq T (lift h d t) (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T (lift h d t0) (lift h d z)) (eq T (THead (Flat f) t t0) t1) (\lambda (x0: T).\lambda (x1: T).\lambda (H3: (eq T t1 (THead (Flat f) x0 x1))).\lambda (H4: (eq T (lift h d t) (lift h d x0))).\lambda (H5: (eq T (lift h d t0) (lift h d x1))).eq_ind_r T (THead (Flat f) x0 x1) (\lambda (t2: T).eq T (THead (Flat f) t t0) t2) (sym_equal T (THead (Flat f) x0 x1) (THead (Flat f) t t0) (sym_equal T (THead (Flat f) t t0) (THead (Flat f) x0 x1) (sym_equal T (THead (Flat f) x0 x1) (THead (Flat f) t t0) (f_equal3 K T T T THead (Flat f) (Flat f) x0 t x1 t0 (refl_equal K (Flat f)) (sym_eq T t x0 (H x0 h d H4)) (sym_eq T t0 x1 (H0 x1 h d H5)))))) t1 H3) (lift_gen_flat f (lift h d t) (lift h d t0) t1 h d H2)) k) x.
+
+theorem lift_gen_lift: \forall (t1: T).\forall (x: T).\forall (h1: nat).\forall (h2: nat).\forall (d1: nat).\forall (d2: nat).(le d1 d2) \to (eq T (lift h1 d1 t1) (lift h2 (plus d2 h1) x)) \to ex2 T (\lambda (t2: T).eq T x (lift h1 d1 t2)) (\lambda (t2: T).eq T t1 (lift h2 d2 t2)) \def \lambda (t1: T).T_ind (\lambda (t: T).\forall (x: T).\forall (h1: nat).\forall (h2: nat).\forall (d1: nat).\forall (d2: nat).(le d1 d2) \to (eq T (lift h1 d1 t) (lift h2 (plus d2 h1) x)) \to ex2 T (\lambda (t2: T).eq T x (lift h1 d1 t2)) (\lambda (t2: T).eq T t (lift h2 d2 t2))) (\lambda (n: nat).\lambda (x: T).\lambda (h1: nat).\lambda (h2: nat).\lambda (d1: nat).\lambda (d2: nat).\lambda (_: (le d1 d2)).\lambda (H0: (eq T (lift h1 d1 (TSort n)) (lift h2 (plus d2 h1) x))).let H1 \def eq_ind T (lift h1 d1 (TSort n)) (\lambda (t: T).eq T t (lift h2 (plus d2 h1) x)) H0 (TSort n) (lift_sort n h1 d1) in eq_ind_r T (TSort n) (\lambda (t: T).ex2 T (\lambda (t2: T).eq T t (lift h1 d1 t2)) (\lambda (t2: T).eq T (TSort n) (lift h2 d2 t2))) (ex_intro2 T (\lambda (t2: T).eq T (TSort n) (lift h1 d1 t2)) (\lambda (t2: T).eq T (TSort n) (lift h2 d2 t2)) (TSort n) (eq_ind_r T (TSort n) (\lambda (t: T).eq T (TSort n) t) (refl_equal T (TSort n)) (lift h1 d1 (TSort n)) (lift_sort n h1 d1)) (eq_ind_r T (TSort n) (\lambda (t: T).eq T (TSort n) t) (refl_equal T (TSort n)) (lift h2 d2 (TSort n)) (lift_sort n h2 d2))) x (lift_gen_sort h2 (plus d2 h1) n x H1)) (\lambda (n: nat).\lambda (x: T).\lambda (h1: nat).\lambda (h2: nat).\lambda (d1: nat).\lambda (d2: nat).\lambda (H: (le d1 d2)).\lambda (H0: (eq T (lift h1 d1 (TLRef n)) (lift h2 (plus d2 h1) x))).lt_le_e n d1 (ex2 T (\lambda (t2: T).eq T x (lift h1 d1 t2)) (\lambda (t2: T).eq T (TLRef n) (lift h2 d2 t2))) (\lambda (H1: (lt n d1)).let H2 \def eq_ind T (lift h1 d1 (TLRef n)) (\lambda (t: T).eq T t (lift h2 (plus d2 h1) x)) H0 (TLRef n) (lift_lref_lt n h1 d1 H1) in eq_ind_r T (TLRef n) (\lambda (t: T).ex2 T (\lambda (t2: T).eq T t (lift h1 d1 t2)) (\lambda (t2: T).eq T (TLRef n) (lift h2 d2 t2))) (ex_intro2 T (\lambda (t2: T).eq T (TLRef n) (lift h1 d1 t2)) (\lambda (t2: T).eq T (TLRef n) (lift h2 d2 t2)) (TLRef n) (eq_ind_r T (TLRef n) (\lambda (t: T).eq T (TLRef n) t) (refl_equal T (TLRef n)) (lift h1 d1 (TLRef n)) (lift_lref_lt n h1 d1 H1)) (eq_ind_r T (TLRef n) (\lambda (t: T).eq T (TLRef n) t) (refl_equal T (TLRef n)) (lift h2 d2 (TLRef n)) (lift_lref_lt n h2 d2 (lt_le_trans n d1 d2 H1 H)))) x (lift_gen_lref_lt h2 (plus d2 h1) n (lt_le_trans n d1 (plus d2 h1) H1 (le_plus_trans d1 d2 h1 H)) x H2)) (\lambda (H1: (le d1 n)).let H2 \def eq_ind T (lift h1 d1 (TLRef n)) (\lambda (t: T).eq T t (lift h2 (plus d2 h1) x)) H0 (TLRef (plus n h1)) (lift_lref_ge n h1 d1 H1) in lt_le_e n d2 (ex2 T (\lambda (t2: T).eq T x (lift h1 d1 t2)) (\lambda (t2: T).eq T (TLRef n) (lift h2 d2 t2))) (\lambda (H3: (lt n d2)).eq_ind_r T (TLRef (plus n h1)) (\lambda (t: T).ex2 T (\lambda (t2: T).eq T t (lift h1 d1 t2)) (\lambda (t2: T).eq T (TLRef n) (lift h2 d2 t2))) (ex_intro2 T (\lambda (t2: T).eq T (TLRef (plus n h1)) (lift h1 d1 t2)) (\lambda (t2: T).eq T (TLRef n) (lift h2 d2 t2)) (TLRef n) (eq_ind_r T (TLRef (plus n h1)) (\lambda (t: T).eq T (TLRef (plus n h1)) t) (refl_equal T (TLRef (plus n h1))) (lift h1 d1 (TLRef n)) (lift_lref_ge n h1 d1 H1)) (eq_ind_r T (TLRef n) (\lambda (t: T).eq T (TLRef n) t) (refl_equal T (TLRef n)) (lift h2 d2 (TLRef n)) (lift_lref_lt n h2 d2 H3))) x (lift_gen_lref_lt h2 (plus d2 h1) (plus n h1) (lt_reg_r n d2 h1 H3) x H2)) (\lambda (H3: (le d2 n)).lt_le_e n (plus d2 h2) (ex2 T (\lambda (t2: T).eq T x (lift h1 d1 t2)) (\lambda (t2: T).eq T (TLRef n) (lift h2 d2 t2))) (\lambda (H4: (lt n (plus d2 h2))).lift_gen_lref_false h2 (plus d2 h1) (plus n h1) (le_S_n (plus d2 h1) (plus n h1) (lt_le_S (plus d2 h1) (S (plus n h1)) (le_lt_n_Sm (plus d2 h1) (plus n h1) (le_plus_plus d2 n h1 h1 H3 (le_n h1))))) (eq_ind_r nat (plus (plus d2 h2) h1) (\lambda (n0: nat).lt (plus n h1) n0) (lt_le_S (plus n h1) (plus (plus d2 h2) h1) (lt_reg_r n (plus d2 h2) h1 H4)) (plus (plus d2 h1) h2) (plus_permute_2_in_3 d2 h1 h2)) x H2 (ex2 T (\lambda (t2: T).eq T x (lift h1 d1 t2)) (\lambda (t2: T).eq T (TLRef n) (lift h2 d2 t2)))) (\lambda (H4: (le (plus d2 h2) n)).let H5 \def eq_ind nat (plus n h1) (\lambda (n: nat).eq T (TLRef n) (lift h2 (plus d2 h1) x)) H2 (plus (minus (plus n h1) h2) h2) (le_plus_minus_sym h2 (plus n h1) (le_plus_trans h2 n h1 (le_trans_plus_r d2 h2 n H4))) in eq_ind_r T (TLRef (minus (plus n h1) h2)) (\lambda (t: T).ex2 T (\lambda (t2: T).eq T t (lift h1 d1 t2)) (\lambda (t2: T).eq T (TLRef n) (lift h2 d2 t2))) (ex_intro2 T (\lambda (t2: T).eq T (TLRef (minus (plus n h1) h2)) (lift h1 d1 t2)) (\lambda (t2: T).eq T (TLRef n) (lift h2 d2 t2)) (TLRef (minus n h2)) (eq_ind_r nat (plus (minus n h2) h1) (\lambda (n0: nat).eq T (TLRef n0) (lift h1 d1 (TLRef (minus n h2)))) (eq_ind_r T (TLRef (plus (minus n h2) h1)) (\lambda (t: T).eq T (TLRef (plus (minus n h2) h1)) t) (refl_equal T (TLRef (plus (minus n h2) h1))) (lift h1 d1 (TLRef (minus n h2))) (lift_lref_ge (minus n h2) h1 d1 (le_trans d1 d2 (minus n h2) H (le_minus d2 n h2 H4)))) (minus (plus n h1) h2) (le_minus_plus h2 n (le_trans_plus_r d2 h2 n H4) h1)) (eq_ind_r nat (plus (minus n h2) h2) (\lambda (n0: nat).eq T (TLRef n0) (lift h2 d2 (TLRef (minus n0 h2)))) (eq_ind_r T (TLRef (plus (minus (plus (minus n h2) h2) h2) h2)) (\lambda (t: T).eq T (TLRef (plus (minus n h2) h2)) t) (f_equal nat T TLRef (plus (minus n h2) h2) (plus (minus (plus (minus n h2) h2) h2) h2) (f_equal2 nat nat nat plus (minus n h2) (minus (plus (minus n h2) h2) h2) h2 h2 (sym_eq nat (minus (plus (minus n h2) h2) h2) (minus n h2) (minus_plus_r (minus n h2) h2)) (refl_equal nat h2))) (lift h2 d2 (TLRef (minus (plus (minus n h2) h2) h2))) (lift_lref_ge (minus (plus (minus n h2) h2) h2) h2 d2 (le_minus d2 (plus (minus n h2) h2) h2 (le_plus_plus d2 (minus n h2) h2 h2 (le_minus d2 n h2 H4) (le_n h2))))) n (le_plus_minus_sym h2 n (le_trans_plus_r d2 h2 n H4)))) x (lift_gen_lref_ge h2 (plus d2 h1) (minus (plus n h1) h2) (arith0 h2 d2 n H4 h1) x H5))))) (\lambda (k: K).\lambda (t: T).\lambda (H: ((\forall (x: T).\forall (h1: nat).\forall (h2: nat).\forall (d1: nat).\forall (d2: nat).(le d1 d2) \to (eq T (lift h1 d1 t) (lift h2 (plus d2 h1) x)) \to ex2 T (\lambda (t2: T).eq T x (lift h1 d1 t2)) (\lambda (t2: T).eq T t (lift h2 d2 t2))))).\lambda (t0: T).\lambda (H0: ((\forall (x: T).\forall (h1: nat).\forall (h2: nat).\forall (d1: nat).\forall (d2: nat).(le d1 d2) \to (eq T (lift h1 d1 t0) (lift h2 (plus d2 h1) x)) \to ex2 T (\lambda (t2: T).eq T x (lift h1 d1 t2)) (\lambda (t2: T).eq T t0 (lift h2 d2 t2))))).\lambda (x: T).\lambda (h1: nat).\lambda (h2: nat).\lambda (d1: nat).\lambda (d2: nat).\lambda (H1: (le d1 d2)).\lambda (H2: (eq T (lift h1 d1 (THead k t t0)) (lift h2 (plus d2 h1) x))).K_ind (\lambda (k0: K).(eq T (lift h1 d1 (THead k0 t t0)) (lift h2 (plus d2 h1) x)) \to ex2 T (\lambda (t2: T).eq T x (lift h1 d1 t2)) (\lambda (t2: T).eq T (THead k0 t t0) (lift h2 d2 t2))) (\lambda (b: B).\lambda (H3: (eq T (lift h1 d1 (THead (Bind b) t t0)) (lift h2 (plus d2 h1) x))).let H4 \def eq_ind T (lift h1 d1 (THead (Bind b) t t0)) (\lambda (t: T).eq T t (lift h2 (plus d2 h1) x)) H3 (THead (Bind b) (lift h1 d1 t) (lift h1 (S d1) t0)) (lift_bind b t t0 h1 d1) in ex3_2_ind T T (\lambda (y: T).\lambda (z: T).eq T x (THead (Bind b) y z)) (\lambda (y: T).\lambda (_: T).eq T (lift h1 d1 t) (lift h2 (plus d2 h1) y)) (\lambda (_: T).\lambda (z: T).eq T (lift h1 (S d1) t0) (lift h2 (S (plus d2 h1)) z)) (ex2 T (\lambda (t2: T).eq T x (lift h1 d1 t2)) (\lambda (t2: T).eq T (THead (Bind b) t t0) (lift h2 d2 t2))) (\lambda (x0: T).\lambda (x1: T).\lambda (H5: (eq T x (THead (Bind b) x0 x1))).\lambda (H6: (eq T (lift h1 d1 t) (lift h2 (plus d2 h1) x0))).\lambda (H7: (eq T (lift h1 (S d1) t0) (lift h2 (S (plus d2 h1)) x1))).eq_ind_r T (THead (Bind b) x0 x1) (\lambda (t2: T).ex2 T (\lambda (t3: T).eq T t2 (lift h1 d1 t3)) (\lambda (t3: T).eq T (THead (Bind b) t t0) (lift h2 d2 t3))) (ex2_ind T (\lambda (t2: T).eq T x0 (lift h1 d1 t2)) (\lambda (t2: T).eq T t (lift h2 d2 t2)) (ex2 T (\lambda (t2: T).eq T (THead (Bind b) x0 x1) (lift h1 d1 t2)) (\lambda (t2: T).eq T (THead (Bind b) t t0) (lift h2 d2 t2))) (\lambda (x2: T).\lambda (H8: (eq T x0 (lift h1 d1 x2))).\lambda (H9: (eq T t (lift h2 d2 x2))).eq_ind_r T (lift h1 d1 x2) (\lambda (t2: T).ex2 T (\lambda (t3: T).eq T (THead (Bind b) t2 x1) (lift h1 d1 t3)) (\lambda (t3: T).eq T (THead (Bind b) t t0) (lift h2 d2 t3))) (eq_ind_r T (lift h2 d2 x2) (\lambda (t2: T).ex2 T (\lambda (t3: T).eq T (THead (Bind b) (lift h1 d1 x2) x1) (lift h1 d1 t3)) (\lambda (t3: T).eq T (THead (Bind b) t2 t0) (lift h2 d2 t3))) (let H10 \def refl_equal nat (plus (S d2) h1) in let H11 \def eq_ind nat (S (plus d2 h1)) (\lambda (n: nat).eq T (lift h1 (S d1) t0) (lift h2 n x1)) H7 (plus (S d2) h1) H10 in ex2_ind T (\lambda (t2: T).eq T x1 (lift h1 (S d1) t2)) (\lambda (t2: T).eq T t0 (lift h2 (S d2) t2)) (ex2 T (\lambda (t2: T).eq T (THead (Bind b) (lift h1 d1 x2) x1) (lift h1 d1 t2)) (\lambda (t2: T).eq T (THead (Bind b) (lift h2 d2 x2) t0) (lift h2 d2 t2))) (\lambda (x3: T).\lambda (H12: (eq T x1 (lift h1 (S d1) x3))).\lambda (H13: (eq T t0 (lift h2 (S d2) x3))).eq_ind_r T (lift h1 (S d1) x3) (\lambda (t2: T).ex2 T (\lambda (t3: T).eq T (THead (Bind b) (lift h1 d1 x2) t2) (lift h1 d1 t3)) (\lambda (t3: T).eq T (THead (Bind b) (lift h2 d2 x2) t0) (lift h2 d2 t3))) (eq_ind_r T (lift h2 (S d2) x3) (\lambda (t2: T).ex2 T (\lambda (t3: T).eq T (THead (Bind b) (lift h1 d1 x2) (lift h1 (S d1) x3)) (lift h1 d1 t3)) (\lambda (t3: T).eq T (THead (Bind b) (lift h2 d2 x2) t2) (lift h2 d2 t3))) (ex_intro2 T (\lambda (t2: T).eq T (THead (Bind b) (lift h1 d1 x2) (lift h1 (S d1) x3)) (lift h1 d1 t2)) (\lambda (t2: T).eq T (THead (Bind b) (lift h2 d2 x2) (lift h2 (S d2) x3)) (lift h2 d2 t2)) (THead (Bind b) x2 x3) (eq_ind_r T (THead (Bind b) (lift h1 d1 x2) (lift h1 (S d1) x3)) (\lambda (t2: T).eq T (THead (Bind b) (lift h1 d1 x2) (lift h1 (S d1) x3)) t2) (refl_equal T (THead (Bind b) (lift h1 d1 x2) (lift h1 (S d1) x3))) (lift h1 d1 (THead (Bind b) x2 x3)) (lift_bind b x2 x3 h1 d1)) (eq_ind_r T (THead (Bind b) (lift h2 d2 x2) (lift h2 (S d2) x3)) (\lambda (t2: T).eq T (THead (Bind b) (lift h2 d2 x2) (lift h2 (S d2) x3)) t2) (refl_equal T (THead (Bind b) (lift h2 d2 x2) (lift h2 (S d2) x3))) (lift h2 d2 (THead (Bind b) x2 x3)) (lift_bind b x2 x3 h2 d2))) t0 H13) x1 H12) (H0 x1 h1 h2 (S d1) (S d2) (le_S_n (S d1) (S d2) (lt_le_S (S d1) (S (S d2)) (lt_n_S d1 (S d2) (le_lt_n_Sm d1 d2 H1)))) H11)) t H9) x0 H8) (H x0 h1 h2 d1 d2 H1 H6)) x H5) (lift_gen_bind b (lift h1 d1 t) (lift h1 (S d1) t0) x h2 (plus d2 h1) H4)) (\lambda (f: F).\lambda (H3: (eq T (lift h1 d1 (THead (Flat f) t t0)) (lift h2 (plus d2 h1) x))).let H4 \def eq_ind T (lift h1 d1 (THead (Flat f) t t0)) (\lambda (t: T).eq T t (lift h2 (plus d2 h1) x)) H3 (THead (Flat f) (lift h1 d1 t) (lift h1 d1 t0)) (lift_flat f t t0 h1 d1) in ex3_2_ind T T (\lambda (y: T).\lambda (z: T).eq T x (THead (Flat f) y z)) (\lambda (y: T).\lambda (_: T).eq T (lift h1 d1 t) (lift h2 (plus d2 h1) y)) (\lambda (_: T).\lambda (z: T).eq T (lift h1 d1 t0) (lift h2 (plus d2 h1) z)) (ex2 T (\lambda (t2: T).eq T x (lift h1 d1 t2)) (\lambda (t2: T).eq T (THead (Flat f) t t0) (lift h2 d2 t2))) (\lambda (x0: T).\lambda (x1: T).\lambda (H5: (eq T x (THead (Flat f) x0 x1))).\lambda (H6: (eq T (lift h1 d1 t) (lift h2 (plus d2 h1) x0))).\lambda (H7: (eq T (lift h1 d1 t0) (lift h2 (plus d2 h1) x1))).eq_ind_r T (THead (Flat f) x0 x1) (\lambda (t2: T).ex2 T (\lambda (t3: T).eq T t2 (lift h1 d1 t3)) (\lambda (t3: T).eq T (THead (Flat f) t t0) (lift h2 d2 t3))) (ex2_ind T (\lambda (t2: T).eq T x0 (lift h1 d1 t2)) (\lambda (t2: T).eq T t (lift h2 d2 t2)) (ex2 T (\lambda (t2: T).eq T (THead (Flat f) x0 x1) (lift h1 d1 t2)) (\lambda (t2: T).eq T (THead (Flat f) t t0) (lift h2 d2 t2))) (\lambda (x2: T).\lambda (H8: (eq T x0 (lift h1 d1 x2))).\lambda (H9: (eq T t (lift h2 d2 x2))).eq_ind_r T (lift h1 d1 x2) (\lambda (t2: T).ex2 T (\lambda (t3: T).eq T (THead (Flat f) t2 x1) (lift h1 d1 t3)) (\lambda (t3: T).eq T (THead (Flat f) t t0) (lift h2 d2 t3))) (eq_ind_r T (lift h2 d2 x2) (\lambda (t2: T).ex2 T (\lambda (t3: T).eq T (THead (Flat f) (lift h1 d1 x2) x1) (lift h1 d1 t3)) (\lambda (t3: T).eq T (THead (Flat f) t2 t0) (lift h2 d2 t3))) (ex2_ind T (\lambda (t2: T).eq T x1 (lift h1 d1 t2)) (\lambda (t2: T).eq T t0 (lift h2 d2 t2)) (ex2 T (\lambda (t2: T).eq T (THead (Flat f) (lift h1 d1 x2) x1) (lift h1 d1 t2)) (\lambda (t2: T).eq T (THead (Flat f) (lift h2 d2 x2) t0) (lift h2 d2 t2))) (\lambda (x3: T).\lambda (H10: (eq T x1 (lift h1 d1 x3))).\lambda (H11: (eq T t0 (lift h2 d2 x3))).eq_ind_r T (lift h1 d1 x3) (\lambda (t2: T).ex2 T (\lambda (t3: T).eq T (THead (Flat f) (lift h1 d1 x2) t2) (lift h1 d1 t3)) (\lambda (t3: T).eq T (THead (Flat f) (lift h2 d2 x2) t0) (lift h2 d2 t3))) (eq_ind_r T (lift h2 d2 x3) (\lambda (t2: T).ex2 T (\lambda (t3: T).eq T (THead (Flat f) (lift h1 d1 x2) (lift h1 d1 x3)) (lift h1 d1 t3)) (\lambda (t3: T).eq T (THead (Flat f) (lift h2 d2 x2) t2) (lift h2 d2 t3))) (ex_intro2 T (\lambda (t2: T).eq T (THead (Flat f) (lift h1 d1 x2) (lift h1 d1 x3)) (lift h1 d1 t2)) (\lambda (t2: T).eq T (THead (Flat f) (lift h2 d2 x2) (lift h2 d2 x3)) (lift h2 d2 t2)) (THead (Flat f) x2 x3) (eq_ind_r T (THead (Flat f) (lift h1 d1 x2) (lift h1 d1 x3)) (\lambda (t2: T).eq T (THead (Flat f) (lift h1 d1 x2) (lift h1 d1 x3)) t2) (refl_equal T (THead (Flat f) (lift h1 d1 x2) (lift h1 d1 x3))) (lift h1 d1 (THead (Flat f) x2 x3)) (lift_flat f x2 x3 h1 d1)) (eq_ind_r T (THead (Flat f) (lift h2 d2 x2) (lift h2 d2 x3)) (\lambda (t2: T).eq T (THead (Flat f) (lift h2 d2 x2) (lift h2 d2 x3)) t2) (refl_equal T (THead (Flat f) (lift h2 d2 x2) (lift h2 d2 x3))) (lift h2 d2 (THead (Flat f) x2 x3)) (lift_flat f x2 x3 h2 d2))) t0 H11) x1 H10) (H0 x1 h1 h2 d1 d2 H1 H7)) t H9) x0 H8) (H x0 h1 h2 d1 d2 H1 H6)) x H5) (lift_gen_flat f (lift h1 d1 t) (lift h1 d1 t0) x h2 (plus d2 h1) H4)) k H2) t1.
+
+theorem lift_free: \forall (t: T).\forall (h: nat).\forall (k: nat).\forall (d: nat).\forall (e: nat).(le e (plus d h)) \to (le d e) \to eq T (lift k e (lift h d t)) (lift (plus k h) d t) \def \lambda (t: T).T_ind (\lambda (t0: T).\forall (h: nat).\forall (k: nat).\forall (d: nat).\forall (e: nat).(le e (plus d h)) \to (le d e) \to eq T (lift k e (lift h d t0)) (lift (plus k h) d t0)) (\lambda (n: nat).\lambda (h: nat).\lambda (k: nat).\lambda (d: nat).\lambda (e: nat).\lambda (_: (le e (plus d h))).\lambda (_: (le d e)).eq_ind_r T (TSort n) (\lambda (t0: T).eq T (lift k e t0) (lift (plus k h) d (TSort n))) (eq_ind_r T (TSort n) (\lambda (t0: T).eq T t0 (lift (plus k h) d (TSort n))) (eq_ind_r T (TSort n) (\lambda (t0: T).eq T (TSort n) t0) (refl_equal T (TSort n)) (lift (plus k h) d (TSort n)) (lift_sort n (plus k h) d)) (lift k e (TSort n)) (lift_sort n k e)) (lift h d (TSort n)) (lift_sort n h d)) (\lambda (n: nat).\lambda (h: nat).\lambda (k: nat).\lambda (d: nat).\lambda (e: nat).\lambda (H: (le e (plus d h))).\lambda (H0: (le d e)).lt_le_e n d (eq T (lift k e (lift h d (TLRef n))) (lift (plus k h) d (TLRef n))) (\lambda (H1: (lt n d)).eq_ind_r T (TLRef n) (\lambda (t0: T).eq T (lift k e t0) (lift (plus k h) d (TLRef n))) (eq_ind_r T (TLRef n) (\lambda (t0: T).eq T t0 (lift (plus k h) d (TLRef n))) (eq_ind_r T (TLRef n) (\lambda (t0: T).eq T (TLRef n) t0) (refl_equal T (TLRef n)) (lift (plus k h) d (TLRef n)) (lift_lref_lt n (plus k h) d H1)) (lift k e (TLRef n)) (lift_lref_lt n k e (lt_le_trans n d e H1 H0))) (lift h d (TLRef n)) (lift_lref_lt n h d H1)) (\lambda (H1: (le d n)).eq_ind_r T (TLRef (plus n h)) (\lambda (t0: T).eq T (lift k e t0) (lift (plus k h) d (TLRef n))) (eq_ind_r T (TLRef (plus (plus n h) k)) (\lambda (t0: T).eq T t0 (lift (plus k h) d (TLRef n))) (eq_ind_r T (TLRef (plus n (plus k h))) (\lambda (t0: T).eq T (TLRef (plus (plus n h) k)) t0) (f_equal nat T TLRef (plus (plus n h) k) (plus n (plus k h)) (plus_permute_2_in_3_assoc n h k)) (lift (plus k h) d (TLRef n)) (lift_lref_ge n (plus k h) d H1)) (lift k e (TLRef (plus n h))) (lift_lref_ge (plus n h) k e (le_trans e (plus d h) (plus n h) H (le_plus_plus d n h h H1 (le_n h))))) (lift h d (TLRef n)) (lift_lref_ge n h d H1))) (\lambda (k: K).\lambda (t0: T).\lambda (H: ((\forall (h: nat).\forall (k: nat).\forall (d: nat).\forall (e: nat).(le e (plus d h)) \to (le d e) \to eq T (lift k e (lift h d t0)) (lift (plus k h) d t0)))).\lambda (t1: T).\lambda (H0: ((\forall (h: nat).\forall (k: nat).\forall (d: nat).\forall (e: nat).(le e (plus d h)) \to (le d e) \to eq T (lift k e (lift h d t1)) (lift (plus k h) d t1)))).\lambda (h: nat).\lambda (k0: nat).\lambda (d: nat).\lambda (e: nat).\lambda (H1: (le e (plus d h))).\lambda (H2: (le d e)).eq_ind_r T (THead k (lift h d t0) (lift h (s k d) t1)) (\lambda (t2: T).eq T (lift k0 e t2) (lift (plus k0 h) d (THead k t0 t1))) (eq_ind_r T (THead k (lift k0 e (lift h d t0)) (lift k0 (s k e) (lift h (s k d) t1))) (\lambda (t2: T).eq T t2 (lift (plus k0 h) d (THead k t0 t1))) (eq_ind_r T (THead k (lift (plus k0 h) d t0) (lift (plus k0 h) (s k d) t1)) (\lambda (t2: T).eq T (THead k (lift k0 e (lift h d t0)) (lift k0 (s k e) (lift h (s k d) t1))) t2) (f_equal3 K T T T THead k k (lift k0 e (lift h d t0)) (lift (plus k0 h) d t0) (lift k0 (s k e) (lift h (s k d) t1)) (lift (plus k0 h) (s k d) t1) (refl_equal K k) (H h k0 d e H1 H2) (H0 h k0 (s k d) (s k e) (eq_ind nat (s k (plus d h)) (\lambda (n: nat).le (s k e) n) (s_le k e (plus d h) H1) (plus (s k d) h) (s_plus k d h)) (s_le k d e H2))) (lift (plus k0 h) d (THead k t0 t1)) (lift_head k t0 t1 (plus k0 h) d)) (lift k0 e (THead k (lift h d t0) (lift h (s k d) t1))) (lift_head k (lift h d t0) (lift h (s k d) t1) k0 e)) (lift h d (THead k t0 t1)) (lift_head k t0 t1 h d)) t.
+
+theorem lift_d: \forall (t: T).\forall (h: nat).\forall (k: nat).\forall (d: nat).\forall (e: nat).(le e d) \to eq T (lift h (plus k d) (lift k e t)) (lift k e (lift h d t)) \def \lambda (t: T).T_ind (\lambda (t0: T).\forall (h: nat).\forall (k: nat).\forall (d: nat).\forall (e: nat).(le e d) \to eq T (lift h (plus k d) (lift k e t0)) (lift k e (lift h d t0))) (\lambda (n: nat).\lambda (h: nat).\lambda (k: nat).\lambda (d: nat).\lambda (e: nat).\lambda (_: (le e d)).eq_ind_r T (TSort n) (\lambda (t0: T).eq T (lift h (plus k d) t0) (lift k e (lift h d (TSort n)))) (eq_ind_r T (TSort n) (\lambda (t0: T).eq T t0 (lift k e (lift h d (TSort n)))) (eq_ind_r T (TSort n) (\lambda (t0: T).eq T (TSort n) (lift k e t0)) (eq_ind_r T (TSort n) (\lambda (t0: T).eq T (TSort n) t0) (refl_equal T (TSort n)) (lift k e (TSort n)) (lift_sort n k e)) (lift h d (TSort n)) (lift_sort n h d)) (lift h (plus k d) (TSort n)) (lift_sort n h (plus k d))) (lift k e (TSort n)) (lift_sort n k e)) (\lambda (n: nat).\lambda (h: nat).\lambda (k: nat).\lambda (d: nat).\lambda (e: nat).\lambda (H: (le e d)).lt_le_e n e (eq T (lift h (plus k d) (lift k e (TLRef n))) (lift k e (lift h d (TLRef n)))) (\lambda (H0: (lt n e)).let H1 \def lt_le_trans n e d H0 H in eq_ind_r T (TLRef n) (\lambda (t0: T).eq T (lift h (plus k d) t0) (lift k e (lift h d (TLRef n)))) (eq_ind_r T (TLRef n) (\lambda (t0: T).eq T t0 (lift k e (lift h d (TLRef n)))) (eq_ind_r T (TLRef n) (\lambda (t0: T).eq T (TLRef n) (lift k e t0)) (eq_ind_r T (TLRef n) (\lambda (t0: T).eq T (TLRef n) t0) (refl_equal T (TLRef n)) (lift k e (TLRef n)) (lift_lref_lt n k e H0)) (lift h d (TLRef n)) (lift_lref_lt n h d H1)) (lift h (plus k d) (TLRef n)) (lift_lref_lt n h (plus k d) (lt_le_trans n d (plus k d) H1 (le_plus_r k d)))) (lift k e (TLRef n)) (lift_lref_lt n k e H0)) (\lambda (H0: (le e n)).eq_ind_r T (TLRef (plus n k)) (\lambda (t0: T).eq T (lift h (plus k d) t0) (lift k e (lift h d (TLRef n)))) (eq_ind_r nat (plus d k) (\lambda (n0: nat).eq T (lift h n0 (TLRef (plus n k))) (lift k e (lift h d (TLRef n)))) (lt_le_e n d (eq T (lift h (plus d k) (TLRef (plus n k))) (lift k e (lift h d (TLRef n)))) (\lambda (H1: (lt n d)).eq_ind_r T (TLRef (plus n k)) (\lambda (t0: T).eq T t0 (lift k e (lift h d (TLRef n)))) (eq_ind_r T (TLRef n) (\lambda (t0: T).eq T (TLRef (plus n k)) (lift k e t0)) (eq_ind_r T (TLRef (plus n k)) (\lambda (t0: T).eq T (TLRef (plus n k)) t0) (refl_equal T (TLRef (plus n k))) (lift k e (TLRef n)) (lift_lref_ge n k e H0)) (lift h d (TLRef n)) (lift_lref_lt n h d H1)) (lift h (plus d k) (TLRef (plus n k))) (lift_lref_lt (plus n k) h (plus d k) (lt_le_S (plus n k) (plus d k) (lt_reg_r n d k H1)))) (\lambda (H1: (le d n)).eq_ind_r T (TLRef (plus (plus n k) h)) (\lambda (t0: T).eq T t0 (lift k e (lift h d (TLRef n)))) (eq_ind_r T (TLRef (plus n h)) (\lambda (t0: T).eq T (TLRef (plus (plus n k) h)) (lift k e t0)) (eq_ind_r T (TLRef (plus (plus n h) k)) (\lambda (t0: T).eq T (TLRef (plus (plus n k) h)) t0) (f_equal nat T TLRef (plus (plus n k) h) (plus (plus n h) k) (sym_eq nat (plus (plus n h) k) (plus (plus n k) h) (plus_permute_2_in_3 n h k))) (lift k e (TLRef (plus n h))) (lift_lref_ge (plus n h) k e (le_S_n e (plus n h) (lt_le_S e (S (plus n h)) (le_lt_n_Sm e (plus n h) (le_plus_trans e n h H0)))))) (lift h d (TLRef n)) (lift_lref_ge n h d H1)) (lift h (plus d k) (TLRef (plus n k))) (lift_lref_ge (plus n k) h (plus d k) (le_S_n (plus d k) (plus n k) (lt_le_S (plus d k) (S (plus n k)) (le_lt_n_Sm (plus d k) (plus n k) (le_plus_plus d n k k H1 (le_n k)))))))) (plus k d) (plus_sym k d)) (lift k e (TLRef n)) (lift_lref_ge n k e H0))) (\lambda (k: K).\lambda (t0: T).\lambda (H: ((\forall (h: nat).\forall (k: nat).\forall (d: nat).\forall (e: nat).(le e d) \to eq T (lift h (plus k d) (lift k e t0)) (lift k e (lift h d t0))))).\lambda (t1: T).\lambda (H0: ((\forall (h: nat).\forall (k: nat).\forall (d: nat).\forall (e: nat).(le e d) \to eq T (lift h (plus k d) (lift k e t1)) (lift k e (lift h d t1))))).\lambda (h: nat).\lambda (k0: nat).\lambda (d: nat).\lambda (e: nat).\lambda (H1: (le e d)).eq_ind_r T (THead k (lift k0 e t0) (lift k0 (s k e) t1)) (\lambda (t2: T).eq T (lift h (plus k0 d) t2) (lift k0 e (lift h d (THead k t0 t1)))) (eq_ind_r T (THead k (lift h (plus k0 d) (lift k0 e t0)) (lift h (s k (plus k0 d)) (lift k0 (s k e) t1))) (\lambda (t2: T).eq T t2 (lift k0 e (lift h d (THead k t0 t1)))) (eq_ind_r T (THead k (lift h d t0) (lift h (s k d) t1)) (\lambda (t2: T).eq T (THead k (lift h (plus k0 d) (lift k0 e t0)) (lift h (s k (plus k0 d)) (lift k0 (s k e) t1))) (lift k0 e t2)) (eq_ind_r T (THead k (lift k0 e (lift h d t0)) (lift k0 (s k e) (lift h (s k d) t1))) (\lambda (t2: T).eq T (THead k (lift h (plus k0 d) (lift k0 e t0)) (lift h (s k (plus k0 d)) (lift k0 (s k e) t1))) t2) (eq_ind_r nat (plus k0 (s k d)) (\lambda (n: nat).eq T (THead k (lift h (plus k0 d) (lift k0 e t0)) (lift h n (lift k0 (s k e) t1))) (THead k (lift k0 e (lift h d t0)) (lift k0 (s k e) (lift h (s k d) t1)))) (f_equal3 K T T T THead k k (lift h (plus k0 d) (lift k0 e t0)) (lift k0 e (lift h d t0)) (lift h (plus k0 (s k d)) (lift k0 (s k e) t1)) (lift k0 (s k e) (lift h (s k d) t1)) (refl_equal K k) (H h k0 d e H1) (H0 h k0 (s k d) (s k e) (s_le k e d H1))) (s k (plus k0 d)) (s_plus_sym k k0 d)) (lift k0 e (THead k (lift h d t0) (lift h (s k d) t1))) (lift_head k (lift h d t0) (lift h (s k d) t1) k0 e)) (lift h d (THead k t0 t1)) (lift_head k t0 t1 h d)) (lift h (plus k0 d) (THead k (lift k0 e t0) (lift k0 (s k e) t1))) (lift_head k (lift k0 e t0) (lift k0 (s k e) t1) h (plus k0 d))) (lift k0 e (THead k t0 t1)) (lift_head k t0 t1 k0 e)) t.
+
+theorem lift_weight_map: \forall (t: T).\forall (h: nat).\forall (d: nat).\forall (f: ((nat \to nat))).((\forall (m: nat).(le d m) \to eq nat (f m) O)) \to eq nat (weight_map f (lift h d t)) (weight_map f t) \def \lambda (t: T).T_ind (\lambda (t0: T).\forall (h: nat).\forall (d: nat).\forall (f: ((nat \to nat))).((\forall (m: nat).(le d m) \to eq nat (f m) O)) \to eq nat (weight_map f (lift h d t0)) (weight_map f t0)) (\lambda (n: nat).\lambda (_: nat).\lambda (d: nat).\lambda (f: ((nat \to nat))).\lambda (_: ((\forall (m: nat).(le d m) \to eq nat (f m) O))).refl_equal nat (weight_map f (TSort n))) (\lambda (n: nat).\lambda (h: nat).\lambda (d: nat).\lambda (f: ((nat \to nat))).\lambda (H: ((\forall (m: nat).(le d m) \to eq nat (f m) O))).lt_le_e n d (eq nat (weight_map f (lift h d (TLRef n))) (weight_map f (TLRef n))) (\lambda (H0: (lt n d)).eq_ind_r T (TLRef n) (\lambda (t0: T).eq nat (weight_map f t0) (weight_map f (TLRef n))) (refl_equal nat (weight_map f (TLRef n))) (lift h d (TLRef n)) (lift_lref_lt n h d H0)) (\lambda (H0: (le d n)).eq_ind_r T (TLRef (plus n h)) (\lambda (t0: T).eq nat (weight_map f t0) (weight_map f (TLRef n))) (eq_ind_r nat O (\lambda (n0: nat).eq nat (f (plus n h)) n0) (H (plus n h) (le_S_n d (plus n h) (le_n_S d (plus n h) (le_plus_trans d n h H0)))) (f n) (H n H0)) (lift h d (TLRef n)) (lift_lref_ge n h d H0))) (\lambda (k: K).\lambda (t0: T).\lambda (H: ((\forall (h: nat).\forall (d: nat).\forall (f: ((nat \to nat))).((\forall (m: nat).(le d m) \to eq nat (f m) O)) \to eq nat (weight_map f (lift h d t0)) (weight_map f t0)))).\lambda (t1: T).\lambda (H0: ((\forall (h: nat).\forall (d: nat).\forall (f: ((nat \to nat))).((\forall (m: nat).(le d m) \to eq nat (f m) O)) \to eq nat (weight_map f (lift h d t1)) (weight_map f t1)))).\lambda (h: nat).\lambda (d: nat).\lambda (f: ((nat \to nat))).\lambda (H1: ((\forall (m: nat).(le d m) \to eq nat (f m) O))).K_ind (\lambda (k0: K).eq nat (weight_map f (lift h d (THead k0 t0 t1))) (weight_map f (THead k0 t0 t1))) (\lambda (b: B).eq_ind_r T (THead (Bind b) (lift h d t0) (lift h (s (Bind b) d) t1)) (\lambda (t2: T).eq nat (weight_map f t2) (weight_map f (THead (Bind b) t0 t1))) (B_ind (\lambda (b0: B).eq nat (match b0 with [Abbr \Rightarrow (S (plus (weight_map f (lift h d t0)) (weight_map (wadd f (S (weight_map f (lift h d t0)))) (lift h (S d) t1)))) | Abst \Rightarrow (S (plus (weight_map f (lift h d t0)) (weight_map (wadd f O) (lift h (S d) t1)))) | Void \Rightarrow (S (plus (weight_map f (lift h d t0)) (weight_map (wadd f O) (lift h (S d) t1))))]) (match b0 with [Abbr \Rightarrow (S (plus (weight_map f t0) (weight_map (wadd f (S (weight_map f t0))) t1))) | Abst \Rightarrow (S (plus (weight_map f t0) (weight_map (wadd f O) t1))) | Void \Rightarrow (S (plus (weight_map f t0) (weight_map (wadd f O) t1)))])) (eq_ind_r nat (weight_map f t0) (\lambda (n: nat).eq nat (S (plus n (weight_map (wadd f (S n)) (lift h (S d) t1)))) (S (plus (weight_map f t0) (weight_map (wadd f (S (weight_map f t0))) t1)))) (eq_ind_r nat (weight_map (wadd f (S (weight_map f t0))) t1) (\lambda (n: nat).eq nat (S (plus (weight_map f t0) n)) (S (plus (weight_map f t0) (weight_map (wadd f (S (weight_map f t0))) t1)))) (refl_equal nat (S (plus (weight_map f t0) (weight_map (wadd f (S (weight_map f t0))) t1)))) (weight_map (wadd f (S (weight_map f t0))) (lift h (S d) t1)) (H0 h (S d) (wadd f (S (weight_map f t0))) (\lambda (m: nat).\lambda (H2: (le (S d) m)).ex2_ind nat (\lambda (n: nat).eq nat m (S n)) (\lambda (n: nat).le d n) (eq nat (wadd f (S (weight_map f t0)) m) O) (\lambda (x: nat).\lambda (H3: (eq nat m (S x))).\lambda (H4: (le d x)).eq_ind_r nat (S x) (\lambda (n: nat).eq nat (wadd f (S (weight_map f t0)) n) O) (H1 x H4) m H3) (le_gen_S d m H2)))) (weight_map f (lift h d t0)) (H h d f H1)) (eq_ind_r nat (weight_map (wadd f O) t1) (\lambda (n: nat).eq nat (S (plus (weight_map f (lift h d t0)) n)) (S (plus (weight_map f t0) (weight_map (wadd f O) t1)))) (f_equal nat nat S (plus (weight_map f (lift h d t0)) (weight_map (wadd f O) t1)) (plus (weight_map f t0) (weight_map (wadd f O) t1)) (f_equal2 nat nat nat plus (weight_map f (lift h d t0)) (weight_map f t0) (weight_map (wadd f O) t1) (weight_map (wadd f O) t1) (H h d f H1) (refl_equal nat (weight_map (wadd f O) t1)))) (weight_map (wadd f O) (lift h (S d) t1)) (H0 h (S d) (wadd f O) (\lambda (m: nat).\lambda (H2: (le (S d) m)).ex2_ind nat (\lambda (n: nat).eq nat m (S n)) (\lambda (n: nat).le d n) (eq nat (wadd f O m) O) (\lambda (x: nat).\lambda (H3: (eq nat m (S x))).\lambda (H4: (le d x)).eq_ind_r nat (S x) (\lambda (n: nat).eq nat (wadd f O n) O) (H1 x H4) m H3) (le_gen_S d m H2)))) (eq_ind_r nat (weight_map (wadd f O) t1) (\lambda (n: nat).eq nat (S (plus (weight_map f (lift h d t0)) n)) (S (plus (weight_map f t0) (weight_map (wadd f O) t1)))) (f_equal nat nat S (plus (weight_map f (lift h d t0)) (weight_map (wadd f O) t1)) (plus (weight_map f t0) (weight_map (wadd f O) t1)) (f_equal2 nat nat nat plus (weight_map f (lift h d t0)) (weight_map f t0) (weight_map (wadd f O) t1) (weight_map (wadd f O) t1) (H h d f H1) (refl_equal nat (weight_map (wadd f O) t1)))) (weight_map (wadd f O) (lift h (S d) t1)) (H0 h (S d) (wadd f O) (\lambda (m: nat).\lambda (H2: (le (S d) m)).ex2_ind nat (\lambda (n: nat).eq nat m (S n)) (\lambda (n: nat).le d n) (eq nat (wadd f O m) O) (\lambda (x: nat).\lambda (H3: (eq nat m (S x))).\lambda (H4: (le d x)).eq_ind_r nat (S x) (\lambda (n: nat).eq nat (wadd f O n) O) (H1 x H4) m H3) (le_gen_S d m H2)))) b) (lift h d (THead (Bind b) t0 t1)) (lift_head (Bind b) t0 t1 h d)) (\lambda (f0: F).eq_ind_r T (THead (Flat f0) (lift h d t0) (lift h (s (Flat f0) d) t1)) (\lambda (t2: T).eq nat (weight_map f t2) (weight_map f (THead (Flat f0) t0 t1))) (f_equal nat nat S (plus (weight_map f (lift h d t0)) (weight_map f (lift h d t1))) (plus (weight_map f t0) (weight_map f t1)) (f_equal2 nat nat nat plus (weight_map f (lift h d t0)) (weight_map f t0) (weight_map f (lift h d t1)) (weight_map f t1) (H h d f H1) (H0 h d f H1))) (lift h d (THead (Flat f0) t0 t1)) (lift_head (Flat f0) t0 t1 h d)) k) t.
+
+theorem lift_weight: \forall (t: T).\forall (h: nat).\forall (d: nat).eq nat (weight (lift h d t)) (weight t) \def \lambda (t: T).\lambda (h: nat).\lambda (d: nat).lift_weight_map t h d (\lambda (_: nat).O) (\lambda (m: nat).\lambda (_: (le d m)).refl_equal nat O).
+
+theorem lift_weight_add: \forall (w: nat).\forall (t: T).\forall (h: nat).\forall (d: nat).\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).(lt m d) \to eq nat (g m) (f m))) \to (eq nat (g d) w) \to ((\forall (m: nat).(le d m) \to eq nat (g (S m)) (f m))) \to eq nat (weight_map f (lift h d t)) (weight_map g (lift (S h) d t)) \def \lambda (w: nat).\lambda (t: T).T_ind (\lambda (t0: T).\forall (h: nat).\forall (d: nat).\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).(lt m d) \to eq nat (g m) (f m))) \to (eq nat (g d) w) \to ((\forall (m: nat).(le d m) \to eq nat (g (S m)) (f m))) \to eq nat (weight_map f (lift h d t0)) (weight_map g (lift (S h) d t0))) (\lambda (n: nat).\lambda (h: nat).\lambda (d: nat).\lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (_: ((\forall (m: nat).(lt m d) \to eq nat (g m) (f m)))).\lambda (_: (eq nat (g d) w)).\lambda (_: ((\forall (m: nat).(le d m) \to eq nat (g (S m)) (f m)))).refl_equal nat (weight_map g (lift (S h) d (TSort n)))) (\lambda (n: nat).\lambda (h: nat).\lambda (d: nat).\lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H: ((\forall (m: nat).(lt m d) \to eq nat (g m) (f m)))).\lambda (_: (eq nat (g d) w)).\lambda (H1: ((\forall (m: nat).(le d m) \to eq nat (g (S m)) (f m)))).lt_le_e n d (eq nat (weight_map f (lift h d (TLRef n))) (weight_map g (lift (S h) d (TLRef n)))) (\lambda (H2: (lt n d)).eq_ind_r T (TLRef n) (\lambda (t0: T).eq nat (weight_map f t0) (weight_map g (lift (S h) d (TLRef n)))) (eq_ind_r T (TLRef n) (\lambda (t0: T).eq nat (weight_map f (TLRef n)) (weight_map g t0)) (sym_equal nat (g n) (f n) (H n H2)) (lift (S h) d (TLRef n)) (lift_lref_lt n (S h) d H2)) (lift h d (TLRef n)) (lift_lref_lt n h d H2)) (\lambda (H2: (le d n)).eq_ind_r T (TLRef (plus n h)) (\lambda (t0: T).eq nat (weight_map f t0) (weight_map g (lift (S h) d (TLRef n)))) (eq_ind_r T (TLRef (plus n (S h))) (\lambda (t0: T).eq nat (weight_map f (TLRef (plus n h))) (weight_map g t0)) (eq_ind nat (S (plus n h)) (\lambda (n0: nat).eq nat (f (plus n h)) (g n0)) (sym_equal nat (g (S (plus n h))) (f (plus n h)) (H1 (plus n h) (le_plus_trans d n h H2))) (plus n (S h)) (plus_n_Sm n h)) (lift (S h) d (TLRef n)) (lift_lref_ge n (S h) d H2)) (lift h d (TLRef n)) (lift_lref_ge n h d H2))) (\lambda (k: K).\lambda (t0: T).\lambda (H: ((\forall (h: nat).\forall (d: nat).\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).(lt m d) \to eq nat (g m) (f m))) \to (eq nat (g d) w) \to ((\forall (m: nat).(le d m) \to eq nat (g (S m)) (f m))) \to eq nat (weight_map f (lift h d t0)) (weight_map g (lift (S h) d t0))))).\lambda (t1: T).\lambda (H0: ((\forall (h: nat).\forall (d: nat).\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).(lt m d) \to eq nat (g m) (f m))) \to (eq nat (g d) w) \to ((\forall (m: nat).(le d m) \to eq nat (g (S m)) (f m))) \to eq nat (weight_map f (lift h d t1)) (weight_map g (lift (S h) d t1))))).\lambda (h: nat).\lambda (d: nat).\lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H1: ((\forall (m: nat).(lt m d) \to eq nat (g m) (f m)))).\lambda (H2: (eq nat (g d) w)).\lambda (H3: ((\forall (m: nat).(le d m) \to eq nat (g (S m)) (f m)))).K_ind (\lambda (k0: K).eq nat (weight_map f (lift h d (THead k0 t0 t1))) (weight_map g (lift (S h) d (THead k0 t0 t1)))) (\lambda (b: B).eq_ind_r T (THead (Bind b) (lift h d t0) (lift h (s (Bind b) d) t1)) (\lambda (t2: T).eq nat (weight_map f t2) (weight_map g (lift (S h) d (THead (Bind b) t0 t1)))) (eq_ind_r T (THead (Bind b) (lift (S h) d t0) (lift (S h) (s (Bind b) d) t1)) (\lambda (t2: T).eq nat (weight_map f (THead (Bind b) (lift h d t0) (lift h (s (Bind b) d) t1))) (weight_map g t2)) (B_ind (\lambda (b0: B).eq nat (match b0 with [Abbr \Rightarrow (S (plus (weight_map f (lift h d t0)) (weight_map (wadd f (S (weight_map f (lift h d t0)))) (lift h (S d) t1)))) | Abst \Rightarrow (S (plus (weight_map f (lift h d t0)) (weight_map (wadd f O) (lift h (S d) t1)))) | Void \Rightarrow (S (plus (weight_map f (lift h d t0)) (weight_map (wadd f O) (lift h (S d) t1))))]) (match b0 with [Abbr \Rightarrow (S (plus (weight_map g (lift (S h) d t0)) (weight_map (wadd g (S (weight_map g (lift (S h) d t0)))) (lift (S h) (S d) t1)))) | Abst \Rightarrow (S (plus (weight_map g (lift (S h) d t0)) (weight_map (wadd g O) (lift (S h) (S d) t1)))) | Void \Rightarrow (S (plus (weight_map g (lift (S h) d t0)) (weight_map (wadd g O) (lift (S h) (S d) t1))))])) (f_equal nat nat S (plus (weight_map f (lift h d t0)) (weight_map (wadd f (S (weight_map f (lift h d t0)))) (lift h (S d) t1))) (plus (weight_map g (lift (S h) d t0)) (weight_map (wadd g (S (weight_map g (lift (S h) d t0)))) (lift (S h) (S d) t1))) (f_equal2 nat nat nat plus (weight_map f (lift h d t0)) (weight_map g (lift (S h) d t0)) (weight_map (wadd f (S (weight_map f (lift h d t0)))) (lift h (S d) t1)) (weight_map (wadd g (S (weight_map g (lift (S h) d t0)))) (lift (S h) (S d) t1)) (H h d f g H1 H2 H3) (H0 h (S d) (wadd f (S (weight_map f (lift h d t0)))) (wadd g (S (weight_map g (lift (S h) d t0)))) (\lambda (m: nat).\lambda (H4: (lt m (S d))).or_ind (eq nat m O) (ex2 nat (\lambda (m0: nat).eq nat m (S m0)) (\lambda (m0: nat).lt m0 d)) (eq nat (wadd g (S (weight_map g (lift (S h) d t0))) m) (wadd f (S (weight_map f (lift h d t0))) m)) (\lambda (H5: (eq nat m O)).eq_ind_r nat O (\lambda (n: nat).eq nat (wadd g (S (weight_map g (lift (S h) d t0))) n) (wadd f (S (weight_map f (lift h d t0))) n)) (f_equal nat nat S (weight_map g (lift (S h) d t0)) (weight_map f (lift h d t0)) (sym_equal nat (weight_map f (lift h d t0)) (weight_map g (lift (S h) d t0)) (H h d f g H1 H2 H3))) m H5) (\lambda (H5: (ex2 nat (\lambda (m0: nat).eq nat m (S m0)) (\lambda (m: nat).lt m d))).ex2_ind nat (\lambda (m0: nat).eq nat m (S m0)) (\lambda (m0: nat).lt m0 d) (eq nat (wadd g (S (weight_map g (lift (S h) d t0))) m) (wadd f (S (weight_map f (lift h d t0))) m)) (\lambda (x: nat).\lambda (H6: (eq nat m (S x))).\lambda (H7: (lt x d)).eq_ind_r nat (S x) (\lambda (n: nat).eq nat (wadd g (S (weight_map g (lift (S h) d t0))) n) (wadd f (S (weight_map f (lift h d t0))) n)) (H1 x H7) m H6) H5) (lt_gen_xS m d H4)) H2 (\lambda (m: nat).\lambda (H4: (le (S d) m)).ex2_ind nat (\lambda (n: nat).eq nat m (S n)) (\lambda (n: nat).le d n) (eq nat (g m) (wadd f (S (weight_map f (lift h d t0))) m)) (\lambda (x: nat).\lambda (H5: (eq nat m (S x))).\lambda (H6: (le d x)).eq_ind_r nat (S x) (\lambda (n: nat).eq nat (g n) (wadd f (S (weight_map f (lift h d t0))) n)) (H3 x H6) m H5) (le_gen_S d m H4))))) (f_equal nat nat S (plus (weight_map f (lift h d t0)) (weight_map (wadd f O) (lift h (S d) t1))) (plus (weight_map g (lift (S h) d t0)) (weight_map (wadd g O) (lift (S h) (S d) t1))) (f_equal2 nat nat nat plus (weight_map f (lift h d t0)) (weight_map g (lift (S h) d t0)) (weight_map (wadd f O) (lift h (S d) t1)) (weight_map (wadd g O) (lift (S h) (S d) t1)) (H h d f g H1 H2 H3) (H0 h (S d) (wadd f O) (wadd g O) (\lambda (m: nat).\lambda (H4: (lt m (S d))).or_ind (eq nat m O) (ex2 nat (\lambda (m0: nat).eq nat m (S m0)) (\lambda (m0: nat).lt m0 d)) (eq nat (wadd g O m) (wadd f O m)) (\lambda (H5: (eq nat m O)).eq_ind_r nat O (\lambda (n: nat).eq nat (wadd g O n) (wadd f O n)) (refl_equal nat O) m H5) (\lambda (H5: (ex2 nat (\lambda (m0: nat).eq nat m (S m0)) (\lambda (m: nat).lt m d))).ex2_ind nat (\lambda (m0: nat).eq nat m (S m0)) (\lambda (m0: nat).lt m0 d) (eq nat (wadd g O m) (wadd f O m)) (\lambda (x: nat).\lambda (H6: (eq nat m (S x))).\lambda (H7: (lt x d)).eq_ind_r nat (S x) (\lambda (n: nat).eq nat (wadd g O n) (wadd f O n)) (H1 x H7) m H6) H5) (lt_gen_xS m d H4)) H2 (\lambda (m: nat).\lambda (H4: (le (S d) m)).ex2_ind nat (\lambda (n: nat).eq nat m (S n)) (\lambda (n: nat).le d n) (eq nat (g m) (wadd f O m)) (\lambda (x: nat).\lambda (H5: (eq nat m (S x))).\lambda (H6: (le d x)).eq_ind_r nat (S x) (\lambda (n: nat).eq nat (g n) (wadd f O n)) (H3 x H6) m H5) (le_gen_S d m H4))))) (f_equal nat nat S (plus (weight_map f (lift h d t0)) (weight_map (wadd f O) (lift h (S d) t1))) (plus (weight_map g (lift (S h) d t0)) (weight_map (wadd g O) (lift (S h) (S d) t1))) (f_equal2 nat nat nat plus (weight_map f (lift h d t0)) (weight_map g (lift (S h) d t0)) (weight_map (wadd f O) (lift h (S d) t1)) (weight_map (wadd g O) (lift (S h) (S d) t1)) (H h d f g H1 H2 H3) (H0 h (S d) (wadd f O) (wadd g O) (\lambda (m: nat).\lambda (H4: (lt m (S d))).or_ind (eq nat m O) (ex2 nat (\lambda (m0: nat).eq nat m (S m0)) (\lambda (m0: nat).lt m0 d)) (eq nat (wadd g O m) (wadd f O m)) (\lambda (H5: (eq nat m O)).eq_ind_r nat O (\lambda (n: nat).eq nat (wadd g O n) (wadd f O n)) (refl_equal nat O) m H5) (\lambda (H5: (ex2 nat (\lambda (m0: nat).eq nat m (S m0)) (\lambda (m: nat).lt m d))).ex2_ind nat (\lambda (m0: nat).eq nat m (S m0)) (\lambda (m0: nat).lt m0 d) (eq nat (wadd g O m) (wadd f O m)) (\lambda (x: nat).\lambda (H6: (eq nat m (S x))).\lambda (H7: (lt x d)).eq_ind_r nat (S x) (\lambda (n: nat).eq nat (wadd g O n) (wadd f O n)) (H1 x H7) m H6) H5) (lt_gen_xS m d H4)) H2 (\lambda (m: nat).\lambda (H4: (le (S d) m)).ex2_ind nat (\lambda (n: nat).eq nat m (S n)) (\lambda (n: nat).le d n) (eq nat (g m) (wadd f O m)) (\lambda (x: nat).\lambda (H5: (eq nat m (S x))).\lambda (H6: (le d x)).eq_ind_r nat (S x) (\lambda (n: nat).eq nat (g n) (wadd f O n)) (H3 x H6) m H5) (le_gen_S d m H4))))) b) (lift (S h) d (THead (Bind b) t0 t1)) (lift_head (Bind b) t0 t1 (S h) d)) (lift h d (THead (Bind b) t0 t1)) (lift_head (Bind b) t0 t1 h d)) (\lambda (f0: F).eq_ind_r T (THead (Flat f0) (lift h d t0) (lift h (s (Flat f0) d) t1)) (\lambda (t2: T).eq nat (weight_map f t2) (weight_map g (lift (S h) d (THead (Flat f0) t0 t1)))) (eq_ind_r T (THead (Flat f0) (lift (S h) d t0) (lift (S h) (s (Flat f0) d) t1)) (\lambda (t2: T).eq nat (weight_map f (THead (Flat f0) (lift h d t0) (lift h (s (Flat f0) d) t1))) (weight_map g t2)) (f_equal nat nat S (plus (weight_map f (lift h d t0)) (weight_map f (lift h d t1))) (plus (weight_map g (lift (S h) d t0)) (weight_map g (lift (S h) d t1))) (f_equal2 nat nat nat plus (weight_map f (lift h d t0)) (weight_map g (lift (S h) d t0)) (weight_map f (lift h d t1)) (weight_map g (lift (S h) d t1)) (H h d f g H1 H2 H3) (H0 h d f g H1 H2 H3))) (lift (S h) d (THead (Flat f0) t0 t1)) (lift_head (Flat f0) t0 t1 (S h) d)) (lift h d (THead (Flat f0) t0 t1)) (lift_head (Flat f0) t0 t1 h d)) k) t.
+
+theorem lift_weight_add_O: \forall (w: nat).\forall (t: T).\forall (h: nat).\forall (f: ((nat \to nat))).eq nat (weight_map f (lift h O t)) (weight_map (wadd f w) (lift (S h) O t)) \def \lambda (w: nat).\lambda (t: T).\lambda (h: nat).\lambda (f: ((nat \to nat))).lift_weight_add (plus (wadd f w O) O) t h O f (wadd f w) (\lambda (m: nat).\lambda (H: (lt m O)).let H0 \def match H return (\lambda (n: nat).(eq nat n O) \to eq nat (wadd f w m) (f m)) with [le_n \Rightarrow (\lambda (H0: (eq nat (S m) O)).let H1 \def eq_ind nat (S m) (\lambda (e: nat).match e return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H0 in False_ind (eq nat (wadd f w m) (f m)) H1) | (le_S m0 H0) \Rightarrow (\lambda (H1: (eq nat (S m0) O)).(let H2 \def eq_ind nat (S m0) (\lambda (e: nat).match e return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H1 in False_ind ((le (S m) m0) \to eq nat (wadd f w m) (f m)) H2) H0)] in H0 (refl_equal nat O)) (plus_n_O (wadd f w O)) (\lambda (m: nat).\lambda (_: (le O m)).refl_equal nat (f m)).
+
+theorem lift_tlt_dx: \forall (k: K).\forall (u: T).\forall (t: T).\forall (h: nat).\forall (d: nat).tlt t (THead k u (lift h d t)) \def \lambda (k: K).\lambda (u: T).\lambda (t: T).\lambda (h: nat).\lambda (d: nat).eq_ind nat (weight (lift h d t)) (\lambda (n: nat).lt n (weight (THead k u (lift h d t)))) (tlt_head_dx k u (lift h d t)) (weight t) (lift_weight t h d).
+
+inductive PList: Set \def
+| PNil: PList
+| PCons: nat \to nat \to PList \to PList.
+
+theorem PConsTail: PList \to nat \to nat \to PList \def let rec (PConsTail: (\forall (hds: PList).nat \to nat \to PList)) = (\lambda (hds: PList).\lambda (h0: nat).\lambda (d0: nat).match hds with [PNil \Rightarrow (PCons h0 d0 PNil) | (PCons h d hds0) \Rightarrow (PCons h d (PConsTail hds0 h0 d0))]) in PConsTail.
+
+theorem trans: PList \to nat \to nat \def let rec (trans: (\forall (hds: PList).nat \to nat)) = (\lambda (hds: PList).\lambda (i: nat).match hds with [PNil \Rightarrow i | (PCons h d hds0) \Rightarrow (let j \def trans hds0 i in match (blt j d) with [true \Rightarrow j | false \Rightarrow (plus j h)])]) in trans.
+
+theorem Ss: PList \to PList \def let rec (Ss: (\forall (hds: PList).PList)) = (\lambda (hds: PList).match hds with [PNil \Rightarrow PNil | (PCons h d hds0) \Rightarrow (PCons h (S d) (Ss hds0))]) in Ss.
+
+theorem lift1: PList \to T \to T \def let rec (lift1: (\forall (hds: PList).T \to T)) = (\lambda (hds: PList).\lambda (t: T).match hds with [PNil \Rightarrow t | (PCons h d hds0) \Rightarrow (lift h d (lift1 hds0 t))]) in lift1.
+
+theorem lifts1: PList \to TList \to TList \def let rec (lifts1: (\forall (hds: PList).\forall (ts: TList).TList)) = (\lambda (hds: PList).\lambda (ts: TList).match ts with [TNil \Rightarrow TNil | (TCons t ts0) \Rightarrow (TCons (lift1 hds t) (lifts1 hds ts0))]) in lifts1.
+
+theorem lift1_lref: \forall (hds: PList).\forall (i: nat).eq T (lift1 hds (TLRef i)) (TLRef (trans hds i)) \def \lambda (hds: PList).PList_ind (\lambda (p: PList).\forall (i: nat).eq T (lift1 p (TLRef i)) (TLRef (trans p i))) (\lambda (i: nat).refl_equal T (TLRef (trans PNil i))) (\lambda (h: nat).\lambda (d: nat).\lambda (p: PList).\lambda (H: ((\forall (i: nat).eq T (lift1 p (TLRef i)) (TLRef (trans p i))))).\lambda (i: nat).eq_ind_r T (TLRef (trans p i)) (\lambda (t: T).eq T (lift h d t) (TLRef (match (blt (trans p i) d) with [true \Rightarrow (trans p i) | false \Rightarrow (plus (trans p i) h)]))) (refl_equal T (TLRef (match (blt (trans p i) d) with [true \Rightarrow (trans p i) | false \Rightarrow (plus (trans p i) h)]))) (lift1 p (TLRef i)) (H i)) hds.
+
+theorem lift1_bind: \forall (b: B).\forall (hds: PList).\forall (u: T).\forall (t: T).eq T (lift1 hds (THead (Bind b) u t)) (THead (Bind b) (lift1 hds u) (lift1 (Ss hds) t)) \def \lambda (b: B).\lambda (hds: PList).PList_ind (\lambda (p: PList).\forall (u: T).\forall (t: T).eq T (lift1 p (THead (Bind b) u t)) (THead (Bind b) (lift1 p u) (lift1 (Ss p) t))) (\lambda (u: T).\lambda (t: T).refl_equal T (THead (Bind b) (lift1 PNil u) (lift1 (Ss PNil) t))) (\lambda (h: nat).\lambda (d: nat).\lambda (p: PList).\lambda (H: ((\forall (u: T).\forall (t: T).eq T (lift1 p (THead (Bind b) u t)) (THead (Bind b) (lift1 p u) (lift1 (Ss p) t))))).\lambda (u: T).\lambda (t: T).eq_ind_r T (THead (Bind b) (lift1 p u) (lift1 (Ss p) t)) (\lambda (t0: T).eq T (lift h d t0) (THead (Bind b) (lift h d (lift1 p u)) (lift h (S d) (lift1 (Ss p) t)))) (eq_ind_r T (THead (Bind b) (lift h d (lift1 p u)) (lift h (S d) (lift1 (Ss p) t))) (\lambda (t0: T).eq T t0 (THead (Bind b) (lift h d (lift1 p u)) (lift h (S d) (lift1 (Ss p) t)))) (refl_equal T (THead (Bind b) (lift h d (lift1 p u)) (lift h (S d) (lift1 (Ss p) t)))) (lift h d (THead (Bind b) (lift1 p u) (lift1 (Ss p) t))) (lift_bind b (lift1 p u) (lift1 (Ss p) t) h d)) (lift1 p (THead (Bind b) u t)) (H u t)) hds.
+
+theorem lift1_flat: \forall (f: F).\forall (hds: PList).\forall (u: T).\forall (t: T).eq T (lift1 hds (THead (Flat f) u t)) (THead (Flat f) (lift1 hds u) (lift1 hds t)) \def \lambda (f: F).\lambda (hds: PList).PList_ind (\lambda (p: PList).\forall (u: T).\forall (t: T).eq T (lift1 p (THead (Flat f) u t)) (THead (Flat f) (lift1 p u) (lift1 p t))) (\lambda (u: T).\lambda (t: T).refl_equal T (THead (Flat f) (lift1 PNil u) (lift1 PNil t))) (\lambda (h: nat).\lambda (d: nat).\lambda (p: PList).\lambda (H: ((\forall (u: T).\forall (t: T).eq T (lift1 p (THead (Flat f) u t)) (THead (Flat f) (lift1 p u) (lift1 p t))))).\lambda (u: T).\lambda (t: T).eq_ind_r T (THead (Flat f) (lift1 p u) (lift1 p t)) (\lambda (t0: T).eq T (lift h d t0) (THead (Flat f) (lift h d (lift1 p u)) (lift h d (lift1 p t)))) (eq_ind_r T (THead (Flat f) (lift h d (lift1 p u)) (lift h d (lift1 p t))) (\lambda (t0: T).eq T t0 (THead (Flat f) (lift h d (lift1 p u)) (lift h d (lift1 p t)))) (refl_equal T (THead (Flat f) (lift h d (lift1 p u)) (lift h d (lift1 p t)))) (lift h d (THead (Flat f) (lift1 p u) (lift1 p t))) (lift_flat f (lift1 p u) (lift1 p t) h d)) (lift1 p (THead (Flat f) u t)) (H u t)) hds.
+
+theorem lift1_cons_tail: \forall (t: T).\forall (h: nat).\forall (d: nat).\forall (hds: PList).eq T (lift1 (PConsTail hds h d) t) (lift1 hds (lift h d t)) \def \lambda (t: T).\lambda (h: nat).\lambda (d: nat).\lambda (hds: PList).PList_ind (\lambda (p: PList).eq T (lift1 (PConsTail p h d) t) (lift1 p (lift h d t))) (refl_equal T (lift h d t)) (\lambda (n: nat).\lambda (n0: nat).\lambda (p: PList).\lambda (H: (eq T (lift1 (PConsTail p h d) t) (lift1 p (lift h d t)))).eq_ind_r T (lift1 p (lift h d t)) (\lambda (t0: T).eq T (lift n n0 t0) (lift n n0 (lift1 p (lift h d t)))) (refl_equal T (lift n n0 (lift1 p (lift h d t)))) (lift1 (PConsTail p h d) t) H) hds.
+
+theorem lifts1_flat: \forall (f: F).\forall (hds: PList).\forall (t: T).\forall (ts: TList).eq T (lift1 hds (THeads (Flat f) ts t)) (THeads (Flat f) (lifts1 hds ts) (lift1 hds t)) \def \lambda (f: F).\lambda (hds: PList).\lambda (t: T).\lambda (ts: TList).TList_ind (\lambda (t0: TList).eq T (lift1 hds (THeads (Flat f) t0 t)) (THeads (Flat f) (lifts1 hds t0) (lift1 hds t))) (refl_equal T (lift1 hds t)) (\lambda (t0: T).\lambda (t1: TList).\lambda (H: (eq T (lift1 hds (THeads (Flat f) t1 t)) (THeads (Flat f) (lifts1 hds t1) (lift1 hds t)))).eq_ind_r T (THead (Flat f) (lift1 hds t0) (lift1 hds (THeads (Flat f) t1 t))) (\lambda (t2: T).eq T t2 (THead (Flat f) (lift1 hds t0) (THeads (Flat f) (lifts1 hds t1) (lift1 hds t)))) (eq_ind_r T (THeads (Flat f) (lifts1 hds t1) (lift1 hds t)) (\lambda (t2: T).eq T (THead (Flat f) (lift1 hds t0) t2) (THead (Flat f) (lift1 hds t0) (THeads (Flat f) (lifts1 hds t1) (lift1 hds t)))) (refl_equal T (THead (Flat f) (lift1 hds t0) (THeads (Flat f) (lifts1 hds t1) (lift1 hds t)))) (lift1 hds (THeads (Flat f) t1 t)) H) (lift1 hds (THead (Flat f) t0 (THeads (Flat f) t1 t))) (lift1_flat f hds t0 (THeads (Flat f) t1 t))) ts.
+
+theorem lifts1_nil: \forall (ts: TList).eq TList (lifts1 PNil ts) ts \def \lambda (ts: TList).TList_ind (\lambda (t: TList).eq TList (lifts1 PNil t) t) (refl_equal TList TNil) (\lambda (t: T).\lambda (t0: TList).\lambda (H: (eq TList (lifts1 PNil t0) t0)).eq_ind_r TList t0 (\lambda (t1: TList).eq TList (TCons t t1) (TCons t t0)) (refl_equal TList (TCons t t0)) (lifts1 PNil t0) H) ts.
+
+theorem lifts1_cons: \forall (h: nat).\forall (d: nat).\forall (hds: PList).\forall (ts: TList).eq TList (lifts1 (PCons h d hds) ts) (lifts h d (lifts1 hds ts)) \def \lambda (h: nat).\lambda (d: nat).\lambda (hds: PList).\lambda (ts: TList).TList_ind (\lambda (t: TList).eq TList (lifts1 (PCons h d hds) t) (lifts h d (lifts1 hds t))) (refl_equal TList TNil) (\lambda (t: T).\lambda (t0: TList).\lambda (H: (eq TList (lifts1 (PCons h d hds) t0) (lifts h d (lifts1 hds t0)))).eq_ind_r TList (lifts h d (lifts1 hds t0)) (\lambda (t1: TList).eq TList (TCons (lift h d (lift1 hds t)) t1) (TCons (lift h d (lift1 hds t)) (lifts h d (lifts1 hds t0)))) (refl_equal TList (TCons (lift h d (lift1 hds t)) (lifts h d (lifts1 hds t0)))) (lifts1 (PCons h d hds) t0) H) ts.
+
+theorem lift1_xhg: \forall (hds: PList).\forall (t: T).eq T (lift1 (Ss hds) (lift (S O) O t)) (lift (S O) O (lift1 hds t)) \def \lambda (hds: PList).PList_ind (\lambda (p: PList).\forall (t: T).eq T (lift1 (Ss p) (lift (S O) O t)) (lift (S O) O (lift1 p t))) (\lambda (t: T).refl_equal T (lift (S O) O t)) (\lambda (h: nat).\lambda (d: nat).\lambda (p: PList).\lambda (H: ((\forall (t: T).eq T (lift1 (Ss p) (lift (S O) O t)) (lift (S O) O (lift1 p t))))).\lambda (t: T).eq_ind_r T (lift (S O) O (lift1 p t)) (\lambda (t0: T).eq T (lift h (S d) t0) (lift (S O) O (lift h d (lift1 p t)))) (eq_ind nat (plus (S O) d) (\lambda (n: nat).eq T (lift h n (lift (S O) O (lift1 p t))) (lift (S O) O (lift h d (lift1 p t)))) (eq_ind_r T (lift (S O) O (lift h d (lift1 p t))) (\lambda (t0: T).eq T t0 (lift (S O) O (lift h d (lift1 p t)))) (refl_equal T (lift (S O) O (lift h d (lift1 p t)))) (lift h (plus (S O) d) (lift (S O) O (lift1 p t))) (lift_d (lift1 p t) h (S O) d O (le_O_n d))) (S d) (refl_equal nat (S d))) (lift1 (Ss p) (lift (S O) O t)) (H t)) hds.
+
+theorem lifts1_xhg: \forall (hds: PList).\forall (ts: TList).eq TList (lifts1 (Ss hds) (lifts (S O) O ts)) (lifts (S O) O (lifts1 hds ts)) \def \lambda (hds: PList).\lambda (ts: TList).TList_ind (\lambda (t: TList).eq TList (lifts1 (Ss hds) (lifts (S O) O t)) (lifts (S O) O (lifts1 hds t))) (refl_equal TList TNil) (\lambda (t: T).\lambda (t0: TList).\lambda (H: (eq TList (lifts1 (Ss hds) (lifts (S O) O t0)) (lifts (S O) O (lifts1 hds t0)))).eq_ind_r T (lift (S O) O (lift1 hds t)) (\lambda (t1: T).eq TList (TCons t1 (lifts1 (Ss hds) (lifts (S O) O t0))) (TCons (lift (S O) O (lift1 hds t)) (lifts (S O) O (lifts1 hds t0)))) (eq_ind_r TList (lifts (S O) O (lifts1 hds t0)) (\lambda (t1: TList).eq TList (TCons (lift (S O) O (lift1 hds t)) t1) (TCons (lift (S O) O (lift1 hds t)) (lifts (S O) O (lifts1 hds t0)))) (refl_equal TList (TCons (lift (S O) O (lift1 hds t)) (lifts (S O) O (lifts1 hds t0)))) (lifts1 (Ss hds) (lifts (S O) O t0)) H) (lift1 (Ss hds) (lift (S O) O t)) (lift1_xhg hds t)) ts.
+
+inductive cnt: T \to Prop \def
+| cnt_sort: \forall (n: nat).cnt (TSort n)
+| cnt_head: \forall (t: T).(cnt t) \to \forall (k: K).\forall (v: T).cnt (THead k v t).
+
+theorem cnt_lift: \forall (t: T).(cnt t) \to \forall (i: nat).\forall (d: nat).cnt (lift i d t) \def \lambda (t: T).\lambda (H: (cnt t)).cnt_ind (\lambda (t0: T).\forall (i: nat).\forall (d: nat).cnt (lift i d t0)) (\lambda (n: nat).\lambda (i: nat).\lambda (d: nat).eq_ind_r T (TSort n) (\lambda (t0: T).cnt t0) (cnt_sort n) (lift i d (TSort n)) (lift_sort n i d)) (\lambda (t0: T).\lambda (_: (cnt t0)).\lambda (H1: ((\forall (i: nat).\forall (d: nat).cnt (lift i d t0)))).\lambda (k: K).\lambda (v: T).\lambda (i: nat).\lambda (d: nat).eq_ind_r T (THead k (lift i d v) (lift i (s k d) t0)) (\lambda (t1: T).cnt t1) (cnt_head (lift i (s k d) t0) (H1 i (s k d)) k (lift i d v)) (lift i d (THead k v t0)) (lift_head k v t0 i d)) t H.
+
+inductive drop: nat \to nat \to C \to C \to Prop \def
+| drop_refl: \forall (c: C).drop O O c c
+| drop_drop: \forall (k: K).\forall (h: nat).\forall (c: C).\forall (e: C).(drop (r k h) O c e) \to \forall (u: T).drop (S h) O (CHead c k u) e
+| drop_skip: \forall (k: K).\forall (h: nat).\forall (d: nat).\forall (c: C).\forall (e: C).(drop h (r k d) c e) \to \forall (u: T).drop h (S d) (CHead c k (lift h (r k d) u)) (CHead e k u).
+
+theorem drop_gen_sort: \forall (n: nat).\forall (h: nat).\forall (d: nat).\forall (x: C).(drop h d (CSort n) x) \to and3 (eq C x (CSort n)) (eq nat h O) (eq nat d O) \def \lambda (n: nat).\lambda (h: nat).\lambda (d: nat).\lambda (x: C).\lambda (H: (drop h d (CSort n) x)).insert_eq C (CSort n) (\lambda (c: C).drop h d c x) (and3 (eq C x (CSort n)) (eq nat h O) (eq nat d O)) (\lambda (y: C).\lambda (H0: (drop h d y x)).drop_ind (\lambda (n0: nat).\lambda (n1: nat).\lambda (c: C).\lambda (c0: C).(eq C c (CSort n)) \to and3 (eq C c0 (CSort n)) (eq nat n0 O) (eq nat n1 O)) (\lambda (c: C).\lambda (H1: (eq C c (CSort n))).let H2 \def f_equal C C (\lambda (e: C).e) c (CSort n) H1 in eq_ind_r C (CSort n) (\lambda (c0: C).and3 (eq C c0 (CSort n)) (eq nat O O) (eq nat O O)) (and3_intro (eq C (CSort n) (CSort n)) (eq nat O O) (eq nat O O) (refl_equal C (CSort n)) (refl_equal nat O) (refl_equal nat O)) c H2) (\lambda (k: K).\lambda (h0: nat).\lambda (c: C).\lambda (e: C).\lambda (_: (drop (r k h0) O c e)).\lambda (_: (((eq C c (CSort n)) \to and3 (eq C e (CSort n)) (eq nat (r k h0) O) (eq nat O O)))).\lambda (u: T).\lambda (H3: (eq C (CHead c k u) (CSort n))).let H4 \def eq_ind C (CHead c k u) (\lambda (ee: C).match ee return (Prop) with [(CSort _) \Rightarrow False | (CHead _ _ _) \Rightarrow True]) I (CSort n) H3 in False_ind (and3 (eq C e (CSort n)) (eq nat (S h0) O) (eq nat O O)) H4) (\lambda (k: K).\lambda (h0: nat).\lambda (d0: nat).\lambda (c: C).\lambda (e: C).\lambda (_: (drop h0 (r k d0) c e)).\lambda (_: (((eq C c (CSort n)) \to and3 (eq C e (CSort n)) (eq nat h0 O) (eq nat (r k d0) O)))).\lambda (u: T).\lambda (H3: (eq C (CHead c k (lift h0 (r k d0) u)) (CSort n))).let H4 \def eq_ind C (CHead c k (lift h0 (r k d0) u)) (\lambda (ee: C).match ee return (Prop) with [(CSort _) \Rightarrow False | (CHead _ _ _) \Rightarrow True]) I (CSort n) H3 in False_ind (and3 (eq C (CHead e k u) (CSort n)) (eq nat h0 O) (eq nat (S d0) O)) H4) h d y x H0) H.
+
+theorem drop_gen_refl: \forall (x: C).\forall (e: C).(drop O O x e) \to eq C x e \def \lambda (x: C).\lambda (e: C).\lambda (H: (drop O O x e)).insert_eq nat O (\lambda (n: nat).drop n O x e) (eq C x e) (\lambda (y: nat).\lambda (H0: (drop y O x e)).insert_eq nat O (\lambda (n: nat).drop y n x e) ((eq nat y O) \to eq C x e) (\lambda (y0: nat).\lambda (H1: (drop y y0 x e)).drop_ind (\lambda (n: nat).\lambda (n0: nat).\lambda (c: C).\lambda (c0: C).(eq nat n0 O) \to (eq nat n O) \to eq C c c0) (\lambda (c: C).\lambda (_: (eq nat O O)).\lambda (_: (eq nat O O)).refl_equal C c) (\lambda (k: K).\lambda (h: nat).\lambda (c: C).\lambda (e0: C).\lambda (_: (drop (r k h) O c e0)).\lambda (_: (((eq nat O O) \to (eq nat (r k h) O) \to eq C c e0))).\lambda (u: T).\lambda (_: (eq nat O O)).\lambda (H5: (eq nat (S h) O)).let H6 \def eq_ind nat (S h) (\lambda (ee: nat).match ee return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H5 in False_ind (eq C (CHead c k u) e0) H6) (\lambda (k: K).\lambda (h: nat).\lambda (d: nat).\lambda (c: C).\lambda (e0: C).\lambda (H2: (drop h (r k d) c e0)).\lambda (H3: (((eq nat (r k d) O) \to (eq nat h O) \to eq C c e0))).\lambda (u: T).\lambda (H4: (eq nat (S d) O)).\lambda (H5: (eq nat h O)).let H6 \def f_equal nat nat (\lambda (e1: nat).e1) h O H5 in let H7 \def eq_ind nat h (\lambda (n: nat).(eq nat (r k d) O) \to (eq nat n O) \to eq C c e0) H3 O H6 in let H8 \def eq_ind nat h (\lambda (n: nat).drop n (r k d) c e0) H2 O H6 in eq_ind_r nat O (\lambda (n: nat).eq C (CHead c k (lift n (r k d) u)) (CHead e0 k u)) (let H9 \def eq_ind nat (S d) (\lambda (ee: nat).match ee return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H4 in False_ind (eq C (CHead c k (lift O (r k d) u)) (CHead e0 k u)) H9) h H6) y y0 x e H1) H0) H.
+
+theorem drop_gen_drop: \forall (k: K).\forall (c: C).\forall (x: C).\forall (u: T).\forall (h: nat).(drop (S h) O (CHead c k u) x) \to drop (r k h) O c x \def \lambda (k: K).\lambda (c: C).\lambda (x: C).\lambda (u: T).\lambda (h: nat).\lambda (H: (drop (S h) O (CHead c k u) x)).insert_eq C (CHead c k u) (\lambda (c0: C).drop (S h) O c0 x) (drop (r k h) O c x) (\lambda (y: C).\lambda (H0: (drop (S h) O y x)).insert_eq nat O (\lambda (n: nat).drop (S h) n y x) ((eq C y (CHead c k u)) \to drop (r k h) O c x) (\lambda (y0: nat).\lambda (H1: (drop (S h) y0 y x)).insert_eq nat (S h) (\lambda (n: nat).drop n y0 y x) ((eq nat y0 O) \to (eq C y (CHead c k u)) \to drop (r k h) O c x) (\lambda (y1: nat).\lambda (H2: (drop y1 y0 y x)).drop_ind (\lambda (n: nat).\lambda (n0: nat).\lambda (c0: C).\lambda (c1: C).(eq nat n (S h)) \to (eq nat n0 O) \to (eq C c0 (CHead c k u)) \to drop (r k h) O c c1) (\lambda (c0: C).\lambda (H3: (eq nat O (S h))).\lambda (_: (eq nat O O)).\lambda (_: (eq C c0 (CHead c k u))).let H6 \def match H3 return (\lambda (n: nat).(eq nat n (S h)) \to drop (r k h) O c c0) with [refl_equal \Rightarrow (\lambda (H2: (eq nat O (S h))).let H3 \def eq_ind nat O (\lambda (e: nat).match e return (Prop) with [O \Rightarrow True | (S _) \Rightarrow False]) I (S h) H2 in False_ind (drop (r k h) O c c0) H3)] in H6 (refl_equal nat (S h))) (\lambda (k0: K).\lambda (h0: nat).\lambda (c0: C).\lambda (e: C).\lambda (H3: (drop (r k0 h0) O c0 e)).\lambda (_: (((eq nat (r k0 h0) (S h)) \to (eq nat O O) \to (eq C c0 (CHead c k u)) \to drop (r k h) O c e))).\lambda (u0: T).\lambda (H5: (eq nat (S h0) (S h))).\lambda (_: (eq nat O O)).\lambda (H7: (eq C (CHead c0 k0 u0) (CHead c k u))).let H8 \def match H5 return (\lambda (n: nat).(eq nat n (S h)) \to drop (r k h) O c e) with [refl_equal \Rightarrow (\lambda (H4: (eq nat (S h0) (S h))).let H5 \def f_equal nat nat (\lambda (e0: nat).match e0 return nat with [O \Rightarrow h0 | (S n) \Rightarrow n]) (S h0) (S h) H4 in eq_ind nat h (\lambda (_: nat).drop (r k h) O c e) (let H6 \def match H7 return (\lambda (c0: C).(eq C c0 (CHead c k u)) \to drop (r k h) O c e) with [refl_equal \Rightarrow (\lambda (H4: (eq C (CHead c0 k0 u0) (CHead c k u))).let H6 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u0 | (CHead _ _ t) \Rightarrow t]) (CHead c0 k0 u0) (CHead c k u) H4 in (let H7 \def f_equal C K (\lambda (e0: C).match e0 return K with [(CSort _) \Rightarrow k0 | (CHead _ k _) \Rightarrow k]) (CHead c0 k0 u0) (CHead c k u) H4 in (let H8 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow c0 | (CHead c _ _) \Rightarrow c]) (CHead c0 k0 u0) (CHead c k u) H4 in eq_ind C c (\lambda (_: C).(eq K k0 k) \to (eq T u0 u) \to drop (r k h) O c e) (\lambda (H9: (eq K k0 k)).eq_ind K k (\lambda (_: K).(eq T u0 u) \to drop (r k h) O c e) (\lambda (H10: (eq T u0 u)).eq_ind T u (\lambda (_: T).drop (r k h) O c e) (eq_ind nat h0 (\lambda (n: nat).drop (r k n) O c e) (eq_ind C c0 (\lambda (c: C).drop (r k h0) O c e) (eq_ind K k0 (\lambda (k: K).drop (r k h0) O c0 e) H3 k H9) c H8) h H5) u0 (sym_eq T u0 u H10)) k0 (sym_eq K k0 k H9)) c0 (sym_eq C c0 c H8)) H7) H6)] in H6 (refl_equal C (CHead c k u))) h0 (sym_eq nat h0 h H5))] in H8 (refl_equal nat (S h))) (\lambda (k0: K).\lambda (h0: nat).\lambda (d: nat).\lambda (c0: C).\lambda (e: C).\lambda (_: (drop h0 (r k0 d) c0 e)).\lambda (_: (((eq nat h0 (S h)) \to (eq nat (r k0 d) O) \to (eq C c0 (CHead c k u)) \to drop (r k h) O c e))).\lambda (u0: T).\lambda (_: (eq nat h0 (S h))).\lambda (H6: (eq nat (S d) O)).\lambda (_: (eq C (CHead c0 k0 (lift h0 (r k0 d) u0)) (CHead c k u))).let H8 \def match H6 return (\lambda (n: nat).(eq nat n O) \to drop (r k h) O c (CHead e k0 u0)) with [refl_equal \Rightarrow (\lambda (H4: (eq nat (S d) O)).let H5 \def eq_ind nat (S d) (\lambda (e0: nat).match e0 return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H4 in False_ind (drop (r k h) O c (CHead e k0 u0)) H5)] in H8 (refl_equal nat O)) y1 y0 y x H2) H1) H0) H.
+
+theorem drop_gen_skip_r: \forall (c: C).\forall (x: C).\forall (u: T).\forall (h: nat).\forall (d: nat).\forall (k: K).(drop h (S d) x (CHead c k u)) \to ex2 C (\lambda (e: C).eq C x (CHead e k (lift h (r k d) u))) (\lambda (e: C).drop h (r k d) e c) \def \lambda (c: C).\lambda (x: C).\lambda (u: T).\lambda (h: nat).\lambda (d: nat).\lambda (k: K).\lambda (H: (drop h (S d) x (CHead c k u))).let H0 \def match H return (\lambda (n: nat).\lambda (n0: nat).\lambda (c0: C).\lambda (c1: C).(eq nat n h) \to (eq nat n0 (S d)) \to (eq C c0 x) \to (eq C c1 (CHead c k u)) \to ex2 C (\lambda (e: C).eq C x (CHead e k (lift h (r k d) u))) (\lambda (e: C).drop h (r k d) e c)) with [(drop_refl c0) \Rightarrow (\lambda (H0: (eq nat O h)).\lambda (H1: (eq nat O (S d))).\lambda (H2: (eq C c0 x)).\lambda (H3: (eq C c0 (CHead c k u))).eq_ind nat O (\lambda (n: nat).(eq nat O (S d)) \to (eq C c0 x) \to (eq C c0 (CHead c k u)) \to ex2 C (\lambda (e: C).eq C x (CHead e k (lift n (r k d) u))) (\lambda (e: C).drop n (r k d) e c)) (\lambda (H4: (eq nat O (S d))).let H5 \def eq_ind nat O (\lambda (e: nat).match e return (Prop) with [O \Rightarrow True | (S _) \Rightarrow False]) I (S d) H4 in False_ind ((eq C c0 x) \to (eq C c0 (CHead c k u)) \to ex2 C (\lambda (e: C).eq C x (CHead e k (lift O (r k d) u))) (\lambda (e: C).drop O (r k d) e c)) H5) h H0 H1 H2 H3) | (drop_drop k0 h0 c0 e H0 u0) \Rightarrow (\lambda (H1: (eq nat (S h0) h)).\lambda (H2: (eq nat O (S d))).\lambda (H3: (eq C (CHead c0 k0 u0) x)).\lambda (H4: (eq C e (CHead c k u))).eq_ind nat (S h0) (\lambda (n: nat).(eq nat O (S d)) \to (eq C (CHead c0 k0 u0) x) \to (eq C e (CHead c k u)) \to (drop (r k0 h0) O c0 e) \to ex2 C (\lambda (e0: C).eq C x (CHead e0 k (lift n (r k d) u))) (\lambda (e0: C).drop n (r k d) e0 c)) (\lambda (H5: (eq nat O (S d))).let H6 \def eq_ind nat O (\lambda (e0: nat).match e0 return (Prop) with [O \Rightarrow True | (S _) \Rightarrow False]) I (S d) H5 in False_ind ((eq C (CHead c0 k0 u0) x) \to (eq C e (CHead c k u)) \to (drop (r k0 h0) O c0 e) \to ex2 C (\lambda (e0: C).eq C x (CHead e0 k (lift (S h0) (r k d) u))) (\lambda (e0: C).drop (S h0) (r k d) e0 c)) H6) h H1 H2 H3 H4 H0) | (drop_skip k0 h0 d0 c0 e H0 u0) \Rightarrow (\lambda (H1: (eq nat h0 h)).\lambda (H2: (eq nat (S d0) (S d))).\lambda (H3: (eq C (CHead c0 k0 (lift h0 (r k0 d0) u0)) x)).\lambda (H4: (eq C (CHead e k0 u0) (CHead c k u))).eq_ind nat h (\lambda (n: nat).(eq nat (S d0) (S d)) \to (eq C (CHead c0 k0 (lift n (r k0 d0) u0)) x) \to (eq C (CHead e k0 u0) (CHead c k u)) \to (drop n (r k0 d0) c0 e) \to ex2 C (\lambda (e0: C).eq C x (CHead e0 k (lift h (r k d) u))) (\lambda (e0: C).drop h (r k d) e0 c)) (\lambda (H5: (eq nat (S d0) (S d))).let H6 \def f_equal nat nat (\lambda (e0: nat).match e0 return nat with [O \Rightarrow d0 | (S n) \Rightarrow n]) (S d0) (S d) H5 in eq_ind nat d (\lambda (n: nat).(eq C (CHead c0 k0 (lift h (r k0 n) u0)) x) \to (eq C (CHead e k0 u0) (CHead c k u)) \to (drop h (r k0 n) c0 e) \to ex2 C (\lambda (e0: C).eq C x (CHead e0 k (lift h (r k d) u))) (\lambda (e0: C).drop h (r k d) e0 c)) (\lambda (H7: (eq C (CHead c0 k0 (lift h (r k0 d) u0)) x)).eq_ind C (CHead c0 k0 (lift h (r k0 d) u0)) (\lambda (c1: C).(eq C (CHead e k0 u0) (CHead c k u)) \to (drop h (r k0 d) c0 e) \to ex2 C (\lambda (e0: C).eq C c1 (CHead e0 k (lift h (r k d) u))) (\lambda (e0: C).drop h (r k d) e0 c)) (\lambda (H8: (eq C (CHead e k0 u0) (CHead c k u))).let H9 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u0 | (CHead _ _ t) \Rightarrow t]) (CHead e k0 u0) (CHead c k u) H8 in (let H10 \def f_equal C K (\lambda (e0: C).match e0 return K with [(CSort _) \Rightarrow k0 | (CHead _ k _) \Rightarrow k]) (CHead e k0 u0) (CHead c k u) H8 in (let H11 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow e | (CHead c _ _) \Rightarrow c]) (CHead e k0 u0) (CHead c k u) H8 in eq_ind C c (\lambda (c1: C).(eq K k0 k) \to (eq T u0 u) \to (drop h (r k0 d) c0 c1) \to ex2 C (\lambda (e0: C).eq C (CHead c0 k0 (lift h (r k0 d) u0)) (CHead e0 k (lift h (r k d) u))) (\lambda (e0: C).drop h (r k d) e0 c)) (\lambda (H12: (eq K k0 k)).eq_ind K k (\lambda (k1: K).(eq T u0 u) \to (drop h (r k1 d) c0 c) \to ex2 C (\lambda (e0: C).eq C (CHead c0 k1 (lift h (r k1 d) u0)) (CHead e0 k (lift h (r k d) u))) (\lambda (e0: C).drop h (r k d) e0 c)) (\lambda (H13: (eq T u0 u)).eq_ind T u (\lambda (t: T).(drop h (r k d) c0 c) \to ex2 C (\lambda (e0: C).eq C (CHead c0 k (lift h (r k d) t)) (CHead e0 k (lift h (r k d) u))) (\lambda (e0: C).drop h (r k d) e0 c)) (\lambda (H14: (drop h (r k d) c0 c)).let H15 \def eq_ind T u0 (\lambda (t: T).eq C (CHead c0 k0 (lift h (r k0 d) t)) x) H7 u H13 in let H16 \def eq_ind K k0 (\lambda (k: K).eq C (CHead c0 k (lift h (r k d) u)) x) H15 k H12 in let H17 \def eq_ind_r C x (\lambda (c0: C).drop h (S d) c0 (CHead c k u)) H (CHead c0 k (lift h (r k d) u)) H16 in ex_intro2 C (\lambda (e0: C).eq C (CHead c0 k (lift h (r k d) u)) (CHead e0 k (lift h (r k d) u))) (\lambda (e0: C).drop h (r k d) e0 c) c0 (refl_equal C (CHead c0 k (lift h (r k d) u))) H14) u0 (sym_eq T u0 u H13)) k0 (sym_eq K k0 k H12)) e (sym_eq C e c H11)) H10) H9) x H7) d0 (sym_eq nat d0 d H6)) h0 (sym_eq nat h0 h H1) H2 H3 H4 H0)] in H0 (refl_equal nat h) (refl_equal nat (S d)) (refl_equal C x) (refl_equal C (CHead c k u)).
+
+theorem drop_gen_skip_l: \forall (c: C).\forall (x: C).\forall (u: T).\forall (h: nat).\forall (d: nat).\forall (k: K).(drop h (S d) (CHead c k u) x) \to ex3_2 C T (\lambda (e: C).\lambda (v: T).eq C x (CHead e k v)) (\lambda (_: C).\lambda (v: T).eq T u (lift h (r k d) v)) (\lambda (e: C).\lambda (_: T).drop h (r k d) c e) \def \lambda (c: C).\lambda (x: C).\lambda (u: T).\lambda (h: nat).\lambda (d: nat).\lambda (k: K).\lambda (H: (drop h (S d) (CHead c k u) x)).let H0 \def match H return (\lambda (n: nat).\lambda (n0: nat).\lambda (c0: C).\lambda (c1: C).(eq nat n h) \to (eq nat n0 (S d)) \to (eq C c0 (CHead c k u)) \to (eq C c1 x) \to ex3_2 C T (\lambda (e: C).\lambda (v: T).eq C x (CHead e k v)) (\lambda (_: C).\lambda (v: T).eq T u (lift h (r k d) v)) (\lambda (e: C).\lambda (_: T).drop h (r k d) c e)) with [(drop_refl c0) \Rightarrow (\lambda (H0: (eq nat O h)).\lambda (H1: (eq nat O (S d))).\lambda (H2: (eq C c0 (CHead c k u))).\lambda (H3: (eq C c0 x)).eq_ind nat O (\lambda (n: nat).(eq nat O (S d)) \to (eq C c0 (CHead c k u)) \to (eq C c0 x) \to ex3_2 C T (\lambda (e: C).\lambda (v: T).eq C x (CHead e k v)) (\lambda (_: C).\lambda (v: T).eq T u (lift n (r k d) v)) (\lambda (e: C).\lambda (_: T).drop n (r k d) c e)) (\lambda (H4: (eq nat O (S d))).let H5 \def eq_ind nat O (\lambda (e: nat).match e return (Prop) with [O \Rightarrow True | (S _) \Rightarrow False]) I (S d) H4 in False_ind ((eq C c0 (CHead c k u)) \to (eq C c0 x) \to ex3_2 C T (\lambda (e: C).\lambda (v: T).eq C x (CHead e k v)) (\lambda (_: C).\lambda (v: T).eq T u (lift O (r k d) v)) (\lambda (e: C).\lambda (_: T).drop O (r k d) c e)) H5) h H0 H1 H2 H3) | (drop_drop k0 h0 c0 e H0 u0) \Rightarrow (\lambda (H1: (eq nat (S h0) h)).\lambda (H2: (eq nat O (S d))).\lambda (H3: (eq C (CHead c0 k0 u0) (CHead c k u))).\lambda (H4: (eq C e x)).eq_ind nat (S h0) (\lambda (n: nat).(eq nat O (S d)) \to (eq C (CHead c0 k0 u0) (CHead c k u)) \to (eq C e x) \to (drop (r k0 h0) O c0 e) \to ex3_2 C T (\lambda (e0: C).\lambda (v: T).eq C x (CHead e0 k v)) (\lambda (_: C).\lambda (v: T).eq T u (lift n (r k d) v)) (\lambda (e0: C).\lambda (_: T).drop n (r k d) c e0)) (\lambda (H5: (eq nat O (S d))).let H6 \def eq_ind nat O (\lambda (e0: nat).match e0 return (Prop) with [O \Rightarrow True | (S _) \Rightarrow False]) I (S d) H5 in False_ind ((eq C (CHead c0 k0 u0) (CHead c k u)) \to (eq C e x) \to (drop (r k0 h0) O c0 e) \to ex3_2 C T (\lambda (e0: C).\lambda (v: T).eq C x (CHead e0 k v)) (\lambda (_: C).\lambda (v: T).eq T u (lift (S h0) (r k d) v)) (\lambda (e0: C).\lambda (_: T).drop (S h0) (r k d) c e0)) H6) h H1 H2 H3 H4 H0) | (drop_skip k0 h0 d0 c0 e H0 u0) \Rightarrow (\lambda (H1: (eq nat h0 h)).\lambda (H2: (eq nat (S d0) (S d))).\lambda (H3: (eq C (CHead c0 k0 (lift h0 (r k0 d0) u0)) (CHead c k u))).\lambda (H4: (eq C (CHead e k0 u0) x)).eq_ind nat h (\lambda (n: nat).(eq nat (S d0) (S d)) \to (eq C (CHead c0 k0 (lift n (r k0 d0) u0)) (CHead c k u)) \to (eq C (CHead e k0 u0) x) \to (drop n (r k0 d0) c0 e) \to ex3_2 C T (\lambda (e0: C).\lambda (v: T).eq C x (CHead e0 k v)) (\lambda (_: C).\lambda (v: T).eq T u (lift h (r k d) v)) (\lambda (e0: C).\lambda (_: T).drop h (r k d) c e0)) (\lambda (H5: (eq nat (S d0) (S d))).let H6 \def f_equal nat nat (\lambda (e0: nat).match e0 return nat with [O \Rightarrow d0 | (S n) \Rightarrow n]) (S d0) (S d) H5 in eq_ind nat d (\lambda (n: nat).(eq C (CHead c0 k0 (lift h (r k0 n) u0)) (CHead c k u)) \to (eq C (CHead e k0 u0) x) \to (drop h (r k0 n) c0 e) \to ex3_2 C T (\lambda (e0: C).\lambda (v: T).eq C x (CHead e0 k v)) (\lambda (_: C).\lambda (v: T).eq T u (lift h (r k d) v)) (\lambda (e0: C).\lambda (_: T).drop h (r k d) c e0)) (\lambda (H7: (eq C (CHead c0 k0 (lift h (r k0 d) u0)) (CHead c k u))).let H8 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x h) (r k0 d) u0) | (CHead _ _ t) \Rightarrow t]) (CHead c0 k0 (lift h (r k0 d) u0)) (CHead c k u) H7 in (let H9 \def f_equal C K (\lambda (e0: C).match e0 return K with [(CSort _) \Rightarrow k0 | (CHead _ k _) \Rightarrow k]) (CHead c0 k0 (lift h (r k0 d) u0)) (CHead c k u) H7 in (let H10 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow c0 | (CHead c _ _) \Rightarrow c]) (CHead c0 k0 (lift h (r k0 d) u0)) (CHead c k u) H7 in eq_ind C c (\lambda (c1: C).(eq K k0 k) \to (eq T (lift h (r k0 d) u0) u) \to (eq C (CHead e k0 u0) x) \to (drop h (r k0 d) c1 e) \to ex3_2 C T (\lambda (e0: C).\lambda (v: T).eq C x (CHead e0 k v)) (\lambda (_: C).\lambda (v: T).eq T u (lift h (r k d) v)) (\lambda (e0: C).\lambda (_: T).drop h (r k d) c e0)) (\lambda (H11: (eq K k0 k)).eq_ind K k (\lambda (k1: K).(eq T (lift h (r k1 d) u0) u) \to (eq C (CHead e k1 u0) x) \to (drop h (r k1 d) c e) \to ex3_2 C T (\lambda (e0: C).\lambda (v: T).eq C x (CHead e0 k v)) (\lambda (_: C).\lambda (v: T).eq T u (lift h (r k d) v)) (\lambda (e0: C).\lambda (_: T).drop h (r k d) c e0)) (\lambda (H12: (eq T (lift h (r k d) u0) u)).eq_ind T (lift h (r k d) u0) (\lambda (t: T).(eq C (CHead e k u0) x) \to (drop h (r k d) c e) \to ex3_2 C T (\lambda (e0: C).\lambda (v: T).eq C x (CHead e0 k v)) (\lambda (_: C).\lambda (v: T).eq T t (lift h (r k d) v)) (\lambda (e0: C).\lambda (_: T).drop h (r k d) c e0)) (\lambda (H13: (eq C (CHead e k u0) x)).eq_ind C (CHead e k u0) (\lambda (c1: C).(drop h (r k d) c e) \to ex3_2 C T (\lambda (e0: C).\lambda (v: T).eq C c1 (CHead e0 k v)) (\lambda (_: C).\lambda (v: T).eq T (lift h (r k d) u0) (lift h (r k d) v)) (\lambda (e0: C).\lambda (_: T).drop h (r k d) c e0)) (\lambda (H14: (drop h (r k d) c e)).let H15 \def eq_ind_r T u (\lambda (t: T).drop h (S d) (CHead c k t) x) H (lift h (r k d) u0) H12 in let H16 \def eq_ind_r C x (\lambda (c0: C).drop h (S d) (CHead c k (lift h (r k d) u0)) c0) H15 (CHead e k u0) H13 in ex3_2_intro C T (\lambda (e0: C).\lambda (v: T).eq C (CHead e k u0) (CHead e0 k v)) (\lambda (_: C).\lambda (v: T).eq T (lift h (r k d) u0) (lift h (r k d) v)) (\lambda (e0: C).\lambda (_: T).drop h (r k d) c e0) e u0 (refl_equal C (CHead e k u0)) (refl_equal T (lift h (r k d) u0)) H14) x H13) u H12) k0 (sym_eq K k0 k H11)) c0 (sym_eq C c0 c H10)) H9) H8) d0 (sym_eq nat d0 d H6)) h0 (sym_eq nat h0 h H1) H2 H3 H4 H0)] in H0 (refl_equal nat h) (refl_equal nat (S d)) (refl_equal C (CHead c k u)) (refl_equal C x).
+
+theorem drop_skip_bind: \forall (h: nat).\forall (d: nat).\forall (c: C).\forall (e: C).(drop h d c e) \to \forall (b: B).\forall (u: T).drop h (S d) (CHead c (Bind b) (lift h d u)) (CHead e (Bind b) u) \def \lambda (h: nat).\lambda (d: nat).\lambda (c: C).\lambda (e: C).\lambda (H: (drop h d c e)).\lambda (b: B).\lambda (u: T).eq_ind nat (r (Bind b) d) (\lambda (n: nat).drop h (S d) (CHead c (Bind b) (lift h n u)) (CHead e (Bind b) u)) (drop_skip (Bind b) h d c e H u) d (refl_equal nat d).
+
+theorem drop_skip_flat: \forall (h: nat).\forall (d: nat).\forall (c: C).\forall (e: C).(drop h (S d) c e) \to \forall (f: F).\forall (u: T).drop h (S d) (CHead c (Flat f) (lift h (S d) u)) (CHead e (Flat f) u) \def \lambda (h: nat).\lambda (d: nat).\lambda (c: C).\lambda (e: C).\lambda (H: (drop h (S d) c e)).\lambda (f: F).\lambda (u: T).eq_ind nat (r (Flat f) d) (\lambda (n: nat).drop h (S d) (CHead c (Flat f) (lift h n u)) (CHead e (Flat f) u)) (drop_skip (Flat f) h d c e H u) (S d) (refl_equal nat (S d)).
+
+theorem drop_S: \forall (b: B).\forall (c: C).\forall (e: C).\forall (u: T).\forall (h: nat).(drop h O c (CHead e (Bind b) u)) \to drop (S h) O c e \def \lambda (b: B).\lambda (c: C).C_ind (\lambda (c0: C).\forall (e: C).\forall (u: T).\forall (h: nat).(drop h O c0 (CHead e (Bind b) u)) \to drop (S h) O c0 e) (\lambda (n: nat).\lambda (e: C).\lambda (u: T).\lambda (h: nat).\lambda (H: (drop h O (CSort n) (CHead e (Bind b) u))).and3_ind (eq C (CHead e (Bind b) u) (CSort n)) (eq nat h O) (eq nat O O) (drop (S h) O (CSort n) e) (\lambda (H0: (eq C (CHead e (Bind b) u) (CSort n))).\lambda (H1: (eq nat h O)).\lambda (_: (eq nat O O)).eq_ind_r nat O (\lambda (n0: nat).drop (S n0) O (CSort n) e) (let H3 \def eq_ind C (CHead e (Bind b) u) (\lambda (ee: C).match ee return (Prop) with [(CSort _) \Rightarrow False | (CHead _ _ _) \Rightarrow True]) I (CSort n) H0 in False_ind (drop (S O) O (CSort n) e) H3) h H1) (drop_gen_sort n h O (CHead e (Bind b) u) H)) (\lambda (c0: C).\lambda (H: ((\forall (e: C).\forall (u: T).\forall (h: nat).(drop h O c0 (CHead e (Bind b) u)) \to drop (S h) O c0 e))).\lambda (k: K).\lambda (t: T).\lambda (e: C).\lambda (u: T).\lambda (h: nat).nat_ind (\lambda (n: nat).(drop n O (CHead c0 k t) (CHead e (Bind b) u)) \to drop (S n) O (CHead c0 k t) e) (\lambda (H0: (drop O O (CHead c0 k t) (CHead e (Bind b) u))).let H1 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow c0 | (CHead c _ _) \Rightarrow c]) (CHead c0 k t) (CHead e (Bind b) u) (drop_gen_refl (CHead c0 k t) (CHead e (Bind b) u) H0) in (let H2 \def f_equal C K (\lambda (e0: C).match e0 return K with [(CSort _) \Rightarrow k | (CHead _ k _) \Rightarrow k]) (CHead c0 k t) (CHead e (Bind b) u) (drop_gen_refl (CHead c0 k t) (CHead e (Bind b) u) H0) in (let H3 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow t | (CHead _ _ t) \Rightarrow t]) (CHead c0 k t) (CHead e (Bind b) u) (drop_gen_refl (CHead c0 k t) (CHead e (Bind b) u) H0) in \lambda (H4: (eq K k (Bind b))).\lambda (H5: (eq C c0 e)).eq_ind C c0 (\lambda (c1: C).drop (S O) O (CHead c0 k t) c1) (eq_ind_r K (Bind b) (\lambda (k0: K).drop (S O) O (CHead c0 k0 t) c0) (drop_drop (Bind b) O c0 c0 (drop_refl c0) t) k H4) e H5) H2) H1) (\lambda (n: nat).\lambda (_: (((drop n O (CHead c0 k t) (CHead e (Bind b) u)) \to drop (S n) O (CHead c0 k t) e))).\lambda (H1: (drop (S n) O (CHead c0 k t) (CHead e (Bind b) u))).drop_drop k (S n) c0 e (eq_ind_r nat (S (r k n)) (\lambda (n0: nat).drop n0 O c0 e) (H e u (r k n) (drop_gen_drop k c0 (CHead e (Bind b) u) t n H1)) (r k (S n)) (r_S k n)) t) h) c.
+
+theorem drop_ctail: \forall (c1: C).\forall (c2: C).\forall (d: nat).\forall (h: nat).(drop h d c1 c2) \to \forall (k: K).\forall (u: T).drop h d (CTail k u c1) (CTail k u c2) \def \lambda (c1: C).C_ind (\lambda (c: C).\forall (c2: C).\forall (d: nat).\forall (h: nat).(drop h d c c2) \to \forall (k: K).\forall (u: T).drop h d (CTail k u c) (CTail k u c2)) (\lambda (n: nat).\lambda (c2: C).\lambda (d: nat).\lambda (h: nat).\lambda (H: (drop h d (CSort n) c2)).\lambda (k: K).\lambda (u: T).and3_ind (eq C c2 (CSort n)) (eq nat h O) (eq nat d O) (drop h d (CTail k u (CSort n)) (CTail k u c2)) (\lambda (H0: (eq C c2 (CSort n))).\lambda (H1: (eq nat h O)).\lambda (H2: (eq nat d O)).eq_ind_r nat O (\lambda (n0: nat).drop n0 d (CTail k u (CSort n)) (CTail k u c2)) (eq_ind_r nat O (\lambda (n0: nat).drop O n0 (CTail k u (CSort n)) (CTail k u c2)) (eq_ind_r C (CSort n) (\lambda (c: C).drop O O (CTail k u (CSort n)) (CTail k u c)) (drop_refl (CTail k u (CSort n))) c2 H0) d H2) h H1) (drop_gen_sort n h d c2 H)) (\lambda (c2: C).\lambda (IHc: ((\forall (c3: C).\forall (d: nat).\forall (h: nat).(drop h d c2 c3) \to \forall (k: K).\forall (u: T).drop h d (CTail k u c2) (CTail k u c3)))).\lambda (k: K).\lambda (t: T).\lambda (c3: C).\lambda (d: nat).nat_ind (\lambda (n: nat).\forall (h: nat).(drop h n (CHead c2 k t) c3) \to \forall (k0: K).\forall (u: T).drop h n (CTail k0 u (CHead c2 k t)) (CTail k0 u c3)) (\lambda (h: nat).nat_ind (\lambda (n: nat).(drop n O (CHead c2 k t) c3) \to \forall (k0: K).\forall (u: T).drop n O (CTail k0 u (CHead c2 k t)) (CTail k0 u c3)) (\lambda (H: (drop O O (CHead c2 k t) c3)).\lambda (k0: K).\lambda (u: T).eq_ind C (CHead c2 k t) (\lambda (c: C).drop O O (CTail k0 u (CHead c2 k t)) (CTail k0 u c)) (drop_refl (CTail k0 u (CHead c2 k t))) c3 (drop_gen_refl (CHead c2 k t) c3 H)) (\lambda (n: nat).\lambda (_: (((drop n O (CHead c2 k t) c3) \to \forall (k0: K).\forall (u: T).drop n O (CTail k0 u (CHead c2 k t)) (CTail k0 u c3)))).\lambda (H0: (drop (S n) O (CHead c2 k t) c3)).\lambda (k0: K).\lambda (u: T).drop_drop k n (CTail k0 u c2) (CTail k0 u c3) (IHc c3 O (r k n) (drop_gen_drop k c2 c3 t n H0) k0 u) t) h) (\lambda (n: nat).\lambda (H: ((\forall (h: nat).(drop h n (CHead c2 k t) c3) \to \forall (k0: K).\forall (u: T).drop h n (CTail k0 u (CHead c2 k t)) (CTail k0 u c3)))).\lambda (h: nat).\lambda (H0: (drop h (S n) (CHead c2 k t) c3)).\lambda (k0: K).\lambda (u: T).ex3_2_ind C T (\lambda (e: C).\lambda (v: T).eq C c3 (CHead e k v)) (\lambda (_: C).\lambda (v: T).eq T t (lift h (r k n) v)) (\lambda (e: C).\lambda (_: T).drop h (r k n) c2 e) (drop h (S n) (CTail k0 u (CHead c2 k t)) (CTail k0 u c3)) (\lambda (x0: C).\lambda (x1: T).\lambda (H1: (eq C c3 (CHead x0 k x1))).\lambda (H2: (eq T t (lift h (r k n) x1))).\lambda (H3: (drop h (r k n) c2 x0)).let H4 \def eq_ind C c3 (\lambda (c: C).\forall (h: nat).(drop h n (CHead c2 k t) c) \to \forall (k0: K).\forall (u: T).drop h n (CTail k0 u (CHead c2 k t)) (CTail k0 u c)) H (CHead x0 k x1) H1 in eq_ind_r C (CHead x0 k x1) (\lambda (c: C).drop h (S n) (CTail k0 u (CHead c2 k t)) (CTail k0 u c)) (let H5 \def eq_ind T t (\lambda (t: T).\forall (h: nat).(drop h n (CHead c2 k t) (CHead x0 k x1)) \to \forall (k0: K).\forall (u: T).drop h n (CTail k0 u (CHead c2 k t)) (CTail k0 u (CHead x0 k x1))) H4 (lift h (r k n) x1) H2 in eq_ind_r T (lift h (r k n) x1) (\lambda (t0: T).drop h (S n) (CTail k0 u (CHead c2 k t0)) (CTail k0 u (CHead x0 k x1))) (drop_skip k h n (CTail k0 u c2) (CTail k0 u x0) (IHc x0 (r k n) h H3 k0 u) x1) t H2) c3 H1) (drop_gen_skip_l c2 c3 t h n k H0)) d) c1.
+
+theorem drop_mono: \forall (c: C).\forall (x1: C).\forall (d: nat).\forall (h: nat).(drop h d c x1) \to \forall (x2: C).(drop h d c x2) \to eq C x1 x2 \def \lambda (c: C).C_ind (\lambda (c0: C).\forall (x1: C).\forall (d: nat).\forall (h: nat).(drop h d c0 x1) \to \forall (x2: C).(drop h d c0 x2) \to eq C x1 x2) (\lambda (n: nat).\lambda (x1: C).\lambda (d: nat).\lambda (h: nat).\lambda (H: (drop h d (CSort n) x1)).\lambda (x2: C).\lambda (H0: (drop h d (CSort n) x2)).and3_ind (eq C x2 (CSort n)) (eq nat h O) (eq nat d O) (eq C x1 x2) (\lambda (H1: (eq C x2 (CSort n))).\lambda (H2: (eq nat h O)).\lambda (H3: (eq nat d O)).and3_ind (eq C x1 (CSort n)) (eq nat h O) (eq nat d O) (eq C x1 x2) (\lambda (H4: (eq C x1 (CSort n))).\lambda (H5: (eq nat h O)).\lambda (H6: (eq nat d O)).eq_ind_r C (CSort n) (\lambda (c0: C).eq C x1 c0) (let H7 \def eq_ind nat h (\lambda (n: nat).eq nat n O) H2 O H5 in let H8 \def eq_ind nat d (\lambda (n: nat).eq nat n O) H3 O H6 in eq_ind_r C (CSort n) (\lambda (c0: C).eq C c0 (CSort n)) (refl_equal C (CSort n)) x1 H4) x2 H1) (drop_gen_sort n h d x1 H)) (drop_gen_sort n h d x2 H0)) (\lambda (c0: C).\lambda (H: ((\forall (x1: C).\forall (d: nat).\forall (h: nat).(drop h d c0 x1) \to \forall (x2: C).(drop h d c0 x2) \to eq C x1 x2))).\lambda (k: K).\lambda (t: T).\lambda (x1: C).\lambda (d: nat).nat_ind (\lambda (n: nat).\forall (h: nat).(drop h n (CHead c0 k t) x1) \to \forall (x2: C).(drop h n (CHead c0 k t) x2) \to eq C x1 x2) (\lambda (h: nat).nat_ind (\lambda (n: nat).(drop n O (CHead c0 k t) x1) \to \forall (x2: C).(drop n O (CHead c0 k t) x2) \to eq C x1 x2) (\lambda (H0: (drop O O (CHead c0 k t) x1)).\lambda (x2: C).\lambda (H1: (drop O O (CHead c0 k t) x2)).eq_ind C (CHead c0 k t) (\lambda (c1: C).eq C x1 c1) (eq_ind C (CHead c0 k t) (\lambda (c1: C).eq C c1 (CHead c0 k t)) (refl_equal C (CHead c0 k t)) x1 (drop_gen_refl (CHead c0 k t) x1 H0)) x2 (drop_gen_refl (CHead c0 k t) x2 H1)) (\lambda (n: nat).\lambda (_: (((drop n O (CHead c0 k t) x1) \to \forall (x2: C).(drop n O (CHead c0 k t) x2) \to eq C x1 x2))).\lambda (H1: (drop (S n) O (CHead c0 k t) x1)).\lambda (x2: C).\lambda (H2: (drop (S n) O (CHead c0 k t) x2)).H x1 O (r k n) (drop_gen_drop k c0 x1 t n H1) x2 (drop_gen_drop k c0 x2 t n H2)) h) (\lambda (n: nat).\lambda (H0: ((\forall (h: nat).(drop h n (CHead c0 k t) x1) \to \forall (x2: C).(drop h n (CHead c0 k t) x2) \to eq C x1 x2))).\lambda (h: nat).\lambda (H1: (drop h (S n) (CHead c0 k t) x1)).\lambda (x2: C).\lambda (H2: (drop h (S n) (CHead c0 k t) x2)).ex3_2_ind C T (\lambda (e: C).\lambda (v: T).eq C x2 (CHead e k v)) (\lambda (_: C).\lambda (v: T).eq T t (lift h (r k n) v)) (\lambda (e: C).\lambda (_: T).drop h (r k n) c0 e) (eq C x1 x2) (\lambda (x0: C).\lambda (x3: T).\lambda (H3: (eq C x2 (CHead x0 k x3))).\lambda (H4: (eq T t (lift h (r k n) x3))).\lambda (H5: (drop h (r k n) c0 x0)).ex3_2_ind C T (\lambda (e: C).\lambda (v: T).eq C x1 (CHead e k v)) (\lambda (_: C).\lambda (v: T).eq T t (lift h (r k n) v)) (\lambda (e: C).\lambda (_: T).drop h (r k n) c0 e) (eq C x1 x2) (\lambda (x4: C).\lambda (x5: T).\lambda (H6: (eq C x1 (CHead x4 k x5))).\lambda (H7: (eq T t (lift h (r k n) x5))).\lambda (H8: (drop h (r k n) c0 x4)).eq_ind_r C (CHead x0 k x3) (\lambda (c1: C).eq C x1 c1) (let H9 \def eq_ind C x1 (\lambda (c: C).\forall (h: nat).(drop h n (CHead c0 k t) c) \to \forall (x2: C).(drop h n (CHead c0 k t) x2) \to eq C c x2) H0 (CHead x4 k x5) H6 in eq_ind_r C (CHead x4 k x5) (\lambda (c1: C).eq C c1 (CHead x0 k x3)) (let H10 \def eq_ind T t (\lambda (t: T).\forall (h: nat).(drop h n (CHead c0 k t) (CHead x4 k x5)) \to \forall (x2: C).(drop h n (CHead c0 k t) x2) \to eq C (CHead x4 k x5) x2) H9 (lift h (r k n) x5) H7 in let H11 \def eq_ind T t (\lambda (t: T).eq T t (lift h (r k n) x3)) H4 (lift h (r k n) x5) H7 in let H12 \def eq_ind T x5 (\lambda (t: T).\forall (h0: nat).(drop h0 n (CHead c0 k (lift h (r k n) t)) (CHead x4 k t)) \to \forall (x2: C).(drop h0 n (CHead c0 k (lift h (r k n) t)) x2) \to eq C (CHead x4 k t) x2) H10 x3 (lift_inj x5 x3 h (r k n) H11) in eq_ind_r T x3 (\lambda (t0: T).eq C (CHead x4 k t0) (CHead x0 k x3)) (sym_equal C (CHead x0 k x3) (CHead x4 k x3) (sym_equal C (CHead x4 k x3) (CHead x0 k x3) (sym_equal C (CHead x0 k x3) (CHead x4 k x3) (f_equal3 C K T C CHead x0 x4 k k x3 x3 (H x0 (r k n) h H5 x4 H8) (refl_equal K k) (refl_equal T x3))))) x5 (lift_inj x5 x3 h (r k n) H11)) x1 H6) x2 H3) (drop_gen_skip_l c0 x1 t h n k H1)) (drop_gen_skip_l c0 x2 t h n k H2)) d) c.
+
+theorem drop_conf_lt: \forall (k: K).\forall (i: nat).\forall (u: T).\forall (c0: C).\forall (c: C).(drop i O c (CHead c0 k u)) \to \forall (e: C).\forall (h: nat).\forall (d: nat).(drop h (S (plus i d)) c e) \to ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h (r k d) v)) (\lambda (v: T).\lambda (e0: C).drop i O e (CHead e0 k v)) (\lambda (_: T).\lambda (e0: C).drop h (r k d) c0 e0) \def \lambda (k: K).\lambda (i: nat).nat_ind (\lambda (n: nat).\forall (u: T).\forall (c0: C).\forall (c: C).(drop n O c (CHead c0 k u)) \to \forall (e: C).\forall (h: nat).\forall (d: nat).(drop h (S (plus n d)) c e) \to ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h (r k d) v)) (\lambda (v: T).\lambda (e0: C).drop n O e (CHead e0 k v)) (\lambda (_: T).\lambda (e0: C).drop h (r k d) c0 e0)) (\lambda (u: T).\lambda (c0: C).\lambda (c: C).\lambda (H: (drop O O c (CHead c0 k u))).\lambda (e: C).\lambda (h: nat).\lambda (d: nat).\lambda (H0: (drop h (S (plus O d)) c e)).let H1 \def eq_ind C c (\lambda (c: C).drop h (S (plus O d)) c e) H0 (CHead c0 k u) (drop_gen_refl c (CHead c0 k u) H) in ex3_2_ind C T (\lambda (e0: C).\lambda (v: T).eq C e (CHead e0 k v)) (\lambda (_: C).\lambda (v: T).eq T u (lift h (r k (plus O d)) v)) (\lambda (e0: C).\lambda (_: T).drop h (r k (plus O d)) c0 e0) (ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h (r k d) v)) (\lambda (v: T).\lambda (e0: C).drop O O e (CHead e0 k v)) (\lambda (_: T).\lambda (e0: C).drop h (r k d) c0 e0)) (\lambda (x0: C).\lambda (x1: T).\lambda (H2: (eq C e (CHead x0 k x1))).\lambda (H3: (eq T u (lift h (r k (plus O d)) x1))).\lambda (H4: (drop h (r k (plus O d)) c0 x0)).eq_ind_r C (CHead x0 k x1) (\lambda (c1: C).ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h (r k d) v)) (\lambda (v: T).\lambda (e0: C).drop O O c1 (CHead e0 k v)) (\lambda (_: T).\lambda (e0: C).drop h (r k d) c0 e0)) (eq_ind_r T (lift h (r k (plus O d)) x1) (\lambda (t: T).ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T t (lift h (r k d) v)) (\lambda (v: T).\lambda (e0: C).drop O O (CHead x0 k x1) (CHead e0 k v)) (\lambda (_: T).\lambda (e0: C).drop h (r k d) c0 e0)) (ex3_2_intro T C (\lambda (v: T).\lambda (_: C).eq T (lift h (r k (plus O d)) x1) (lift h (r k d) v)) (\lambda (v: T).\lambda (e0: C).drop O O (CHead x0 k x1) (CHead e0 k v)) (\lambda (_: T).\lambda (e0: C).drop h (r k d) c0 e0) x1 x0 (refl_equal T (lift h (r k d) x1)) (drop_refl (CHead x0 k x1)) H4) u H3) e H2) (drop_gen_skip_l c0 e u h (plus O d) k H1)) (\lambda (i0: nat).\lambda (H: ((\forall (u: T).\forall (c0: C).\forall (c: C).(drop i0 O c (CHead c0 k u)) \to \forall (e: C).\forall (h: nat).\forall (d: nat).(drop h (S (plus i0 d)) c e) \to ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h (r k d) v)) (\lambda (v: T).\lambda (e0: C).drop i0 O e (CHead e0 k v)) (\lambda (_: T).\lambda (e0: C).drop h (r k d) c0 e0)))).\lambda (u: T).\lambda (c0: C).\lambda (c: C).C_ind (\lambda (c1: C).(drop (S i0) O c1 (CHead c0 k u)) \to \forall (e: C).\forall (h: nat).\forall (d: nat).(drop h (S (plus (S i0) d)) c1 e) \to ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h (r k d) v)) (\lambda (v: T).\lambda (e0: C).drop (S i0) O e (CHead e0 k v)) (\lambda (_: T).\lambda (e0: C).drop h (r k d) c0 e0)) (\lambda (n: nat).\lambda (_: (drop (S i0) O (CSort n) (CHead c0 k u))).\lambda (e: C).\lambda (h: nat).\lambda (d: nat).\lambda (H1: (drop h (S (plus (S i0) d)) (CSort n) e)).and3_ind (eq C e (CSort n)) (eq nat h O) (eq nat (S (plus (S i0) d)) O) (ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h (r k d) v)) (\lambda (v: T).\lambda (e0: C).drop (S i0) O e (CHead e0 k v)) (\lambda (_: T).\lambda (e0: C).drop h (r k d) c0 e0)) (\lambda (_: (eq C e (CSort n))).\lambda (_: (eq nat h O)).\lambda (H4: (eq nat (S (plus (S i0) d)) O)).let H5 \def eq_ind nat (S (plus (S i0) d)) (\lambda (ee: nat).match ee return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H4 in False_ind (ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h (r k d) v)) (\lambda (v: T).\lambda (e0: C).drop (S i0) O e (CHead e0 k v)) (\lambda (_: T).\lambda (e0: C).drop h (r k d) c0 e0)) H5) (drop_gen_sort n h (S (plus (S i0) d)) e H1)) (\lambda (c1: C).\lambda (H0: (((drop (S i0) O c1 (CHead c0 k u)) \to \forall (e: C).\forall (h: nat).\forall (d: nat).(drop h (S (plus (S i0) d)) c1 e) \to ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h (r k d) v)) (\lambda (v: T).\lambda (e0: C).drop (S i0) O e (CHead e0 k v)) (\lambda (_: T).\lambda (e0: C).drop h (r k d) c0 e0)))).\lambda (k0: K).K_ind (\lambda (k1: K).\forall (t: T).(drop (S i0) O (CHead c1 k1 t) (CHead c0 k u)) \to \forall (e: C).\forall (h: nat).\forall (d: nat).(drop h (S (plus (S i0) d)) (CHead c1 k1 t) e) \to ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h (r k d) v)) (\lambda (v: T).\lambda (e0: C).drop (S i0) O e (CHead e0 k v)) (\lambda (_: T).\lambda (e0: C).drop h (r k d) c0 e0)) (\lambda (b: B).\lambda (t: T).\lambda (H1: (drop (S i0) O (CHead c1 (Bind b) t) (CHead c0 k u))).\lambda (e: C).\lambda (h: nat).\lambda (d: nat).\lambda (H2: (drop h (S (plus (S i0) d)) (CHead c1 (Bind b) t) e)).ex3_2_ind C T (\lambda (e0: C).\lambda (v: T).eq C e (CHead e0 (Bind b) v)) (\lambda (_: C).\lambda (v: T).eq T t (lift h (r (Bind b) (plus (S i0) d)) v)) (\lambda (e0: C).\lambda (_: T).drop h (r (Bind b) (plus (S i0) d)) c1 e0) (ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h (r k d) v)) (\lambda (v: T).\lambda (e0: C).drop (S i0) O e (CHead e0 k v)) (\lambda (_: T).\lambda (e0: C).drop h (r k d) c0 e0)) (\lambda (x0: C).\lambda (x1: T).\lambda (H3: (eq C e (CHead x0 (Bind b) x1))).\lambda (_: (eq T t (lift h (r (Bind b) (plus (S i0) d)) x1))).\lambda (H5: (drop h (r (Bind b) (plus (S i0) d)) c1 x0)).eq_ind_r C (CHead x0 (Bind b) x1) (\lambda (c2: C).ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h (r k d) v)) (\lambda (v: T).\lambda (e0: C).drop (S i0) O c2 (CHead e0 k v)) (\lambda (_: T).\lambda (e0: C).drop h (r k d) c0 e0)) (let H6 \def H u c0 c1 (drop_gen_drop (Bind b) c1 (CHead c0 k u) t i0 H1) x0 h d H5 in ex3_2_ind T C (\lambda (v: T).\lambda (_: C).eq T u (lift h (r k d) v)) (\lambda (v: T).\lambda (e0: C).drop i0 O x0 (CHead e0 k v)) (\lambda (_: T).\lambda (e0: C).drop h (r k d) c0 e0) (ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h (r k d) v)) (\lambda (v: T).\lambda (e0: C).drop (S i0) O (CHead x0 (Bind b) x1) (CHead e0 k v)) (\lambda (_: T).\lambda (e0: C).drop h (r k d) c0 e0)) (\lambda (x2: T).\lambda (x3: C).\lambda (H7: (eq T u (lift h (r k d) x2))).\lambda (H8: (drop i0 O x0 (CHead x3 k x2))).\lambda (H9: (drop h (r k d) c0 x3)).ex3_2_intro T C (\lambda (v: T).\lambda (_: C).eq T u (lift h (r k d) v)) (\lambda (v: T).\lambda (e0: C).drop (S i0) O (CHead x0 (Bind b) x1) (CHead e0 k v)) (\lambda (_: T).\lambda (e0: C).drop h (r k d) c0 e0) x2 x3 H7 (drop_drop (Bind b) i0 x0 (CHead x3 k x2) H8 x1) H9) H6) e H3) (drop_gen_skip_l c1 e t h (plus (S i0) d) (Bind b) H2)) (\lambda (f: F).\lambda (t: T).\lambda (H1: (drop (S i0) O (CHead c1 (Flat f) t) (CHead c0 k u))).\lambda (e: C).\lambda (h: nat).\lambda (d: nat).\lambda (H2: (drop h (S (plus (S i0) d)) (CHead c1 (Flat f) t) e)).ex3_2_ind C T (\lambda (e0: C).\lambda (v: T).eq C e (CHead e0 (Flat f) v)) (\lambda (_: C).\lambda (v: T).eq T t (lift h (r (Flat f) (plus (S i0) d)) v)) (\lambda (e0: C).\lambda (_: T).drop h (r (Flat f) (plus (S i0) d)) c1 e0) (ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h (r k d) v)) (\lambda (v: T).\lambda (e0: C).drop (S i0) O e (CHead e0 k v)) (\lambda (_: T).\lambda (e0: C).drop h (r k d) c0 e0)) (\lambda (x0: C).\lambda (x1: T).\lambda (H3: (eq C e (CHead x0 (Flat f) x1))).\lambda (_: (eq T t (lift h (r (Flat f) (plus (S i0) d)) x1))).\lambda (H5: (drop h (r (Flat f) (plus (S i0) d)) c1 x0)).eq_ind_r C (CHead x0 (Flat f) x1) (\lambda (c2: C).ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h (r k d) v)) (\lambda (v: T).\lambda (e0: C).drop (S i0) O c2 (CHead e0 k v)) (\lambda (_: T).\lambda (e0: C).drop h (r k d) c0 e0)) (ex3_2_ind T C (\lambda (v: T).\lambda (_: C).eq T u (lift h (r k d) v)) (\lambda (v: T).\lambda (e0: C).drop (S i0) O x0 (CHead e0 k v)) (\lambda (_: T).\lambda (e0: C).drop h (r k d) c0 e0) (ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h (r k d) v)) (\lambda (v: T).\lambda (e0: C).drop (S i0) O (CHead x0 (Flat f) x1) (CHead e0 k v)) (\lambda (_: T).\lambda (e0: C).drop h (r k d) c0 e0)) (\lambda (x2: T).\lambda (x3: C).\lambda (H6: (eq T u (lift h (r k d) x2))).\lambda (H7: (drop (S i0) O x0 (CHead x3 k x2))).\lambda (H8: (drop h (r k d) c0 x3)).ex3_2_intro T C (\lambda (v: T).\lambda (_: C).eq T u (lift h (r k d) v)) (\lambda (v: T).\lambda (e0: C).drop (S i0) O (CHead x0 (Flat f) x1) (CHead e0 k v)) (\lambda (_: T).\lambda (e0: C).drop h (r k d) c0 e0) x2 x3 H6 (drop_drop (Flat f) i0 x0 (CHead x3 k x2) H7 x1) H8) (H0 (drop_gen_drop (Flat f) c1 (CHead c0 k u) t i0 H1) x0 h d H5)) e H3) (drop_gen_skip_l c1 e t h (plus (S i0) d) (Flat f) H2)) k0) c) i.
+
+theorem drop_conf_ge: \forall (i: nat).\forall (a: C).\forall (c: C).(drop i O c a) \to \forall (e: C).\forall (h: nat).\forall (d: nat).(drop h d c e) \to (le (plus d h) i) \to drop (minus i h) O e a \def \lambda (i: nat).nat_ind (\lambda (n: nat).\forall (a: C).\forall (c: C).(drop n O c a) \to \forall (e: C).\forall (h: nat).\forall (d: nat).(drop h d c e) \to (le (plus d h) n) \to drop (minus n h) O e a) (\lambda (a: C).\lambda (c: C).\lambda (H: (drop O O c a)).\lambda (e: C).\lambda (h: nat).\lambda (d: nat).\lambda (H0: (drop h d c e)).\lambda (H1: (le (plus d h) O)).let H2 \def eq_ind C c (\lambda (c: C).drop h d c e) H0 a (drop_gen_refl c a H) in let H3 \def match H1 return (\lambda (n: nat).(eq nat n O) \to drop (minus O h) O e a) with [le_n \Rightarrow (\lambda (H: (eq nat (plus d h) O)).let H3 \def f_equal nat nat (\lambda (e0: nat).e0) (plus d h) O H in eq_ind nat (plus d h) (\lambda (n: nat).drop (minus n h) n e a) (eq_ind_r nat O (\lambda (n: nat).drop (minus n h) n e a) (and_ind (eq nat d O) (eq nat h O) (drop O O e a) (\lambda (H0: (eq nat d O)).\lambda (H1: (eq nat h O)).let H2 \def eq_ind nat d (\lambda (n: nat).drop h n a e) H2 O H0 in let H4 \def eq_ind nat h (\lambda (n: nat).drop n O a e) H2 O H1 in eq_ind C a (\lambda (c: C).drop O O c a) (drop_refl a) e (drop_gen_refl a e H4)) (plus_O d h H3)) (plus d h) H3) O H3) | (le_S m H) \Rightarrow (\lambda (H2: (eq nat (S m) O)).(let H0 \def eq_ind nat (S m) (\lambda (e0: nat).match e0 return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H2 in False_ind ((le (plus d h) m) \to drop (minus O h) O e a) H0) H)] in H3 (refl_equal nat O)) (\lambda (i0: nat).\lambda (H: ((\forall (a: C).\forall (c: C).(drop i0 O c a) \to \forall (e: C).\forall (h: nat).\forall (d: nat).(drop h d c e) \to (le (plus d h) i0) \to drop (minus i0 h) O e a))).\lambda (a: C).\lambda (c: C).C_ind (\lambda (c0: C).(drop (S i0) O c0 a) \to \forall (e: C).\forall (h: nat).\forall (d: nat).(drop h d c0 e) \to (le (plus d h) (S i0)) \to drop (minus (S i0) h) O e a) (\lambda (n: nat).\lambda (H0: (drop (S i0) O (CSort n) a)).\lambda (e: C).\lambda (h: nat).\lambda (d: nat).\lambda (H1: (drop h d (CSort n) e)).\lambda (H2: (le (plus d h) (S i0))).and3_ind (eq C e (CSort n)) (eq nat h O) (eq nat d O) (drop (minus (S i0) h) O e a) (\lambda (H3: (eq C e (CSort n))).\lambda (H4: (eq nat h O)).\lambda (H5: (eq nat d O)).and3_ind (eq C a (CSort n)) (eq nat (S i0) O) (eq nat O O) (drop (minus (S i0) h) O e a) (\lambda (H6: (eq C a (CSort n))).\lambda (H7: (eq nat (S i0) O)).\lambda (_: (eq nat O O)).let H9 \def eq_ind nat d (\lambda (n: nat).le (plus n h) (S i0)) H2 O H5 in let H10 \def eq_ind nat h (\lambda (n: nat).le (plus O n) (S i0)) H9 O H4 in eq_ind_r nat O (\lambda (n0: nat).drop (minus (S i0) n0) O e a) (eq_ind_r C (CSort n) (\lambda (c0: C).drop (minus (S i0) O) O c0 a) (eq_ind_r C (CSort n) (\lambda (c0: C).drop (minus (S i0) O) O (CSort n) c0) (let H11 \def eq_ind nat (S i0) (\lambda (ee: nat).match ee return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H7 in False_ind (drop (minus (S i0) O) O (CSort n) (CSort n)) H11) a H6) e H3) h H4) (drop_gen_sort n (S i0) O a H0)) (drop_gen_sort n h d e H1)) (\lambda (c0: C).\lambda (H0: (((drop (S i0) O c0 a) \to \forall (e: C).\forall (h: nat).\forall (d: nat).(drop h d c0 e) \to (le (plus d h) (S i0)) \to drop (minus (S i0) h) O e a))).\lambda (k: K).K_ind (\lambda (k0: K).\forall (t: T).(drop (S i0) O (CHead c0 k0 t) a) \to \forall (e: C).\forall (h: nat).\forall (d: nat).(drop h d (CHead c0 k0 t) e) \to (le (plus d h) (S i0)) \to drop (minus (S i0) h) O e a) (\lambda (b: B).\lambda (t: T).\lambda (H1: (drop (S i0) O (CHead c0 (Bind b) t) a)).\lambda (e: C).\lambda (h: nat).\lambda (d: nat).\lambda (H2: (drop h d (CHead c0 (Bind b) t) e)).\lambda (H3: (le (plus d h) (S i0))).nat_ind (\lambda (n: nat).(drop h n (CHead c0 (Bind b) t) e) \to (le (plus n h) (S i0)) \to drop (minus (S i0) h) O e a) (\lambda (H4: (drop h O (CHead c0 (Bind b) t) e)).\lambda (H5: (le (plus O h) (S i0))).nat_ind (\lambda (n: nat).(drop n O (CHead c0 (Bind b) t) e) \to (le (plus O n) (S i0)) \to drop (minus (S i0) n) O e a) (\lambda (H6: (drop O O (CHead c0 (Bind b) t) e)).\lambda (_: (le (plus O O) (S i0))).eq_ind C (CHead c0 (Bind b) t) (\lambda (c1: C).drop (minus (S i0) O) O c1 a) (drop_drop (Bind b) i0 c0 a (drop_gen_drop (Bind b) c0 a t i0 H1) t) e (drop_gen_refl (CHead c0 (Bind b) t) e H6)) (\lambda (h0: nat).\lambda (_: (((drop h0 O (CHead c0 (Bind b) t) e) \to (le (plus O h0) (S i0)) \to drop (minus (S i0) h0) O e a))).\lambda (H6: (drop (S h0) O (CHead c0 (Bind b) t) e)).\lambda (H7: (le (plus O (S h0)) (S i0))).H a c0 (drop_gen_drop (Bind b) c0 a t i0 H1) e h0 O (drop_gen_drop (Bind b) c0 e t h0 H6) (le_S_n (plus O h0) i0 H7)) h H4 H5) (\lambda (d0: nat).\lambda (_: (((drop h d0 (CHead c0 (Bind b) t) e) \to (le (plus d0 h) (S i0)) \to drop (minus (S i0) h) O e a))).\lambda (H4: (drop h (S d0) (CHead c0 (Bind b) t) e)).\lambda (H5: (le (plus (S d0) h) (S i0))).ex3_2_ind C T (\lambda (e0: C).\lambda (v: T).eq C e (CHead e0 (Bind b) v)) (\lambda (_: C).\lambda (v: T).eq T t (lift h (r (Bind b) d0) v)) (\lambda (e0: C).\lambda (_: T).drop h (r (Bind b) d0) c0 e0) (drop (minus (S i0) h) O e a) (\lambda (x0: C).\lambda (x1: T).\lambda (H6: (eq C e (CHead x0 (Bind b) x1))).\lambda (_: (eq T t (lift h (r (Bind b) d0) x1))).\lambda (H8: (drop h (r (Bind b) d0) c0 x0)).eq_ind_r C (CHead x0 (Bind b) x1) (\lambda (c1: C).drop (minus (S i0) h) O c1 a) (eq_ind nat (S (minus i0 h)) (\lambda (n: nat).drop n O (CHead x0 (Bind b) x1) a) (drop_drop (Bind b) (minus i0 h) x0 a (H a c0 (drop_gen_drop (Bind b) c0 a t i0 H1) x0 h d0 H8 (le_S_n (plus d0 h) i0 H5)) x1) (minus (S i0) h) (minus_Sn_m i0 h (le_trans_plus_r d0 h i0 (le_S_n (plus d0 h) i0 H5)))) e H6) (drop_gen_skip_l c0 e t h d0 (Bind b) H4)) d H2 H3) (\lambda (f: F).\lambda (t: T).\lambda (H1: (drop (S i0) O (CHead c0 (Flat f) t) a)).\lambda (e: C).\lambda (h: nat).\lambda (d: nat).\lambda (H2: (drop h d (CHead c0 (Flat f) t) e)).\lambda (H3: (le (plus d h) (S i0))).nat_ind (\lambda (n: nat).(drop h n (CHead c0 (Flat f) t) e) \to (le (plus n h) (S i0)) \to drop (minus (S i0) h) O e a) (\lambda (H4: (drop h O (CHead c0 (Flat f) t) e)).\lambda (H5: (le (plus O h) (S i0))).nat_ind (\lambda (n: nat).(drop n O (CHead c0 (Flat f) t) e) \to (le (plus O n) (S i0)) \to drop (minus (S i0) n) O e a) (\lambda (H6: (drop O O (CHead c0 (Flat f) t) e)).\lambda (_: (le (plus O O) (S i0))).eq_ind C (CHead c0 (Flat f) t) (\lambda (c1: C).drop (minus (S i0) O) O c1 a) (drop_drop (Flat f) i0 c0 a (drop_gen_drop (Flat f) c0 a t i0 H1) t) e (drop_gen_refl (CHead c0 (Flat f) t) e H6)) (\lambda (h0: nat).\lambda (_: (((drop h0 O (CHead c0 (Flat f) t) e) \to (le (plus O h0) (S i0)) \to drop (minus (S i0) h0) O e a))).\lambda (H6: (drop (S h0) O (CHead c0 (Flat f) t) e)).\lambda (H7: (le (plus O (S h0)) (S i0))).H0 (drop_gen_drop (Flat f) c0 a t i0 H1) e (S h0) O (drop_gen_drop (Flat f) c0 e t h0 H6) H7) h H4 H5) (\lambda (d0: nat).\lambda (_: (((drop h d0 (CHead c0 (Flat f) t) e) \to (le (plus d0 h) (S i0)) \to drop (minus (S i0) h) O e a))).\lambda (H4: (drop h (S d0) (CHead c0 (Flat f) t) e)).\lambda (H5: (le (plus (S d0) h) (S i0))).ex3_2_ind C T (\lambda (e0: C).\lambda (v: T).eq C e (CHead e0 (Flat f) v)) (\lambda (_: C).\lambda (v: T).eq T t (lift h (r (Flat f) d0) v)) (\lambda (e0: C).\lambda (_: T).drop h (r (Flat f) d0) c0 e0) (drop (minus (S i0) h) O e a) (\lambda (x0: C).\lambda (x1: T).\lambda (H6: (eq C e (CHead x0 (Flat f) x1))).\lambda (_: (eq T t (lift h (r (Flat f) d0) x1))).\lambda (H8: (drop h (r (Flat f) d0) c0 x0)).eq_ind_r C (CHead x0 (Flat f) x1) (\lambda (c1: C).drop (minus (S i0) h) O c1 a) (let H9 \def eq_ind_r nat (minus (S i0) h) (\lambda (n: nat).drop n O x0 a) (H0 (drop_gen_drop (Flat f) c0 a t i0 H1) x0 h (S d0) H8 H5) (S (minus i0 h)) (minus_Sn_m i0 h (le_trans_plus_r d0 h i0 (le_S_n (plus d0 h) i0 H5))) in eq_ind nat (S (minus i0 h)) (\lambda (n: nat).drop n O (CHead x0 (Flat f) x1) a) (drop_drop (Flat f) (minus i0 h) x0 a H9 x1) (minus (S i0) h) (minus_Sn_m i0 h (le_trans_plus_r d0 h i0 (le_S_n (plus d0 h) i0 H5)))) e H6) (drop_gen_skip_l c0 e t h d0 (Flat f) H4)) d H2 H3) k) c) i.
+
+theorem drop_conf_rev: \forall (j: nat).\forall (e1: C).\forall (e2: C).(drop j O e1 e2) \to \forall (c2: C).\forall (i: nat).(drop i O c2 e2) \to ex2 C (\lambda (c1: C).drop j O c1 c2) (\lambda (c1: C).drop i j c1 e1) \def \lambda (j: nat).nat_ind (\lambda (n: nat).\forall (e1: C).\forall (e2: C).(drop n O e1 e2) \to \forall (c2: C).\forall (i: nat).(drop i O c2 e2) \to ex2 C (\lambda (c1: C).drop n O c1 c2) (\lambda (c1: C).drop i n c1 e1)) (\lambda (e1: C).\lambda (e2: C).\lambda (H: (drop O O e1 e2)).\lambda (c2: C).\lambda (i: nat).\lambda (H0: (drop i O c2 e2)).let H1 \def eq_ind_r C e2 (\lambda (c: C).drop i O c2 c) H0 e1 (drop_gen_refl e1 e2 H) in ex_intro2 C (\lambda (c1: C).drop O O c1 c2) (\lambda (c1: C).drop i O c1 e1) c2 (drop_refl c2) H1) (\lambda (j0: nat).\lambda (IHj: ((\forall (e1: C).\forall (e2: C).(drop j0 O e1 e2) \to \forall (c2: C).\forall (i: nat).(drop i O c2 e2) \to ex2 C (\lambda (c1: C).drop j0 O c1 c2) (\lambda (c1: C).drop i j0 c1 e1)))).\lambda (e1: C).C_ind (\lambda (c: C).\forall (e2: C).(drop (S j0) O c e2) \to \forall (c2: C).\forall (i: nat).(drop i O c2 e2) \to ex2 C (\lambda (c1: C).drop (S j0) O c1 c2) (\lambda (c1: C).drop i (S j0) c1 c)) (\lambda (n: nat).\lambda (e2: C).\lambda (H: (drop (S j0) O (CSort n) e2)).\lambda (c2: C).\lambda (i: nat).\lambda (H0: (drop i O c2 e2)).and3_ind (eq C e2 (CSort n)) (eq nat (S j0) O) (eq nat O O) (ex2 C (\lambda (c1: C).drop (S j0) O c1 c2) (\lambda (c1: C).drop i (S j0) c1 (CSort n))) (\lambda (H1: (eq C e2 (CSort n))).\lambda (H2: (eq nat (S j0) O)).\lambda (_: (eq nat O O)).let H4 \def eq_ind C e2 (\lambda (c: C).drop i O c2 c) H0 (CSort n) H1 in let H5 \def eq_ind nat (S j0) (\lambda (ee: nat).match ee return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H2 in False_ind (ex2 C (\lambda (c1: C).drop (S j0) O c1 c2) (\lambda (c1: C).drop i (S j0) c1 (CSort n))) H5) (drop_gen_sort n (S j0) O e2 H)) (\lambda (e2: C).\lambda (IHe1: ((\forall (e3: C).(drop (S j0) O e2 e3) \to \forall (c2: C).\forall (i: nat).(drop i O c2 e3) \to ex2 C (\lambda (c1: C).drop (S j0) O c1 c2) (\lambda (c1: C).drop i (S j0) c1 e2)))).\lambda (k: K).\lambda (t: T).\lambda (e3: C).\lambda (H: (drop (S j0) O (CHead e2 k t) e3)).\lambda (c2: C).\lambda (i: nat).\lambda (H0: (drop i O c2 e3)).(match k return (\lambda (k0: K).(drop (r k0 j0) O e2 e3) \to ex2 C (\lambda (c1: C).drop (S j0) O c1 c2) (\lambda (c1: C).drop i (S j0) c1 (CHead e2 k0 t))) with [(Bind b) \Rightarrow (\lambda (H1: (drop (r (Bind b) j0) O e2 e3)).let H_x \def IHj e2 e3 H1 c2 i H0 in let H2 \def H_x in ex2_ind C (\lambda (c1: C).drop j0 O c1 c2) (\lambda (c1: C).drop i j0 c1 e2) (ex2 C (\lambda (c1: C).drop (S j0) O c1 c2) (\lambda (c1: C).drop i (S j0) c1 (CHead e2 (Bind b) t))) (\lambda (x: C).\lambda (H3: (drop j0 O x c2)).\lambda (H4: (drop i j0 x e2)).ex_intro2 C (\lambda (c1: C).drop (S j0) O c1 c2) (\lambda (c1: C).drop i (S j0) c1 (CHead e2 (Bind b) t)) (CHead x (Bind b) (lift i (r (Bind b) j0) t)) (drop_drop (Bind b) j0 x c2 H3 (lift i (r (Bind b) j0) t)) (drop_skip (Bind b) i j0 x e2 H4 t)) H2) | (Flat f) \Rightarrow (\lambda (H1: (drop (r (Flat f) j0) O e2 e3)).let H_x \def IHe1 e3 H1 c2 i H0 in let H2 \def H_x in ex2_ind C (\lambda (c1: C).drop (S j0) O c1 c2) (\lambda (c1: C).drop i (S j0) c1 e2) (ex2 C (\lambda (c1: C).drop (S j0) O c1 c2) (\lambda (c1: C).drop i (S j0) c1 (CHead e2 (Flat f) t))) (\lambda (x: C).\lambda (H3: (drop (S j0) O x c2)).\lambda (H4: (drop i (S j0) x e2)).ex_intro2 C (\lambda (c1: C).drop (S j0) O c1 c2) (\lambda (c1: C).drop i (S j0) c1 (CHead e2 (Flat f) t)) (CHead x (Flat f) (lift i (r (Flat f) j0) t)) (drop_drop (Flat f) j0 x c2 H3 (lift i (r (Flat f) j0) t)) (drop_skip (Flat f) i j0 x e2 H4 t)) H2)]) (drop_gen_drop k e2 e3 t j0 H)) e1) j.
+
+theorem drop_trans_le: \forall (i: nat).\forall (d: nat).(le i d) \to \forall (c1: C).\forall (c2: C).\forall (h: nat).(drop h d c1 c2) \to \forall (e2: C).(drop i O c2 e2) \to ex2 C (\lambda (e1: C).drop i O c1 e1) (\lambda (e1: C).drop h (minus d i) e1 e2) \def \lambda (i: nat).nat_ind (\lambda (n: nat).\forall (d: nat).(le n d) \to \forall (c1: C).\forall (c2: C).\forall (h: nat).(drop h d c1 c2) \to \forall (e2: C).(drop n O c2 e2) \to ex2 C (\lambda (e1: C).drop n O c1 e1) (\lambda (e1: C).drop h (minus d n) e1 e2)) (\lambda (d: nat).\lambda (_: (le O d)).\lambda (c1: C).\lambda (c2: C).\lambda (h: nat).\lambda (H0: (drop h d c1 c2)).\lambda (e2: C).\lambda (H1: (drop O O c2 e2)).let H2 \def eq_ind C c2 (\lambda (c: C).drop h d c1 c) H0 e2 (drop_gen_refl c2 e2 H1) in eq_ind nat d (\lambda (n: nat).ex2 C (\lambda (e1: C).drop O O c1 e1) (\lambda (e1: C).drop h n e1 e2)) (ex_intro2 C (\lambda (e1: C).drop O O c1 e1) (\lambda (e1: C).drop h d e1 e2) c1 (drop_refl c1) H2) (minus d O) (minus_n_O d)) (\lambda (i0: nat).\lambda (IHi: ((\forall (d: nat).(le i0 d) \to \forall (c1: C).\forall (c2: C).\forall (h: nat).(drop h d c1 c2) \to \forall (e2: C).(drop i0 O c2 e2) \to ex2 C (\lambda (e1: C).drop i0 O c1 e1) (\lambda (e1: C).drop h (minus d i0) e1 e2)))).\lambda (d: nat).nat_ind (\lambda (n: nat).(le (S i0) n) \to \forall (c1: C).\forall (c2: C).\forall (h: nat).(drop h n c1 c2) \to \forall (e2: C).(drop (S i0) O c2 e2) \to ex2 C (\lambda (e1: C).drop (S i0) O c1 e1) (\lambda (e1: C).drop h (minus n (S i0)) e1 e2)) (\lambda (H: (le (S i0) O)).\lambda (c1: C).\lambda (c2: C).\lambda (h: nat).\lambda (_: (drop h O c1 c2)).\lambda (e2: C).\lambda (_: (drop (S i0) O c2 e2)).let H2 \def match H return (\lambda (n: nat).(eq nat n O) \to ex2 C (\lambda (e1: C).drop (S i0) O c1 e1) (\lambda (e1: C).drop h (minus O (S i0)) e1 e2)) with [le_n \Rightarrow (\lambda (H2: (eq nat (S i0) O)).let H3 \def eq_ind nat (S i0) (\lambda (e: nat).match e return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H2 in False_ind (ex2 C (\lambda (e1: C).drop (S i0) O c1 e1) (\lambda (e1: C).drop h (minus O (S i0)) e1 e2)) H3) | (le_S m H2) \Rightarrow (\lambda (H3: (eq nat (S m) O)).(let H4 \def eq_ind nat (S m) (\lambda (e: nat).match e return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H3 in False_ind ((le (S i0) m) \to ex2 C (\lambda (e1: C).drop (S i0) O c1 e1) (\lambda (e1: C).drop h (minus O (S i0)) e1 e2)) H4) H2)] in H2 (refl_equal nat O)) (\lambda (d0: nat).\lambda (_: (((le (S i0) d0) \to \forall (c1: C).\forall (c2: C).\forall (h: nat).(drop h d0 c1 c2) \to \forall (e2: C).(drop (S i0) O c2 e2) \to ex2 C (\lambda (e1: C).drop (S i0) O c1 e1) (\lambda (e1: C).drop h (minus d0 (S i0)) e1 e2)))).\lambda (H: (le (S i0) (S d0))).\lambda (c1: C).C_ind (\lambda (c: C).\forall (c2: C).\forall (h: nat).(drop h (S d0) c c2) \to \forall (e2: C).(drop (S i0) O c2 e2) \to ex2 C (\lambda (e1: C).drop (S i0) O c e1) (\lambda (e1: C).drop h (minus (S d0) (S i0)) e1 e2)) (\lambda (n: nat).\lambda (c2: C).\lambda (h: nat).\lambda (H0: (drop h (S d0) (CSort n) c2)).\lambda (e2: C).\lambda (H1: (drop (S i0) O c2 e2)).and3_ind (eq C c2 (CSort n)) (eq nat h O) (eq nat (S d0) O) (ex2 C (\lambda (e1: C).drop (S i0) O (CSort n) e1) (\lambda (e1: C).drop h (minus (S d0) (S i0)) e1 e2)) (\lambda (H2: (eq C c2 (CSort n))).\lambda (_: (eq nat h O)).\lambda (_: (eq nat (S d0) O)).let H5 \def eq_ind C c2 (\lambda (c: C).drop (S i0) O c e2) H1 (CSort n) H2 in and3_ind (eq C e2 (CSort n)) (eq nat (S i0) O) (eq nat O O) (ex2 C (\lambda (e1: C).drop (S i0) O (CSort n) e1) (\lambda (e1: C).drop h (minus (S d0) (S i0)) e1 e2)) (\lambda (H6: (eq C e2 (CSort n))).\lambda (H7: (eq nat (S i0) O)).\lambda (_: (eq nat O O)).eq_ind_r C (CSort n) (\lambda (c: C).ex2 C (\lambda (e1: C).drop (S i0) O (CSort n) e1) (\lambda (e1: C).drop h (minus (S d0) (S i0)) e1 c)) (let H9 \def eq_ind nat (S i0) (\lambda (ee: nat).match ee return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H7 in False_ind (ex2 C (\lambda (e1: C).drop (S i0) O (CSort n) e1) (\lambda (e1: C).drop h (minus (S d0) (S i0)) e1 (CSort n))) H9) e2 H6) (drop_gen_sort n (S i0) O e2 H5)) (drop_gen_sort n h (S d0) c2 H0)) (\lambda (c2: C).\lambda (IHc: ((\forall (c3: C).\forall (h: nat).(drop h (S d0) c2 c3) \to \forall (e2: C).(drop (S i0) O c3 e2) \to ex2 C (\lambda (e1: C).drop (S i0) O c2 e1) (\lambda (e1: C).drop h (minus (S d0) (S i0)) e1 e2)))).\lambda (k: K).K_ind (\lambda (k0: K).\forall (t: T).\forall (c3: C).\forall (h: nat).(drop h (S d0) (CHead c2 k0 t) c3) \to \forall (e2: C).(drop (S i0) O c3 e2) \to ex2 C (\lambda (e1: C).drop (S i0) O (CHead c2 k0 t) e1) (\lambda (e1: C).drop h (minus (S d0) (S i0)) e1 e2)) (\lambda (b: B).\lambda (t: T).\lambda (c3: C).\lambda (h: nat).\lambda (H0: (drop h (S d0) (CHead c2 (Bind b) t) c3)).\lambda (e2: C).\lambda (H1: (drop (S i0) O c3 e2)).ex3_2_ind C T (\lambda (e: C).\lambda (v: T).eq C c3 (CHead e (Bind b) v)) (\lambda (_: C).\lambda (v: T).eq T t (lift h (r (Bind b) d0) v)) (\lambda (e: C).\lambda (_: T).drop h (r (Bind b) d0) c2 e) (ex2 C (\lambda (e1: C).drop (S i0) O (CHead c2 (Bind b) t) e1) (\lambda (e1: C).drop h (minus (S d0) (S i0)) e1 e2)) (\lambda (x0: C).\lambda (x1: T).\lambda (H2: (eq C c3 (CHead x0 (Bind b) x1))).\lambda (H3: (eq T t (lift h (r (Bind b) d0) x1))).\lambda (H4: (drop h (r (Bind b) d0) c2 x0)).let H5 \def eq_ind C c3 (\lambda (c: C).drop (S i0) O c e2) H1 (CHead x0 (Bind b) x1) H2 in eq_ind_r T (lift h (r (Bind b) d0) x1) (\lambda (t0: T).ex2 C (\lambda (e1: C).drop (S i0) O (CHead c2 (Bind b) t0) e1) (\lambda (e1: C).drop h (minus (S d0) (S i0)) e1 e2)) (ex2_ind C (\lambda (e1: C).drop i0 O c2 e1) (\lambda (e1: C).drop h (minus d0 i0) e1 e2) (ex2 C (\lambda (e1: C).drop (S i0) O (CHead c2 (Bind b) (lift h (r (Bind b) d0) x1)) e1) (\lambda (e1: C).drop h (minus (S d0) (S i0)) e1 e2)) (\lambda (x: C).\lambda (H6: (drop i0 O c2 x)).\lambda (H7: (drop h (minus d0 i0) x e2)).ex_intro2 C (\lambda (e1: C).drop (S i0) O (CHead c2 (Bind b) (lift h (r (Bind b) d0) x1)) e1) (\lambda (e1: C).drop h (minus (S d0) (S i0)) e1 e2) x (drop_drop (Bind b) i0 c2 x H6 (lift h (r (Bind b) d0) x1)) H7) (IHi d0 (le_S_n i0 d0 H) c2 x0 h H4 e2 (drop_gen_drop (Bind b) x0 e2 x1 i0 H5))) t H3) (drop_gen_skip_l c2 c3 t h d0 (Bind b) H0)) (\lambda (f: F).\lambda (t: T).\lambda (c3: C).\lambda (h: nat).\lambda (H0: (drop h (S d0) (CHead c2 (Flat f) t) c3)).\lambda (e2: C).\lambda (H1: (drop (S i0) O c3 e2)).ex3_2_ind C T (\lambda (e: C).\lambda (v: T).eq C c3 (CHead e (Flat f) v)) (\lambda (_: C).\lambda (v: T).eq T t (lift h (r (Flat f) d0) v)) (\lambda (e: C).\lambda (_: T).drop h (r (Flat f) d0) c2 e) (ex2 C (\lambda (e1: C).drop (S i0) O (CHead c2 (Flat f) t) e1) (\lambda (e1: C).drop h (minus (S d0) (S i0)) e1 e2)) (\lambda (x0: C).\lambda (x1: T).\lambda (H2: (eq C c3 (CHead x0 (Flat f) x1))).\lambda (H3: (eq T t (lift h (r (Flat f) d0) x1))).\lambda (H4: (drop h (r (Flat f) d0) c2 x0)).let H5 \def eq_ind C c3 (\lambda (c: C).drop (S i0) O c e2) H1 (CHead x0 (Flat f) x1) H2 in eq_ind_r T (lift h (r (Flat f) d0) x1) (\lambda (t0: T).ex2 C (\lambda (e1: C).drop (S i0) O (CHead c2 (Flat f) t0) e1) (\lambda (e1: C).drop h (minus (S d0) (S i0)) e1 e2)) (ex2_ind C (\lambda (e1: C).drop (S i0) O c2 e1) (\lambda (e1: C).drop h (minus (S d0) (S i0)) e1 e2) (ex2 C (\lambda (e1: C).drop (S i0) O (CHead c2 (Flat f) (lift h (r (Flat f) d0) x1)) e1) (\lambda (e1: C).drop h (minus (S d0) (S i0)) e1 e2)) (\lambda (x: C).\lambda (H6: (drop (S i0) O c2 x)).\lambda (H7: (drop h (minus (S d0) (S i0)) x e2)).ex_intro2 C (\lambda (e1: C).drop (S i0) O (CHead c2 (Flat f) (lift h (r (Flat f) d0) x1)) e1) (\lambda (e1: C).drop h (minus (S d0) (S i0)) e1 e2) x (drop_drop (Flat f) i0 c2 x H6 (lift h (r (Flat f) d0) x1)) H7) (IHc x0 h H4 e2 (drop_gen_drop (Flat f) x0 e2 x1 i0 H5))) t H3) (drop_gen_skip_l c2 c3 t h d0 (Flat f) H0)) k) c1) d) i.
+
+theorem drop_trans_ge: \forall (i: nat).\forall (c1: C).\forall (c2: C).\forall (d: nat).\forall (h: nat).(drop h d c1 c2) \to \forall (e2: C).(drop i O c2 e2) \to (le d i) \to drop (plus i h) O c1 e2 \def \lambda (i: nat).nat_ind (\lambda (n: nat).\forall (c1: C).\forall (c2: C).\forall (d: nat).\forall (h: nat).(drop h d c1 c2) \to \forall (e2: C).(drop n O c2 e2) \to (le d n) \to drop (plus n h) O c1 e2) (\lambda (c1: C).\lambda (c2: C).\lambda (d: nat).\lambda (h: nat).\lambda (H: (drop h d c1 c2)).\lambda (e2: C).\lambda (H0: (drop O O c2 e2)).\lambda (H1: (le d O)).eq_ind C c2 (\lambda (c: C).drop (plus O h) O c1 c) (let H2 \def match H1 return (\lambda (n: nat).(eq nat n O) \to drop (plus O h) O c1 c2) with [le_n \Rightarrow (\lambda (H0: (eq nat d O)).eq_ind nat O (\lambda (_: nat).drop (plus O h) O c1 c2) (let H2 \def eq_ind nat d (\lambda (n: nat).le n O) H1 O H0 in let H3 \def eq_ind nat d (\lambda (n: nat).drop h n c1 c2) H O H0 in H3) d (sym_eq nat d O H0)) | (le_S m H0) \Rightarrow (\lambda (H2: (eq nat (S m) O)).(let H1 \def eq_ind nat (S m) (\lambda (e: nat).match e return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H2 in False_ind ((le d m) \to drop (plus O h) O c1 c2) H1) H0)] in H2 (refl_equal nat O)) e2 (drop_gen_refl c2 e2 H0)) (\lambda (i0: nat).\lambda (IHi: ((\forall (c1: C).\forall (c2: C).\forall (d: nat).\forall (h: nat).(drop h d c1 c2) \to \forall (e2: C).(drop i0 O c2 e2) \to (le d i0) \to drop (plus i0 h) O c1 e2))).\lambda (c1: C).C_ind (\lambda (c: C).\forall (c2: C).\forall (d: nat).\forall (h: nat).(drop h d c c2) \to \forall (e2: C).(drop (S i0) O c2 e2) \to (le d (S i0)) \to drop (plus (S i0) h) O c e2) (\lambda (n: nat).\lambda (c2: C).\lambda (d: nat).\lambda (h: nat).\lambda (H: (drop h d (CSort n) c2)).\lambda (e2: C).\lambda (H0: (drop (S i0) O c2 e2)).\lambda (H1: (le d (S i0))).and3_ind (eq C c2 (CSort n)) (eq nat h O) (eq nat d O) (drop (S (plus i0 h)) O (CSort n) e2) (\lambda (H2: (eq C c2 (CSort n))).\lambda (H3: (eq nat h O)).\lambda (H4: (eq nat d O)).eq_ind_r nat O (\lambda (n0: nat).drop (S (plus i0 n0)) O (CSort n) e2) (let H5 \def eq_ind nat d (\lambda (n: nat).le n (S i0)) H1 O H4 in let H6 \def eq_ind C c2 (\lambda (c: C).drop (S i0) O c e2) H0 (CSort n) H2 in and3_ind (eq C e2 (CSort n)) (eq nat (S i0) O) (eq nat O O) (drop (S (plus i0 O)) O (CSort n) e2) (\lambda (H7: (eq C e2 (CSort n))).\lambda (H8: (eq nat (S i0) O)).\lambda (_: (eq nat O O)).eq_ind_r C (CSort n) (\lambda (c: C).drop (S (plus i0 O)) O (CSort n) c) (let H10 \def eq_ind nat (S i0) (\lambda (ee: nat).match ee return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H8 in False_ind (drop (S (plus i0 O)) O (CSort n) (CSort n)) H10) e2 H7) (drop_gen_sort n (S i0) O e2 H6)) h H3) (drop_gen_sort n h d c2 H)) (\lambda (c2: C).\lambda (IHc: ((\forall (c3: C).\forall (d: nat).\forall (h: nat).(drop h d c2 c3) \to \forall (e2: C).(drop (S i0) O c3 e2) \to (le d (S i0)) \to drop (S (plus i0 h)) O c2 e2))).\lambda (k: K).\lambda (t: T).\lambda (c3: C).\lambda (d: nat).nat_ind (\lambda (n: nat).\forall (h: nat).(drop h n (CHead c2 k t) c3) \to \forall (e2: C).(drop (S i0) O c3 e2) \to (le n (S i0)) \to drop (S (plus i0 h)) O (CHead c2 k t) e2) (\lambda (h: nat).nat_ind (\lambda (n: nat).(drop n O (CHead c2 k t) c3) \to \forall (e2: C).(drop (S i0) O c3 e2) \to (le O (S i0)) \to drop (S (plus i0 n)) O (CHead c2 k t) e2) (\lambda (H: (drop O O (CHead c2 k t) c3)).\lambda (e2: C).\lambda (H0: (drop (S i0) O c3 e2)).\lambda (_: (le O (S i0))).let H2 \def eq_ind_r C c3 (\lambda (c: C).drop (S i0) O c e2) H0 (CHead c2 k t) (drop_gen_refl (CHead c2 k t) c3 H) in eq_ind nat i0 (\lambda (n: nat).drop (S n) O (CHead c2 k t) e2) (drop_drop k i0 c2 e2 (drop_gen_drop k c2 e2 t i0 H2) t) (plus i0 O) (plus_n_O i0)) (\lambda (n: nat).\lambda (_: (((drop n O (CHead c2 k t) c3) \to \forall (e2: C).(drop (S i0) O c3 e2) \to (le O (S i0)) \to drop (S (plus i0 n)) O (CHead c2 k t) e2))).\lambda (H0: (drop (S n) O (CHead c2 k t) c3)).\lambda (e2: C).\lambda (H1: (drop (S i0) O c3 e2)).\lambda (H2: (le O (S i0))).eq_ind nat (S (plus i0 n)) (\lambda (n0: nat).drop (S n0) O (CHead c2 k t) e2) (drop_drop k (S (plus i0 n)) c2 e2 (eq_ind_r nat (S (r k (plus i0 n))) (\lambda (n0: nat).drop n0 O c2 e2) (eq_ind_r nat (plus i0 (r k n)) (\lambda (n0: nat).drop (S n0) O c2 e2) (IHc c3 O (r k n) (drop_gen_drop k c2 c3 t n H0) e2 H1 H2) (r k (plus i0 n)) (r_plus_sym k i0 n)) (r k (S (plus i0 n))) (r_S k (plus i0 n))) t) (plus i0 (S n)) (plus_n_Sm i0 n)) h) (\lambda (d0: nat).\lambda (IHd: ((\forall (h: nat).(drop h d0 (CHead c2 k t) c3) \to \forall (e2: C).(drop (S i0) O c3 e2) \to (le d0 (S i0)) \to drop (S (plus i0 h)) O (CHead c2 k t) e2))).\lambda (h: nat).\lambda (H: (drop h (S d0) (CHead c2 k t) c3)).\lambda (e2: C).\lambda (H0: (drop (S i0) O c3 e2)).\lambda (H1: (le (S d0) (S i0))).ex3_2_ind C T (\lambda (e: C).\lambda (v: T).eq C c3 (CHead e k v)) (\lambda (_: C).\lambda (v: T).eq T t (lift h (r k d0) v)) (\lambda (e: C).\lambda (_: T).drop h (r k d0) c2 e) (drop (S (plus i0 h)) O (CHead c2 k t) e2) (\lambda (x0: C).\lambda (x1: T).\lambda (H2: (eq C c3 (CHead x0 k x1))).\lambda (H3: (eq T t (lift h (r k d0) x1))).\lambda (H4: (drop h (r k d0) c2 x0)).let H5 \def eq_ind C c3 (\lambda (c: C).\forall (h: nat).(drop h d0 (CHead c2 k t) c) \to \forall (e2: C).(drop (S i0) O c e2) \to (le d0 (S i0)) \to drop (S (plus i0 h)) O (CHead c2 k t) e2) IHd (CHead x0 k x1) H2 in let H6 \def eq_ind C c3 (\lambda (c: C).drop (S i0) O c e2) H0 (CHead x0 k x1) H2 in let H7 \def eq_ind T t (\lambda (t: T).\forall (h: nat).(drop h d0 (CHead c2 k t) (CHead x0 k x1)) \to \forall (e2: C).(drop (S i0) O (CHead x0 k x1) e2) \to (le d0 (S i0)) \to drop (S (plus i0 h)) O (CHead c2 k t) e2) H5 (lift h (r k d0) x1) H3 in eq_ind_r T (lift h (r k d0) x1) (\lambda (t0: T).drop (S (plus i0 h)) O (CHead c2 k t0) e2) (drop_drop k (plus i0 h) c2 e2 (K_ind (\lambda (k0: K).(drop h (r k0 d0) c2 x0) \to (drop (r k0 i0) O x0 e2) \to drop (r k0 (plus i0 h)) O c2 e2) (\lambda (b: B).\lambda (H8: (drop h (r (Bind b) d0) c2 x0)).\lambda (H9: (drop (r (Bind b) i0) O x0 e2)).IHi c2 x0 (r (Bind b) d0) h H8 e2 H9 (le_S_n (r (Bind b) d0) i0 H1)) (\lambda (f: F).\lambda (H8: (drop h (r (Flat f) d0) c2 x0)).\lambda (H9: (drop (r (Flat f) i0) O x0 e2)).IHc x0 (r (Flat f) d0) h H8 e2 H9 H1) k H4 (drop_gen_drop k x0 e2 x1 i0 H6)) (lift h (r k d0) x1)) t H3) (drop_gen_skip_l c2 c3 t h d0 k H)) d) c1) i.
+
+inductive drop1: PList \to C \to C \to Prop \def
+| drop1_nil: \forall (c: C).drop1 PNil c c
+| drop1_cons: \forall (c1: C).\forall (c2: C).\forall (h: nat).\forall (d: nat).(drop h d c1 c2) \to \forall (c3: C).\forall (hds: PList).(drop1 hds c2 c3) \to drop1 (PCons h d hds) c1 c3.
+
+theorem ctrans: PList \to nat \to T \to T \def let rec (ctrans: (\forall (hds: PList).nat \to T \to T)) = (\lambda (hds: PList).\lambda (i: nat).\lambda (t: T).match hds with [PNil \Rightarrow t | (PCons h d hds0) \Rightarrow (let j \def trans hds0 i in let u \def ctrans hds0 i t in match (blt j d) with [true \Rightarrow (lift h (minus d (S j)) u) | false \Rightarrow u])]) in ctrans.
+
+theorem drop1_skip_bind: \forall (b: B).\forall (e: C).\forall (hds: PList).\forall (c: C).\forall (u: T).(drop1 hds c e) \to drop1 (Ss hds) (CHead c (Bind b) (lift1 hds u)) (CHead e (Bind b) u) \def \lambda (b: B).\lambda (e: C).\lambda (hds: PList).PList_ind (\lambda (p: PList).\forall (c: C).\forall (u: T).(drop1 p c e) \to drop1 (Ss p) (CHead c (Bind b) (lift1 p u)) (CHead e (Bind b) u)) (\lambda (c: C).\lambda (u: T).\lambda (H: (drop1 PNil c e)).let H0 \def match H return (\lambda (p: PList).\lambda (c0: C).\lambda (c1: C).(eq PList p PNil) \to (eq C c0 c) \to (eq C c1 e) \to drop1 PNil (CHead c (Bind b) u) (CHead e (Bind b) u)) with [(drop1_nil c0) \Rightarrow (\lambda (_: (eq PList PNil PNil)).\lambda (H1: (eq C c0 c)).\lambda (H2: (eq C c0 e)).eq_ind C c (\lambda (c1: C).(eq C c1 e) \to drop1 PNil (CHead c (Bind b) u) (CHead e (Bind b) u)) (\lambda (H3: (eq C c e)).eq_ind C e (\lambda (c: C).drop1 PNil (CHead c (Bind b) u) (CHead e (Bind b) u)) (drop1_nil (CHead e (Bind b) u)) c (sym_eq C c e H3)) c0 (sym_eq C c0 c H1) H2) | (drop1_cons c1 c2 h d H0 c3 hds H1) \Rightarrow (\lambda (H2: (eq PList (PCons h d hds) PNil)).\lambda (H3: (eq C c1 c)).\lambda (H4: (eq C c3 e)).(let H5 \def eq_ind PList (PCons h d hds) (\lambda (e0: PList).match e0 return (Prop) with [PNil \Rightarrow False | (PCons _ _ _) \Rightarrow True]) I PNil H2 in False_ind ((eq C c1 c) \to (eq C c3 e) \to (drop h d c1 c2) \to (drop1 hds c2 c3) \to drop1 PNil (CHead c (Bind b) u) (CHead e (Bind b) u)) H5) H3 H4 H0 H1)] in H0 (refl_equal PList PNil) (refl_equal C c) (refl_equal C e)) (\lambda (n: nat).\lambda (n0: nat).\lambda (p: PList).\lambda (H: ((\forall (c: C).\forall (u: T).(drop1 p c e) \to drop1 (Ss p) (CHead c (Bind b) (lift1 p u)) (CHead e (Bind b) u)))).\lambda (c: C).\lambda (u: T).\lambda (H0: (drop1 (PCons n n0 p) c e)).let H1 \def match H0 return (\lambda (p0: PList).\lambda (c0: C).\lambda (c1: C).(eq PList p0 (PCons n n0 p)) \to (eq C c0 c) \to (eq C c1 e) \to drop1 (PCons n (S n0) (Ss p)) (CHead c (Bind b) (lift n n0 (lift1 p u))) (CHead e (Bind b) u)) with [(drop1_nil c0) \Rightarrow (\lambda (H1: (eq PList PNil (PCons n n0 p))).\lambda (H2: (eq C c0 c)).\lambda (H3: (eq C c0 e)).(let H4 \def eq_ind PList PNil (\lambda (e0: PList).match e0 return (Prop) with [PNil \Rightarrow True | (PCons _ _ _) \Rightarrow False]) I (PCons n n0 p) H1 in False_ind ((eq C c0 c) \to (eq C c0 e) \to drop1 (PCons n (S n0) (Ss p)) (CHead c (Bind b) (lift n n0 (lift1 p u))) (CHead e (Bind b) u)) H4) H2 H3) | (drop1_cons c1 c2 h d H1 c3 hds H2) \Rightarrow (\lambda (H3: (eq PList (PCons h d hds) (PCons n n0 p))).\lambda (H4: (eq C c1 c)).\lambda (H5: (eq C c3 e)).(let H6 \def f_equal PList PList (\lambda (e0: PList).match e0 return PList with [PNil \Rightarrow hds | (PCons _ _ p) \Rightarrow p]) (PCons h d hds) (PCons n n0 p) H3 in (let H7 \def f_equal PList nat (\lambda (e0: PList).match e0 return nat with [PNil \Rightarrow d | (PCons _ n _) \Rightarrow n]) (PCons h d hds) (PCons n n0 p) H3 in (let H8 \def f_equal PList nat (\lambda (e0: PList).match e0 return nat with [PNil \Rightarrow h | (PCons n _ _) \Rightarrow n]) (PCons h d hds) (PCons n n0 p) H3 in eq_ind nat n (\lambda (n1: nat).(eq nat d n0) \to (eq PList hds p) \to (eq C c1 c) \to (eq C c3 e) \to (drop n1 d c1 c2) \to (drop1 hds c2 c3) \to drop1 (PCons n (S n0) (Ss p)) (CHead c (Bind b) (lift n n0 (lift1 p u))) (CHead e (Bind b) u)) (\lambda (H9: (eq nat d n0)).eq_ind nat n0 (\lambda (n1: nat).(eq PList hds p) \to (eq C c1 c) \to (eq C c3 e) \to (drop n n1 c1 c2) \to (drop1 hds c2 c3) \to drop1 (PCons n (S n0) (Ss p)) (CHead c (Bind b) (lift n n0 (lift1 p u))) (CHead e (Bind b) u)) (\lambda (H10: (eq PList hds p)).eq_ind PList p (\lambda (p0: PList).(eq C c1 c) \to (eq C c3 e) \to (drop n n0 c1 c2) \to (drop1 p0 c2 c3) \to drop1 (PCons n (S n0) (Ss p)) (CHead c (Bind b) (lift n n0 (lift1 p u))) (CHead e (Bind b) u)) (\lambda (H11: (eq C c1 c)).eq_ind C c (\lambda (c0: C).(eq C c3 e) \to (drop n n0 c0 c2) \to (drop1 p c2 c3) \to drop1 (PCons n (S n0) (Ss p)) (CHead c (Bind b) (lift n n0 (lift1 p u))) (CHead e (Bind b) u)) (\lambda (H12: (eq C c3 e)).eq_ind C e (\lambda (c0: C).(drop n n0 c c2) \to (drop1 p c2 c0) \to drop1 (PCons n (S n0) (Ss p)) (CHead c (Bind b) (lift n n0 (lift1 p u))) (CHead e (Bind b) u)) (\lambda (H13: (drop n n0 c c2)).\lambda (H14: (drop1 p c2 e)).drop1_cons (CHead c (Bind b) (lift n n0 (lift1 p u))) (CHead c2 (Bind b) (lift1 p u)) n (S n0) (drop_skip_bind n n0 c c2 H13 b (lift1 p u)) (CHead e (Bind b) u) (Ss p) (H c2 u H14)) c3 (sym_eq C c3 e H12)) c1 (sym_eq C c1 c H11)) hds (sym_eq PList hds p H10)) d (sym_eq nat d n0 H9)) h (sym_eq nat h n H8)) H7) H6) H4 H5 H1 H2)] in H1 (refl_equal PList (PCons n n0 p)) (refl_equal C c) (refl_equal C e)) hds.
+
+theorem drop1_cons_tail: \forall (c2: C).\forall (c3: C).\forall (h: nat).\forall (d: nat).(drop h d c2 c3) \to \forall (hds: PList).\forall (c1: C).(drop1 hds c1 c2) \to drop1 (PConsTail hds h d) c1 c3 \def \lambda (c2: C).\lambda (c3: C).\lambda (h: nat).\lambda (d: nat).\lambda (H: (drop h d c2 c3)).\lambda (hds: PList).PList_ind (\lambda (p: PList).\forall (c1: C).(drop1 p c1 c2) \to drop1 (PConsTail p h d) c1 c3) (\lambda (c1: C).\lambda (H0: (drop1 PNil c1 c2)).let H1 \def match H0 return (\lambda (p: PList).\lambda (c: C).\lambda (c0: C).(eq PList p PNil) \to (eq C c c1) \to (eq C c0 c2) \to drop1 (PCons h d PNil) c1 c3) with [(drop1_nil c) \Rightarrow (\lambda (_: (eq PList PNil PNil)).\lambda (H2: (eq C c c1)).\lambda (H3: (eq C c c2)).eq_ind C c1 (\lambda (c0: C).(eq C c0 c2) \to drop1 (PCons h d PNil) c1 c3) (\lambda (H4: (eq C c1 c2)).eq_ind C c2 (\lambda (c0: C).drop1 (PCons h d PNil) c0 c3) (drop1_cons c2 c3 h d H c3 PNil (drop1_nil c3)) c1 (sym_eq C c1 c2 H4)) c (sym_eq C c c1 H2) H3) | (drop1_cons c0 c4 h0 d0 H1 c5 hds H2) \Rightarrow (\lambda (H3: (eq PList (PCons h0 d0 hds) PNil)).\lambda (H4: (eq C c0 c1)).\lambda (H5: (eq C c5 c2)).(let H6 \def eq_ind PList (PCons h0 d0 hds) (\lambda (e: PList).match e return (Prop) with [PNil \Rightarrow False | (PCons _ _ _) \Rightarrow True]) I PNil H3 in False_ind ((eq C c0 c1) \to (eq C c5 c2) \to (drop h0 d0 c0 c4) \to (drop1 hds c4 c5) \to drop1 (PCons h d PNil) c1 c3) H6) H4 H5 H1 H2)] in H1 (refl_equal PList PNil) (refl_equal C c1) (refl_equal C c2)) (\lambda (n: nat).\lambda (n0: nat).\lambda (p: PList).\lambda (H0: ((\forall (c1: C).(drop1 p c1 c2) \to drop1 (PConsTail p h d) c1 c3))).\lambda (c1: C).\lambda (H1: (drop1 (PCons n n0 p) c1 c2)).let H2 \def match H1 return (\lambda (p0: PList).\lambda (c: C).\lambda (c0: C).(eq PList p0 (PCons n n0 p)) \to (eq C c c1) \to (eq C c0 c2) \to drop1 (PCons n n0 (PConsTail p h d)) c1 c3) with [(drop1_nil c) \Rightarrow (\lambda (H2: (eq PList PNil (PCons n n0 p))).\lambda (H3: (eq C c c1)).\lambda (H4: (eq C c c2)).(let H5 \def eq_ind PList PNil (\lambda (e: PList).match e return (Prop) with [PNil \Rightarrow True | (PCons _ _ _) \Rightarrow False]) I (PCons n n0 p) H2 in False_ind ((eq C c c1) \to (eq C c c2) \to drop1 (PCons n n0 (PConsTail p h d)) c1 c3) H5) H3 H4) | (drop1_cons c0 c4 h0 d0 H2 c5 hds H3) \Rightarrow (\lambda (H4: (eq PList (PCons h0 d0 hds) (PCons n n0 p))).\lambda (H5: (eq C c0 c1)).\lambda (H6: (eq C c5 c2)).(let H7 \def f_equal PList PList (\lambda (e: PList).match e return PList with [PNil \Rightarrow hds | (PCons _ _ p) \Rightarrow p]) (PCons h0 d0 hds) (PCons n n0 p) H4 in (let H8 \def f_equal PList nat (\lambda (e: PList).match e return nat with [PNil \Rightarrow d0 | (PCons _ n _) \Rightarrow n]) (PCons h0 d0 hds) (PCons n n0 p) H4 in (let H9 \def f_equal PList nat (\lambda (e: PList).match e return nat with [PNil \Rightarrow h0 | (PCons n _ _) \Rightarrow n]) (PCons h0 d0 hds) (PCons n n0 p) H4 in eq_ind nat n (\lambda (n1: nat).(eq nat d0 n0) \to (eq PList hds p) \to (eq C c0 c1) \to (eq C c5 c2) \to (drop n1 d0 c0 c4) \to (drop1 hds c4 c5) \to drop1 (PCons n n0 (PConsTail p h d)) c1 c3) (\lambda (H10: (eq nat d0 n0)).eq_ind nat n0 (\lambda (n1: nat).(eq PList hds p) \to (eq C c0 c1) \to (eq C c5 c2) \to (drop n n1 c0 c4) \to (drop1 hds c4 c5) \to drop1 (PCons n n0 (PConsTail p h d)) c1 c3) (\lambda (H11: (eq PList hds p)).eq_ind PList p (\lambda (p0: PList).(eq C c0 c1) \to (eq C c5 c2) \to (drop n n0 c0 c4) \to (drop1 p0 c4 c5) \to drop1 (PCons n n0 (PConsTail p h d)) c1 c3) (\lambda (H12: (eq C c0 c1)).eq_ind C c1 (\lambda (c: C).(eq C c5 c2) \to (drop n n0 c c4) \to (drop1 p c4 c5) \to drop1 (PCons n n0 (PConsTail p h d)) c1 c3) (\lambda (H13: (eq C c5 c2)).eq_ind C c2 (\lambda (c: C).(drop n n0 c1 c4) \to (drop1 p c4 c) \to drop1 (PCons n n0 (PConsTail p h d)) c1 c3) (\lambda (H14: (drop n n0 c1 c4)).\lambda (H15: (drop1 p c4 c2)).drop1_cons c1 c4 n n0 H14 c3 (PConsTail p h d) (H0 c4 H15)) c5 (sym_eq C c5 c2 H13)) c0 (sym_eq C c0 c1 H12)) hds (sym_eq PList hds p H11)) d0 (sym_eq nat d0 n0 H10)) h0 (sym_eq nat h0 n H9)) H8) H7) H5 H6 H2 H3)] in H2 (refl_equal PList (PCons n n0 p)) (refl_equal C c1) (refl_equal C c2)) hds.
+
+theorem lift1_free: \forall (hds: PList).\forall (i: nat).\forall (t: T).eq T (lift1 hds (lift (S i) O t)) (lift (S (trans hds i)) O (ctrans hds i t)) \def \lambda (hds: PList).PList_ind (\lambda (p: PList).\forall (i: nat).\forall (t: T).eq T (lift1 p (lift (S i) O t)) (lift (S (trans p i)) O (ctrans p i t))) (\lambda (i: nat).\lambda (t: T).refl_equal T (lift (S i) O t)) (\lambda (h: nat).\lambda (d: nat).\lambda (hds0: PList).\lambda (H: ((\forall (i: nat).\forall (t: T).eq T (lift1 hds0 (lift (S i) O t)) (lift (S (trans hds0 i)) O (ctrans hds0 i t))))).\lambda (i: nat).\lambda (t: T).eq_ind_r T (lift (S (trans hds0 i)) O (ctrans hds0 i t)) (\lambda (t0: T).eq T (lift h d t0) (lift (S (match (blt (trans hds0 i) d) with [true \Rightarrow (trans hds0 i) | false \Rightarrow (plus (trans hds0 i) h)])) O (match (blt (trans hds0 i) d) with [true \Rightarrow (lift h (minus d (S (trans hds0 i))) (ctrans hds0 i t)) | false \Rightarrow (ctrans hds0 i t)]))) (xinduction bool (blt (trans hds0 i) d) (\lambda (b: bool).eq T (lift h d (lift (S (trans hds0 i)) O (ctrans hds0 i t))) (lift (S (match b with [true \Rightarrow (trans hds0 i) | false \Rightarrow (plus (trans hds0 i) h)])) O (match b with [true \Rightarrow (lift h (minus d (S (trans hds0 i))) (ctrans hds0 i t)) | false \Rightarrow (ctrans hds0 i t)]))) (\lambda (x_x: bool).bool_ind (\lambda (b: bool).(eq bool (blt (trans hds0 i) d) b) \to eq T (lift h d (lift (S (trans hds0 i)) O (ctrans hds0 i t))) (lift (S (match b with [true \Rightarrow (trans hds0 i) | false \Rightarrow (plus (trans hds0 i) h)])) O (match b with [true \Rightarrow (lift h (minus d (S (trans hds0 i))) (ctrans hds0 i t)) | false \Rightarrow (ctrans hds0 i t)]))) (\lambda (H0: (eq bool (blt (trans hds0 i) d) true)).eq_ind_r nat (plus (S (trans hds0 i)) (minus d (S (trans hds0 i)))) (\lambda (n: nat).eq T (lift h n (lift (S (trans hds0 i)) O (ctrans hds0 i t))) (lift (S (trans hds0 i)) O (lift h (minus d (S (trans hds0 i))) (ctrans hds0 i t)))) (eq_ind_r T (lift (S (trans hds0 i)) O (lift h (minus d (S (trans hds0 i))) (ctrans hds0 i t))) (\lambda (t0: T).eq T t0 (lift (S (trans hds0 i)) O (lift h (minus d (S (trans hds0 i))) (ctrans hds0 i t)))) (refl_equal T (lift (S (trans hds0 i)) O (lift h (minus d (S (trans hds0 i))) (ctrans hds0 i t)))) (lift h (plus (S (trans hds0 i)) (minus d (S (trans hds0 i)))) (lift (S (trans hds0 i)) O (ctrans hds0 i t))) (lift_d (ctrans hds0 i t) h (S (trans hds0 i)) (minus d (S (trans hds0 i))) O (le_O_n (minus d (S (trans hds0 i)))))) d (le_plus_minus (S (trans hds0 i)) d (bge_le (S (trans hds0 i)) d (le_bge (S (trans hds0 i)) d (lt_le_S (trans hds0 i) d (blt_lt d (trans hds0 i) H0)))))) (\lambda (H0: (eq bool (blt (trans hds0 i) d) false)).eq_ind_r T (lift (plus h (S (trans hds0 i))) O (ctrans hds0 i t)) (\lambda (t0: T).eq T t0 (lift (S (plus (trans hds0 i) h)) O (ctrans hds0 i t))) (eq_ind nat (S (plus h (trans hds0 i))) (\lambda (n: nat).eq T (lift n O (ctrans hds0 i t)) (lift (S (plus (trans hds0 i) h)) O (ctrans hds0 i t))) (eq_ind_r nat (plus (trans hds0 i) h) (\lambda (n: nat).eq T (lift (S n) O (ctrans hds0 i t)) (lift (S (plus (trans hds0 i) h)) O (ctrans hds0 i t))) (refl_equal T (lift (S (plus (trans hds0 i) h)) O (ctrans hds0 i t))) (plus h (trans hds0 i)) (plus_sym h (trans hds0 i))) (plus h (S (trans hds0 i))) (plus_n_Sm h (trans hds0 i))) (lift h d (lift (S (trans hds0 i)) O (ctrans hds0 i t))) (lift_free (ctrans hds0 i t) (S (trans hds0 i)) h O d (eq_ind nat (S (plus O (trans hds0 i))) (\lambda (n: nat).le d n) (eq_ind_r nat (plus (trans hds0 i) O) (\lambda (n: nat).le d (S n)) (le_S d (plus (trans hds0 i) O) (le_plus_trans d (trans hds0 i) O (bge_le d (trans hds0 i) H0))) (plus O (trans hds0 i)) (plus_sym O (trans hds0 i))) (plus O (S (trans hds0 i))) (plus_n_Sm O (trans hds0 i))) (le_O_n d))) x_x)) (lift1 hds0 (lift (S i) O t)) (H i t)) hds.
+
+inductive clear: C \to C \to Prop \def
+| clear_bind: \forall (b: B).\forall (e: C).\forall (u: T).clear (CHead e (Bind b) u) (CHead e (Bind b) u)
+| clear_flat: \forall (e: C).\forall (c: C).(clear e c) \to \forall (f: F).\forall (u: T).clear (CHead e (Flat f) u) c.
+
+inductive getl (h:nat) (c1:C) (c2:C): Prop \def
+| getl_intro: \forall (e: C).(drop h O c1 e) \to (clear e c2) \to getl h c1 c2.
+
+theorem cimp: C \to C \to Prop \def \lambda (c1: C).\lambda (c2: C).\forall (b: B).\forall (d1: C).\forall (w: T).\forall (h: nat).(getl h c1 (CHead d1 (Bind b) w)) \to ex C (\lambda (d2: C).getl h c2 (CHead d2 (Bind b) w)).
+
+theorem clear_gen_sort: \forall (x: C).\forall (n: nat).(clear (CSort n) x) \to \forall (P: (Prop)).P \def \lambda (x: C).\lambda (n: nat).\lambda (H: (clear (CSort n) x)).\lambda (P: (Prop)).let H0 \def match H return (\lambda (c: C).\lambda (c0: C).(eq C c (CSort n)) \to (eq C c0 x) \to P) with [(clear_bind b e u) \Rightarrow (\lambda (H0: (eq C (CHead e (Bind b) u) (CSort n))).\lambda (H1: (eq C (CHead e (Bind b) u) x)).(let H2 \def eq_ind C (CHead e (Bind b) u) (\lambda (e0: C).match e0 return (Prop) with [(CSort _) \Rightarrow False | (CHead _ _ _) \Rightarrow True]) I (CSort n) H0 in False_ind ((eq C (CHead e (Bind b) u) x) \to P) H2) H1) | (clear_flat e c H0 f u) \Rightarrow (\lambda (H1: (eq C (CHead e (Flat f) u) (CSort n))).\lambda (H2: (eq C c x)).(let H3 \def eq_ind C (CHead e (Flat f) u) (\lambda (e0: C).match e0 return (Prop) with [(CSort _) \Rightarrow False | (CHead _ _ _) \Rightarrow True]) I (CSort n) H1 in False_ind ((eq C c x) \to (clear e c) \to P) H3) H2 H0)] in H0 (refl_equal C (CSort n)) (refl_equal C x).
+
+theorem clear_gen_bind: \forall (b: B).\forall (e: C).\forall (x: C).\forall (u: T).(clear (CHead e (Bind b) u) x) \to eq C x (CHead e (Bind b) u) \def \lambda (b: B).\lambda (e: C).\lambda (x: C).\lambda (u: T).\lambda (H: (clear (CHead e (Bind b) u) x)).let H0 \def match H return (\lambda (c: C).\lambda (c0: C).(eq C c (CHead e (Bind b) u)) \to (eq C c0 x) \to eq C x (CHead e (Bind b) u)) with [(clear_bind b0 e0 u0) \Rightarrow (\lambda (H0: (eq C (CHead e0 (Bind b0) u0) (CHead e (Bind b) u))).\lambda (H1: (eq C (CHead e0 (Bind b0) u0) x)).(let H2 \def f_equal C T (\lambda (e1: C).match e1 return T with [(CSort _) \Rightarrow u0 | (CHead _ _ t) \Rightarrow t]) (CHead e0 (Bind b0) u0) (CHead e (Bind b) u) H0 in (let H3 \def f_equal C B (\lambda (e1: C).match e1 return B with [(CSort _) \Rightarrow b0 | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow b0])]) (CHead e0 (Bind b0) u0) (CHead e (Bind b) u) H0 in (let H4 \def f_equal C C (\lambda (e1: C).match e1 return C with [(CSort _) \Rightarrow e0 | (CHead c _ _) \Rightarrow c]) (CHead e0 (Bind b0) u0) (CHead e (Bind b) u) H0 in eq_ind C e (\lambda (c: C).(eq B b0 b) \to (eq T u0 u) \to (eq C (CHead c (Bind b0) u0) x) \to eq C x (CHead e (Bind b) u)) (\lambda (H5: (eq B b0 b)).eq_ind B b (\lambda (b1: B).(eq T u0 u) \to (eq C (CHead e (Bind b1) u0) x) \to eq C x (CHead e (Bind b) u)) (\lambda (H6: (eq T u0 u)).eq_ind T u (\lambda (t: T).(eq C (CHead e (Bind b) t) x) \to eq C x (CHead e (Bind b) u)) (\lambda (H7: (eq C (CHead e (Bind b) u) x)).eq_ind C (CHead e (Bind b) u) (\lambda (c: C).eq C c (CHead e (Bind b) u)) (refl_equal C (CHead e (Bind b) u)) x H7) u0 (sym_eq T u0 u H6)) b0 (sym_eq B b0 b H5)) e0 (sym_eq C e0 e H4)) H3) H2) H1) | (clear_flat e0 c H0 f u0) \Rightarrow (\lambda (H1: (eq C (CHead e0 (Flat f) u0) (CHead e (Bind b) u))).\lambda (H2: (eq C c x)).(let H3 \def eq_ind C (CHead e0 (Flat f) u0) (\lambda (e1: C).match e1 return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (CHead e (Bind b) u) H1 in False_ind ((eq C c x) \to (clear e0 c) \to eq C x (CHead e (Bind b) u)) H3) H2 H0)] in H0 (refl_equal C (CHead e (Bind b) u)) (refl_equal C x).
+
+theorem clear_gen_flat: \forall (f: F).\forall (e: C).\forall (x: C).\forall (u: T).(clear (CHead e (Flat f) u) x) \to clear e x \def \lambda (f: F).\lambda (e: C).\lambda (x: C).\lambda (u: T).\lambda (H: (clear (CHead e (Flat f) u) x)).let H0 \def match H return (\lambda (c: C).\lambda (c0: C).(eq C c (CHead e (Flat f) u)) \to (eq C c0 x) \to clear e x) with [(clear_bind b e0 u0) \Rightarrow (\lambda (H0: (eq C (CHead e0 (Bind b) u0) (CHead e (Flat f) u))).\lambda (H1: (eq C (CHead e0 (Bind b) u0) x)).(let H2 \def eq_ind C (CHead e0 (Bind b) u0) (\lambda (e1: C).match e1 return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (CHead e (Flat f) u) H0 in False_ind ((eq C (CHead e0 (Bind b) u0) x) \to clear e x) H2) H1) | (clear_flat e0 c H0 f0 u0) \Rightarrow (\lambda (H1: (eq C (CHead e0 (Flat f0) u0) (CHead e (Flat f) u))).\lambda (H2: (eq C c x)).(let H3 \def f_equal C T (\lambda (e1: C).match e1 return T with [(CSort _) \Rightarrow u0 | (CHead _ _ t) \Rightarrow t]) (CHead e0 (Flat f0) u0) (CHead e (Flat f) u) H1 in (let H4 \def f_equal C F (\lambda (e1: C).match e1 return F with [(CSort _) \Rightarrow f0 | (CHead _ k _) \Rightarrow (match k return F with [(Bind _) \Rightarrow f0 | (Flat f) \Rightarrow f])]) (CHead e0 (Flat f0) u0) (CHead e (Flat f) u) H1 in (let H5 \def f_equal C C (\lambda (e1: C).match e1 return C with [(CSort _) \Rightarrow e0 | (CHead c _ _) \Rightarrow c]) (CHead e0 (Flat f0) u0) (CHead e (Flat f) u) H1 in eq_ind C e (\lambda (c0: C).(eq F f0 f) \to (eq T u0 u) \to (eq C c x) \to (clear c0 c) \to clear e x) (\lambda (H6: (eq F f0 f)).eq_ind F f (\lambda (_: F).(eq T u0 u) \to (eq C c x) \to (clear e c) \to clear e x) (\lambda (H7: (eq T u0 u)).eq_ind T u (\lambda (_: T).(eq C c x) \to (clear e c) \to clear e x) (\lambda (H8: (eq C c x)).eq_ind C x (\lambda (c0: C).(clear e c0) \to clear e x) (\lambda (H9: (clear e x)).H9) c (sym_eq C c x H8)) u0 (sym_eq T u0 u H7)) f0 (sym_eq F f0 f H6)) e0 (sym_eq C e0 e H5)) H4) H3) H2 H0)] in H0 (refl_equal C (CHead e (Flat f) u)) (refl_equal C x).
+
+theorem clear_gen_flat_r: \forall (f: F).\forall (x: C).\forall (e: C).\forall (u: T).(clear x (CHead e (Flat f) u)) \to \forall (P: (Prop)).P \def \lambda (f: F).\lambda (x: C).\lambda (e: C).\lambda (u: T).\lambda (H: (clear x (CHead e (Flat f) u))).\lambda (P: (Prop)).insert_eq C (CHead e (Flat f) u) (\lambda (c: C).clear x c) P (\lambda (y: C).\lambda (H0: (clear x y)).clear_ind (\lambda (_: C).\lambda (c0: C).(eq C c0 (CHead e (Flat f) u)) \to P) (\lambda (b: B).\lambda (e0: C).\lambda (u0: T).\lambda (H1: (eq C (CHead e0 (Bind b) u0) (CHead e (Flat f) u))).let H2 \def eq_ind C (CHead e0 (Bind b) u0) (\lambda (ee: C).match ee return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (CHead e (Flat f) u) H1 in False_ind P H2) (\lambda (e0: C).\lambda (c: C).\lambda (H1: (clear e0 c)).\lambda (H2: (((eq C c (CHead e (Flat f) u)) \to P))).\lambda (_: F).\lambda (_: T).\lambda (H3: (eq C c (CHead e (Flat f) u))).let H4 \def eq_ind C c (\lambda (c: C).(eq C c (CHead e (Flat f) u)) \to P) H2 (CHead e (Flat f) u) H3 in let H5 \def eq_ind C c (\lambda (c: C).clear e0 c) H1 (CHead e (Flat f) u) H3 in H4 (refl_equal C (CHead e (Flat f) u))) x y H0) H.
+
+theorem clear_gen_all: \forall (c1: C).\forall (c2: C).(clear c1 c2) \to ex_3 B C T (\lambda (b: B).\lambda (e: C).\lambda (u: T).eq C c2 (CHead e (Bind b) u)) \def \lambda (c1: C).\lambda (c2: C).\lambda (H: (clear c1 c2)).clear_ind (\lambda (_: C).\lambda (c0: C).ex_3 B C T (\lambda (b: B).\lambda (e: C).\lambda (u: T).eq C c0 (CHead e (Bind b) u))) (\lambda (b: B).\lambda (e: C).\lambda (u: T).ex_3_intro B C T (\lambda (b0: B).\lambda (e0: C).\lambda (u0: T).eq C (CHead e (Bind b) u) (CHead e0 (Bind b0) u0)) b e u (refl_equal C (CHead e (Bind b) u))) (\lambda (e: C).\lambda (c: C).\lambda (H0: (clear e c)).\lambda (H1: (ex_3 B C T (\lambda (b: B).\lambda (e: C).\lambda (u: T).eq C c (CHead e (Bind b) u)))).\lambda (_: F).\lambda (_: T).let H2 \def H1 in ex_3_ind B C T (\lambda (b: B).\lambda (e0: C).\lambda (u0: T).eq C c (CHead e0 (Bind b) u0)) (ex_3 B C T (\lambda (b: B).\lambda (e0: C).\lambda (u0: T).eq C c (CHead e0 (Bind b) u0))) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: T).\lambda (H3: (eq C c (CHead x1 (Bind x0) x2))).let H4 \def eq_ind C c (\lambda (c: C).clear e c) H0 (CHead x1 (Bind x0) x2) H3 in eq_ind_r C (CHead x1 (Bind x0) x2) (\lambda (c0: C).ex_3 B C T (\lambda (b: B).\lambda (e0: C).\lambda (u0: T).eq C c0 (CHead e0 (Bind b) u0))) (ex_3_intro B C T (\lambda (b: B).\lambda (e0: C).\lambda (u0: T).eq C (CHead x1 (Bind x0) x2) (CHead e0 (Bind b) u0)) x0 x1 x2 (refl_equal C (CHead x1 (Bind x0) x2))) c H3) H2) c1 c2 H.
+
+theorem drop_clear: \forall (c1: C).\forall (c2: C).\forall (i: nat).(drop (S i) O c1 c2) \to ex2_3 B C T (\lambda (b: B).\lambda (e: C).\lambda (v: T).clear c1 (CHead e (Bind b) v)) (\lambda (_: B).\lambda (e: C).\lambda (_: T).drop i O e c2) \def \lambda (c1: C).C_ind (\lambda (c: C).\forall (c2: C).\forall (i: nat).(drop (S i) O c c2) \to ex2_3 B C T (\lambda (b: B).\lambda (e: C).\lambda (v: T).clear c (CHead e (Bind b) v)) (\lambda (_: B).\lambda (e: C).\lambda (_: T).drop i O e c2)) (\lambda (n: nat).\lambda (c2: C).\lambda (i: nat).\lambda (H: (drop (S i) O (CSort n) c2)).and3_ind (eq C c2 (CSort n)) (eq nat (S i) O) (eq nat O O) (ex2_3 B C T (\lambda (b: B).\lambda (e: C).\lambda (v: T).clear (CSort n) (CHead e (Bind b) v)) (\lambda (_: B).\lambda (e: C).\lambda (_: T).drop i O e c2)) (\lambda (_: (eq C c2 (CSort n))).\lambda (H1: (eq nat (S i) O)).\lambda (_: (eq nat O O)).let H3 \def eq_ind nat (S i) (\lambda (ee: nat).match ee return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H1 in False_ind (ex2_3 B C T (\lambda (b: B).\lambda (e: C).\lambda (v: T).clear (CSort n) (CHead e (Bind b) v)) (\lambda (_: B).\lambda (e: C).\lambda (_: T).drop i O e c2)) H3) (drop_gen_sort n (S i) O c2 H)) (\lambda (c: C).\lambda (H: ((\forall (c2: C).\forall (i: nat).(drop (S i) O c c2) \to ex2_3 B C T (\lambda (b: B).\lambda (e: C).\lambda (v: T).clear c (CHead e (Bind b) v)) (\lambda (_: B).\lambda (e: C).\lambda (_: T).drop i O e c2)))).\lambda (k: K).\lambda (t: T).\lambda (c2: C).\lambda (i: nat).\lambda (H0: (drop (S i) O (CHead c k t) c2)).(match k return (\lambda (k0: K).(drop (r k0 i) O c c2) \to ex2_3 B C T (\lambda (b: B).\lambda (e: C).\lambda (v: T).clear (CHead c k0 t) (CHead e (Bind b) v)) (\lambda (_: B).\lambda (e: C).\lambda (_: T).drop i O e c2)) with [(Bind b) \Rightarrow (\lambda (H1: (drop (r (Bind b) i) O c c2)).ex2_3_intro B C T (\lambda (b0: B).\lambda (e: C).\lambda (v: T).clear (CHead c (Bind b) t) (CHead e (Bind b0) v)) (\lambda (_: B).\lambda (e: C).\lambda (_: T).drop i O e c2) b c t (clear_bind b c t) H1) | (Flat f) \Rightarrow (\lambda (H1: (drop (r (Flat f) i) O c c2)).let H2 \def H c2 i H1 in ex2_3_ind B C T (\lambda (b: B).\lambda (e: C).\lambda (v: T).clear c (CHead e (Bind b) v)) (\lambda (_: B).\lambda (e: C).\lambda (_: T).drop i O e c2) (ex2_3 B C T (\lambda (b: B).\lambda (e: C).\lambda (v: T).clear (CHead c (Flat f) t) (CHead e (Bind b) v)) (\lambda (_: B).\lambda (e: C).\lambda (_: T).drop i O e c2)) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: T).\lambda (H3: (clear c (CHead x1 (Bind x0) x2))).\lambda (H4: (drop i O x1 c2)).ex2_3_intro B C T (\lambda (b: B).\lambda (e: C).\lambda (v: T).clear (CHead c (Flat f) t) (CHead e (Bind b) v)) (\lambda (_: B).\lambda (e: C).\lambda (_: T).drop i O e c2) x0 x1 x2 (clear_flat c (CHead x1 (Bind x0) x2) H3 f t) H4) H2)]) (drop_gen_drop k c c2 t i H0)) c1.
+
+theorem drop_clear_O: \forall (b: B).\forall (c: C).\forall (e1: C).\forall (u: T).(clear c (CHead e1 (Bind b) u)) \to \forall (e2: C).\forall (i: nat).(drop i O e1 e2) \to drop (S i) O c e2 \def \lambda (b: B).\lambda (c: C).C_ind (\lambda (c0: C).\forall (e1: C).\forall (u: T).(clear c0 (CHead e1 (Bind b) u)) \to \forall (e2: C).\forall (i: nat).(drop i O e1 e2) \to drop (S i) O c0 e2) (\lambda (n: nat).\lambda (e1: C).\lambda (u: T).\lambda (H: (clear (CSort n) (CHead e1 (Bind b) u))).\lambda (e2: C).\lambda (i: nat).\lambda (_: (drop i O e1 e2)).clear_gen_sort (CHead e1 (Bind b) u) n H (drop (S i) O (CSort n) e2)) (\lambda (c0: C).\lambda (H: ((\forall (e1: C).\forall (u: T).(clear c0 (CHead e1 (Bind b) u)) \to \forall (e2: C).\forall (i: nat).(drop i O e1 e2) \to drop (S i) O c0 e2))).\lambda (k: K).\lambda (t: T).\lambda (e1: C).\lambda (u: T).\lambda (H0: (clear (CHead c0 k t) (CHead e1 (Bind b) u))).\lambda (e2: C).\lambda (i: nat).\lambda (H1: (drop i O e1 e2)).(match k return (\lambda (k0: K).(clear (CHead c0 k0 t) (CHead e1 (Bind b) u)) \to drop (S i) O (CHead c0 k0 t) e2) with [(Bind b0) \Rightarrow (\lambda (H2: (clear (CHead c0 (Bind b0) t) (CHead e1 (Bind b) u))).let H3 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow e1 | (CHead c _ _) \Rightarrow c]) (CHead e1 (Bind b) u) (CHead c0 (Bind b0) t) (clear_gen_bind b0 c0 (CHead e1 (Bind b) u) t H2) in (let H4 \def f_equal C B (\lambda (e: C).match e return B with [(CSort _) \Rightarrow b | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow b])]) (CHead e1 (Bind b) u) (CHead c0 (Bind b0) t) (clear_gen_bind b0 c0 (CHead e1 (Bind b) u) t H2) in (let H5 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead e1 (Bind b) u) (CHead c0 (Bind b0) t) (clear_gen_bind b0 c0 (CHead e1 (Bind b) u) t H2) in \lambda (H6: (eq B b b0)).\lambda (H7: (eq C e1 c0)).let H8 \def eq_ind C e1 (\lambda (c: C).drop i O c e2) H1 c0 H7 in eq_ind B b (\lambda (b1: B).drop (S i) O (CHead c0 (Bind b1) t) e2) (drop_drop (Bind b) i c0 e2 H8 t) b0 H6) H4) H3) | (Flat f) \Rightarrow (\lambda (H2: (clear (CHead c0 (Flat f) t) (CHead e1 (Bind b) u))).drop_drop (Flat f) i c0 e2 (H e1 u (clear_gen_flat f c0 (CHead e1 (Bind b) u) t H2) e2 i H1) t)]) H0) c.
+
+theorem drop_clear_S: \forall (x2: C).\forall (x1: C).\forall (h: nat).\forall (d: nat).(drop h (S d) x1 x2) \to \forall (b: B).\forall (c2: C).\forall (u: T).(clear x2 (CHead c2 (Bind b) u)) \to ex2 C (\lambda (c1: C).clear x1 (CHead c1 (Bind b) (lift h d u))) (\lambda (c1: C).drop h d c1 c2) \def \lambda (x2: C).C_ind (\lambda (c: C).\forall (x1: C).\forall (h: nat).\forall (d: nat).(drop h (S d) x1 c) \to \forall (b: B).\forall (c2: C).\forall (u: T).(clear c (CHead c2 (Bind b) u)) \to ex2 C (\lambda (c1: C).clear x1 (CHead c1 (Bind b) (lift h d u))) (\lambda (c1: C).drop h d c1 c2)) (\lambda (n: nat).\lambda (x1: C).\lambda (h: nat).\lambda (d: nat).\lambda (_: (drop h (S d) x1 (CSort n))).\lambda (b: B).\lambda (c2: C).\lambda (u: T).\lambda (H0: (clear (CSort n) (CHead c2 (Bind b) u))).clear_gen_sort (CHead c2 (Bind b) u) n H0 (ex2 C (\lambda (c1: C).clear x1 (CHead c1 (Bind b) (lift h d u))) (\lambda (c1: C).drop h d c1 c2))) (\lambda (c: C).\lambda (H: ((\forall (x1: C).\forall (h: nat).\forall (d: nat).(drop h (S d) x1 c) \to \forall (b: B).\forall (c2: C).\forall (u: T).(clear c (CHead c2 (Bind b) u)) \to ex2 C (\lambda (c1: C).clear x1 (CHead c1 (Bind b) (lift h d u))) (\lambda (c1: C).drop h d c1 c2)))).\lambda (k: K).\lambda (t: T).\lambda (x1: C).\lambda (h: nat).\lambda (d: nat).\lambda (H0: (drop h (S d) x1 (CHead c k t))).\lambda (b: B).\lambda (c2: C).\lambda (u: T).\lambda (H1: (clear (CHead c k t) (CHead c2 (Bind b) u))).ex2_ind C (\lambda (e: C).eq C x1 (CHead e k (lift h (r k d) t))) (\lambda (e: C).drop h (r k d) e c) (ex2 C (\lambda (c1: C).clear x1 (CHead c1 (Bind b) (lift h d u))) (\lambda (c1: C).drop h d c1 c2)) (\lambda (x: C).\lambda (H2: (eq C x1 (CHead x k (lift h (r k d) t)))).\lambda (H3: (drop h (r k d) x c)).eq_ind_r C (CHead x k (lift h (r k d) t)) (\lambda (c0: C).ex2 C (\lambda (c1: C).clear c0 (CHead c1 (Bind b) (lift h d u))) (\lambda (c1: C).drop h d c1 c2)) ((match k return (\lambda (k0: K).(clear (CHead c k0 t) (CHead c2 (Bind b) u)) \to (drop h (r k0 d) x c) \to ex2 C (\lambda (c1: C).clear (CHead x k0 (lift h (r k0 d) t)) (CHead c1 (Bind b) (lift h d u))) (\lambda (c1: C).drop h d c1 c2)) with [(Bind b0) \Rightarrow (\lambda (H4: (clear (CHead c (Bind b0) t) (CHead c2 (Bind b) u))).\lambda (H5: (drop h (r (Bind b0) d) x c)).let H6 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c2 | (CHead c _ _) \Rightarrow c]) (CHead c2 (Bind b) u) (CHead c (Bind b0) t) (clear_gen_bind b0 c (CHead c2 (Bind b) u) t H4) in (let H7 \def f_equal C B (\lambda (e: C).match e return B with [(CSort _) \Rightarrow b | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow b])]) (CHead c2 (Bind b) u) (CHead c (Bind b0) t) (clear_gen_bind b0 c (CHead c2 (Bind b) u) t H4) in (let H8 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead c2 (Bind b) u) (CHead c (Bind b0) t) (clear_gen_bind b0 c (CHead c2 (Bind b) u) t H4) in \lambda (H9: (eq B b b0)).\lambda (H10: (eq C c2 c)).eq_ind_r T t (\lambda (t0: T).ex2 C (\lambda (c1: C).clear (CHead x (Bind b0) (lift h (r (Bind b0) d) t)) (CHead c1 (Bind b) (lift h d t0))) (\lambda (c1: C).drop h d c1 c2)) (eq_ind_r C c (\lambda (c0: C).ex2 C (\lambda (c1: C).clear (CHead x (Bind b0) (lift h (r (Bind b0) d) t)) (CHead c1 (Bind b) (lift h d t))) (\lambda (c1: C).drop h d c1 c0)) (eq_ind_r B b0 (\lambda (b1: B).ex2 C (\lambda (c1: C).clear (CHead x (Bind b0) (lift h (r (Bind b0) d) t)) (CHead c1 (Bind b1) (lift h d t))) (\lambda (c1: C).drop h d c1 c)) (ex_intro2 C (\lambda (c1: C).clear (CHead x (Bind b0) (lift h (r (Bind b0) d) t)) (CHead c1 (Bind b0) (lift h d t))) (\lambda (c1: C).drop h d c1 c) x (clear_bind b0 x (lift h d t)) H5) b H9) c2 H10) u H8) H7) H6) | (Flat f) \Rightarrow (\lambda (H4: (clear (CHead c (Flat f) t) (CHead c2 (Bind b) u))).\lambda (H5: (drop h (r (Flat f) d) x c)).let H6 \def H x h d H5 b c2 u (clear_gen_flat f c (CHead c2 (Bind b) u) t H4) in ex2_ind C (\lambda (c1: C).clear x (CHead c1 (Bind b) (lift h d u))) (\lambda (c1: C).drop h d c1 c2) (ex2 C (\lambda (c1: C).clear (CHead x (Flat f) (lift h (r (Flat f) d) t)) (CHead c1 (Bind b) (lift h d u))) (\lambda (c1: C).drop h d c1 c2)) (\lambda (x0: C).\lambda (H7: (clear x (CHead x0 (Bind b) (lift h d u)))).\lambda (H8: (drop h d x0 c2)).ex_intro2 C (\lambda (c1: C).clear (CHead x (Flat f) (lift h (r (Flat f) d) t)) (CHead c1 (Bind b) (lift h d u))) (\lambda (c1: C).drop h d c1 c2) x0 (clear_flat x (CHead x0 (Bind b) (lift h d u)) H7 f (lift h (r (Flat f) d) t)) H8) H6)]) H1 H3) x1 H2) (drop_gen_skip_r c x1 t h d k H0)) x2.
+
+theorem clear_clear: \forall (c1: C).\forall (c2: C).(clear c1 c2) \to clear c2 c2 \def \lambda (c1: C).C_ind (\lambda (c: C).\forall (c2: C).(clear c c2) \to clear c2 c2) (\lambda (n: nat).\lambda (c2: C).\lambda (H: (clear (CSort n) c2)).clear_gen_sort c2 n H (clear c2 c2)) (\lambda (c: C).\lambda (H: ((\forall (c2: C).(clear c c2) \to clear c2 c2))).\lambda (k: K).\lambda (t: T).\lambda (c2: C).\lambda (H0: (clear (CHead c k t) c2)).(match k return (\lambda (k0: K).(clear (CHead c k0 t) c2) \to clear c2 c2) with [(Bind b) \Rightarrow (\lambda (H1: (clear (CHead c (Bind b) t) c2)).eq_ind_r C (CHead c (Bind b) t) (\lambda (c0: C).clear c0 c0) (clear_bind b c t) c2 (clear_gen_bind b c c2 t H1)) | (Flat f) \Rightarrow (\lambda (H1: (clear (CHead c (Flat f) t) c2)).H c2 (clear_gen_flat f c c2 t H1))]) H0) c1.
+
+theorem clear_mono: \forall (c: C).\forall (c1: C).(clear c c1) \to \forall (c2: C).(clear c c2) \to eq C c1 c2 \def \lambda (c: C).C_ind (\lambda (c0: C).\forall (c1: C).(clear c0 c1) \to \forall (c2: C).(clear c0 c2) \to eq C c1 c2) (\lambda (n: nat).\lambda (c1: C).\lambda (_: (clear (CSort n) c1)).\lambda (c2: C).\lambda (H0: (clear (CSort n) c2)).clear_gen_sort c2 n H0 (eq C c1 c2)) (\lambda (c0: C).\lambda (H: ((\forall (c1: C).(clear c0 c1) \to \forall (c2: C).(clear c0 c2) \to eq C c1 c2))).\lambda (k: K).\lambda (t: T).\lambda (c1: C).\lambda (H0: (clear (CHead c0 k t) c1)).\lambda (c2: C).\lambda (H1: (clear (CHead c0 k t) c2)).(match k return (\lambda (k0: K).(clear (CHead c0 k0 t) c1) \to (clear (CHead c0 k0 t) c2) \to eq C c1 c2) with [(Bind b) \Rightarrow (\lambda (H2: (clear (CHead c0 (Bind b) t) c1)).\lambda (H3: (clear (CHead c0 (Bind b) t) c2)).eq_ind_r C (CHead c0 (Bind b) t) (\lambda (c3: C).eq C c1 c3) (eq_ind_r C (CHead c0 (Bind b) t) (\lambda (c3: C).eq C c3 (CHead c0 (Bind b) t)) (refl_equal C (CHead c0 (Bind b) t)) c1 (clear_gen_bind b c0 c1 t H2)) c2 (clear_gen_bind b c0 c2 t H3)) | (Flat f) \Rightarrow (\lambda (H2: (clear (CHead c0 (Flat f) t) c1)).\lambda (H3: (clear (CHead c0 (Flat f) t) c2)).H c1 (clear_gen_flat f c0 c1 t H2) c2 (clear_gen_flat f c0 c2 t H3))]) H0 H1) c.
+
+theorem clear_trans: \forall (c1: C).\forall (c: C).(clear c1 c) \to \forall (c2: C).(clear c c2) \to clear c1 c2 \def \lambda (c1: C).C_ind (\lambda (c: C).\forall (c0: C).(clear c c0) \to \forall (c2: C).(clear c0 c2) \to clear c c2) (\lambda (n: nat).\lambda (c: C).\lambda (H: (clear (CSort n) c)).\lambda (c2: C).\lambda (_: (clear c c2)).clear_gen_sort c n H (clear (CSort n) c2)) (\lambda (c: C).\lambda (H: ((\forall (c0: C).(clear c c0) \to \forall (c2: C).(clear c0 c2) \to clear c c2))).\lambda (k: K).\lambda (t: T).\lambda (c0: C).\lambda (H0: (clear (CHead c k t) c0)).\lambda (c2: C).\lambda (H1: (clear c0 c2)).(match k return (\lambda (k0: K).(clear (CHead c k0 t) c0) \to clear (CHead c k0 t) c2) with [(Bind b) \Rightarrow (\lambda (H2: (clear (CHead c (Bind b) t) c0)).let H3 \def eq_ind C c0 (\lambda (c: C).clear c c2) H1 (CHead c (Bind b) t) (clear_gen_bind b c c0 t H2) in eq_ind_r C (CHead c (Bind b) t) (\lambda (c3: C).clear (CHead c (Bind b) t) c3) (clear_bind b c t) c2 (clear_gen_bind b c c2 t H3)) | (Flat f) \Rightarrow (\lambda (H2: (clear (CHead c (Flat f) t) c0)).clear_flat c c2 (H c0 (clear_gen_flat f c c0 t H2) c2 H1) f t)]) H0) c1.
+
+theorem clear_ctail: \forall (b: B).\forall (c1: C).\forall (c2: C).\forall (u2: T).(clear c1 (CHead c2 (Bind b) u2)) \to \forall (k: K).\forall (u1: T).clear (CTail k u1 c1) (CHead (CTail k u1 c2) (Bind b) u2) \def \lambda (b: B).\lambda (c1: C).C_ind (\lambda (c: C).\forall (c2: C).\forall (u2: T).(clear c (CHead c2 (Bind b) u2)) \to \forall (k: K).\forall (u1: T).clear (CTail k u1 c) (CHead (CTail k u1 c2) (Bind b) u2)) (\lambda (n: nat).\lambda (c2: C).\lambda (u2: T).\lambda (H: (clear (CSort n) (CHead c2 (Bind b) u2))).\lambda (k: K).\lambda (u1: T).match k return (\lambda (k0: K).clear (CHead (CSort n) k0 u1) (CHead (CTail k0 u1 c2) (Bind b) u2)) with [(Bind b0) \Rightarrow (clear_gen_sort (CHead c2 (Bind b) u2) n H (clear (CHead (CSort n) (Bind b0) u1) (CHead (CTail (Bind b0) u1 c2) (Bind b) u2))) | (Flat f) \Rightarrow (clear_gen_sort (CHead c2 (Bind b) u2) n H (clear (CHead (CSort n) (Flat f) u1) (CHead (CTail (Flat f) u1 c2) (Bind b) u2)))]) (\lambda (c: C).\lambda (H: ((\forall (c2: C).\forall (u2: T).(clear c (CHead c2 (Bind b) u2)) \to \forall (k: K).\forall (u1: T).clear (CTail k u1 c) (CHead (CTail k u1 c2) (Bind b) u2)))).\lambda (k: K).\lambda (t: T).\lambda (c2: C).\lambda (u2: T).\lambda (H0: (clear (CHead c k t) (CHead c2 (Bind b) u2))).\lambda (k0: K).\lambda (u1: T).(match k return (\lambda (k1: K).(clear (CHead c k1 t) (CHead c2 (Bind b) u2)) \to clear (CHead (CTail k0 u1 c) k1 t) (CHead (CTail k0 u1 c2) (Bind b) u2)) with [(Bind b0) \Rightarrow (\lambda (H1: (clear (CHead c (Bind b0) t) (CHead c2 (Bind b) u2))).let H2 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c2 | (CHead c _ _) \Rightarrow c]) (CHead c2 (Bind b) u2) (CHead c (Bind b0) t) (clear_gen_bind b0 c (CHead c2 (Bind b) u2) t H1) in (let H3 \def f_equal C B (\lambda (e: C).match e return B with [(CSort _) \Rightarrow b | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow b])]) (CHead c2 (Bind b) u2) (CHead c (Bind b0) t) (clear_gen_bind b0 c (CHead c2 (Bind b) u2) t H1) in (let H4 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u2 | (CHead _ _ t) \Rightarrow t]) (CHead c2 (Bind b) u2) (CHead c (Bind b0) t) (clear_gen_bind b0 c (CHead c2 (Bind b) u2) t H1) in \lambda (H5: (eq B b b0)).\lambda (H6: (eq C c2 c)).eq_ind_r T t (\lambda (t0: T).clear (CHead (CTail k0 u1 c) (Bind b0) t) (CHead (CTail k0 u1 c2) (Bind b) t0)) (eq_ind_r C c (\lambda (c0: C).clear (CHead (CTail k0 u1 c) (Bind b0) t) (CHead (CTail k0 u1 c0) (Bind b) t)) (eq_ind B b (\lambda (b1: B).clear (CHead (CTail k0 u1 c) (Bind b1) t) (CHead (CTail k0 u1 c) (Bind b) t)) (clear_bind b (CTail k0 u1 c) t) b0 H5) c2 H6) u2 H4) H3) H2) | (Flat f) \Rightarrow (\lambda (H1: (clear (CHead c (Flat f) t) (CHead c2 (Bind b) u2))).clear_flat (CTail k0 u1 c) (CHead (CTail k0 u1 c2) (Bind b) u2) (H c2 u2 (clear_gen_flat f c (CHead c2 (Bind b) u2) t H1) k0 u1) f t)]) H0) c1.
+
+theorem getl_gen_all: \forall (c1: C).\forall (c2: C).\forall (i: nat).(getl i c1 c2) \to ex2 C (\lambda (e: C).drop i O c1 e) (\lambda (e: C).clear e c2) \def \lambda (c1: C).\lambda (c2: C).\lambda (i: nat).\lambda (H: (getl i c1 c2)).let H0 \def match H return (ex2 C (\lambda (e: C).drop i O c1 e) (\lambda (e: C).clear e c2)) with [(getl_intro e H0 H1) \Rightarrow (ex_intro2 C (\lambda (e0: C).drop i O c1 e0) (\lambda (e0: C).clear e0 c2) e H0 H1)] in H0.
+
+theorem getl_gen_sort: \forall (n: nat).\forall (h: nat).\forall (x: C).(getl h (CSort n) x) \to \forall (P: (Prop)).P \def \lambda (n: nat).\lambda (h: nat).\lambda (x: C).\lambda (H: (getl h (CSort n) x)).\lambda (P: (Prop)).let H0 \def getl_gen_all (CSort n) x h H in ex2_ind C (\lambda (e: C).drop h O (CSort n) e) (\lambda (e: C).clear e x) P (\lambda (x0: C).\lambda (H1: (drop h O (CSort n) x0)).\lambda (H2: (clear x0 x)).and3_ind (eq C x0 (CSort n)) (eq nat h O) (eq nat O O) P (\lambda (H3: (eq C x0 (CSort n))).\lambda (_: (eq nat h O)).\lambda (_: (eq nat O O)).let H6 \def eq_ind C x0 (\lambda (c: C).clear c x) H2 (CSort n) H3 in clear_gen_sort x n H6 P) (drop_gen_sort n h O x0 H1)) H0.
+
+theorem getl_gen_O: \forall (e: C).\forall (x: C).(getl O e x) \to clear e x \def \lambda (e: C).\lambda (x: C).\lambda (H: (getl O e x)).let H0 \def getl_gen_all e x O H in ex2_ind C (\lambda (e0: C).drop O O e e0) (\lambda (e0: C).clear e0 x) (clear e x) (\lambda (x0: C).\lambda (H1: (drop O O e x0)).\lambda (H2: (clear x0 x)).let H3 \def eq_ind_r C x0 (\lambda (c: C).clear c x) H2 e (drop_gen_refl e x0 H1) in H3) H0.
+
+theorem getl_gen_S: \forall (k: K).\forall (c: C).\forall (x: C).\forall (u: T).\forall (h: nat).(getl (S h) (CHead c k u) x) \to getl (r k h) c x \def \lambda (k: K).\lambda (c: C).\lambda (x: C).\lambda (u: T).\lambda (h: nat).\lambda (H: (getl (S h) (CHead c k u) x)).let H0 \def getl_gen_all (CHead c k u) x (S h) H in ex2_ind C (\lambda (e: C).drop (S h) O (CHead c k u) e) (\lambda (e: C).clear e x) (getl (r k h) c x) (\lambda (x0: C).\lambda (H1: (drop (S h) O (CHead c k u) x0)).\lambda (H2: (clear x0 x)).getl_intro (r k h) c x x0 (drop_gen_drop k c x0 u h H1) H2) H0.
+
+theorem getl_refl: \forall (b: B).\forall (c: C).\forall (u: T).getl O (CHead c (Bind b) u) (CHead c (Bind b) u) \def \lambda (b: B).\lambda (c: C).\lambda (u: T).getl_intro O (CHead c (Bind b) u) (CHead c (Bind b) u) (CHead c (Bind b) u) (drop_refl (CHead c (Bind b) u)) (clear_bind b c u).
+
+theorem clear_getl_trans: \forall (i: nat).\forall (c2: C).\forall (c3: C).(getl i c2 c3) \to \forall (c1: C).(clear c1 c2) \to getl i c1 c3 \def \lambda (i: nat).nat_ind (\lambda (n: nat).\forall (c2: C).\forall (c3: C).(getl n c2 c3) \to \forall (c1: C).(clear c1 c2) \to getl n c1 c3) (\lambda (c2: C).\lambda (c3: C).\lambda (H: (getl O c2 c3)).\lambda (c1: C).\lambda (H0: (clear c1 c2)).getl_intro O c1 c3 c1 (drop_refl c1) (clear_trans c1 c2 H0 c3 (getl_gen_O c2 c3 H))) (\lambda (n: nat).\lambda (_: ((\forall (c2: C).\forall (c3: C).(getl n c2 c3) \to \forall (c1: C).(clear c1 c2) \to getl n c1 c3))).\lambda (c2: C).C_ind (\lambda (c: C).\forall (c3: C).(getl (S n) c c3) \to \forall (c1: C).(clear c1 c) \to getl (S n) c1 c3) (\lambda (n0: nat).\lambda (c3: C).\lambda (H0: (getl (S n) (CSort n0) c3)).\lambda (c1: C).\lambda (_: (clear c1 (CSort n0))).getl_gen_sort n0 (S n) c3 H0 (getl (S n) c1 c3)) (\lambda (c: C).\lambda (_: ((\forall (c3: C).(getl (S n) c c3) \to \forall (c1: C).(clear c1 c) \to getl (S n) c1 c3))).\lambda (k: K).\lambda (t: T).\lambda (c3: C).\lambda (H1: (getl (S n) (CHead c k t) c3)).\lambda (c1: C).\lambda (H2: (clear c1 (CHead c k t))).(match k return (\lambda (k0: K).(getl (S n) (CHead c k0 t) c3) \to (clear c1 (CHead c k0 t)) \to getl (S n) c1 c3) with [(Bind b) \Rightarrow (\lambda (H3: (getl (S n) (CHead c (Bind b) t) c3)).\lambda (H4: (clear c1 (CHead c (Bind b) t))).let H5 \def getl_gen_all c c3 (r (Bind b) n) (getl_gen_S (Bind b) c c3 t n H3) in ex2_ind C (\lambda (e: C).drop n O c e) (\lambda (e: C).clear e c3) (getl (S n) c1 c3) (\lambda (x: C).\lambda (H6: (drop n O c x)).\lambda (H7: (clear x c3)).getl_intro (S n) c1 c3 x (drop_clear_O b c1 c t H4 x n H6) H7) H5) | (Flat f) \Rightarrow (\lambda (_: (getl (S n) (CHead c (Flat f) t) c3)).\lambda (H4: (clear c1 (CHead c (Flat f) t))).clear_gen_flat_r f c1 c t H4 (getl (S n) c1 c3))]) H1 H2) c2) i.
+
+theorem getl_clear_trans: \forall (i: nat).\forall (c1: C).\forall (c2: C).(getl i c1 c2) \to \forall (c3: C).(clear c2 c3) \to getl i c1 c3 \def \lambda (i: nat).\lambda (c1: C).\lambda (c2: C).\lambda (H: (getl i c1 c2)).\lambda (c3: C).\lambda (H0: (clear c2 c3)).let H1 \def getl_gen_all c1 c2 i H in ex2_ind C (\lambda (e: C).drop i O c1 e) (\lambda (e: C).clear e c2) (getl i c1 c3) (\lambda (x: C).\lambda (H2: (drop i O c1 x)).\lambda (H3: (clear x c2)).let H4 \def clear_gen_all x c2 H3 in ex_3_ind B C T (\lambda (b: B).\lambda (e: C).\lambda (u: T).eq C c2 (CHead e (Bind b) u)) (getl i c1 c3) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: T).\lambda (H5: (eq C c2 (CHead x1 (Bind x0) x2))).let H6 \def eq_ind C c2 (\lambda (c: C).clear x c) H3 (CHead x1 (Bind x0) x2) H5 in let H7 \def eq_ind C c2 (\lambda (c: C).clear c c3) H0 (CHead x1 (Bind x0) x2) H5 in eq_ind_r C (CHead x1 (Bind x0) x2) (\lambda (c: C).getl i c1 c) (getl_intro i c1 (CHead x1 (Bind x0) x2) x H2 H6) c3 (clear_gen_bind x0 x1 c3 x2 H7)) H4) H1.
+
+theorem getl_head: \forall (k: K).\forall (h: nat).\forall (c: C).\forall (e: C).(getl (r k h) c e) \to \forall (u: T).getl (S h) (CHead c k u) e \def \lambda (k: K).\lambda (h: nat).\lambda (c: C).\lambda (e: C).\lambda (H: (getl (r k h) c e)).\lambda (u: T).let H0 \def getl_gen_all c e (r k h) H in ex2_ind C (\lambda (e0: C).drop (r k h) O c e0) (\lambda (e0: C).clear e0 e) (getl (S h) (CHead c k u) e) (\lambda (x: C).\lambda (H1: (drop (r k h) O c x)).\lambda (H2: (clear x e)).getl_intro (S h) (CHead c k u) e x (drop_drop k h c x H1 u) H2) H0.
+
+theorem getl_flat: \forall (c: C).\forall (e: C).\forall (h: nat).(getl h c e) \to \forall (f: F).\forall (u: T).getl h (CHead c (Flat f) u) e \def \lambda (c: C).\lambda (e: C).\lambda (h: nat).\lambda (H: (getl h c e)).\lambda (f: F).\lambda (u: T).let H0 \def getl_gen_all c e h H in ex2_ind C (\lambda (e0: C).drop h O c e0) (\lambda (e0: C).clear e0 e) (getl h (CHead c (Flat f) u) e) (\lambda (x: C).\lambda (H1: (drop h O c x)).\lambda (H2: (clear x e)).(match h return (\lambda (n: nat).(drop n O c x) \to getl n (CHead c (Flat f) u) e) with [O \Rightarrow (\lambda (H3: (drop O O c x)).let H4 \def eq_ind_r C x (\lambda (c: C).clear c e) H2 c (drop_gen_refl c x H3) in getl_intro O (CHead c (Flat f) u) e (CHead c (Flat f) u) (drop_refl (CHead c (Flat f) u)) (clear_flat c e H4 f u)) | (S n) \Rightarrow (\lambda (H3: (drop (S n) O c x)).getl_intro (S n) (CHead c (Flat f) u) e x (drop_drop (Flat f) n c x H3 u) H2)]) H1) H0.
+
+theorem getl_drop: \forall (b: B).\forall (c: C).\forall (e: C).\forall (u: T).\forall (h: nat).(getl h c (CHead e (Bind b) u)) \to drop (S h) O c e \def \lambda (b: B).\lambda (c: C).C_ind (\lambda (c0: C).\forall (e: C).\forall (u: T).\forall (h: nat).(getl h c0 (CHead e (Bind b) u)) \to drop (S h) O c0 e) (\lambda (n: nat).\lambda (e: C).\lambda (u: T).\lambda (h: nat).\lambda (H: (getl h (CSort n) (CHead e (Bind b) u))).getl_gen_sort n h (CHead e (Bind b) u) H (drop (S h) O (CSort n) e)) (\lambda (c0: C).\lambda (H: ((\forall (e: C).\forall (u: T).\forall (h: nat).(getl h c0 (CHead e (Bind b) u)) \to drop (S h) O c0 e))).\lambda (k: K).\lambda (t: T).\lambda (e: C).\lambda (u: T).\lambda (h: nat).nat_ind (\lambda (n: nat).(getl n (CHead c0 k t) (CHead e (Bind b) u)) \to drop (S n) O (CHead c0 k t) e) (\lambda (H0: (getl O (CHead c0 k t) (CHead e (Bind b) u))).K_ind (\lambda (k0: K).(clear (CHead c0 k0 t) (CHead e (Bind b) u)) \to drop (S O) O (CHead c0 k0 t) e) (\lambda (b0: B).\lambda (H1: (clear (CHead c0 (Bind b0) t) (CHead e (Bind b) u))).let H2 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow e | (CHead c _ _) \Rightarrow c]) (CHead e (Bind b) u) (CHead c0 (Bind b0) t) (clear_gen_bind b0 c0 (CHead e (Bind b) u) t H1) in (let H3 \def f_equal C B (\lambda (e0: C).match e0 return B with [(CSort _) \Rightarrow b | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow b])]) (CHead e (Bind b) u) (CHead c0 (Bind b0) t) (clear_gen_bind b0 c0 (CHead e (Bind b) u) t H1) in (let H4 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead e (Bind b) u) (CHead c0 (Bind b0) t) (clear_gen_bind b0 c0 (CHead e (Bind b) u) t H1) in \lambda (H5: (eq B b b0)).\lambda (H6: (eq C e c0)).eq_ind_r C c0 (\lambda (c1: C).drop (S O) O (CHead c0 (Bind b0) t) c1) (eq_ind B b (\lambda (b1: B).drop (S O) O (CHead c0 (Bind b1) t) c0) (drop_drop (Bind b) O c0 c0 (drop_refl c0) t) b0 H5) e H6) H3) H2) (\lambda (f: F).\lambda (H1: (clear (CHead c0 (Flat f) t) (CHead e (Bind b) u))).drop_clear_O b (CHead c0 (Flat f) t) e u (clear_flat c0 (CHead e (Bind b) u) (clear_gen_flat f c0 (CHead e (Bind b) u) t H1) f t) e O (drop_refl e)) k (getl_gen_O (CHead c0 k t) (CHead e (Bind b) u) H0)) (\lambda (n: nat).\lambda (_: (((getl n (CHead c0 k t) (CHead e (Bind b) u)) \to drop (S n) O (CHead c0 k t) e))).\lambda (H1: (getl (S n) (CHead c0 k t) (CHead e (Bind b) u))).drop_drop k (S n) c0 e (eq_ind_r nat (S (r k n)) (\lambda (n0: nat).drop n0 O c0 e) (H e u (r k n) (getl_gen_S k c0 (CHead e (Bind b) u) t n H1)) (r k (S n)) (r_S k n)) t) h) c.
+
+theorem getl_clear_bind: \forall (b: B).\forall (c: C).\forall (e1: C).\forall (v: T).(clear c (CHead e1 (Bind b) v)) \to \forall (e2: C).\forall (n: nat).(getl n e1 e2) \to getl (S n) c e2 \def \lambda (b: B).\lambda (c: C).C_ind (\lambda (c0: C).\forall (e1: C).\forall (v: T).(clear c0 (CHead e1 (Bind b) v)) \to \forall (e2: C).\forall (n: nat).(getl n e1 e2) \to getl (S n) c0 e2) (\lambda (n: nat).\lambda (e1: C).\lambda (v: T).\lambda (H: (clear (CSort n) (CHead e1 (Bind b) v))).\lambda (e2: C).\lambda (n0: nat).\lambda (_: (getl n0 e1 e2)).clear_gen_sort (CHead e1 (Bind b) v) n H (getl (S n0) (CSort n) e2)) (\lambda (c0: C).\lambda (H: ((\forall (e1: C).\forall (v: T).(clear c0 (CHead e1 (Bind b) v)) \to \forall (e2: C).\forall (n: nat).(getl n e1 e2) \to getl (S n) c0 e2))).\lambda (k: K).\lambda (t: T).\lambda (e1: C).\lambda (v: T).\lambda (H0: (clear (CHead c0 k t) (CHead e1 (Bind b) v))).\lambda (e2: C).\lambda (n: nat).\lambda (H1: (getl n e1 e2)).(match k return (\lambda (k0: K).(clear (CHead c0 k0 t) (CHead e1 (Bind b) v)) \to getl (S n) (CHead c0 k0 t) e2) with [(Bind b0) \Rightarrow (\lambda (H2: (clear (CHead c0 (Bind b0) t) (CHead e1 (Bind b) v))).let H3 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow e1 | (CHead c _ _) \Rightarrow c]) (CHead e1 (Bind b) v) (CHead c0 (Bind b0) t) (clear_gen_bind b0 c0 (CHead e1 (Bind b) v) t H2) in (let H4 \def f_equal C B (\lambda (e: C).match e return B with [(CSort _) \Rightarrow b | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow b])]) (CHead e1 (Bind b) v) (CHead c0 (Bind b0) t) (clear_gen_bind b0 c0 (CHead e1 (Bind b) v) t H2) in (let H5 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow v | (CHead _ _ t) \Rightarrow t]) (CHead e1 (Bind b) v) (CHead c0 (Bind b0) t) (clear_gen_bind b0 c0 (CHead e1 (Bind b) v) t H2) in \lambda (H6: (eq B b b0)).\lambda (H7: (eq C e1 c0)).let H8 \def eq_ind C e1 (\lambda (c: C).getl n c e2) H1 c0 H7 in eq_ind B b (\lambda (b1: B).getl (S n) (CHead c0 (Bind b1) t) e2) (getl_head (Bind b) n c0 e2 H8 t) b0 H6) H4) H3) | (Flat f) \Rightarrow (\lambda (H2: (clear (CHead c0 (Flat f) t) (CHead e1 (Bind b) v))).getl_flat c0 e2 (S n) (H e1 v (clear_gen_flat f c0 (CHead e1 (Bind b) v) t H2) e2 n H1) f t)]) H0) c.
+
+theorem getl_ctail: \forall (b: B).\forall (c: C).\forall (d: C).\forall (u: T).\forall (i: nat).(getl i c (CHead d (Bind b) u)) \to \forall (k: K).\forall (v: T).getl i (CTail k v c) (CHead (CTail k v d) (Bind b) u) \def \lambda (b: B).\lambda (c: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H: (getl i c (CHead d (Bind b) u))).\lambda (k: K).\lambda (v: T).let H0 \def getl_gen_all c (CHead d (Bind b) u) i H in ex2_ind C (\lambda (e: C).drop i O c e) (\lambda (e: C).clear e (CHead d (Bind b) u)) (getl i (CTail k v c) (CHead (CTail k v d) (Bind b) u)) (\lambda (x: C).\lambda (H1: (drop i O c x)).\lambda (H2: (clear x (CHead d (Bind b) u))).getl_intro i (CTail k v c) (CHead (CTail k v d) (Bind b) u) (CTail k v x) (drop_ctail c x O i H1 k v) (clear_ctail b x d u H2 k v)) H0.
+
+theorem getl_ctail_clen: \forall (b: B).\forall (t: T).\forall (c: C).ex nat (\lambda (n: nat).getl (clen c) (CTail (Bind b) t c) (CHead (CSort n) (Bind b) t)) \def \lambda (b: B).\lambda (t: T).\lambda (c: C).C_ind (\lambda (c0: C).ex nat (\lambda (n: nat).getl (clen c0) (CTail (Bind b) t c0) (CHead (CSort n) (Bind b) t))) (\lambda (n: nat).ex_intro nat (\lambda (n0: nat).getl O (CHead (CSort n) (Bind b) t) (CHead (CSort n0) (Bind b) t)) n (getl_refl b (CSort n) t)) (\lambda (c0: C).\lambda (H: (ex nat (\lambda (n: nat).getl (clen c0) (CTail (Bind b) t c0) (CHead (CSort n) (Bind b) t)))).\lambda (k: K).\lambda (t0: T).let H0 \def H in ex_ind nat (\lambda (n: nat).getl (clen c0) (CTail (Bind b) t c0) (CHead (CSort n) (Bind b) t)) (ex nat (\lambda (n: nat).getl (s k (clen c0)) (CHead (CTail (Bind b) t c0) k t0) (CHead (CSort n) (Bind b) t))) (\lambda (x: nat).\lambda (H1: (getl (clen c0) (CTail (Bind b) t c0) (CHead (CSort x) (Bind b) t))).match k return (\lambda (k0: K).ex nat (\lambda (n: nat).getl (s k0 (clen c0)) (CHead (CTail (Bind b) t c0) k0 t0) (CHead (CSort n) (Bind b) t))) with [(Bind b0) \Rightarrow (ex_intro nat (\lambda (n: nat).getl (S (clen c0)) (CHead (CTail (Bind b) t c0) (Bind b0) t0) (CHead (CSort n) (Bind b) t)) x (getl_head (Bind b0) (clen c0) (CTail (Bind b) t c0) (CHead (CSort x) (Bind b) t) H1 t0)) | (Flat f) \Rightarrow (ex_intro nat (\lambda (n: nat).getl (clen c0) (CHead (CTail (Bind b) t c0) (Flat f) t0) (CHead (CSort n) (Bind b) t)) x (getl_flat (CTail (Bind b) t c0) (CHead (CSort x) (Bind b) t) (clen c0) H1 f t0))]) H0) c.
+
+theorem getl_dec: \forall (c: C).\forall (i: nat).or (ex_3 C B T (\lambda (e: C).\lambda (b: B).\lambda (v: T).getl i c (CHead e (Bind b) v))) (\forall (d: C).(getl i c d) \to \forall (P: (Prop)).P) \def \lambda (c: C).C_ind (\lambda (c0: C).\forall (i: nat).or (ex_3 C B T (\lambda (e: C).\lambda (b: B).\lambda (v: T).getl i c0 (CHead e (Bind b) v))) (\forall (d: C).(getl i c0 d) \to \forall (P: (Prop)).P)) (\lambda (n: nat).\lambda (i: nat).or_intror (ex_3 C B T (\lambda (e: C).\lambda (b: B).\lambda (v: T).getl i (CSort n) (CHead e (Bind b) v))) (\forall (d: C).(getl i (CSort n) d) \to \forall (P: (Prop)).P) (\lambda (d: C).\lambda (H: (getl i (CSort n) d)).\lambda (P: (Prop)).getl_gen_sort n i d H P)) (\lambda (c0: C).\lambda (H: ((\forall (i: nat).or (ex_3 C B T (\lambda (e: C).\lambda (b: B).\lambda (v: T).getl i c0 (CHead e (Bind b) v))) (\forall (d: C).(getl i c0 d) \to \forall (P: (Prop)).P)))).\lambda (k: K).\lambda (t: T).\lambda (i: nat).match i return (\lambda (n: nat).or (ex_3 C B T (\lambda (e: C).\lambda (b: B).\lambda (v: T).getl n (CHead c0 k t) (CHead e (Bind b) v))) (\forall (d: C).(getl n (CHead c0 k t) d) \to \forall (P: (Prop)).P)) with [O \Rightarrow (match k return (\lambda (k0: K).or (ex_3 C B T (\lambda (e: C).\lambda (b: B).\lambda (v: T).getl O (CHead c0 k0 t) (CHead e (Bind b) v))) (\forall (d: C).(getl O (CHead c0 k0 t) d) \to \forall (P: (Prop)).P)) with [(Bind b) \Rightarrow (or_introl (ex_3 C B T (\lambda (e: C).\lambda (b0: B).\lambda (v: T).getl O (CHead c0 (Bind b) t) (CHead e (Bind b0) v))) (\forall (d: C).(getl O (CHead c0 (Bind b) t) d) \to \forall (P: (Prop)).P) (ex_3_intro C B T (\lambda (e: C).\lambda (b0: B).\lambda (v: T).getl O (CHead c0 (Bind b) t) (CHead e (Bind b0) v)) c0 b t (getl_refl b c0 t))) | (Flat f) \Rightarrow (let H_x \def H O in let H0 \def H_x in or_ind (ex_3 C B T (\lambda (e: C).\lambda (b: B).\lambda (v: T).getl O c0 (CHead e (Bind b) v))) (\forall (d: C).(getl O c0 d) \to \forall (P: (Prop)).P) (or (ex_3 C B T (\lambda (e: C).\lambda (b: B).\lambda (v: T).getl O (CHead c0 (Flat f) t) (CHead e (Bind b) v))) (\forall (d: C).(getl O (CHead c0 (Flat f) t) d) \to \forall (P: (Prop)).P)) (\lambda (H1: (ex_3 C B T (\lambda (e: C).\lambda (b: B).\lambda (v: T).getl O c0 (CHead e (Bind b) v)))).ex_3_ind C B T (\lambda (e: C).\lambda (b: B).\lambda (v: T).getl O c0 (CHead e (Bind b) v)) (or (ex_3 C B T (\lambda (e: C).\lambda (b: B).\lambda (v: T).getl O (CHead c0 (Flat f) t) (CHead e (Bind b) v))) (\forall (d: C).(getl O (CHead c0 (Flat f) t) d) \to \forall (P: (Prop)).P)) (\lambda (x0: C).\lambda (x1: B).\lambda (x2: T).\lambda (H2: (getl O c0 (CHead x0 (Bind x1) x2))).or_introl (ex_3 C B T (\lambda (e: C).\lambda (b: B).\lambda (v: T).getl O (CHead c0 (Flat f) t) (CHead e (Bind b) v))) (\forall (d: C).(getl O (CHead c0 (Flat f) t) d) \to \forall (P: (Prop)).P) (ex_3_intro C B T (\lambda (e: C).\lambda (b: B).\lambda (v: T).getl O (CHead c0 (Flat f) t) (CHead e (Bind b) v)) x0 x1 x2 (getl_flat c0 (CHead x0 (Bind x1) x2) O H2 f t))) H1) (\lambda (H1: ((\forall (d: C).(getl O c0 d) \to \forall (P: (Prop)).P))).or_intror (ex_3 C B T (\lambda (e: C).\lambda (b: B).\lambda (v: T).getl O (CHead c0 (Flat f) t) (CHead e (Bind b) v))) (\forall (d: C).(getl O (CHead c0 (Flat f) t) d) \to \forall (P: (Prop)).P) (\lambda (d: C).\lambda (H2: (getl O (CHead c0 (Flat f) t) d)).\lambda (P: (Prop)).H1 d (getl_intro O c0 d c0 (drop_refl c0) (clear_gen_flat f c0 d t (getl_gen_O (CHead c0 (Flat f) t) d H2))) P)) H0)]) | (S n) \Rightarrow (let H_x \def H (r k n) in let H0 \def H_x in or_ind (ex_3 C B T (\lambda (e: C).\lambda (b: B).\lambda (v: T).getl (r k n) c0 (CHead e (Bind b) v))) (\forall (d: C).(getl (r k n) c0 d) \to \forall (P: (Prop)).P) (or (ex_3 C B T (\lambda (e: C).\lambda (b: B).\lambda (v: T).getl (S n) (CHead c0 k t) (CHead e (Bind b) v))) (\forall (d: C).(getl (S n) (CHead c0 k t) d) \to \forall (P: (Prop)).P)) (\lambda (H1: (ex_3 C B T (\lambda (e: C).\lambda (b: B).\lambda (v: T).getl (r k n) c0 (CHead e (Bind b) v)))).ex_3_ind C B T (\lambda (e: C).\lambda (b: B).\lambda (v: T).getl (r k n) c0 (CHead e (Bind b) v)) (or (ex_3 C B T (\lambda (e: C).\lambda (b: B).\lambda (v: T).getl (S n) (CHead c0 k t) (CHead e (Bind b) v))) (\forall (d: C).(getl (S n) (CHead c0 k t) d) \to \forall (P: (Prop)).P)) (\lambda (x0: C).\lambda (x1: B).\lambda (x2: T).\lambda (H2: (getl (r k n) c0 (CHead x0 (Bind x1) x2))).or_introl (ex_3 C B T (\lambda (e: C).\lambda (b: B).\lambda (v: T).getl (S n) (CHead c0 k t) (CHead e (Bind b) v))) (\forall (d: C).(getl (S n) (CHead c0 k t) d) \to \forall (P: (Prop)).P) (ex_3_intro C B T (\lambda (e: C).\lambda (b: B).\lambda (v: T).getl (S n) (CHead c0 k t) (CHead e (Bind b) v)) x0 x1 x2 (getl_head k n c0 (CHead x0 (Bind x1) x2) H2 t))) H1) (\lambda (H1: ((\forall (d: C).(getl (r k n) c0 d) \to \forall (P: (Prop)).P))).or_intror (ex_3 C B T (\lambda (e: C).\lambda (b: B).\lambda (v: T).getl (S n) (CHead c0 k t) (CHead e (Bind b) v))) (\forall (d: C).(getl (S n) (CHead c0 k t) d) \to \forall (P: (Prop)).P) (\lambda (d: C).\lambda (H2: (getl (S n) (CHead c0 k t) d)).\lambda (P: (Prop)).H1 d (getl_gen_S k c0 d t n H2) P)) H0)]) c.
+
+theorem clear_cle: \forall (c1: C).\forall (c2: C).(clear c1 c2) \to cle c2 c1 \def \lambda (c1: C).C_ind (\lambda (c: C).\forall (c2: C).(clear c c2) \to le (cweight c2) (cweight c)) (\lambda (n: nat).\lambda (c2: C).\lambda (H: (clear (CSort n) c2)).clear_gen_sort c2 n H (le (cweight c2) O)) (\lambda (c: C).\lambda (H: ((\forall (c2: C).(clear c c2) \to le (cweight c2) (cweight c)))).\lambda (k: K).\lambda (t: T).\lambda (c2: C).\lambda (H0: (clear (CHead c k t) c2)).(match k return (\lambda (k0: K).(clear (CHead c k0 t) c2) \to le (cweight c2) (plus (cweight c) (tweight t))) with [(Bind b) \Rightarrow (\lambda (H1: (clear (CHead c (Bind b) t) c2)).eq_ind_r C (CHead c (Bind b) t) (\lambda (c0: C).le (cweight c0) (plus (cweight c) (tweight t))) (le_n (plus (cweight c) (tweight t))) c2 (clear_gen_bind b c c2 t H1)) | (Flat f) \Rightarrow (\lambda (H1: (clear (CHead c (Flat f) t) c2)).le_S_n (cweight c2) (plus (cweight c) (tweight t)) (le_n_S (cweight c2) (plus (cweight c) (tweight t)) (le_plus_trans (cweight c2) (cweight c) (tweight t) (H c2 (clear_gen_flat f c c2 t H1)))))]) H0) c1.
+
+theorem getl_flt: \forall (b: B).\forall (c: C).\forall (e: C).\forall (u: T).\forall (i: nat).(getl i c (CHead e (Bind b) u)) \to flt e u c (TLRef i) \def \lambda (b: B).\lambda (c: C).C_ind (\lambda (c0: C).\forall (e: C).\forall (u: T).\forall (i: nat).(getl i c0 (CHead e (Bind b) u)) \to flt e u c0 (TLRef i)) (\lambda (n: nat).\lambda (e: C).\lambda (u: T).\lambda (i: nat).\lambda (H: (getl i (CSort n) (CHead e (Bind b) u))).getl_gen_sort n i (CHead e (Bind b) u) H (flt e u (CSort n) (TLRef i))) (\lambda (c0: C).\lambda (H: ((\forall (e: C).\forall (u: T).\forall (i: nat).(getl i c0 (CHead e (Bind b) u)) \to flt e u c0 (TLRef i)))).\lambda (k: K).\lambda (t: T).\lambda (e: C).\lambda (u: T).\lambda (i: nat).match i return (\lambda (n: nat).(getl n (CHead c0 k t) (CHead e (Bind b) u)) \to flt e u (CHead c0 k t) (TLRef n)) with [O \Rightarrow (\lambda (H0: (getl O (CHead c0 k t) (CHead e (Bind b) u))).(match k return (\lambda (k0: K).(clear (CHead c0 k0 t) (CHead e (Bind b) u)) \to flt e u (CHead c0 k0 t) (TLRef O)) with [(Bind b0) \Rightarrow (\lambda (H1: (clear (CHead c0 (Bind b0) t) (CHead e (Bind b) u))).let H2 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow e | (CHead c _ _) \Rightarrow c]) (CHead e (Bind b) u) (CHead c0 (Bind b0) t) (clear_gen_bind b0 c0 (CHead e (Bind b) u) t H1) in (let H3 \def f_equal C B (\lambda (e0: C).match e0 return B with [(CSort _) \Rightarrow b | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow b])]) (CHead e (Bind b) u) (CHead c0 (Bind b0) t) (clear_gen_bind b0 c0 (CHead e (Bind b) u) t H1) in (let H4 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead e (Bind b) u) (CHead c0 (Bind b0) t) (clear_gen_bind b0 c0 (CHead e (Bind b) u) t H1) in \lambda (H5: (eq B b b0)).\lambda (H6: (eq C e c0)).eq_ind_r T t (\lambda (t0: T).flt e t0 (CHead c0 (Bind b0) t) (TLRef O)) (eq_ind_r C c0 (\lambda (c1: C).flt c1 t (CHead c0 (Bind b0) t) (TLRef O)) (eq_ind B b (\lambda (b1: B).flt c0 t (CHead c0 (Bind b1) t) (TLRef O)) (flt_arith0 (Bind b) c0 t O) b0 H5) e H6) u H4) H3) H2) | (Flat f) \Rightarrow (\lambda (H1: (clear (CHead c0 (Flat f) t) (CHead e (Bind b) u))).flt_arith1 (Bind b) e c0 u (clear_cle c0 (CHead e (Bind b) u) (clear_gen_flat f c0 (CHead e (Bind b) u) t H1)) (Flat f) t O)]) (getl_gen_O (CHead c0 k t) (CHead e (Bind b) u) H0)) | (S n) \Rightarrow (\lambda (H0: (getl (S n) (CHead c0 k t) (CHead e (Bind b) u))).let H_y \def H e u (r k n) (getl_gen_S k c0 (CHead e (Bind b) u) t n H0) in flt_arith2 e c0 u (r k n) H_y k t (S n))]) c.
+
+theorem getl_gen_flat: \forall (f: F).\forall (e: C).\forall (d: C).\forall (v: T).\forall (i: nat).(getl i (CHead e (Flat f) v) d) \to getl i e d \def \lambda (f: F).\lambda (e: C).\lambda (d: C).\lambda (v: T).\lambda (i: nat).nat_ind (\lambda (n: nat).(getl n (CHead e (Flat f) v) d) \to getl n e d) (\lambda (H: (getl O (CHead e (Flat f) v) d)).getl_intro O e d e (drop_refl e) (clear_gen_flat f e d v (getl_gen_O (CHead e (Flat f) v) d H))) (\lambda (n: nat).\lambda (_: (((getl n (CHead e (Flat f) v) d) \to getl n e d))).\lambda (H0: (getl (S n) (CHead e (Flat f) v) d)).getl_gen_S (Flat f) e d v n H0) i.
+
+theorem getl_gen_bind: \forall (b: B).\forall (e: C).\forall (d: C).\forall (v: T).\forall (i: nat).(getl i (CHead e (Bind b) v) d) \to or (and (eq nat i O) (eq C d (CHead e (Bind b) v))) (ex2 nat (\lambda (j: nat).eq nat i (S j)) (\lambda (j: nat).getl j e d)) \def \lambda (b: B).\lambda (e: C).\lambda (d: C).\lambda (v: T).\lambda (i: nat).nat_ind (\lambda (n: nat).(getl n (CHead e (Bind b) v) d) \to or (and (eq nat n O) (eq C d (CHead e (Bind b) v))) (ex2 nat (\lambda (j: nat).eq nat n (S j)) (\lambda (j: nat).getl j e d))) (\lambda (H: (getl O (CHead e (Bind b) v) d)).eq_ind_r C (CHead e (Bind b) v) (\lambda (c: C).or (and (eq nat O O) (eq C c (CHead e (Bind b) v))) (ex2 nat (\lambda (j: nat).eq nat O (S j)) (\lambda (j: nat).getl j e c))) (or_introl (and (eq nat O O) (eq C (CHead e (Bind b) v) (CHead e (Bind b) v))) (ex2 nat (\lambda (j: nat).eq nat O (S j)) (\lambda (j: nat).getl j e (CHead e (Bind b) v))) (conj (eq nat O O) (eq C (CHead e (Bind b) v) (CHead e (Bind b) v)) (refl_equal nat O) (refl_equal C (CHead e (Bind b) v)))) d (clear_gen_bind b e d v (getl_gen_O (CHead e (Bind b) v) d H))) (\lambda (n: nat).\lambda (_: (((getl n (CHead e (Bind b) v) d) \to or (and (eq nat n O) (eq C d (CHead e (Bind b) v))) (ex2 nat (\lambda (j: nat).eq nat n (S j)) (\lambda (j: nat).getl j e d))))).\lambda (H0: (getl (S n) (CHead e (Bind b) v) d)).or_intror (and (eq nat (S n) O) (eq C d (CHead e (Bind b) v))) (ex2 nat (\lambda (j: nat).eq nat (S n) (S j)) (\lambda (j: nat).getl j e d)) (ex_intro2 nat (\lambda (j: nat).eq nat (S n) (S j)) (\lambda (j: nat).getl j e d) n (refl_equal nat (S n)) (getl_gen_S (Bind b) e d v n H0))) i.
+
+theorem getl_gen_tail: \forall (k: K).\forall (b: B).\forall (u1: T).\forall (u2: T).\forall (c2: C).\forall (c1: C).\forall (i: nat).(getl i (CTail k u1 c1) (CHead c2 (Bind b) u2)) \to or (ex2 C (\lambda (e: C).eq C c2 (CTail k u1 e)) (\lambda (e: C).getl i c1 (CHead e (Bind b) u2))) (ex4 nat (\lambda (_: nat).eq nat i (clen c1)) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n: nat).eq C c2 (CSort n))) \def \lambda (k: K).\lambda (b: B).\lambda (u1: T).\lambda (u2: T).\lambda (c2: C).\lambda (c1: C).C_ind (\lambda (c: C).\forall (i: nat).(getl i (CTail k u1 c) (CHead c2 (Bind b) u2)) \to or (ex2 C (\lambda (e: C).eq C c2 (CTail k u1 e)) (\lambda (e: C).getl i c (CHead e (Bind b) u2))) (ex4 nat (\lambda (_: nat).eq nat i (clen c)) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n: nat).eq C c2 (CSort n)))) (\lambda (n: nat).\lambda (i: nat).match i return (\lambda (n0: nat).(getl n0 (CTail k u1 (CSort n)) (CHead c2 (Bind b) u2)) \to or (ex2 C (\lambda (e: C).eq C c2 (CTail k u1 e)) (\lambda (e: C).getl n0 (CSort n) (CHead e (Bind b) u2))) (ex4 nat (\lambda (_: nat).eq nat n0 (clen (CSort n))) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n1: nat).eq C c2 (CSort n1)))) with [O \Rightarrow (\lambda (H: (getl O (CHead (CSort n) k u1) (CHead c2 (Bind b) u2))).(match k return (\lambda (k0: K).(clear (CHead (CSort n) k0 u1) (CHead c2 (Bind b) u2)) \to or (ex2 C (\lambda (e: C).eq C c2 (CTail k0 u1 e)) (\lambda (e: C).getl O (CSort n) (CHead e (Bind b) u2))) (ex4 nat (\lambda (_: nat).eq nat O O) (\lambda (_: nat).eq K k0 (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n0: nat).eq C c2 (CSort n0)))) with [(Bind b0) \Rightarrow (\lambda (H0: (clear (CHead (CSort n) (Bind b0) u1) (CHead c2 (Bind b) u2))).let H1 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c2 | (CHead c _ _) \Rightarrow c]) (CHead c2 (Bind b) u2) (CHead (CSort n) (Bind b0) u1) (clear_gen_bind b0 (CSort n) (CHead c2 (Bind b) u2) u1 H0) in (let H2 \def f_equal C B (\lambda (e: C).match e return B with [(CSort _) \Rightarrow b | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow b])]) (CHead c2 (Bind b) u2) (CHead (CSort n) (Bind b0) u1) (clear_gen_bind b0 (CSort n) (CHead c2 (Bind b) u2) u1 H0) in (let H3 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u2 | (CHead _ _ t) \Rightarrow t]) (CHead c2 (Bind b) u2) (CHead (CSort n) (Bind b0) u1) (clear_gen_bind b0 (CSort n) (CHead c2 (Bind b) u2) u1 H0) in \lambda (H4: (eq B b b0)).\lambda (H5: (eq C c2 (CSort n))).eq_ind_r C (CSort n) (\lambda (c: C).or (ex2 C (\lambda (e: C).eq C c (CTail (Bind b0) u1 e)) (\lambda (e: C).getl O (CSort n) (CHead e (Bind b) u2))) (ex4 nat (\lambda (_: nat).eq nat O O) (\lambda (_: nat).eq K (Bind b0) (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n0: nat).eq C c (CSort n0)))) (eq_ind_r T u1 (\lambda (t: T).or (ex2 C (\lambda (e: C).eq C (CSort n) (CTail (Bind b0) u1 e)) (\lambda (e: C).getl O (CSort n) (CHead e (Bind b) t))) (ex4 nat (\lambda (_: nat).eq nat O O) (\lambda (_: nat).eq K (Bind b0) (Bind b)) (\lambda (_: nat).eq T u1 t) (\lambda (n0: nat).eq C (CSort n) (CSort n0)))) (eq_ind_r B b0 (\lambda (b1: B).or (ex2 C (\lambda (e: C).eq C (CSort n) (CTail (Bind b0) u1 e)) (\lambda (e: C).getl O (CSort n) (CHead e (Bind b1) u1))) (ex4 nat (\lambda (_: nat).eq nat O O) (\lambda (_: nat).eq K (Bind b0) (Bind b1)) (\lambda (_: nat).eq T u1 u1) (\lambda (n0: nat).eq C (CSort n) (CSort n0)))) (or_intror (ex2 C (\lambda (e: C).eq C (CSort n) (CTail (Bind b0) u1 e)) (\lambda (e: C).getl O (CSort n) (CHead e (Bind b0) u1))) (ex4 nat (\lambda (_: nat).eq nat O O) (\lambda (_: nat).eq K (Bind b0) (Bind b0)) (\lambda (_: nat).eq T u1 u1) (\lambda (n0: nat).eq C (CSort n) (CSort n0))) (ex4_intro nat (\lambda (_: nat).eq nat O O) (\lambda (_: nat).eq K (Bind b0) (Bind b0)) (\lambda (_: nat).eq T u1 u1) (\lambda (n0: nat).eq C (CSort n) (CSort n0)) n (refl_equal nat O) (refl_equal K (Bind b0)) (refl_equal T u1) (refl_equal C (CSort n)))) b H4) u2 H3) c2 H5) H2) H1) | (Flat f) \Rightarrow (\lambda (H0: (clear (CHead (CSort n) (Flat f) u1) (CHead c2 (Bind b) u2))).clear_gen_sort (CHead c2 (Bind b) u2) n (clear_gen_flat f (CSort n) (CHead c2 (Bind b) u2) u1 H0) (or (ex2 C (\lambda (e: C).eq C c2 (CTail (Flat f) u1 e)) (\lambda (e: C).getl O (CSort n) (CHead e (Bind b) u2))) (ex4 nat (\lambda (_: nat).eq nat O O) (\lambda (_: nat).eq K (Flat f) (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n0: nat).eq C c2 (CSort n0)))))]) (getl_gen_O (CHead (CSort n) k u1) (CHead c2 (Bind b) u2) H)) | (S n0) \Rightarrow (\lambda (H: (getl (S n0) (CHead (CSort n) k u1) (CHead c2 (Bind b) u2))).getl_gen_sort n (r k n0) (CHead c2 (Bind b) u2) (getl_gen_S k (CSort n) (CHead c2 (Bind b) u2) u1 n0 H) (or (ex2 C (\lambda (e: C).eq C c2 (CTail k u1 e)) (\lambda (e: C).getl (S n0) (CSort n) (CHead e (Bind b) u2))) (ex4 nat (\lambda (_: nat).eq nat (S n0) O) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n1: nat).eq C c2 (CSort n1)))))]) (\lambda (c: C).\lambda (H: ((\forall (i: nat).(getl i (CTail k u1 c) (CHead c2 (Bind b) u2)) \to or (ex2 C (\lambda (e: C).eq C c2 (CTail k u1 e)) (\lambda (e: C).getl i c (CHead e (Bind b) u2))) (ex4 nat (\lambda (_: nat).eq nat i (clen c)) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n: nat).eq C c2 (CSort n)))))).\lambda (k0: K).\lambda (t: T).\lambda (i: nat).match i return (\lambda (n: nat).(getl n (CTail k u1 (CHead c k0 t)) (CHead c2 (Bind b) u2)) \to or (ex2 C (\lambda (e: C).eq C c2 (CTail k u1 e)) (\lambda (e: C).getl n (CHead c k0 t) (CHead e (Bind b) u2))) (ex4 nat (\lambda (_: nat).eq nat n (clen (CHead c k0 t))) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n0: nat).eq C c2 (CSort n0)))) with [O \Rightarrow (\lambda (H0: (getl O (CHead (CTail k u1 c) k0 t) (CHead c2 (Bind b) u2))).(match k0 return (\lambda (k1: K).(clear (CHead (CTail k u1 c) k1 t) (CHead c2 (Bind b) u2)) \to or (ex2 C (\lambda (e: C).eq C c2 (CTail k u1 e)) (\lambda (e: C).getl O (CHead c k1 t) (CHead e (Bind b) u2))) (ex4 nat (\lambda (_: nat).eq nat O (s k1 (clen c))) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n: nat).eq C c2 (CSort n)))) with [(Bind b0) \Rightarrow (\lambda (H1: (clear (CHead (CTail k u1 c) (Bind b0) t) (CHead c2 (Bind b) u2))).let H2 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c2 | (CHead c _ _) \Rightarrow c]) (CHead c2 (Bind b) u2) (CHead (CTail k u1 c) (Bind b0) t) (clear_gen_bind b0 (CTail k u1 c) (CHead c2 (Bind b) u2) t H1) in (let H3 \def f_equal C B (\lambda (e: C).match e return B with [(CSort _) \Rightarrow b | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow b])]) (CHead c2 (Bind b) u2) (CHead (CTail k u1 c) (Bind b0) t) (clear_gen_bind b0 (CTail k u1 c) (CHead c2 (Bind b) u2) t H1) in (let H4 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u2 | (CHead _ _ t) \Rightarrow t]) (CHead c2 (Bind b) u2) (CHead (CTail k u1 c) (Bind b0) t) (clear_gen_bind b0 (CTail k u1 c) (CHead c2 (Bind b) u2) t H1) in \lambda (H5: (eq B b b0)).\lambda (H6: (eq C c2 (CTail k u1 c))).eq_ind T u2 (\lambda (t0: T).or (ex2 C (\lambda (e: C).eq C c2 (CTail k u1 e)) (\lambda (e: C).getl O (CHead c (Bind b0) t0) (CHead e (Bind b) u2))) (ex4 nat (\lambda (_: nat).eq nat O (s (Bind b0) (clen c))) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n: nat).eq C c2 (CSort n)))) (eq_ind B b (\lambda (b1: B).or (ex2 C (\lambda (e: C).eq C c2 (CTail k u1 e)) (\lambda (e: C).getl O (CHead c (Bind b1) u2) (CHead e (Bind b) u2))) (ex4 nat (\lambda (_: nat).eq nat O (s (Bind b1) (clen c))) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n: nat).eq C c2 (CSort n)))) (let H7 \def eq_ind C c2 (\lambda (c0: C).\forall (i: nat).(getl i (CTail k u1 c) (CHead c0 (Bind b) u2)) \to or (ex2 C (\lambda (e: C).eq C c0 (CTail k u1 e)) (\lambda (e: C).getl i c (CHead e (Bind b) u2))) (ex4 nat (\lambda (_: nat).eq nat i (clen c)) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n: nat).eq C c0 (CSort n)))) H (CTail k u1 c) H6 in eq_ind_r C (CTail k u1 c) (\lambda (c0: C).or (ex2 C (\lambda (e: C).eq C c0 (CTail k u1 e)) (\lambda (e: C).getl O (CHead c (Bind b) u2) (CHead e (Bind b) u2))) (ex4 nat (\lambda (_: nat).eq nat O (s (Bind b) (clen c))) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n: nat).eq C c0 (CSort n)))) (or_introl (ex2 C (\lambda (e: C).eq C (CTail k u1 c) (CTail k u1 e)) (\lambda (e: C).getl O (CHead c (Bind b) u2) (CHead e (Bind b) u2))) (ex4 nat (\lambda (_: nat).eq nat O (s (Bind b) (clen c))) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n: nat).eq C (CTail k u1 c) (CSort n))) (ex_intro2 C (\lambda (e: C).eq C (CTail k u1 c) (CTail k u1 e)) (\lambda (e: C).getl O (CHead c (Bind b) u2) (CHead e (Bind b) u2)) c (refl_equal C (CTail k u1 c)) (getl_refl b c u2))) c2 H6) b0 H5) t H4) H3) H2) | (Flat f) \Rightarrow (\lambda (H1: (clear (CHead (CTail k u1 c) (Flat f) t) (CHead c2 (Bind b) u2))).let H2 \def H O (getl_intro O (CTail k u1 c) (CHead c2 (Bind b) u2) (CTail k u1 c) (drop_refl (CTail k u1 c)) (clear_gen_flat f (CTail k u1 c) (CHead c2 (Bind b) u2) t H1)) in or_ind (ex2 C (\lambda (e: C).eq C c2 (CTail k u1 e)) (\lambda (e: C).getl O c (CHead e (Bind b) u2))) (ex4 nat (\lambda (_: nat).eq nat O (clen c)) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n: nat).eq C c2 (CSort n))) (or (ex2 C (\lambda (e: C).eq C c2 (CTail k u1 e)) (\lambda (e: C).getl O (CHead c (Flat f) t) (CHead e (Bind b) u2))) (ex4 nat (\lambda (_: nat).eq nat O (s (Flat f) (clen c))) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n: nat).eq C c2 (CSort n)))) (\lambda (H3: (ex2 C (\lambda (e: C).eq C c2 (CTail k u1 e)) (\lambda (e: C).getl O c (CHead e (Bind b) u2)))).ex2_ind C (\lambda (e: C).eq C c2 (CTail k u1 e)) (\lambda (e: C).getl O c (CHead e (Bind b) u2)) (or (ex2 C (\lambda (e: C).eq C c2 (CTail k u1 e)) (\lambda (e: C).getl O (CHead c (Flat f) t) (CHead e (Bind b) u2))) (ex4 nat (\lambda (_: nat).eq nat O (s (Flat f) (clen c))) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n: nat).eq C c2 (CSort n)))) (\lambda (x: C).\lambda (H4: (eq C c2 (CTail k u1 x))).\lambda (H5: (getl O c (CHead x (Bind b) u2))).eq_ind_r C (CTail k u1 x) (\lambda (c0: C).or (ex2 C (\lambda (e: C).eq C c0 (CTail k u1 e)) (\lambda (e: C).getl O (CHead c (Flat f) t) (CHead e (Bind b) u2))) (ex4 nat (\lambda (_: nat).eq nat O (s (Flat f) (clen c))) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n: nat).eq C c0 (CSort n)))) (or_introl (ex2 C (\lambda (e: C).eq C (CTail k u1 x) (CTail k u1 e)) (\lambda (e: C).getl O (CHead c (Flat f) t) (CHead e (Bind b) u2))) (ex4 nat (\lambda (_: nat).eq nat O (s (Flat f) (clen c))) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n: nat).eq C (CTail k u1 x) (CSort n))) (ex_intro2 C (\lambda (e: C).eq C (CTail k u1 x) (CTail k u1 e)) (\lambda (e: C).getl O (CHead c (Flat f) t) (CHead e (Bind b) u2)) x (refl_equal C (CTail k u1 x)) (getl_flat c (CHead x (Bind b) u2) O H5 f t))) c2 H4) H3) (\lambda (H3: (ex4 nat (\lambda (_: nat).eq nat O (clen c)) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n: nat).eq C c2 (CSort n)))).ex4_ind nat (\lambda (_: nat).eq nat O (clen c)) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n: nat).eq C c2 (CSort n)) (or (ex2 C (\lambda (e: C).eq C c2 (CTail k u1 e)) (\lambda (e: C).getl O (CHead c (Flat f) t) (CHead e (Bind b) u2))) (ex4 nat (\lambda (_: nat).eq nat O (s (Flat f) (clen c))) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n: nat).eq C c2 (CSort n)))) (\lambda (x0: nat).\lambda (H4: (eq nat O (clen c))).\lambda (H5: (eq K k (Bind b))).\lambda (H6: (eq T u1 u2)).\lambda (H7: (eq C c2 (CSort x0))).eq_ind_r C (CSort x0) (\lambda (c0: C).or (ex2 C (\lambda (e: C).eq C c0 (CTail k u1 e)) (\lambda (e: C).getl O (CHead c (Flat f) t) (CHead e (Bind b) u2))) (ex4 nat (\lambda (_: nat).eq nat O (s (Flat f) (clen c))) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n: nat).eq C c0 (CSort n)))) (eq_ind T u1 (\lambda (t0: T).or (ex2 C (\lambda (e: C).eq C (CSort x0) (CTail k u1 e)) (\lambda (e: C).getl O (CHead c (Flat f) t) (CHead e (Bind b) t0))) (ex4 nat (\lambda (_: nat).eq nat O (s (Flat f) (clen c))) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 t0) (\lambda (n: nat).eq C (CSort x0) (CSort n)))) (eq_ind_r K (Bind b) (\lambda (k1: K).or (ex2 C (\lambda (e: C).eq C (CSort x0) (CTail k1 u1 e)) (\lambda (e: C).getl O (CHead c (Flat f) t) (CHead e (Bind b) u1))) (ex4 nat (\lambda (_: nat).eq nat O (s (Flat f) (clen c))) (\lambda (_: nat).eq K k1 (Bind b)) (\lambda (_: nat).eq T u1 u1) (\lambda (n: nat).eq C (CSort x0) (CSort n)))) (or_intror (ex2 C (\lambda (e: C).eq C (CSort x0) (CTail (Bind b) u1 e)) (\lambda (e: C).getl O (CHead c (Flat f) t) (CHead e (Bind b) u1))) (ex4 nat (\lambda (_: nat).eq nat O (s (Flat f) (clen c))) (\lambda (_: nat).eq K (Bind b) (Bind b)) (\lambda (_: nat).eq T u1 u1) (\lambda (n: nat).eq C (CSort x0) (CSort n))) (ex4_intro nat (\lambda (_: nat).eq nat O (s (Flat f) (clen c))) (\lambda (_: nat).eq K (Bind b) (Bind b)) (\lambda (_: nat).eq T u1 u1) (\lambda (n: nat).eq C (CSort x0) (CSort n)) x0 H4 (refl_equal K (Bind b)) (refl_equal T u1) (refl_equal C (CSort x0)))) k H5) u2 H6) c2 H7) H3) H2)]) (getl_gen_O (CHead (CTail k u1 c) k0 t) (CHead c2 (Bind b) u2) H0)) | (S n) \Rightarrow (\lambda (H0: (getl (S n) (CHead (CTail k u1 c) k0 t) (CHead c2 (Bind b) u2))).let H_x \def H (r k0 n) (getl_gen_S k0 (CTail k u1 c) (CHead c2 (Bind b) u2) t n H0) in let H1 \def H_x in or_ind (ex2 C (\lambda (e: C).eq C c2 (CTail k u1 e)) (\lambda (e: C).getl (r k0 n) c (CHead e (Bind b) u2))) (ex4 nat (\lambda (_: nat).eq nat (r k0 n) (clen c)) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n0: nat).eq C c2 (CSort n0))) (or (ex2 C (\lambda (e: C).eq C c2 (CTail k u1 e)) (\lambda (e: C).getl (S n) (CHead c k0 t) (CHead e (Bind b) u2))) (ex4 nat (\lambda (_: nat).eq nat (S n) (s k0 (clen c))) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n0: nat).eq C c2 (CSort n0)))) (\lambda (H2: (ex2 C (\lambda (e: C).eq C c2 (CTail k u1 e)) (\lambda (e: C).getl (r k0 n) c (CHead e (Bind b) u2)))).ex2_ind C (\lambda (e: C).eq C c2 (CTail k u1 e)) (\lambda (e: C).getl (r k0 n) c (CHead e (Bind b) u2)) (or (ex2 C (\lambda (e: C).eq C c2 (CTail k u1 e)) (\lambda (e: C).getl (S n) (CHead c k0 t) (CHead e (Bind b) u2))) (ex4 nat (\lambda (_: nat).eq nat (S n) (s k0 (clen c))) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n0: nat).eq C c2 (CSort n0)))) (\lambda (x: C).\lambda (H3: (eq C c2 (CTail k u1 x))).\lambda (H4: (getl (r k0 n) c (CHead x (Bind b) u2))).let H5 \def eq_ind C c2 (\lambda (c0: C).getl (r k0 n) (CTail k u1 c) (CHead c0 (Bind b) u2)) (getl_gen_S k0 (CTail k u1 c) (CHead c2 (Bind b) u2) t n H0) (CTail k u1 x) H3 in eq_ind_r C (CTail k u1 x) (\lambda (c0: C).or (ex2 C (\lambda (e: C).eq C c0 (CTail k u1 e)) (\lambda (e: C).getl (S n) (CHead c k0 t) (CHead e (Bind b) u2))) (ex4 nat (\lambda (_: nat).eq nat (S n) (s k0 (clen c))) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n0: nat).eq C c0 (CSort n0)))) (or_introl (ex2 C (\lambda (e: C).eq C (CTail k u1 x) (CTail k u1 e)) (\lambda (e: C).getl (S n) (CHead c k0 t) (CHead e (Bind b) u2))) (ex4 nat (\lambda (_: nat).eq nat (S n) (s k0 (clen c))) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n0: nat).eq C (CTail k u1 x) (CSort n0))) (ex_intro2 C (\lambda (e: C).eq C (CTail k u1 x) (CTail k u1 e)) (\lambda (e: C).getl (S n) (CHead c k0 t) (CHead e (Bind b) u2)) x (refl_equal C (CTail k u1 x)) (getl_head k0 n c (CHead x (Bind b) u2) H4 t))) c2 H3) H2) (\lambda (H2: (ex4 nat (\lambda (_: nat).eq nat (r k0 n) (clen c)) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n: nat).eq C c2 (CSort n)))).ex4_ind nat (\lambda (_: nat).eq nat (r k0 n) (clen c)) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n0: nat).eq C c2 (CSort n0)) (or (ex2 C (\lambda (e: C).eq C c2 (CTail k u1 e)) (\lambda (e: C).getl (S n) (CHead c k0 t) (CHead e (Bind b) u2))) (ex4 nat (\lambda (_: nat).eq nat (S n) (s k0 (clen c))) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n0: nat).eq C c2 (CSort n0)))) (\lambda (x0: nat).\lambda (H3: (eq nat (r k0 n) (clen c))).\lambda (H4: (eq K k (Bind b))).\lambda (H5: (eq T u1 u2)).\lambda (H6: (eq C c2 (CSort x0))).let H7 \def eq_ind C c2 (\lambda (c0: C).getl (r k0 n) (CTail k u1 c) (CHead c0 (Bind b) u2)) (getl_gen_S k0 (CTail k u1 c) (CHead c2 (Bind b) u2) t n H0) (CSort x0) H6 in eq_ind_r C (CSort x0) (\lambda (c0: C).or (ex2 C (\lambda (e: C).eq C c0 (CTail k u1 e)) (\lambda (e: C).getl (S n) (CHead c k0 t) (CHead e (Bind b) u2))) (ex4 nat (\lambda (_: nat).eq nat (S n) (s k0 (clen c))) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 u2) (\lambda (n0: nat).eq C c0 (CSort n0)))) (let H8 \def eq_ind_r T u2 (\lambda (t: T).getl (r k0 n) (CTail k u1 c) (CHead (CSort x0) (Bind b) t)) H7 u1 H5 in eq_ind T u1 (\lambda (t0: T).or (ex2 C (\lambda (e: C).eq C (CSort x0) (CTail k u1 e)) (\lambda (e: C).getl (S n) (CHead c k0 t) (CHead e (Bind b) t0))) (ex4 nat (\lambda (_: nat).eq nat (S n) (s k0 (clen c))) (\lambda (_: nat).eq K k (Bind b)) (\lambda (_: nat).eq T u1 t0) (\lambda (n0: nat).eq C (CSort x0) (CSort n0)))) (let H9 \def eq_ind K k (\lambda (k: K).getl (r k0 n) (CTail k u1 c) (CHead (CSort x0) (Bind b) u1)) H8 (Bind b) H4 in eq_ind_r K (Bind b) (\lambda (k1: K).or (ex2 C (\lambda (e: C).eq C (CSort x0) (CTail k1 u1 e)) (\lambda (e: C).getl (S n) (CHead c k0 t) (CHead e (Bind b) u1))) (ex4 nat (\lambda (_: nat).eq nat (S n) (s k0 (clen c))) (\lambda (_: nat).eq K k1 (Bind b)) (\lambda (_: nat).eq T u1 u1) (\lambda (n0: nat).eq C (CSort x0) (CSort n0)))) (eq_ind nat (r k0 n) (\lambda (n0: nat).or (ex2 C (\lambda (e: C).eq C (CSort x0) (CTail (Bind b) u1 e)) (\lambda (e: C).getl (S n) (CHead c k0 t) (CHead e (Bind b) u1))) (ex4 nat (\lambda (_: nat).eq nat (S n) (s k0 n0)) (\lambda (_: nat).eq K (Bind b) (Bind b)) (\lambda (_: nat).eq T u1 u1) (\lambda (n1: nat).eq C (CSort x0) (CSort n1)))) (eq_ind_r nat (S n) (\lambda (n0: nat).or (ex2 C (\lambda (e: C).eq C (CSort x0) (CTail (Bind b) u1 e)) (\lambda (e: C).getl (S n) (CHead c k0 t) (CHead e (Bind b) u1))) (ex4 nat (\lambda (_: nat).eq nat (S n) n0) (\lambda (_: nat).eq K (Bind b) (Bind b)) (\lambda (_: nat).eq T u1 u1) (\lambda (n1: nat).eq C (CSort x0) (CSort n1)))) (or_intror (ex2 C (\lambda (e: C).eq C (CSort x0) (CTail (Bind b) u1 e)) (\lambda (e: C).getl (S n) (CHead c k0 t) (CHead e (Bind b) u1))) (ex4 nat (\lambda (_: nat).eq nat (S n) (S n)) (\lambda (_: nat).eq K (Bind b) (Bind b)) (\lambda (_: nat).eq T u1 u1) (\lambda (n0: nat).eq C (CSort x0) (CSort n0))) (ex4_intro nat (\lambda (_: nat).eq nat (S n) (S n)) (\lambda (_: nat).eq K (Bind b) (Bind b)) (\lambda (_: nat).eq T u1 u1) (\lambda (n0: nat).eq C (CSort x0) (CSort n0)) x0 (refl_equal nat (S n)) (refl_equal K (Bind b)) (refl_equal T u1) (refl_equal C (CSort x0)))) (s k0 (r k0 n)) (s_r k0 n)) (clen c) H3) k H4) u2 H5) c2 H6) H2) H1)]) c1.
+
+theorem cimp_flat_sx: \forall (f: F).\forall (c: C).\forall (v: T).cimp (CHead c (Flat f) v) c \def \lambda (f: F).\lambda (c: C).\lambda (v: T).\lambda (b: B).\lambda (d1: C).\lambda (w: T).\lambda (h: nat).\lambda (H: (getl h (CHead c (Flat f) v) (CHead d1 (Bind b) w))).(match h return (\lambda (n: nat).(getl n (CHead c (Flat f) v) (CHead d1 (Bind b) w)) \to ex C (\lambda (d2: C).getl n c (CHead d2 (Bind b) w))) with [O \Rightarrow (\lambda (H0: (getl O (CHead c (Flat f) v) (CHead d1 (Bind b) w))).ex_intro C (\lambda (d2: C).getl O c (CHead d2 (Bind b) w)) d1 (getl_intro O c (CHead d1 (Bind b) w) c (drop_refl c) (clear_gen_flat f c (CHead d1 (Bind b) w) v (getl_gen_O (CHead c (Flat f) v) (CHead d1 (Bind b) w) H0)))) | (S n) \Rightarrow (\lambda (H0: (getl (S n) (CHead c (Flat f) v) (CHead d1 (Bind b) w))).ex_intro C (\lambda (d2: C).getl (S n) c (CHead d2 (Bind b) w)) d1 (getl_gen_S (Flat f) c (CHead d1 (Bind b) w) v n H0))]) H.
+
+theorem cimp_flat_dx: \forall (f: F).\forall (c: C).\forall (v: T).cimp c (CHead c (Flat f) v) \def \lambda (f: F).\lambda (c: C).\lambda (v: T).\lambda (b: B).\lambda (d1: C).\lambda (w: T).\lambda (h: nat).\lambda (H: (getl h c (CHead d1 (Bind b) w))).ex_intro C (\lambda (d2: C).getl h (CHead c (Flat f) v) (CHead d2 (Bind b) w)) d1 (getl_flat c (CHead d1 (Bind b) w) h H f v).
+
+theorem cimp_bind: \forall (c1: C).\forall (c2: C).(cimp c1 c2) \to \forall (b: B).\forall (v: T).cimp (CHead c1 (Bind b) v) (CHead c2 (Bind b) v) \def \lambda (c1: C).\lambda (c2: C).\lambda (H: ((\forall (b: B).\forall (d1: C).\forall (w: T).\forall (h: nat).(getl h c1 (CHead d1 (Bind b) w)) \to ex C (\lambda (d2: C).getl h c2 (CHead d2 (Bind b) w))))).\lambda (b: B).\lambda (v: T).\lambda (b0: B).\lambda (d1: C).\lambda (w: T).\lambda (h: nat).\lambda (H0: (getl h (CHead c1 (Bind b) v) (CHead d1 (Bind b0) w))).(match h return (\lambda (n: nat).(getl n (CHead c1 (Bind b) v) (CHead d1 (Bind b0) w)) \to ex C (\lambda (d2: C).getl n (CHead c2 (Bind b) v) (CHead d2 (Bind b0) w))) with [O \Rightarrow (\lambda (H1: (getl O (CHead c1 (Bind b) v) (CHead d1 (Bind b0) w))).let H2 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow d1 | (CHead c _ _) \Rightarrow c]) (CHead d1 (Bind b0) w) (CHead c1 (Bind b) v) (clear_gen_bind b c1 (CHead d1 (Bind b0) w) v (getl_gen_O (CHead c1 (Bind b) v) (CHead d1 (Bind b0) w) H1)) in (let H3 \def f_equal C B (\lambda (e: C).match e return B with [(CSort _) \Rightarrow b0 | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow b0])]) (CHead d1 (Bind b0) w) (CHead c1 (Bind b) v) (clear_gen_bind b c1 (CHead d1 (Bind b0) w) v (getl_gen_O (CHead c1 (Bind b) v) (CHead d1 (Bind b0) w) H1)) in (let H4 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow w | (CHead _ _ t) \Rightarrow t]) (CHead d1 (Bind b0) w) (CHead c1 (Bind b) v) (clear_gen_bind b c1 (CHead d1 (Bind b0) w) v (getl_gen_O (CHead c1 (Bind b) v) (CHead d1 (Bind b0) w) H1)) in \lambda (H5: (eq B b0 b)).\lambda (_: (eq C d1 c1)).eq_ind_r T v (\lambda (t: T).ex C (\lambda (d2: C).getl O (CHead c2 (Bind b) v) (CHead d2 (Bind b0) t))) (eq_ind_r B b (\lambda (b1: B).ex C (\lambda (d2: C).getl O (CHead c2 (Bind b) v) (CHead d2 (Bind b1) v))) (ex_intro C (\lambda (d2: C).getl O (CHead c2 (Bind b) v) (CHead d2 (Bind b) v)) c2 (getl_refl b c2 v)) b0 H5) w H4) H3) H2) | (S n) \Rightarrow (\lambda (H1: (getl (S n) (CHead c1 (Bind b) v) (CHead d1 (Bind b0) w))).let H_x \def H b0 d1 w (r (Bind b) n) (getl_gen_S (Bind b) c1 (CHead d1 (Bind b0) w) v n H1) in let H2 \def H_x in ex_ind C (\lambda (d2: C).getl (r (Bind b) n) c2 (CHead d2 (Bind b0) w)) (ex C (\lambda (d2: C).getl (S n) (CHead c2 (Bind b) v) (CHead d2 (Bind b0) w))) (\lambda (x: C).\lambda (H3: (getl (r (Bind b) n) c2 (CHead x (Bind b0) w))).ex_intro C (\lambda (d2: C).getl (S n) (CHead c2 (Bind b) v) (CHead d2 (Bind b0) w)) x (getl_head (Bind b) n c2 (CHead x (Bind b0) w) H3 v)) H2)]) H0.
+
+theorem getl_mono: \forall (c: C).\forall (x1: C).\forall (h: nat).(getl h c x1) \to \forall (x2: C).(getl h c x2) \to eq C x1 x2 \def \lambda (c: C).\lambda (x1: C).\lambda (h: nat).\lambda (H: (getl h c x1)).\lambda (x2: C).\lambda (H0: (getl h c x2)).let H1 \def getl_gen_all c x2 h H0 in ex2_ind C (\lambda (e: C).drop h O c e) (\lambda (e: C).clear e x2) (eq C x1 x2) (\lambda (x: C).\lambda (H2: (drop h O c x)).\lambda (H3: (clear x x2)).let H4 \def getl_gen_all c x1 h H in ex2_ind C (\lambda (e: C).drop h O c e) (\lambda (e: C).clear e x1) (eq C x1 x2) (\lambda (x0: C).\lambda (H5: (drop h O c x0)).\lambda (H6: (clear x0 x1)).let H7 \def eq_ind C x (\lambda (c0: C).drop h O c c0) H2 x0 (drop_mono c x O h H2 x0 H5) in let H8 \def eq_ind_r C x0 (\lambda (c0: C).drop h O c c0) H7 x (drop_mono c x O h H2 x0 H5) in let H9 \def eq_ind_r C x0 (\lambda (c: C).clear c x1) H6 x (drop_mono c x O h H2 x0 H5) in clear_mono x x1 H9 x2 H3) H4) H1.
+
+theorem getl_clear_conf: \forall (i: nat).\forall (c1: C).\forall (c3: C).(getl i c1 c3) \to \forall (c2: C).(clear c1 c2) \to getl i c2 c3 \def \lambda (i: nat).nat_ind (\lambda (n: nat).\forall (c1: C).\forall (c3: C).(getl n c1 c3) \to \forall (c2: C).(clear c1 c2) \to getl n c2 c3) (\lambda (c1: C).\lambda (c3: C).\lambda (H: (getl O c1 c3)).\lambda (c2: C).\lambda (H0: (clear c1 c2)).eq_ind C c3 (\lambda (c: C).getl O c c3) (let H1 \def clear_gen_all c1 c3 (getl_gen_O c1 c3 H) in ex_3_ind B C T (\lambda (b: B).\lambda (e: C).\lambda (u: T).eq C c3 (CHead e (Bind b) u)) (getl O c3 c3) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: T).\lambda (H2: (eq C c3 (CHead x1 (Bind x0) x2))).let H3 \def eq_ind C c3 (\lambda (c: C).clear c1 c) (getl_gen_O c1 c3 H) (CHead x1 (Bind x0) x2) H2 in eq_ind_r C (CHead x1 (Bind x0) x2) (\lambda (c: C).getl O c c) (getl_refl x0 x1 x2) c3 H2) H1) c2 (clear_mono c1 c3 (getl_gen_O c1 c3 H) c2 H0)) (\lambda (n: nat).\lambda (_: ((\forall (c1: C).\forall (c3: C).(getl n c1 c3) \to \forall (c2: C).(clear c1 c2) \to getl n c2 c3))).\lambda (c1: C).C_ind (\lambda (c: C).\forall (c3: C).(getl (S n) c c3) \to \forall (c2: C).(clear c c2) \to getl (S n) c2 c3) (\lambda (n0: nat).\lambda (c3: C).\lambda (H0: (getl (S n) (CSort n0) c3)).\lambda (c2: C).\lambda (_: (clear (CSort n0) c2)).getl_gen_sort n0 (S n) c3 H0 (getl (S n) c2 c3)) (\lambda (c: C).\lambda (H0: ((\forall (c3: C).(getl (S n) c c3) \to \forall (c2: C).(clear c c2) \to getl (S n) c2 c3))).\lambda (k: K).\lambda (t: T).\lambda (c3: C).\lambda (H1: (getl (S n) (CHead c k t) c3)).\lambda (c2: C).\lambda (H2: (clear (CHead c k t) c2)).(match k return (\lambda (k0: K).(getl (S n) (CHead c k0 t) c3) \to (clear (CHead c k0 t) c2) \to getl (S n) c2 c3) with [(Bind b) \Rightarrow (\lambda (H3: (getl (S n) (CHead c (Bind b) t) c3)).\lambda (H4: (clear (CHead c (Bind b) t) c2)).eq_ind_r C (CHead c (Bind b) t) (\lambda (c0: C).getl (S n) c0 c3) (getl_head (Bind b) n c c3 (getl_gen_S (Bind b) c c3 t n H3) t) c2 (clear_gen_bind b c c2 t H4)) | (Flat f) \Rightarrow (\lambda (H3: (getl (S n) (CHead c (Flat f) t) c3)).\lambda (H4: (clear (CHead c (Flat f) t) c2)).H0 c3 (getl_gen_S (Flat f) c c3 t n H3) c2 (clear_gen_flat f c c2 t H4))]) H1 H2) c1) i.
+
+theorem getl_drop_conf_lt: \forall (b: B).\forall (c: C).\forall (c0: C).\forall (u: T).\forall (i: nat).(getl i c (CHead c0 (Bind b) u)) \to \forall (e: C).\forall (h: nat).\forall (d: nat).(drop h (S (plus i d)) c e) \to ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h d v)) (\lambda (v: T).\lambda (e0: C).getl i e (CHead e0 (Bind b) v)) (\lambda (_: T).\lambda (e0: C).drop h d c0 e0) \def \lambda (b: B).\lambda (c: C).C_ind (\lambda (c0: C).\forall (c1: C).\forall (u: T).\forall (i: nat).(getl i c0 (CHead c1 (Bind b) u)) \to \forall (e: C).\forall (h: nat).\forall (d: nat).(drop h (S (plus i d)) c0 e) \to ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h d v)) (\lambda (v: T).\lambda (e0: C).getl i e (CHead e0 (Bind b) v)) (\lambda (_: T).\lambda (e0: C).drop h d c1 e0)) (\lambda (n: nat).\lambda (c0: C).\lambda (u: T).\lambda (i: nat).\lambda (H: (getl i (CSort n) (CHead c0 (Bind b) u))).\lambda (e: C).\lambda (h: nat).\lambda (d: nat).\lambda (_: (drop h (S (plus i d)) (CSort n) e)).getl_gen_sort n i (CHead c0 (Bind b) u) H (ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h d v)) (\lambda (v: T).\lambda (e0: C).getl i e (CHead e0 (Bind b) v)) (\lambda (_: T).\lambda (e0: C).drop h d c0 e0))) (\lambda (c0: C).\lambda (H: ((\forall (c1: C).\forall (u: T).\forall (i: nat).(getl i c0 (CHead c1 (Bind b) u)) \to \forall (e: C).\forall (h: nat).\forall (d: nat).(drop h (S (plus i d)) c0 e) \to ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h d v)) (\lambda (v: T).\lambda (e0: C).getl i e (CHead e0 (Bind b) v)) (\lambda (_: T).\lambda (e0: C).drop h d c1 e0)))).\lambda (k: K).\lambda (t: T).\lambda (c1: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i (CHead c0 k t) (CHead c1 (Bind b) u))).\lambda (e: C).\lambda (h: nat).\lambda (d: nat).\lambda (H1: (drop h (S (plus i d)) (CHead c0 k t) e)).let H2 \def getl_gen_all (CHead c0 k t) (CHead c1 (Bind b) u) i H0 in ex2_ind C (\lambda (e0: C).drop i O (CHead c0 k t) e0) (\lambda (e0: C).clear e0 (CHead c1 (Bind b) u)) (ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h d v)) (\lambda (v: T).\lambda (e0: C).getl i e (CHead e0 (Bind b) v)) (\lambda (_: T).\lambda (e0: C).drop h d c1 e0)) (\lambda (x: C).\lambda (H3: (drop i O (CHead c0 k t) x)).\lambda (H4: (clear x (CHead c1 (Bind b) u))).(match x return (\lambda (c2: C).(drop i O (CHead c0 k t) c2) \to (clear c2 (CHead c1 (Bind b) u)) \to ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h d v)) (\lambda (v: T).\lambda (e0: C).getl i e (CHead e0 (Bind b) v)) (\lambda (_: T).\lambda (e0: C).drop h d c1 e0)) with [(CSort n) \Rightarrow (\lambda (_: (drop i O (CHead c0 k t) (CSort n))).\lambda (H6: (clear (CSort n) (CHead c1 (Bind b) u))).clear_gen_sort (CHead c1 (Bind b) u) n H6 (ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h d v)) (\lambda (v: T).\lambda (e0: C).getl i e (CHead e0 (Bind b) v)) (\lambda (_: T).\lambda (e0: C).drop h d c1 e0))) | (CHead c2 k0 t0) \Rightarrow (\lambda (H5: (drop i O (CHead c0 k t) (CHead c2 k0 t0))).\lambda (H6: (clear (CHead c2 k0 t0) (CHead c1 (Bind b) u))).(match k0 return (\lambda (k1: K).(drop i O (CHead c0 k t) (CHead c2 k1 t0)) \to (clear (CHead c2 k1 t0) (CHead c1 (Bind b) u)) \to ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h d v)) (\lambda (v: T).\lambda (e0: C).getl i e (CHead e0 (Bind b) v)) (\lambda (_: T).\lambda (e0: C).drop h d c1 e0)) with [(Bind b0) \Rightarrow (\lambda (H7: (drop i O (CHead c0 k t) (CHead c2 (Bind b0) t0))).\lambda (H8: (clear (CHead c2 (Bind b0) t0) (CHead c1 (Bind b) u))).let H9 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow c1 | (CHead c _ _) \Rightarrow c]) (CHead c1 (Bind b) u) (CHead c2 (Bind b0) t0) (clear_gen_bind b0 c2 (CHead c1 (Bind b) u) t0 H8) in (let H10 \def f_equal C B (\lambda (e0: C).match e0 return B with [(CSort _) \Rightarrow b | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow b])]) (CHead c1 (Bind b) u) (CHead c2 (Bind b0) t0) (clear_gen_bind b0 c2 (CHead c1 (Bind b) u) t0 H8) in (let H11 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead c1 (Bind b) u) (CHead c2 (Bind b0) t0) (clear_gen_bind b0 c2 (CHead c1 (Bind b) u) t0 H8) in \lambda (H12: (eq B b b0)).\lambda (H13: (eq C c1 c2)).let H14 \def eq_ind_r T t0 (\lambda (t0: T).drop i O (CHead c0 k t) (CHead c2 (Bind b0) t0)) H7 u H11 in let H15 \def eq_ind_r B b0 (\lambda (b: B).drop i O (CHead c0 k t) (CHead c2 (Bind b) u)) H14 b H12 in let H16 \def eq_ind_r C c2 (\lambda (c: C).drop i O (CHead c0 k t) (CHead c (Bind b) u)) H15 c1 H13 in ex3_2_ind T C (\lambda (v: T).\lambda (_: C).eq T u (lift h (r (Bind b) d) v)) (\lambda (v: T).\lambda (e0: C).drop i O e (CHead e0 (Bind b) v)) (\lambda (_: T).\lambda (e0: C).drop h (r (Bind b) d) c1 e0) (ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h d v)) (\lambda (v: T).\lambda (e0: C).getl i e (CHead e0 (Bind b) v)) (\lambda (_: T).\lambda (e0: C).drop h d c1 e0)) (\lambda (x0: T).\lambda (x1: C).\lambda (H17: (eq T u (lift h (r (Bind b) d) x0))).\lambda (H18: (drop i O e (CHead x1 (Bind b) x0))).\lambda (H19: (drop h (r (Bind b) d) c1 x1)).eq_ind_r T (lift h (r (Bind b) d) x0) (\lambda (t1: T).ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T t1 (lift h d v)) (\lambda (v: T).\lambda (e0: C).getl i e (CHead e0 (Bind b) v)) (\lambda (_: T).\lambda (e0: C).drop h d c1 e0)) (ex3_2_intro T C (\lambda (v: T).\lambda (_: C).eq T (lift h (r (Bind b) d) x0) (lift h d v)) (\lambda (v: T).\lambda (e0: C).getl i e (CHead e0 (Bind b) v)) (\lambda (_: T).\lambda (e0: C).drop h d c1 e0) x0 x1 (refl_equal T (lift h d x0)) (getl_intro i e (CHead x1 (Bind b) x0) (CHead x1 (Bind b) x0) H18 (clear_bind b x1 x0)) H19) u H17) (drop_conf_lt (Bind b) i u c1 (CHead c0 k t) H16 e h d H1)) H10) H9) | (Flat f) \Rightarrow (\lambda (H7: (drop i O (CHead c0 k t) (CHead c2 (Flat f) t0))).\lambda (H8: (clear (CHead c2 (Flat f) t0) (CHead c1 (Bind b) u))).(match i return (\lambda (n: nat).(drop h (S (plus n d)) (CHead c0 k t) e) \to (drop n O (CHead c0 k t) (CHead c2 (Flat f) t0)) \to ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h d v)) (\lambda (v: T).\lambda (e0: C).getl n e (CHead e0 (Bind b) v)) (\lambda (_: T).\lambda (e0: C).drop h d c1 e0)) with [O \Rightarrow (\lambda (H9: (drop h (S (plus O d)) (CHead c0 k t) e)).\lambda (H10: (drop O O (CHead c0 k t) (CHead c2 (Flat f) t0))).let H11 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow c0 | (CHead c _ _) \Rightarrow c]) (CHead c0 k t) (CHead c2 (Flat f) t0) (drop_gen_refl (CHead c0 k t) (CHead c2 (Flat f) t0) H10) in (let H12 \def f_equal C K (\lambda (e0: C).match e0 return K with [(CSort _) \Rightarrow k | (CHead _ k _) \Rightarrow k]) (CHead c0 k t) (CHead c2 (Flat f) t0) (drop_gen_refl (CHead c0 k t) (CHead c2 (Flat f) t0) H10) in (let H13 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow t | (CHead _ _ t) \Rightarrow t]) (CHead c0 k t) (CHead c2 (Flat f) t0) (drop_gen_refl (CHead c0 k t) (CHead c2 (Flat f) t0) H10) in \lambda (H14: (eq K k (Flat f))).\lambda (H15: (eq C c0 c2)).let H16 \def eq_ind_r C c2 (\lambda (c: C).clear c (CHead c1 (Bind b) u)) (clear_gen_flat f c2 (CHead c1 (Bind b) u) t0 H8) c0 H15 in let H17 \def eq_ind K k (\lambda (k: K).drop h (S (plus O d)) (CHead c0 k t) e) H9 (Flat f) H14 in ex3_2_ind C T (\lambda (e0: C).\lambda (v: T).eq C e (CHead e0 (Flat f) v)) (\lambda (_: C).\lambda (v: T).eq T t (lift h (r (Flat f) (plus O d)) v)) (\lambda (e0: C).\lambda (_: T).drop h (r (Flat f) (plus O d)) c0 e0) (ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h d v)) (\lambda (v: T).\lambda (e0: C).getl O e (CHead e0 (Bind b) v)) (\lambda (_: T).\lambda (e0: C).drop h d c1 e0)) (\lambda (x0: C).\lambda (x1: T).\lambda (H18: (eq C e (CHead x0 (Flat f) x1))).\lambda (H19: (eq T t (lift h (r (Flat f) (plus O d)) x1))).\lambda (H20: (drop h (r (Flat f) (plus O d)) c0 x0)).let H21 \def f_equal T T (\lambda (e0: T).e0) t (lift h (r (Flat f) (plus O d)) x1) H19 in eq_ind_r C (CHead x0 (Flat f) x1) (\lambda (c3: C).ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h d v)) (\lambda (v: T).\lambda (e0: C).getl O c3 (CHead e0 (Bind b) v)) (\lambda (_: T).\lambda (e0: C).drop h d c1 e0)) (let H22 \def H c1 u O (getl_intro O c0 (CHead c1 (Bind b) u) c0 (drop_refl c0) H16) x0 h d H20 in ex3_2_ind T C (\lambda (v: T).\lambda (_: C).eq T u (lift h d v)) (\lambda (v: T).\lambda (e0: C).getl O x0 (CHead e0 (Bind b) v)) (\lambda (_: T).\lambda (e0: C).drop h d c1 e0) (ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h d v)) (\lambda (v: T).\lambda (e0: C).getl O (CHead x0 (Flat f) x1) (CHead e0 (Bind b) v)) (\lambda (_: T).\lambda (e0: C).drop h d c1 e0)) (\lambda (x2: T).\lambda (x3: C).\lambda (H23: (eq T u (lift h d x2))).\lambda (H24: (getl O x0 (CHead x3 (Bind b) x2))).\lambda (H25: (drop h d c1 x3)).let H26 \def eq_ind T u (\lambda (t: T).clear c0 (CHead c1 (Bind b) t)) H16 (lift h d x2) H23 in eq_ind_r T (lift h d x2) (\lambda (t1: T).ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T t1 (lift h d v)) (\lambda (v: T).\lambda (e0: C).getl O (CHead x0 (Flat f) x1) (CHead e0 (Bind b) v)) (\lambda (_: T).\lambda (e0: C).drop h d c1 e0)) (ex3_2_intro T C (\lambda (v: T).\lambda (_: C).eq T (lift h d x2) (lift h d v)) (\lambda (v: T).\lambda (e0: C).getl O (CHead x0 (Flat f) x1) (CHead e0 (Bind b) v)) (\lambda (_: T).\lambda (e0: C).drop h d c1 e0) x2 x3 (refl_equal T (lift h d x2)) (getl_flat x0 (CHead x3 (Bind b) x2) O H24 f x1) H25) u H23) H22) e H18) (drop_gen_skip_l c0 e t h (plus O d) (Flat f) H17)) H12) H11) | (S n) \Rightarrow (\lambda (H9: (drop h (S (plus (S n) d)) (CHead c0 k t) e)).\lambda (H10: (drop (S n) O (CHead c0 k t) (CHead c2 (Flat f) t0))).ex3_2_ind C T (\lambda (e0: C).\lambda (v: T).eq C e (CHead e0 k v)) (\lambda (_: C).\lambda (v: T).eq T t (lift h (r k (plus (S n) d)) v)) (\lambda (e0: C).\lambda (_: T).drop h (r k (plus (S n) d)) c0 e0) (ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h d v)) (\lambda (v: T).\lambda (e0: C).getl (S n) e (CHead e0 (Bind b) v)) (\lambda (_: T).\lambda (e0: C).drop h d c1 e0)) (\lambda (x0: C).\lambda (x1: T).\lambda (H11: (eq C e (CHead x0 k x1))).\lambda (H12: (eq T t (lift h (r k (plus (S n) d)) x1))).\lambda (H13: (drop h (r k (plus (S n) d)) c0 x0)).let H14 \def f_equal T T (\lambda (e0: T).e0) t (lift h (r k (plus (S n) d)) x1) H12 in eq_ind_r C (CHead x0 k x1) (\lambda (c3: C).ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h d v)) (\lambda (v: T).\lambda (e0: C).getl (S n) c3 (CHead e0 (Bind b) v)) (\lambda (_: T).\lambda (e0: C).drop h d c1 e0)) (let H15 \def eq_ind nat (r k (plus (S n) d)) (\lambda (n: nat).drop h n c0 x0) H13 (plus (r k (S n)) d) (r_plus k (S n) d) in let H16 \def eq_ind nat (r k (S n)) (\lambda (n: nat).drop h (plus n d) c0 x0) H15 (S (r k n)) (r_S k n) in let H17 \def H c1 u (r k n) (getl_intro (r k n) c0 (CHead c1 (Bind b) u) (CHead c2 (Flat f) t0) (drop_gen_drop k c0 (CHead c2 (Flat f) t0) t n H10) (clear_flat c2 (CHead c1 (Bind b) u) (clear_gen_flat f c2 (CHead c1 (Bind b) u) t0 H8) f t0)) x0 h d H16 in ex3_2_ind T C (\lambda (v: T).\lambda (_: C).eq T u (lift h d v)) (\lambda (v: T).\lambda (e0: C).getl (r k n) x0 (CHead e0 (Bind b) v)) (\lambda (_: T).\lambda (e0: C).drop h d c1 e0) (ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T u (lift h d v)) (\lambda (v: T).\lambda (e0: C).getl (S n) (CHead x0 k x1) (CHead e0 (Bind b) v)) (\lambda (_: T).\lambda (e0: C).drop h d c1 e0)) (\lambda (x2: T).\lambda (x3: C).\lambda (H18: (eq T u (lift h d x2))).\lambda (H19: (getl (r k n) x0 (CHead x3 (Bind b) x2))).\lambda (H20: (drop h d c1 x3)).let H21 \def eq_ind T u (\lambda (t: T).clear c2 (CHead c1 (Bind b) t)) (clear_gen_flat f c2 (CHead c1 (Bind b) u) t0 H8) (lift h d x2) H18 in eq_ind_r T (lift h d x2) (\lambda (t1: T).ex3_2 T C (\lambda (v: T).\lambda (_: C).eq T t1 (lift h d v)) (\lambda (v: T).\lambda (e0: C).getl (S n) (CHead x0 k x1) (CHead e0 (Bind b) v)) (\lambda (_: T).\lambda (e0: C).drop h d c1 e0)) (ex3_2_intro T C (\lambda (v: T).\lambda (_: C).eq T (lift h d x2) (lift h d v)) (\lambda (v: T).\lambda (e0: C).getl (S n) (CHead x0 k x1) (CHead e0 (Bind b) v)) (\lambda (_: T).\lambda (e0: C).drop h d c1 e0) x2 x3 (refl_equal T (lift h d x2)) (getl_head k n x0 (CHead x3 (Bind b) x2) H19 x1) H20) u H18) H17) e H11) (drop_gen_skip_l c0 e t h (plus (S n) d) k H9))]) H1 H7)]) H5 H6)]) H3 H4) H2) c.
+
+theorem getl_drop_conf_ge: \forall (i: nat).\forall (a: C).\forall (c: C).(getl i c a) \to \forall (e: C).\forall (h: nat).\forall (d: nat).(drop h d c e) \to (le (plus d h) i) \to getl (minus i h) e a \def \lambda (i: nat).\lambda (a: C).\lambda (c: C).\lambda (H: (getl i c a)).\lambda (e: C).\lambda (h: nat).\lambda (d: nat).\lambda (H0: (drop h d c e)).\lambda (H1: (le (plus d h) i)).let H2 \def getl_gen_all c a i H in ex2_ind C (\lambda (e0: C).drop i O c e0) (\lambda (e0: C).clear e0 a) (getl (minus i h) e a) (\lambda (x: C).\lambda (H3: (drop i O c x)).\lambda (H4: (clear x a)).getl_intro (minus i h) e a x (drop_conf_ge i x c H3 e h d H0 H1) H4) H2.
+
+theorem getl_conf_ge_drop: \forall (b: B).\forall (c1: C).\forall (e: C).\forall (u: T).\forall (i: nat).(getl i c1 (CHead e (Bind b) u)) \to \forall (c2: C).(drop (S O) i c1 c2) \to drop i O c2 e \def \lambda (b: B).\lambda (c1: C).\lambda (e: C).\lambda (u: T).\lambda (i: nat).\lambda (H: (getl i c1 (CHead e (Bind b) u))).\lambda (c2: C).\lambda (H0: (drop (S O) i c1 c2)).let H3 \def eq_ind nat (minus (S i) (S O)) (\lambda (n: nat).drop n O c2 e) (drop_conf_ge (S i) e c1 (getl_drop b c1 e u i H) c2 (S O) i H0 (eq_ind_r nat (plus (S O) i) (\lambda (n: nat).le n (S i)) (le_n (S i)) (plus i (S O)) (plus_sym i (S O)))) i (minus_Sx_SO i) in H3.
+
+theorem getl_conf_le: \forall (i: nat).\forall (a: C).\forall (c: C).(getl i c a) \to \forall (e: C).\forall (h: nat).(getl h c e) \to (le h i) \to getl (minus i h) e a \def \lambda (i: nat).\lambda (a: C).\lambda (c: C).\lambda (H: (getl i c a)).\lambda (e: C).\lambda (h: nat).\lambda (H0: (getl h c e)).\lambda (H1: (le h i)).let H2 \def getl_gen_all c e h H0 in ex2_ind C (\lambda (e0: C).drop h O c e0) (\lambda (e0: C).clear e0 e) (getl (minus i h) e a) (\lambda (x: C).\lambda (H3: (drop h O c x)).\lambda (H4: (clear x e)).getl_clear_conf (minus i h) x a (getl_drop_conf_ge i a c H x h O H3 H1) e H4) H2.
+
+theorem getl_drop_conf_rev: \forall (j: nat).\forall (e1: C).\forall (e2: C).(drop j O e1 e2) \to \forall (b: B).\forall (c2: C).\forall (v2: T).\forall (i: nat).(getl i c2 (CHead e2 (Bind b) v2)) \to ex2 C (\lambda (c1: C).drop j O c1 c2) (\lambda (c1: C).drop (S i) j c1 e1) \def \lambda (j: nat).\lambda (e1: C).\lambda (e2: C).\lambda (H: (drop j O e1 e2)).\lambda (b: B).\lambda (c2: C).\lambda (v2: T).\lambda (i: nat).\lambda (H0: (getl i c2 (CHead e2 (Bind b) v2))).drop_conf_rev j e1 e2 H c2 (S i) (getl_drop b c2 e2 v2 i H0).
+
+theorem drop_getl_trans_lt: \forall (i: nat).\forall (d: nat).(lt i d) \to \forall (c1: C).\forall (c2: C).\forall (h: nat).(drop h d c1 c2) \to \forall (b: B).\forall (e2: C).\forall (v: T).(getl i c2 (CHead e2 (Bind b) v)) \to ex2 C (\lambda (e1: C).getl i c1 (CHead e1 (Bind b) (lift h (minus d (S i)) v))) (\lambda (e1: C).drop h (minus d (S i)) e1 e2) \def \lambda (i: nat).\lambda (d: nat).\lambda (H: (lt i d)).\lambda (c1: C).\lambda (c2: C).\lambda (h: nat).\lambda (H0: (drop h d c1 c2)).\lambda (b: B).\lambda (e2: C).\lambda (v: T).\lambda (H1: (getl i c2 (CHead e2 (Bind b) v))).let H2 \def getl_gen_all c2 (CHead e2 (Bind b) v) i H1 in ex2_ind C (\lambda (e: C).drop i O c2 e) (\lambda (e: C).clear e (CHead e2 (Bind b) v)) (ex2 C (\lambda (e1: C).getl i c1 (CHead e1 (Bind b) (lift h (minus d (S i)) v))) (\lambda (e1: C).drop h (minus d (S i)) e1 e2)) (\lambda (x: C).\lambda (H3: (drop i O c2 x)).\lambda (H4: (clear x (CHead e2 (Bind b) v))).ex2_ind C (\lambda (e1: C).drop i O c1 e1) (\lambda (e1: C).drop h (minus d i) e1 x) (ex2 C (\lambda (e1: C).getl i c1 (CHead e1 (Bind b) (lift h (minus d (S i)) v))) (\lambda (e1: C).drop h (minus d (S i)) e1 e2)) (\lambda (x0: C).\lambda (H5: (drop i O c1 x0)).\lambda (H6: (drop h (minus d i) x0 x)).let H7 \def eq_ind nat (minus d i) (\lambda (n: nat).drop h n x0 x) H6 (S (minus d (S i))) (minus_x_Sy d i H) in let H8 \def drop_clear_S x x0 h (minus d (S i)) H7 b e2 v H4 in ex2_ind C (\lambda (c3: C).clear x0 (CHead c3 (Bind b) (lift h (minus d (S i)) v))) (\lambda (c3: C).drop h (minus d (S i)) c3 e2) (ex2 C (\lambda (e1: C).getl i c1 (CHead e1 (Bind b) (lift h (minus d (S i)) v))) (\lambda (e1: C).drop h (minus d (S i)) e1 e2)) (\lambda (x1: C).\lambda (H9: (clear x0 (CHead x1 (Bind b) (lift h (minus d (S i)) v)))).\lambda (H10: (drop h (minus d (S i)) x1 e2)).ex_intro2 C (\lambda (e1: C).getl i c1 (CHead e1 (Bind b) (lift h (minus d (S i)) v))) (\lambda (e1: C).drop h (minus d (S i)) e1 e2) x1 (getl_intro i c1 (CHead x1 (Bind b) (lift h (minus d (S i)) v)) x0 H5 H9) H10) H8) (drop_trans_le i d (le_S_n i d (le_S (S i) d H)) c1 c2 h H0 x H3)) H2.
+
+theorem drop_getl_trans_le: \forall (i: nat).\forall (d: nat).(le i d) \to \forall (c1: C).\forall (c2: C).\forall (h: nat).(drop h d c1 c2) \to \forall (e2: C).(getl i c2 e2) \to ex3_2 C C (\lambda (e0: C).\lambda (_: C).drop i O c1 e0) (\lambda (e0: C).\lambda (e1: C).drop h (minus d i) e0 e1) (\lambda (_: C).\lambda (e1: C).clear e1 e2) \def \lambda (i: nat).\lambda (d: nat).\lambda (H: (le i d)).\lambda (c1: C).\lambda (c2: C).\lambda (h: nat).\lambda (H0: (drop h d c1 c2)).\lambda (e2: C).\lambda (H1: (getl i c2 e2)).let H2 \def getl_gen_all c2 e2 i H1 in ex2_ind C (\lambda (e: C).drop i O c2 e) (\lambda (e: C).clear e e2) (ex3_2 C C (\lambda (e0: C).\lambda (_: C).drop i O c1 e0) (\lambda (e0: C).\lambda (e1: C).drop h (minus d i) e0 e1) (\lambda (_: C).\lambda (e1: C).clear e1 e2)) (\lambda (x: C).\lambda (H3: (drop i O c2 x)).\lambda (H4: (clear x e2)).let H5 \def drop_trans_le i d H c1 c2 h H0 x H3 in ex2_ind C (\lambda (e1: C).drop i O c1 e1) (\lambda (e1: C).drop h (minus d i) e1 x) (ex3_2 C C (\lambda (e0: C).\lambda (_: C).drop i O c1 e0) (\lambda (e0: C).\lambda (e1: C).drop h (minus d i) e0 e1) (\lambda (_: C).\lambda (e1: C).clear e1 e2)) (\lambda (x0: C).\lambda (H6: (drop i O c1 x0)).\lambda (H7: (drop h (minus d i) x0 x)).ex3_2_intro C C (\lambda (e0: C).\lambda (_: C).drop i O c1 e0) (\lambda (e0: C).\lambda (e1: C).drop h (minus d i) e0 e1) (\lambda (_: C).\lambda (e1: C).clear e1 e2) x0 x H6 H7 H4) H5) H2.
+
+theorem drop_getl_trans_ge: \forall (i: nat).\forall (c1: C).\forall (c2: C).\forall (d: nat).\forall (h: nat).(drop h d c1 c2) \to \forall (e2: C).(getl i c2 e2) \to (le d i) \to getl (plus i h) c1 e2 \def \lambda (i: nat).\lambda (c1: C).\lambda (c2: C).\lambda (d: nat).\lambda (h: nat).\lambda (H: (drop h d c1 c2)).\lambda (e2: C).\lambda (H0: (getl i c2 e2)).\lambda (H1: (le d i)).let H2 \def getl_gen_all c2 e2 i H0 in ex2_ind C (\lambda (e: C).drop i O c2 e) (\lambda (e: C).clear e e2) (getl (plus i h) c1 e2) (\lambda (x: C).\lambda (H3: (drop i O c2 x)).\lambda (H4: (clear x e2)).getl_intro (plus i h) c1 e2 x (drop_trans_ge i c1 c2 d h H x H3 H1) H4) H2.
+
+theorem getl_drop_trans: \forall (c1: C).\forall (c2: C).\forall (h: nat).(getl h c1 c2) \to \forall (e2: C).\forall (i: nat).(drop (S i) O c2 e2) \to drop (S (plus i h)) O c1 e2 \def \lambda (c1: C).C_ind (\lambda (c: C).\forall (c2: C).\forall (h: nat).(getl h c c2) \to \forall (e2: C).\forall (i: nat).(drop (S i) O c2 e2) \to drop (S (plus i h)) O c e2) (\lambda (n: nat).\lambda (c2: C).\lambda (h: nat).\lambda (H: (getl h (CSort n) c2)).\lambda (e2: C).\lambda (i: nat).\lambda (_: (drop (S i) O c2 e2)).getl_gen_sort n h c2 H (drop (S (plus i h)) O (CSort n) e2)) (\lambda (c2: C).\lambda (IHc: ((\forall (c3: C).\forall (h: nat).(getl h c2 c3) \to \forall (e2: C).\forall (i: nat).(drop (S i) O c3 e2) \to drop (S (plus i h)) O c2 e2))).\lambda (k: K).K_ind (\lambda (k0: K).\forall (t: T).\forall (c3: C).\forall (h: nat).(getl h (CHead c2 k0 t) c3) \to \forall (e2: C).\forall (i: nat).(drop (S i) O c3 e2) \to drop (S (plus i h)) O (CHead c2 k0 t) e2) (\lambda (b: B).\lambda (t: T).\lambda (c3: C).\lambda (h: nat).nat_ind (\lambda (n: nat).(getl n (CHead c2 (Bind b) t) c3) \to \forall (e2: C).\forall (i: nat).(drop (S i) O c3 e2) \to drop (S (plus i n)) O (CHead c2 (Bind b) t) e2) (\lambda (H: (getl O (CHead c2 (Bind b) t) c3)).\lambda (e2: C).\lambda (i: nat).\lambda (H0: (drop (S i) O c3 e2)).let H1 \def eq_ind C c3 (\lambda (c: C).drop (S i) O c e2) H0 (CHead c2 (Bind b) t) (clear_gen_bind b c2 c3 t (getl_gen_O (CHead c2 (Bind b) t) c3 H)) in eq_ind nat i (\lambda (n: nat).drop (S n) O (CHead c2 (Bind b) t) e2) (drop_drop (Bind b) i c2 e2 (drop_gen_drop (Bind b) c2 e2 t i H1) t) (plus i O) (plus_n_O i)) (\lambda (n: nat).\lambda (_: (((getl n (CHead c2 (Bind b) t) c3) \to \forall (e2: C).\forall (i: nat).(drop (S i) O c3 e2) \to drop (S (plus i n)) O (CHead c2 (Bind b) t) e2))).\lambda (H0: (getl (S n) (CHead c2 (Bind b) t) c3)).\lambda (e2: C).\lambda (i: nat).\lambda (H1: (drop (S i) O c3 e2)).eq_ind nat (plus (S i) n) (\lambda (n0: nat).drop (S n0) O (CHead c2 (Bind b) t) e2) (drop_drop (Bind b) (plus (S i) n) c2 e2 (IHc c3 n (getl_gen_S (Bind b) c2 c3 t n H0) e2 i H1) t) (plus i (S n)) (plus_Snm_nSm i n)) h) (\lambda (f: F).\lambda (t: T).\lambda (c3: C).\lambda (h: nat).nat_ind (\lambda (n: nat).(getl n (CHead c2 (Flat f) t) c3) \to \forall (e2: C).\forall (i: nat).(drop (S i) O c3 e2) \to drop (S (plus i n)) O (CHead c2 (Flat f) t) e2) (\lambda (H: (getl O (CHead c2 (Flat f) t) c3)).\lambda (e2: C).\lambda (i: nat).\lambda (H0: (drop (S i) O c3 e2)).drop_drop (Flat f) (plus i O) c2 e2 (IHc c3 O (getl_intro O c2 c3 c2 (drop_refl c2) (clear_gen_flat f c2 c3 t (getl_gen_O (CHead c2 (Flat f) t) c3 H))) e2 i H0) t) (\lambda (n: nat).\lambda (_: (((getl n (CHead c2 (Flat f) t) c3) \to \forall (e2: C).\forall (i: nat).(drop (S i) O c3 e2) \to drop (S (plus i n)) O (CHead c2 (Flat f) t) e2))).\lambda (H0: (getl (S n) (CHead c2 (Flat f) t) c3)).\lambda (e2: C).\lambda (i: nat).\lambda (H1: (drop (S i) O c3 e2)).drop_drop (Flat f) (plus i (S n)) c2 e2 (IHc c3 (S n) (getl_gen_S (Flat f) c2 c3 t n H0) e2 i H1) t) h) k) c1.
+
+theorem getl_trans: \forall (i: nat).\forall (c1: C).\forall (c2: C).\forall (h: nat).(getl h c1 c2) \to \forall (e2: C).(getl i c2 e2) \to getl (plus i h) c1 e2 \def \lambda (i: nat).\lambda (c1: C).\lambda (c2: C).\lambda (h: nat).\lambda (H: (getl h c1 c2)).\lambda (e2: C).\lambda (H0: (getl i c2 e2)).let H1 \def getl_gen_all c2 e2 i H0 in ex2_ind C (\lambda (e: C).drop i O c2 e) (\lambda (e: C).clear e e2) (getl (plus i h) c1 e2) (\lambda (x: C).\lambda (H2: (drop i O c2 x)).\lambda (H3: (clear x e2)).(match i return (\lambda (n: nat).(drop n O c2 x) \to getl (plus n h) c1 e2) with [O \Rightarrow (\lambda (H4: (drop O O c2 x)).let H5 \def eq_ind_r C x (\lambda (c: C).clear c e2) H3 c2 (drop_gen_refl c2 x H4) in getl_clear_trans (plus O h) c1 c2 H e2 H5) | (S n) \Rightarrow (\lambda (H4: (drop (S n) O c2 x)).let H_y \def getl_drop_trans c1 c2 h H x n H4 in getl_intro (plus (S n) h) c1 e2 x H_y H3)]) H2) H1.
+
+theorem drop1_getl_trans: \forall (hds: PList).\forall (c1: C).\forall (c2: C).(drop1 hds c2 c1) \to \forall (b: B).\forall (e1: C).\forall (v: T).\forall (i: nat).(getl i c1 (CHead e1 (Bind b) v)) \to ex C (\lambda (e2: C).getl (trans hds i) c2 (CHead e2 (Bind b) (ctrans hds i v))) \def \lambda (hds: PList).PList_ind (\lambda (p: PList).\forall (c1: C).\forall (c2: C).(drop1 p c2 c1) \to \forall (b: B).\forall (e1: C).\forall (v: T).\forall (i: nat).(getl i c1 (CHead e1 (Bind b) v)) \to ex C (\lambda (e2: C).getl (trans p i) c2 (CHead e2 (Bind b) (ctrans p i v)))) (\lambda (c1: C).\lambda (c2: C).\lambda (H: (drop1 PNil c2 c1)).\lambda (b: B).\lambda (e1: C).\lambda (v: T).\lambda (i: nat).\lambda (H0: (getl i c1 (CHead e1 (Bind b) v))).let H1 \def match H return (\lambda (p: PList).\lambda (c: C).\lambda (c0: C).(eq PList p PNil) \to (eq C c c2) \to (eq C c0 c1) \to ex C (\lambda (e2: C).getl i c2 (CHead e2 (Bind b) v))) with [(drop1_nil c) \Rightarrow (\lambda (_: (eq PList PNil PNil)).\lambda (H2: (eq C c c2)).\lambda (H3: (eq C c c1)).eq_ind C c2 (\lambda (c0: C).(eq C c0 c1) \to ex C (\lambda (e2: C).getl i c2 (CHead e2 (Bind b) v))) (\lambda (H4: (eq C c2 c1)).eq_ind C c1 (\lambda (c0: C).ex C (\lambda (e2: C).getl i c0 (CHead e2 (Bind b) v))) (ex_intro C (\lambda (e2: C).getl i c1 (CHead e2 (Bind b) v)) e1 H0) c2 (sym_eq C c2 c1 H4)) c (sym_eq C c c2 H2) H3) | (drop1_cons c0 c3 h d H1 c4 hds H2) \Rightarrow (\lambda (H3: (eq PList (PCons h d hds) PNil)).\lambda (H4: (eq C c0 c2)).\lambda (H5: (eq C c4 c1)).(let H6 \def eq_ind PList (PCons h d hds) (\lambda (e: PList).match e return (Prop) with [PNil \Rightarrow False | (PCons _ _ _) \Rightarrow True]) I PNil H3 in False_ind ((eq C c0 c2) \to (eq C c4 c1) \to (drop h d c0 c3) \to (drop1 hds c3 c4) \to ex C (\lambda (e2: C).getl i c2 (CHead e2 (Bind b) v))) H6) H4 H5 H1 H2)] in H1 (refl_equal PList PNil) (refl_equal C c2) (refl_equal C c1)) (\lambda (h: nat).\lambda (d: nat).\lambda (hds0: PList).\lambda (H: ((\forall (c1: C).\forall (c2: C).(drop1 hds0 c2 c1) \to \forall (b: B).\forall (e1: C).\forall (v: T).\forall (i: nat).(getl i c1 (CHead e1 (Bind b) v)) \to ex C (\lambda (e2: C).getl (trans hds0 i) c2 (CHead e2 (Bind b) (ctrans hds0 i v)))))).\lambda (c1: C).\lambda (c2: C).\lambda (H0: (drop1 (PCons h d hds0) c2 c1)).\lambda (b: B).\lambda (e1: C).\lambda (v: T).\lambda (i: nat).\lambda (H1: (getl i c1 (CHead e1 (Bind b) v))).let H2 \def match H0 return (\lambda (p: PList).\lambda (c: C).\lambda (c0: C).(eq PList p (PCons h d hds0)) \to (eq C c c2) \to (eq C c0 c1) \to ex C (\lambda (e2: C).getl (match (blt (trans hds0 i) d) with [true \Rightarrow (trans hds0 i) | false \Rightarrow (plus (trans hds0 i) h)]) c2 (CHead e2 (Bind b) (match (blt (trans hds0 i) d) with [true \Rightarrow (lift h (minus d (S (trans hds0 i))) (ctrans hds0 i v)) | false \Rightarrow (ctrans hds0 i v)])))) with [(drop1_nil c) \Rightarrow (\lambda (H2: (eq PList PNil (PCons h d hds0))).\lambda (H3: (eq C c c2)).\lambda (H4: (eq C c c1)).(let H5 \def eq_ind PList PNil (\lambda (e: PList).match e return (Prop) with [PNil \Rightarrow True | (PCons _ _ _) \Rightarrow False]) I (PCons h d hds0) H2 in False_ind ((eq C c c2) \to (eq C c c1) \to ex C (\lambda (e2: C).getl (match (blt (trans hds0 i) d) with [true \Rightarrow (trans hds0 i) | false \Rightarrow (plus (trans hds0 i) h)]) c2 (CHead e2 (Bind b) (match (blt (trans hds0 i) d) with [true \Rightarrow (lift h (minus d (S (trans hds0 i))) (ctrans hds0 i v)) | false \Rightarrow (ctrans hds0 i v)])))) H5) H3 H4) | (drop1_cons c0 c3 h0 d0 H2 c4 hds0 H3) \Rightarrow (\lambda (H4: (eq PList (PCons h0 d0 hds0) (PCons h d hds0))).\lambda (H5: (eq C c0 c2)).\lambda (H6: (eq C c4 c1)).(let H7 \def f_equal PList PList (\lambda (e: PList).match e return PList with [PNil \Rightarrow hds0 | (PCons _ _ p) \Rightarrow p]) (PCons h0 d0 hds0) (PCons h d hds0) H4 in (let H8 \def f_equal PList nat (\lambda (e: PList).match e return nat with [PNil \Rightarrow d0 | (PCons _ n _) \Rightarrow n]) (PCons h0 d0 hds0) (PCons h d hds0) H4 in (let H9 \def f_equal PList nat (\lambda (e: PList).match e return nat with [PNil \Rightarrow h0 | (PCons n _ _) \Rightarrow n]) (PCons h0 d0 hds0) (PCons h d hds0) H4 in eq_ind nat h (\lambda (n: nat).(eq nat d0 d) \to (eq PList hds0 hds0) \to (eq C c0 c2) \to (eq C c4 c1) \to (drop n d0 c0 c3) \to (drop1 hds0 c3 c4) \to ex C (\lambda (e2: C).getl (match (blt (trans hds0 i) d) with [true \Rightarrow (trans hds0 i) | false \Rightarrow (plus (trans hds0 i) h)]) c2 (CHead e2 (Bind b) (match (blt (trans hds0 i) d) with [true \Rightarrow (lift h (minus d (S (trans hds0 i))) (ctrans hds0 i v)) | false \Rightarrow (ctrans hds0 i v)])))) (\lambda (H10: (eq nat d0 d)).eq_ind nat d (\lambda (n: nat).(eq PList hds0 hds0) \to (eq C c0 c2) \to (eq C c4 c1) \to (drop h n c0 c3) \to (drop1 hds0 c3 c4) \to ex C (\lambda (e2: C).getl (match (blt (trans hds0 i) d) with [true \Rightarrow (trans hds0 i) | false \Rightarrow (plus (trans hds0 i) h)]) c2 (CHead e2 (Bind b) (match (blt (trans hds0 i) d) with [true \Rightarrow (lift h (minus d (S (trans hds0 i))) (ctrans hds0 i v)) | false \Rightarrow (ctrans hds0 i v)])))) (\lambda (H11: (eq PList hds0 hds0)).eq_ind PList hds0 (\lambda (p: PList).(eq C c0 c2) \to (eq C c4 c1) \to (drop h d c0 c3) \to (drop1 p c3 c4) \to ex C (\lambda (e2: C).getl (match (blt (trans hds0 i) d) with [true \Rightarrow (trans hds0 i) | false \Rightarrow (plus (trans hds0 i) h)]) c2 (CHead e2 (Bind b) (match (blt (trans hds0 i) d) with [true \Rightarrow (lift h (minus d (S (trans hds0 i))) (ctrans hds0 i v)) | false \Rightarrow (ctrans hds0 i v)])))) (\lambda (H12: (eq C c0 c2)).eq_ind C c2 (\lambda (c: C).(eq C c4 c1) \to (drop h d c c3) \to (drop1 hds0 c3 c4) \to ex C (\lambda (e2: C).getl (match (blt (trans hds0 i) d) with [true \Rightarrow (trans hds0 i) | false \Rightarrow (plus (trans hds0 i) h)]) c2 (CHead e2 (Bind b) (match (blt (trans hds0 i) d) with [true \Rightarrow (lift h (minus d (S (trans hds0 i))) (ctrans hds0 i v)) | false \Rightarrow (ctrans hds0 i v)])))) (\lambda (H13: (eq C c4 c1)).eq_ind C c1 (\lambda (c: C).(drop h d c2 c3) \to (drop1 hds0 c3 c) \to ex C (\lambda (e2: C).getl (match (blt (trans hds0 i) d) with [true \Rightarrow (trans hds0 i) | false \Rightarrow (plus (trans hds0 i) h)]) c2 (CHead e2 (Bind b) (match (blt (trans hds0 i) d) with [true \Rightarrow (lift h (minus d (S (trans hds0 i))) (ctrans hds0 i v)) | false \Rightarrow (ctrans hds0 i v)])))) (\lambda (H14: (drop h d c2 c3)).\lambda (H15: (drop1 hds0 c3 c1)).xinduction bool (blt (trans hds0 i) d) (\lambda (b0: bool).ex C (\lambda (e2: C).getl (match b0 with [true \Rightarrow (trans hds0 i) | false \Rightarrow (plus (trans hds0 i) h)]) c2 (CHead e2 (Bind b) (match b0 with [true \Rightarrow (lift h (minus d (S (trans hds0 i))) (ctrans hds0 i v)) | false \Rightarrow (ctrans hds0 i v)])))) (\lambda (x_x: bool).bool_ind (\lambda (b0: bool).(eq bool (blt (trans hds0 i) d) b0) \to ex C (\lambda (e2: C).getl (match b0 with [true \Rightarrow (trans hds0 i) | false \Rightarrow (plus (trans hds0 i) h)]) c2 (CHead e2 (Bind b) (match b0 with [true \Rightarrow (lift h (minus d (S (trans hds0 i))) (ctrans hds0 i v)) | false \Rightarrow (ctrans hds0 i v)])))) (\lambda (H0: (eq bool (blt (trans hds0 i) d) true)).let H_x \def H c1 c3 H15 b e1 v i H1 in let H16 \def H_x in ex_ind C (\lambda (e2: C).getl (trans hds0 i) c3 (CHead e2 (Bind b) (ctrans hds0 i v))) (ex C (\lambda (e2: C).getl (trans hds0 i) c2 (CHead e2 (Bind b) (lift h (minus d (S (trans hds0 i))) (ctrans hds0 i v))))) (\lambda (x: C).\lambda (H17: (getl (trans hds0 i) c3 (CHead x (Bind b) (ctrans hds0 i v)))).let H_x0 \def drop_getl_trans_lt (trans hds0 i) d (le_S_n (S (trans hds0 i)) d (lt_le_S (S (trans hds0 i)) (S d) (blt_lt (S d) (S (trans hds0 i)) H0))) c2 c3 h H14 b x (ctrans hds0 i v) H17 in let H \def H_x0 in ex2_ind C (\lambda (e1: C).getl (trans hds0 i) c2 (CHead e1 (Bind b) (lift h (minus d (S (trans hds0 i))) (ctrans hds0 i v)))) (\lambda (e1: C).drop h (minus d (S (trans hds0 i))) e1 x) (ex C (\lambda (e2: C).getl (trans hds0 i) c2 (CHead e2 (Bind b) (lift h (minus d (S (trans hds0 i))) (ctrans hds0 i v))))) (\lambda (x0: C).\lambda (H1: (getl (trans hds0 i) c2 (CHead x0 (Bind b) (lift h (minus d (S (trans hds0 i))) (ctrans hds0 i v))))).\lambda (_: (drop h (minus d (S (trans hds0 i))) x0 x)).ex_intro C (\lambda (e2: C).getl (trans hds0 i) c2 (CHead e2 (Bind b) (lift h (minus d (S (trans hds0 i))) (ctrans hds0 i v)))) x0 H1) H) H16) (\lambda (H0: (eq bool (blt (trans hds0 i) d) false)).let H_x \def H c1 c3 H15 b e1 v i H1 in let H16 \def H_x in ex_ind C (\lambda (e2: C).getl (trans hds0 i) c3 (CHead e2 (Bind b) (ctrans hds0 i v))) (ex C (\lambda (e2: C).getl (plus (trans hds0 i) h) c2 (CHead e2 (Bind b) (ctrans hds0 i v)))) (\lambda (x: C).\lambda (H17: (getl (trans hds0 i) c3 (CHead x (Bind b) (ctrans hds0 i v)))).let H \def drop_getl_trans_ge (trans hds0 i) c2 c3 d h H14 (CHead x (Bind b) (ctrans hds0 i v)) H17 in ex_intro C (\lambda (e2: C).getl (plus (trans hds0 i) h) c2 (CHead e2 (Bind b) (ctrans hds0 i v))) x (H (bge_le d (trans hds0 i) H0))) H16) x_x)) c4 (sym_eq C c4 c1 H13)) c0 (sym_eq C c0 c2 H12)) hds0 (sym_eq PList hds0 hds0 H11)) d0 (sym_eq nat d0 d H10)) h0 (sym_eq nat h0 h H9)) H8) H7) H5 H6 H2 H3)] in H2 (refl_equal PList (PCons h d hds0)) (refl_equal C c2) (refl_equal C c1)) hds.
+
+theorem cimp_getl_conf: \forall (c1: C).\forall (c2: C).(cimp c1 c2) \to \forall (b: B).\forall (d1: C).\forall (w: T).\forall (i: nat).(getl i c1 (CHead d1 (Bind b) w)) \to ex2 C (\lambda (d2: C).cimp d1 d2) (\lambda (d2: C).getl i c2 (CHead d2 (Bind b) w)) \def \lambda (c1: C).\lambda (c2: C).\lambda (H: ((\forall (b: B).\forall (d1: C).\forall (w: T).\forall (h: nat).(getl h c1 (CHead d1 (Bind b) w)) \to ex C (\lambda (d2: C).getl h c2 (CHead d2 (Bind b) w))))).\lambda (b: B).\lambda (d1: C).\lambda (w: T).\lambda (i: nat).\lambda (H0: (getl i c1 (CHead d1 (Bind b) w))).let H_x \def H b d1 w i H0 in let H1 \def H_x in ex_ind C (\lambda (d2: C).getl i c2 (CHead d2 (Bind b) w)) (ex2 C (\lambda (d2: C).\forall (b0: B).\forall (d3: C).\forall (w0: T).\forall (h: nat).(getl h d1 (CHead d3 (Bind b0) w0)) \to ex C (\lambda (d4: C).getl h d2 (CHead d4 (Bind b0) w0))) (\lambda (d2: C).getl i c2 (CHead d2 (Bind b) w))) (\lambda (x: C).\lambda (H2: (getl i c2 (CHead x (Bind b) w))).ex_intro2 C (\lambda (d2: C).\forall (b0: B).\forall (d3: C).\forall (w0: T).\forall (h: nat).(getl h d1 (CHead d3 (Bind b0) w0)) \to ex C (\lambda (d4: C).getl h d2 (CHead d4 (Bind b0) w0))) (\lambda (d2: C).getl i c2 (CHead d2 (Bind b) w)) x (\lambda (b0: B).\lambda (d0: C).\lambda (w0: T).\lambda (h: nat).\lambda (H3: (getl h d1 (CHead d0 (Bind b0) w0))).let H_y \def getl_trans (S h) c1 (CHead d1 (Bind b) w) i H0 in let H_x0 \def H b0 d0 w0 (plus (S h) i) (H_y (CHead d0 (Bind b0) w0) (getl_head (Bind b) h d1 (CHead d0 (Bind b0) w0) H3 w)) in let H4 \def H_x0 in ex_ind C (\lambda (d2: C).getl (plus (S h) i) c2 (CHead d2 (Bind b0) w0)) (ex C (\lambda (d2: C).getl h x (CHead d2 (Bind b0) w0))) (\lambda (x0: C).\lambda (H5: (getl (plus (S h) i) c2 (CHead x0 (Bind b0) w0))).let H_y0 \def getl_conf_le (plus (S h) i) (CHead x0 (Bind b0) w0) c2 H5 (CHead x (Bind b) w) i H2 in let H6 \def eq_ind nat (minus (plus (S h) i) i) (\lambda (n: nat).getl n (CHead x (Bind b) w) (CHead x0 (Bind b0) w0)) (H_y0 (le_plus_r (S h) i)) (S h) (minus_plus_r (S h) i) in ex_intro C (\lambda (d2: C).getl h x (CHead d2 (Bind b0) w0)) x0 (getl_gen_S (Bind b) x (CHead x0 (Bind b0) w0) w h H6)) H4) H2) H1.
+
+inductive subst0: nat \to T \to T \to T \to Prop \def
+| subst0_lref: \forall (v: T).\forall (i: nat).subst0 i v (TLRef i) (lift (S i) O v)
+| subst0_fst: \forall (v: T).\forall (u2: T).\forall (u1: T).\forall (i: nat).(subst0 i v u1 u2) \to \forall (t: T).\forall (k: K).subst0 i v (THead k u1 t) (THead k u2 t)
+| subst0_snd: \forall (k: K).\forall (v: T).\forall (t2: T).\forall (t1: T).\forall (i: nat).(subst0 (s k i) v t1 t2) \to \forall (u: T).subst0 i v (THead k u t1) (THead k u t2)
+| subst0_both: \forall (v: T).\forall (u1: T).\forall (u2: T).\forall (i: nat).(subst0 i v u1 u2) \to \forall (k: K).\forall (t1: T).\forall (t2: T).(subst0 (s k i) v t1 t2) \to subst0 i v (THead k u1 t1) (THead k u2 t2).
+
+theorem subst0_gen_sort: \forall (v: T).\forall (x: T).\forall (i: nat).\forall (n: nat).(subst0 i v (TSort n) x) \to \forall (P: (Prop)).P \def \lambda (v: T).\lambda (x: T).\lambda (i: nat).\lambda (n: nat).\lambda (H: (subst0 i v (TSort n) x)).\lambda (P: (Prop)).let H0 \def match H return (\lambda (n0: nat).\lambda (t: T).\lambda (t0: T).\lambda (t1: T).(eq nat n0 i) \to (eq T t v) \to (eq T t0 (TSort n)) \to (eq T t1 x) \to P) with [(subst0_lref v0 i0) \Rightarrow (\lambda (H0: (eq nat i0 i)).\lambda (H1: (eq T v0 v)).\lambda (H2: (eq T (TLRef i0) (TSort n))).\lambda (H3: (eq T (lift (S i0) O v0) x)).eq_ind nat i (\lambda (n0: nat).(eq T v0 v) \to (eq T (TLRef n0) (TSort n)) \to (eq T (lift (S n0) O v0) x) \to P) (\lambda (H4: (eq T v0 v)).eq_ind T v (\lambda (t: T).(eq T (TLRef i) (TSort n)) \to (eq T (lift (S i) O t) x) \to P) (\lambda (H5: (eq T (TLRef i) (TSort n))).let H6 \def eq_ind T (TLRef i) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (TSort n) H5 in False_ind ((eq T (lift (S i) O v) x) \to P) H6) v0 (sym_eq T v0 v H4)) i0 (sym_eq nat i0 i H0) H1 H2 H3) | (subst0_fst v0 u2 u1 i0 H0 t k) \Rightarrow (\lambda (H1: (eq nat i0 i)).\lambda (H2: (eq T v0 v)).\lambda (H3: (eq T (THead k u1 t) (TSort n))).\lambda (H4: (eq T (THead k u2 t) x)).eq_ind nat i (\lambda (n0: nat).(eq T v0 v) \to (eq T (THead k u1 t) (TSort n)) \to (eq T (THead k u2 t) x) \to (subst0 n0 v0 u1 u2) \to P) (\lambda (H5: (eq T v0 v)).eq_ind T v (\lambda (t0: T).(eq T (THead k u1 t) (TSort n)) \to (eq T (THead k u2 t) x) \to (subst0 i t0 u1 u2) \to P) (\lambda (H6: (eq T (THead k u1 t) (TSort n))).let H7 \def eq_ind T (THead k u1 t) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TSort n) H6 in False_ind ((eq T (THead k u2 t) x) \to (subst0 i v u1 u2) \to P) H7) v0 (sym_eq T v0 v H5)) i0 (sym_eq nat i0 i H1) H2 H3 H4 H0) | (subst0_snd k v0 t2 t1 i0 H0 u) \Rightarrow (\lambda (H1: (eq nat i0 i)).\lambda (H2: (eq T v0 v)).\lambda (H3: (eq T (THead k u t1) (TSort n))).\lambda (H4: (eq T (THead k u t2) x)).eq_ind nat i (\lambda (n0: nat).(eq T v0 v) \to (eq T (THead k u t1) (TSort n)) \to (eq T (THead k u t2) x) \to (subst0 (s k n0) v0 t1 t2) \to P) (\lambda (H5: (eq T v0 v)).eq_ind T v (\lambda (t: T).(eq T (THead k u t1) (TSort n)) \to (eq T (THead k u t2) x) \to (subst0 (s k i) t t1 t2) \to P) (\lambda (H6: (eq T (THead k u t1) (TSort n))).let H7 \def eq_ind T (THead k u t1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TSort n) H6 in False_ind ((eq T (THead k u t2) x) \to (subst0 (s k i) v t1 t2) \to P) H7) v0 (sym_eq T v0 v H5)) i0 (sym_eq nat i0 i H1) H2 H3 H4 H0) | (subst0_both v0 u1 u2 i0 H0 k t1 t2 H1) \Rightarrow (\lambda (H2: (eq nat i0 i)).\lambda (H3: (eq T v0 v)).\lambda (H4: (eq T (THead k u1 t1) (TSort n))).\lambda (H5: (eq T (THead k u2 t2) x)).eq_ind nat i (\lambda (n0: nat).(eq T v0 v) \to (eq T (THead k u1 t1) (TSort n)) \to (eq T (THead k u2 t2) x) \to (subst0 n0 v0 u1 u2) \to (subst0 (s k n0) v0 t1 t2) \to P) (\lambda (H6: (eq T v0 v)).eq_ind T v (\lambda (t: T).(eq T (THead k u1 t1) (TSort n)) \to (eq T (THead k u2 t2) x) \to (subst0 i t u1 u2) \to (subst0 (s k i) t t1 t2) \to P) (\lambda (H7: (eq T (THead k u1 t1) (TSort n))).let H8 \def eq_ind T (THead k u1 t1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TSort n) H7 in False_ind ((eq T (THead k u2 t2) x) \to (subst0 i v u1 u2) \to (subst0 (s k i) v t1 t2) \to P) H8) v0 (sym_eq T v0 v H6)) i0 (sym_eq nat i0 i H2) H3 H4 H5 H0 H1)] in H0 (refl_equal nat i) (refl_equal T v) (refl_equal T (TSort n)) (refl_equal T x).
+
+theorem subst0_gen_lref: \forall (v: T).\forall (x: T).\forall (i: nat).\forall (n: nat).(subst0 i v (TLRef n) x) \to and (eq nat n i) (eq T x (lift (S n) O v)) \def \lambda (v: T).\lambda (x: T).\lambda (i: nat).\lambda (n: nat).\lambda (H: (subst0 i v (TLRef n) x)).let H0 \def match H return (\lambda (n0: nat).\lambda (t: T).\lambda (t0: T).\lambda (t1: T).(eq nat n0 i) \to (eq T t v) \to (eq T t0 (TLRef n)) \to (eq T t1 x) \to and (eq nat n i) (eq T x (lift (S n) O v))) with [(subst0_lref v0 i0) \Rightarrow (\lambda (H0: (eq nat i0 i)).\lambda (H1: (eq T v0 v)).\lambda (H2: (eq T (TLRef i0) (TLRef n))).\lambda (H3: (eq T (lift (S i0) O v0) x)).eq_ind nat i (\lambda (n0: nat).(eq T v0 v) \to (eq T (TLRef n0) (TLRef n)) \to (eq T (lift (S n0) O v0) x) \to and (eq nat n i) (eq T x (lift (S n) O v))) (\lambda (H4: (eq T v0 v)).eq_ind T v (\lambda (t: T).(eq T (TLRef i) (TLRef n)) \to (eq T (lift (S i) O t) x) \to and (eq nat n i) (eq T x (lift (S n) O v))) (\lambda (H5: (eq T (TLRef i) (TLRef n))).let H6 \def f_equal T nat (\lambda (e: T).match e return nat with [(TSort _) \Rightarrow i | (TLRef n) \Rightarrow n | (THead _ _ _) \Rightarrow i]) (TLRef i) (TLRef n) H5 in eq_ind nat n (\lambda (n0: nat).(eq T (lift (S n0) O v) x) \to and (eq nat n n0) (eq T x (lift (S n) O v))) (\lambda (H7: (eq T (lift (S n) O v) x)).eq_ind T (lift (S n) O v) (\lambda (t: T).and (eq nat n n) (eq T t (lift (S n) O v))) (conj (eq nat n n) (eq T (lift (S n) O v) (lift (S n) O v)) (refl_equal nat n) (refl_equal T (lift (S n) O v))) x H7) i (sym_eq nat i n H6)) v0 (sym_eq T v0 v H4)) i0 (sym_eq nat i0 i H0) H1 H2 H3) | (subst0_fst v0 u2 u1 i0 H0 t k) \Rightarrow (\lambda (H1: (eq nat i0 i)).\lambda (H2: (eq T v0 v)).\lambda (H3: (eq T (THead k u1 t) (TLRef n))).\lambda (H4: (eq T (THead k u2 t) x)).eq_ind nat i (\lambda (n0: nat).(eq T v0 v) \to (eq T (THead k u1 t) (TLRef n)) \to (eq T (THead k u2 t) x) \to (subst0 n0 v0 u1 u2) \to and (eq nat n i) (eq T x (lift (S n) O v))) (\lambda (H5: (eq T v0 v)).eq_ind T v (\lambda (t0: T).(eq T (THead k u1 t) (TLRef n)) \to (eq T (THead k u2 t) x) \to (subst0 i t0 u1 u2) \to and (eq nat n i) (eq T x (lift (S n) O v))) (\lambda (H6: (eq T (THead k u1 t) (TLRef n))).let H7 \def eq_ind T (THead k u1 t) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef n) H6 in False_ind ((eq T (THead k u2 t) x) \to (subst0 i v u1 u2) \to and (eq nat n i) (eq T x (lift (S n) O v))) H7) v0 (sym_eq T v0 v H5)) i0 (sym_eq nat i0 i H1) H2 H3 H4 H0) | (subst0_snd k v0 t2 t1 i0 H0 u) \Rightarrow (\lambda (H1: (eq nat i0 i)).\lambda (H2: (eq T v0 v)).\lambda (H3: (eq T (THead k u t1) (TLRef n))).\lambda (H4: (eq T (THead k u t2) x)).eq_ind nat i (\lambda (n0: nat).(eq T v0 v) \to (eq T (THead k u t1) (TLRef n)) \to (eq T (THead k u t2) x) \to (subst0 (s k n0) v0 t1 t2) \to and (eq nat n i) (eq T x (lift (S n) O v))) (\lambda (H5: (eq T v0 v)).eq_ind T v (\lambda (t: T).(eq T (THead k u t1) (TLRef n)) \to (eq T (THead k u t2) x) \to (subst0 (s k i) t t1 t2) \to and (eq nat n i) (eq T x (lift (S n) O v))) (\lambda (H6: (eq T (THead k u t1) (TLRef n))).let H7 \def eq_ind T (THead k u t1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef n) H6 in False_ind ((eq T (THead k u t2) x) \to (subst0 (s k i) v t1 t2) \to and (eq nat n i) (eq T x (lift (S n) O v))) H7) v0 (sym_eq T v0 v H5)) i0 (sym_eq nat i0 i H1) H2 H3 H4 H0) | (subst0_both v0 u1 u2 i0 H0 k t1 t2 H1) \Rightarrow (\lambda (H2: (eq nat i0 i)).\lambda (H3: (eq T v0 v)).\lambda (H4: (eq T (THead k u1 t1) (TLRef n))).\lambda (H5: (eq T (THead k u2 t2) x)).eq_ind nat i (\lambda (n0: nat).(eq T v0 v) \to (eq T (THead k u1 t1) (TLRef n)) \to (eq T (THead k u2 t2) x) \to (subst0 n0 v0 u1 u2) \to (subst0 (s k n0) v0 t1 t2) \to and (eq nat n i) (eq T x (lift (S n) O v))) (\lambda (H6: (eq T v0 v)).eq_ind T v (\lambda (t: T).(eq T (THead k u1 t1) (TLRef n)) \to (eq T (THead k u2 t2) x) \to (subst0 i t u1 u2) \to (subst0 (s k i) t t1 t2) \to and (eq nat n i) (eq T x (lift (S n) O v))) (\lambda (H7: (eq T (THead k u1 t1) (TLRef n))).let H8 \def eq_ind T (THead k u1 t1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef n) H7 in False_ind ((eq T (THead k u2 t2) x) \to (subst0 i v u1 u2) \to (subst0 (s k i) v t1 t2) \to and (eq nat n i) (eq T x (lift (S n) O v))) H8) v0 (sym_eq T v0 v H6)) i0 (sym_eq nat i0 i H2) H3 H4 H5 H0 H1)] in H0 (refl_equal nat i) (refl_equal T v) (refl_equal T (TLRef n)) (refl_equal T x).
+
+theorem subst0_gen_head: \forall (k: K).\forall (v: T).\forall (u1: T).\forall (t1: T).\forall (x: T).\forall (i: nat).(subst0 i v (THead k u1 t1) x) \to or3 (ex2 T (\lambda (u2: T).eq T x (THead k u2 t1)) (\lambda (u2: T).subst0 i v u1 u2)) (ex2 T (\lambda (t2: T).eq T x (THead k u1 t2)) (\lambda (t2: T).subst0 (s k i) v t1 t2)) (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead k u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i v u1 u2) (\lambda (_: T).\lambda (t2: T).subst0 (s k i) v t1 t2)) \def \lambda (k: K).\lambda (v: T).\lambda (u1: T).\lambda (t1: T).\lambda (x: T).\lambda (i: nat).\lambda (H: (subst0 i v (THead k u1 t1) x)).let H0 \def match H return (\lambda (n: nat).\lambda (t: T).\lambda (t0: T).\lambda (t2: T).(eq nat n i) \to (eq T t v) \to (eq T t0 (THead k u1 t1)) \to (eq T t2 x) \to or3 (ex2 T (\lambda (u2: T).eq T x (THead k u2 t1)) (\lambda (u2: T).subst0 i v u1 u2)) (ex2 T (\lambda (t3: T).eq T x (THead k u1 t3)) (\lambda (t3: T).subst0 (s k i) v t1 t3)) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead k u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i v u1 u2) (\lambda (_: T).\lambda (t3: T).subst0 (s k i) v t1 t3))) with [(subst0_lref v0 i0) \Rightarrow (\lambda (H0: (eq nat i0 i)).\lambda (H1: (eq T v0 v)).\lambda (H2: (eq T (TLRef i0) (THead k u1 t1))).\lambda (H3: (eq T (lift (S i0) O v0) x)).eq_ind nat i (\lambda (n: nat).(eq T v0 v) \to (eq T (TLRef n) (THead k u1 t1)) \to (eq T (lift (S n) O v0) x) \to or3 (ex2 T (\lambda (u2: T).eq T x (THead k u2 t1)) (\lambda (u2: T).subst0 i v u1 u2)) (ex2 T (\lambda (t2: T).eq T x (THead k u1 t2)) (\lambda (t2: T).subst0 (s k i) v t1 t2)) (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead k u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i v u1 u2) (\lambda (_: T).\lambda (t2: T).subst0 (s k i) v t1 t2))) (\lambda (H4: (eq T v0 v)).eq_ind T v (\lambda (t: T).(eq T (TLRef i) (THead k u1 t1)) \to (eq T (lift (S i) O t) x) \to or3 (ex2 T (\lambda (u2: T).eq T x (THead k u2 t1)) (\lambda (u2: T).subst0 i v u1 u2)) (ex2 T (\lambda (t2: T).eq T x (THead k u1 t2)) (\lambda (t2: T).subst0 (s k i) v t1 t2)) (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead k u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i v u1 u2) (\lambda (_: T).\lambda (t2: T).subst0 (s k i) v t1 t2))) (\lambda (H5: (eq T (TLRef i) (THead k u1 t1))).let H6 \def eq_ind T (TLRef i) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead k u1 t1) H5 in False_ind ((eq T (lift (S i) O v) x) \to or3 (ex2 T (\lambda (u2: T).eq T x (THead k u2 t1)) (\lambda (u2: T).subst0 i v u1 u2)) (ex2 T (\lambda (t2: T).eq T x (THead k u1 t2)) (\lambda (t2: T).subst0 (s k i) v t1 t2)) (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead k u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i v u1 u2) (\lambda (_: T).\lambda (t2: T).subst0 (s k i) v t1 t2))) H6) v0 (sym_eq T v0 v H4)) i0 (sym_eq nat i0 i H0) H1 H2 H3) | (subst0_fst v0 u2 u0 i0 H0 t k0) \Rightarrow (\lambda (H1: (eq nat i0 i)).\lambda (H2: (eq T v0 v)).\lambda (H3: (eq T (THead k0 u0 t) (THead k u1 t1))).\lambda (H4: (eq T (THead k0 u2 t) x)).eq_ind nat i (\lambda (n: nat).(eq T v0 v) \to (eq T (THead k0 u0 t) (THead k u1 t1)) \to (eq T (THead k0 u2 t) x) \to (subst0 n v0 u0 u2) \to or3 (ex2 T (\lambda (u3: T).eq T x (THead k u3 t1)) (\lambda (u3: T).subst0 i v u1 u3)) (ex2 T (\lambda (t2: T).eq T x (THead k u1 t2)) (\lambda (t2: T).subst0 (s k i) v t1 t2)) (ex3_2 T T (\lambda (u3: T).\lambda (t2: T).eq T x (THead k u3 t2)) (\lambda (u3: T).\lambda (_: T).subst0 i v u1 u3) (\lambda (_: T).\lambda (t2: T).subst0 (s k i) v t1 t2))) (\lambda (H5: (eq T v0 v)).eq_ind T v (\lambda (t0: T).(eq T (THead k0 u0 t) (THead k u1 t1)) \to (eq T (THead k0 u2 t) x) \to (subst0 i t0 u0 u2) \to or3 (ex2 T (\lambda (u3: T).eq T x (THead k u3 t1)) (\lambda (u3: T).subst0 i v u1 u3)) (ex2 T (\lambda (t2: T).eq T x (THead k u1 t2)) (\lambda (t2: T).subst0 (s k i) v t1 t2)) (ex3_2 T T (\lambda (u3: T).\lambda (t2: T).eq T x (THead k u3 t2)) (\lambda (u3: T).\lambda (_: T).subst0 i v u1 u3) (\lambda (_: T).\lambda (t2: T).subst0 (s k i) v t1 t2))) (\lambda (H6: (eq T (THead k0 u0 t) (THead k u1 t1))).let H7 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t | (TLRef _) \Rightarrow t | (THead _ _ t) \Rightarrow t]) (THead k0 u0 t) (THead k u1 t1) H6 in (let H8 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u0 | (TLRef _) \Rightarrow u0 | (THead _ t _) \Rightarrow t]) (THead k0 u0 t) (THead k u1 t1) H6 in (let H9 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k0 | (TLRef _) \Rightarrow k0 | (THead k _ _) \Rightarrow k]) (THead k0 u0 t) (THead k u1 t1) H6 in eq_ind K k (\lambda (k1: K).(eq T u0 u1) \to (eq T t t1) \to (eq T (THead k1 u2 t) x) \to (subst0 i v u0 u2) \to or3 (ex2 T (\lambda (u3: T).eq T x (THead k u3 t1)) (\lambda (u3: T).subst0 i v u1 u3)) (ex2 T (\lambda (t2: T).eq T x (THead k u1 t2)) (\lambda (t2: T).subst0 (s k i) v t1 t2)) (ex3_2 T T (\lambda (u3: T).\lambda (t2: T).eq T x (THead k u3 t2)) (\lambda (u3: T).\lambda (_: T).subst0 i v u1 u3) (\lambda (_: T).\lambda (t2: T).subst0 (s k i) v t1 t2))) (\lambda (H10: (eq T u0 u1)).eq_ind T u1 (\lambda (t0: T).(eq T t t1) \to (eq T (THead k u2 t) x) \to (subst0 i v t0 u2) \to or3 (ex2 T (\lambda (u3: T).eq T x (THead k u3 t1)) (\lambda (u3: T).subst0 i v u1 u3)) (ex2 T (\lambda (t2: T).eq T x (THead k u1 t2)) (\lambda (t2: T).subst0 (s k i) v t1 t2)) (ex3_2 T T (\lambda (u3: T).\lambda (t2: T).eq T x (THead k u3 t2)) (\lambda (u3: T).\lambda (_: T).subst0 i v u1 u3) (\lambda (_: T).\lambda (t2: T).subst0 (s k i) v t1 t2))) (\lambda (H11: (eq T t t1)).eq_ind T t1 (\lambda (t0: T).(eq T (THead k u2 t0) x) \to (subst0 i v u1 u2) \to or3 (ex2 T (\lambda (u3: T).eq T x (THead k u3 t1)) (\lambda (u3: T).subst0 i v u1 u3)) (ex2 T (\lambda (t2: T).eq T x (THead k u1 t2)) (\lambda (t2: T).subst0 (s k i) v t1 t2)) (ex3_2 T T (\lambda (u3: T).\lambda (t2: T).eq T x (THead k u3 t2)) (\lambda (u3: T).\lambda (_: T).subst0 i v u1 u3) (\lambda (_: T).\lambda (t2: T).subst0 (s k i) v t1 t2))) (\lambda (H12: (eq T (THead k u2 t1) x)).eq_ind T (THead k u2 t1) (\lambda (t0: T).(subst0 i v u1 u2) \to or3 (ex2 T (\lambda (u3: T).eq T t0 (THead k u3 t1)) (\lambda (u3: T).subst0 i v u1 u3)) (ex2 T (\lambda (t2: T).eq T t0 (THead k u1 t2)) (\lambda (t2: T).subst0 (s k i) v t1 t2)) (ex3_2 T T (\lambda (u3: T).\lambda (t2: T).eq T t0 (THead k u3 t2)) (\lambda (u3: T).\lambda (_: T).subst0 i v u1 u3) (\lambda (_: T).\lambda (t2: T).subst0 (s k i) v t1 t2))) (\lambda (H13: (subst0 i v u1 u2)).or3_intro0 (ex2 T (\lambda (u3: T).eq T (THead k u2 t1) (THead k u3 t1)) (\lambda (u3: T).subst0 i v u1 u3)) (ex2 T (\lambda (t2: T).eq T (THead k u2 t1) (THead k u1 t2)) (\lambda (t2: T).subst0 (s k i) v t1 t2)) (ex3_2 T T (\lambda (u3: T).\lambda (t2: T).eq T (THead k u2 t1) (THead k u3 t2)) (\lambda (u3: T).\lambda (_: T).subst0 i v u1 u3) (\lambda (_: T).\lambda (t2: T).subst0 (s k i) v t1 t2)) (ex_intro2 T (\lambda (u3: T).eq T (THead k u2 t1) (THead k u3 t1)) (\lambda (u3: T).subst0 i v u1 u3) u2 (refl_equal T (THead k u2 t1)) H13)) x H12) t (sym_eq T t t1 H11)) u0 (sym_eq T u0 u1 H10)) k0 (sym_eq K k0 k H9)) H8) H7) v0 (sym_eq T v0 v H5)) i0 (sym_eq nat i0 i H1) H2 H3 H4 H0) | (subst0_snd k0 v0 t2 t0 i0 H0 u) \Rightarrow (\lambda (H1: (eq nat i0 i)).\lambda (H2: (eq T v0 v)).\lambda (H3: (eq T (THead k0 u t0) (THead k u1 t1))).\lambda (H4: (eq T (THead k0 u t2) x)).eq_ind nat i (\lambda (n: nat).(eq T v0 v) \to (eq T (THead k0 u t0) (THead k u1 t1)) \to (eq T (THead k0 u t2) x) \to (subst0 (s k0 n) v0 t0 t2) \to or3 (ex2 T (\lambda (u2: T).eq T x (THead k u2 t1)) (\lambda (u2: T).subst0 i v u1 u2)) (ex2 T (\lambda (t3: T).eq T x (THead k u1 t3)) (\lambda (t3: T).subst0 (s k i) v t1 t3)) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead k u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i v u1 u2) (\lambda (_: T).\lambda (t3: T).subst0 (s k i) v t1 t3))) (\lambda (H5: (eq T v0 v)).eq_ind T v (\lambda (t: T).(eq T (THead k0 u t0) (THead k u1 t1)) \to (eq T (THead k0 u t2) x) \to (subst0 (s k0 i) t t0 t2) \to or3 (ex2 T (\lambda (u2: T).eq T x (THead k u2 t1)) (\lambda (u2: T).subst0 i v u1 u2)) (ex2 T (\lambda (t3: T).eq T x (THead k u1 t3)) (\lambda (t3: T).subst0 (s k i) v t1 t3)) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead k u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i v u1 u2) (\lambda (_: T).\lambda (t3: T).subst0 (s k i) v t1 t3))) (\lambda (H6: (eq T (THead k0 u t0) (THead k u1 t1))).let H7 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead k0 u t0) (THead k u1 t1) H6 in (let H8 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u | (TLRef _) \Rightarrow u | (THead _ t _) \Rightarrow t]) (THead k0 u t0) (THead k u1 t1) H6 in (let H9 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k0 | (TLRef _) \Rightarrow k0 | (THead k _ _) \Rightarrow k]) (THead k0 u t0) (THead k u1 t1) H6 in eq_ind K k (\lambda (k1: K).(eq T u u1) \to (eq T t0 t1) \to (eq T (THead k1 u t2) x) \to (subst0 (s k1 i) v t0 t2) \to or3 (ex2 T (\lambda (u2: T).eq T x (THead k u2 t1)) (\lambda (u2: T).subst0 i v u1 u2)) (ex2 T (\lambda (t3: T).eq T x (THead k u1 t3)) (\lambda (t3: T).subst0 (s k i) v t1 t3)) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead k u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i v u1 u2) (\lambda (_: T).\lambda (t3: T).subst0 (s k i) v t1 t3))) (\lambda (H10: (eq T u u1)).eq_ind T u1 (\lambda (t: T).(eq T t0 t1) \to (eq T (THead k t t2) x) \to (subst0 (s k i) v t0 t2) \to or3 (ex2 T (\lambda (u2: T).eq T x (THead k u2 t1)) (\lambda (u2: T).subst0 i v u1 u2)) (ex2 T (\lambda (t3: T).eq T x (THead k u1 t3)) (\lambda (t3: T).subst0 (s k i) v t1 t3)) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead k u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i v u1 u2) (\lambda (_: T).\lambda (t3: T).subst0 (s k i) v t1 t3))) (\lambda (H11: (eq T t0 t1)).eq_ind T t1 (\lambda (t: T).(eq T (THead k u1 t2) x) \to (subst0 (s k i) v t t2) \to or3 (ex2 T (\lambda (u2: T).eq T x (THead k u2 t1)) (\lambda (u2: T).subst0 i v u1 u2)) (ex2 T (\lambda (t3: T).eq T x (THead k u1 t3)) (\lambda (t3: T).subst0 (s k i) v t1 t3)) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead k u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i v u1 u2) (\lambda (_: T).\lambda (t3: T).subst0 (s k i) v t1 t3))) (\lambda (H12: (eq T (THead k u1 t2) x)).eq_ind T (THead k u1 t2) (\lambda (t: T).(subst0 (s k i) v t1 t2) \to or3 (ex2 T (\lambda (u2: T).eq T t (THead k u2 t1)) (\lambda (u2: T).subst0 i v u1 u2)) (ex2 T (\lambda (t3: T).eq T t (THead k u1 t3)) (\lambda (t3: T).subst0 (s k i) v t1 t3)) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t (THead k u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i v u1 u2) (\lambda (_: T).\lambda (t3: T).subst0 (s k i) v t1 t3))) (\lambda (H13: (subst0 (s k i) v t1 t2)).or3_intro1 (ex2 T (\lambda (u2: T).eq T (THead k u1 t2) (THead k u2 t1)) (\lambda (u2: T).subst0 i v u1 u2)) (ex2 T (\lambda (t3: T).eq T (THead k u1 t2) (THead k u1 t3)) (\lambda (t3: T).subst0 (s k i) v t1 t3)) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead k u1 t2) (THead k u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i v u1 u2) (\lambda (_: T).\lambda (t3: T).subst0 (s k i) v t1 t3)) (ex_intro2 T (\lambda (t3: T).eq T (THead k u1 t2) (THead k u1 t3)) (\lambda (t3: T).subst0 (s k i) v t1 t3) t2 (refl_equal T (THead k u1 t2)) H13)) x H12) t0 (sym_eq T t0 t1 H11)) u (sym_eq T u u1 H10)) k0 (sym_eq K k0 k H9)) H8) H7) v0 (sym_eq T v0 v H5)) i0 (sym_eq nat i0 i H1) H2 H3 H4 H0) | (subst0_both v0 u0 u2 i0 H0 k0 t0 t2 H1) \Rightarrow (\lambda (H2: (eq nat i0 i)).\lambda (H3: (eq T v0 v)).\lambda (H4: (eq T (THead k0 u0 t0) (THead k u1 t1))).\lambda (H5: (eq T (THead k0 u2 t2) x)).eq_ind nat i (\lambda (n: nat).(eq T v0 v) \to (eq T (THead k0 u0 t0) (THead k u1 t1)) \to (eq T (THead k0 u2 t2) x) \to (subst0 n v0 u0 u2) \to (subst0 (s k0 n) v0 t0 t2) \to or3 (ex2 T (\lambda (u3: T).eq T x (THead k u3 t1)) (\lambda (u3: T).subst0 i v u1 u3)) (ex2 T (\lambda (t3: T).eq T x (THead k u1 t3)) (\lambda (t3: T).subst0 (s k i) v t1 t3)) (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead k u3 t3)) (\lambda (u3: T).\lambda (_: T).subst0 i v u1 u3) (\lambda (_: T).\lambda (t3: T).subst0 (s k i) v t1 t3))) (\lambda (H6: (eq T v0 v)).eq_ind T v (\lambda (t: T).(eq T (THead k0 u0 t0) (THead k u1 t1)) \to (eq T (THead k0 u2 t2) x) \to (subst0 i t u0 u2) \to (subst0 (s k0 i) t t0 t2) \to or3 (ex2 T (\lambda (u3: T).eq T x (THead k u3 t1)) (\lambda (u3: T).subst0 i v u1 u3)) (ex2 T (\lambda (t3: T).eq T x (THead k u1 t3)) (\lambda (t3: T).subst0 (s k i) v t1 t3)) (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead k u3 t3)) (\lambda (u3: T).\lambda (_: T).subst0 i v u1 u3) (\lambda (_: T).\lambda (t3: T).subst0 (s k i) v t1 t3))) (\lambda (H7: (eq T (THead k0 u0 t0) (THead k u1 t1))).let H8 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead k0 u0 t0) (THead k u1 t1) H7 in (let H9 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u0 | (TLRef _) \Rightarrow u0 | (THead _ t _) \Rightarrow t]) (THead k0 u0 t0) (THead k u1 t1) H7 in (let H10 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k0 | (TLRef _) \Rightarrow k0 | (THead k _ _) \Rightarrow k]) (THead k0 u0 t0) (THead k u1 t1) H7 in eq_ind K k (\lambda (k1: K).(eq T u0 u1) \to (eq T t0 t1) \to (eq T (THead k1 u2 t2) x) \to (subst0 i v u0 u2) \to (subst0 (s k1 i) v t0 t2) \to or3 (ex2 T (\lambda (u3: T).eq T x (THead k u3 t1)) (\lambda (u3: T).subst0 i v u1 u3)) (ex2 T (\lambda (t3: T).eq T x (THead k u1 t3)) (\lambda (t3: T).subst0 (s k i) v t1 t3)) (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead k u3 t3)) (\lambda (u3: T).\lambda (_: T).subst0 i v u1 u3) (\lambda (_: T).\lambda (t3: T).subst0 (s k i) v t1 t3))) (\lambda (H11: (eq T u0 u1)).eq_ind T u1 (\lambda (t: T).(eq T t0 t1) \to (eq T (THead k u2 t2) x) \to (subst0 i v t u2) \to (subst0 (s k i) v t0 t2) \to or3 (ex2 T (\lambda (u3: T).eq T x (THead k u3 t1)) (\lambda (u3: T).subst0 i v u1 u3)) (ex2 T (\lambda (t3: T).eq T x (THead k u1 t3)) (\lambda (t3: T).subst0 (s k i) v t1 t3)) (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead k u3 t3)) (\lambda (u3: T).\lambda (_: T).subst0 i v u1 u3) (\lambda (_: T).\lambda (t3: T).subst0 (s k i) v t1 t3))) (\lambda (H12: (eq T t0 t1)).eq_ind T t1 (\lambda (t: T).(eq T (THead k u2 t2) x) \to (subst0 i v u1 u2) \to (subst0 (s k i) v t t2) \to or3 (ex2 T (\lambda (u3: T).eq T x (THead k u3 t1)) (\lambda (u3: T).subst0 i v u1 u3)) (ex2 T (\lambda (t3: T).eq T x (THead k u1 t3)) (\lambda (t3: T).subst0 (s k i) v t1 t3)) (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead k u3 t3)) (\lambda (u3: T).\lambda (_: T).subst0 i v u1 u3) (\lambda (_: T).\lambda (t3: T).subst0 (s k i) v t1 t3))) (\lambda (H13: (eq T (THead k u2 t2) x)).eq_ind T (THead k u2 t2) (\lambda (t: T).(subst0 i v u1 u2) \to (subst0 (s k i) v t1 t2) \to or3 (ex2 T (\lambda (u3: T).eq T t (THead k u3 t1)) (\lambda (u3: T).subst0 i v u1 u3)) (ex2 T (\lambda (t3: T).eq T t (THead k u1 t3)) (\lambda (t3: T).subst0 (s k i) v t1 t3)) (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T t (THead k u3 t3)) (\lambda (u3: T).\lambda (_: T).subst0 i v u1 u3) (\lambda (_: T).\lambda (t3: T).subst0 (s k i) v t1 t3))) (\lambda (H14: (subst0 i v u1 u2)).\lambda (H15: (subst0 (s k i) v t1 t2)).or3_intro2 (ex2 T (\lambda (u3: T).eq T (THead k u2 t2) (THead k u3 t1)) (\lambda (u3: T).subst0 i v u1 u3)) (ex2 T (\lambda (t3: T).eq T (THead k u2 t2) (THead k u1 t3)) (\lambda (t3: T).subst0 (s k i) v t1 t3)) (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T (THead k u2 t2) (THead k u3 t3)) (\lambda (u3: T).\lambda (_: T).subst0 i v u1 u3) (\lambda (_: T).\lambda (t3: T).subst0 (s k i) v t1 t3)) (ex3_2_intro T T (\lambda (u3: T).\lambda (t3: T).eq T (THead k u2 t2) (THead k u3 t3)) (\lambda (u3: T).\lambda (_: T).subst0 i v u1 u3) (\lambda (_: T).\lambda (t3: T).subst0 (s k i) v t1 t3) u2 t2 (refl_equal T (THead k u2 t2)) H14 H15)) x H13) t0 (sym_eq T t0 t1 H12)) u0 (sym_eq T u0 u1 H11)) k0 (sym_eq K k0 k H10)) H9) H8) v0 (sym_eq T v0 v H6)) i0 (sym_eq nat i0 i H2) H3 H4 H5 H0 H1)] in H0 (refl_equal nat i) (refl_equal T v) (refl_equal T (THead k u1 t1)) (refl_equal T x).
+
+theorem subst0_refl: \forall (u: T).\forall (t: T).\forall (d: nat).(subst0 d u t t) \to \forall (P: (Prop)).P \def \lambda (u: T).\lambda (t: T).T_ind (\lambda (t0: T).\forall (d: nat).(subst0 d u t0 t0) \to \forall (P: (Prop)).P) (\lambda (n: nat).\lambda (d: nat).\lambda (H: (subst0 d u (TSort n) (TSort n))).\lambda (P: (Prop)).subst0_gen_sort u (TSort n) d n H P) (\lambda (n: nat).\lambda (d: nat).\lambda (H: (subst0 d u (TLRef n) (TLRef n))).\lambda (P: (Prop)).and_ind (eq nat n d) (eq T (TLRef n) (lift (S n) O u)) P (\lambda (_: (eq nat n d)).\lambda (H1: (eq T (TLRef n) (lift (S n) O u))).lift_gen_lref_false (S n) O n (le_O_n n) (le_n (plus O (S n))) u H1 P) (subst0_gen_lref u (TLRef n) d n H)) (\lambda (k: K).\lambda (t0: T).\lambda (H: ((\forall (d: nat).(subst0 d u t0 t0) \to \forall (P: (Prop)).P))).\lambda (t1: T).\lambda (H0: ((\forall (d: nat).(subst0 d u t1 t1) \to \forall (P: (Prop)).P))).\lambda (d: nat).\lambda (H1: (subst0 d u (THead k t0 t1) (THead k t0 t1))).\lambda (P: (Prop)).or3_ind (ex2 T (\lambda (u2: T).eq T (THead k t0 t1) (THead k u2 t1)) (\lambda (u2: T).subst0 d u t0 u2)) (ex2 T (\lambda (t2: T).eq T (THead k t0 t1) (THead k t0 t2)) (\lambda (t2: T).subst0 (s k d) u t1 t2)) (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T (THead k t0 t1) (THead k u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 d u t0 u2) (\lambda (_: T).\lambda (t2: T).subst0 (s k d) u t1 t2)) P (\lambda (H2: (ex2 T (\lambda (u2: T).eq T (THead k t0 t1) (THead k u2 t1)) (\lambda (u2: T).subst0 d u t0 u2))).ex2_ind T (\lambda (u2: T).eq T (THead k t0 t1) (THead k u2 t1)) (\lambda (u2: T).subst0 d u t0 u2) P (\lambda (x: T).\lambda (H3: (eq T (THead k t0 t1) (THead k x t1))).\lambda (H4: (subst0 d u t0 x)).let H5 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ t _) \Rightarrow t]) (THead k t0 t1) (THead k x t1) H3 in let H6 \def eq_ind_r T x (\lambda (t: T).subst0 d u t0 t) H4 t0 H5 in H d H6 P) H2) (\lambda (H2: (ex2 T (\lambda (t2: T).eq T (THead k t0 t1) (THead k t0 t2)) (\lambda (t2: T).subst0 (s k d) u t1 t2))).ex2_ind T (\lambda (t2: T).eq T (THead k t0 t1) (THead k t0 t2)) (\lambda (t2: T).subst0 (s k d) u t1 t2) P (\lambda (x: T).\lambda (H3: (eq T (THead k t0 t1) (THead k t0 x))).\lambda (H4: (subst0 (s k d) u t1 x)).let H5 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t1 | (TLRef _) \Rightarrow t1 | (THead _ _ t) \Rightarrow t]) (THead k t0 t1) (THead k t0 x) H3 in let H6 \def eq_ind_r T x (\lambda (t: T).subst0 (s k d) u t1 t) H4 t1 H5 in H0 (s k d) H6 P) H2) (\lambda (H2: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T (THead k t0 t1) (THead k u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 d u t0 u2) (\lambda (_: T).\lambda (t2: T).subst0 (s k d) u t1 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t2: T).eq T (THead k t0 t1) (THead k u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 d u t0 u2) (\lambda (_: T).\lambda (t2: T).subst0 (s k d) u t1 t2) P (\lambda (x0: T).\lambda (x1: T).\lambda (H3: (eq T (THead k t0 t1) (THead k x0 x1))).\lambda (H4: (subst0 d u t0 x0)).\lambda (H5: (subst0 (s k d) u t1 x1)).let H6 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ t _) \Rightarrow t]) (THead k t0 t1) (THead k x0 x1) H3 in (let H7 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t1 | (TLRef _) \Rightarrow t1 | (THead _ _ t) \Rightarrow t]) (THead k t0 t1) (THead k x0 x1) H3 in \lambda (H8: (eq T t0 x0)).let H9 \def eq_ind_r T x1 (\lambda (t: T).subst0 (s k d) u t1 t) H5 t1 H7 in let H10 \def eq_ind_r T x0 (\lambda (t: T).subst0 d u t0 t) H4 t0 H8 in H d H10 P) H6) H2) (subst0_gen_head k u t0 t1 (THead k t0 t1) d H1)) t.
+
+theorem subst0_gen_lift_lt: \forall (u: T).\forall (t1: T).\forall (x: T).\forall (i: nat).\forall (h: nat).\forall (d: nat).(subst0 i (lift h d u) (lift h (S (plus i d)) t1) x) \to ex2 T (\lambda (t2: T).eq T x (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst0 i u t1 t2) \def \lambda (u: T).\lambda (t1: T).T_ind (\lambda (t: T).\forall (x: T).\forall (i: nat).\forall (h: nat).\forall (d: nat).(subst0 i (lift h d u) (lift h (S (plus i d)) t) x) \to ex2 T (\lambda (t2: T).eq T x (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst0 i u t t2)) (\lambda (n: nat).\lambda (x: T).\lambda (i: nat).\lambda (h: nat).\lambda (d: nat).\lambda (H: (subst0 i (lift h d u) (lift h (S (plus i d)) (TSort n)) x)).let H0 \def eq_ind T (lift h (S (plus i d)) (TSort n)) (\lambda (t: T).subst0 i (lift h d u) t x) H (TSort n) (lift_sort n h (S (plus i d))) in subst0_gen_sort (lift h d u) x i n H0 (ex2 T (\lambda (t2: T).eq T x (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst0 i u (TSort n) t2))) (\lambda (n: nat).\lambda (x: T).\lambda (i: nat).\lambda (h: nat).\lambda (d: nat).\lambda (H: (subst0 i (lift h d u) (lift h (S (plus i d)) (TLRef n)) x)).lt_le_e n (S (plus i d)) (ex2 T (\lambda (t2: T).eq T x (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst0 i u (TLRef n) t2)) (\lambda (H0: (lt n (S (plus i d)))).let H1 \def eq_ind T (lift h (S (plus i d)) (TLRef n)) (\lambda (t: T).subst0 i (lift h d u) t x) H (TLRef n) (lift_lref_lt n h (S (plus i d)) H0) in and_ind (eq nat n i) (eq T x (lift (S n) O (lift h d u))) (ex2 T (\lambda (t2: T).eq T x (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst0 i u (TLRef n) t2)) (\lambda (H2: (eq nat n i)).\lambda (H3: (eq T x (lift (S n) O (lift h d u)))).eq_ind_r T (lift (S n) O (lift h d u)) (\lambda (t: T).ex2 T (\lambda (t2: T).eq T t (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst0 i u (TLRef n) t2)) (eq_ind_r nat i (\lambda (n0: nat).ex2 T (\lambda (t2: T).eq T (lift (S n0) O (lift h d u)) (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst0 i u (TLRef n0) t2)) (eq_ind T (lift h (plus (S i) d) (lift (S i) O u)) (\lambda (t: T).ex2 T (\lambda (t2: T).eq T t (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst0 i u (TLRef i) t2)) (ex_intro2 T (\lambda (t2: T).eq T (lift h (S (plus i d)) (lift (S i) O u)) (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst0 i u (TLRef i) t2) (lift (S i) O u) (refl_equal T (lift h (S (plus i d)) (lift (S i) O u))) (subst0_lref u i)) (lift (S i) O (lift h d u)) (lift_d u h (S i) d O (le_O_n d))) n H2) x H3) (subst0_gen_lref (lift h d u) x i n H1)) (\lambda (H0: (le (S (plus i d)) n)).let H1 \def eq_ind T (lift h (S (plus i d)) (TLRef n)) (\lambda (t: T).subst0 i (lift h d u) t x) H (TLRef (plus n h)) (lift_lref_ge n h (S (plus i d)) H0) in and_ind (eq nat (plus n h) i) (eq T x (lift (S (plus n h)) O (lift h d u))) (ex2 T (\lambda (t2: T).eq T x (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst0 i u (TLRef n) t2)) (\lambda (H2: (eq nat (plus n h) i)).\lambda (_: (eq T x (lift (S (plus n h)) O (lift h d u)))).let H4 \def eq_ind_r nat i (\lambda (n0: nat).le (S (plus n0 d)) n) H0 (plus n h) H2 in le_false n (plus (plus n h) d) (ex2 T (\lambda (t2: T).eq T x (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst0 i u (TLRef n) t2)) (le_plus_trans n (plus n h) d (le_plus_l n h)) H4) (subst0_gen_lref (lift h d u) x i (plus n h) H1))) (\lambda (k: K).\lambda (t: T).\lambda (H: ((\forall (x: T).\forall (i: nat).\forall (h: nat).\forall (d: nat).(subst0 i (lift h d u) (lift h (S (plus i d)) t) x) \to ex2 T (\lambda (t2: T).eq T x (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst0 i u t t2)))).\lambda (t0: T).\lambda (H0: ((\forall (x: T).\forall (i: nat).\forall (h: nat).\forall (d: nat).(subst0 i (lift h d u) (lift h (S (plus i d)) t0) x) \to ex2 T (\lambda (t2: T).eq T x (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst0 i u t0 t2)))).\lambda (x: T).\lambda (i: nat).\lambda (h: nat).\lambda (d: nat).\lambda (H1: (subst0 i (lift h d u) (lift h (S (plus i d)) (THead k t t0)) x)).let H2 \def eq_ind T (lift h (S (plus i d)) (THead k t t0)) (\lambda (t: T).subst0 i (lift h d u) t x) H1 (THead k (lift h (S (plus i d)) t) (lift h (s k (S (plus i d))) t0)) (lift_head k t t0 h (S (plus i d))) in or3_ind (ex2 T (\lambda (u2: T).eq T x (THead k u2 (lift h (s k (S (plus i d))) t0))) (\lambda (u2: T).subst0 i (lift h d u) (lift h (S (plus i d)) t) u2)) (ex2 T (\lambda (t2: T).eq T x (THead k (lift h (S (plus i d)) t) t2)) (\lambda (t2: T).subst0 (s k i) (lift h d u) (lift h (s k (S (plus i d))) t0) t2)) (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead k u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i (lift h d u) (lift h (S (plus i d)) t) u2) (\lambda (_: T).\lambda (t2: T).subst0 (s k i) (lift h d u) (lift h (s k (S (plus i d))) t0) t2)) (ex2 T (\lambda (t2: T).eq T x (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst0 i u (THead k t t0) t2)) (\lambda (H3: (ex2 T (\lambda (u2: T).eq T x (THead k u2 (lift h (s k (S (plus i d))) t0))) (\lambda (u2: T).subst0 i (lift h d u) (lift h (S (plus i d)) t) u2))).ex2_ind T (\lambda (u2: T).eq T x (THead k u2 (lift h (s k (S (plus i d))) t0))) (\lambda (u2: T).subst0 i (lift h d u) (lift h (S (plus i d)) t) u2) (ex2 T (\lambda (t2: T).eq T x (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst0 i u (THead k t t0) t2)) (\lambda (x0: T).\lambda (H4: (eq T x (THead k x0 (lift h (s k (S (plus i d))) t0)))).\lambda (H5: (subst0 i (lift h d u) (lift h (S (plus i d)) t) x0)).eq_ind_r T (THead k x0 (lift h (s k (S (plus i d))) t0)) (\lambda (t2: T).ex2 T (\lambda (t3: T).eq T t2 (lift h (S (plus i d)) t3)) (\lambda (t3: T).subst0 i u (THead k t t0) t3)) (ex2_ind T (\lambda (t2: T).eq T x0 (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst0 i u t t2) (ex2 T (\lambda (t2: T).eq T (THead k x0 (lift h (s k (S (plus i d))) t0)) (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst0 i u (THead k t t0) t2)) (\lambda (x1: T).\lambda (H6: (eq T x0 (lift h (S (plus i d)) x1))).\lambda (H7: (subst0 i u t x1)).eq_ind_r T (lift h (S (plus i d)) x1) (\lambda (t2: T).ex2 T (\lambda (t3: T).eq T (THead k t2 (lift h (s k (S (plus i d))) t0)) (lift h (S (plus i d)) t3)) (\lambda (t3: T).subst0 i u (THead k t t0) t3)) (eq_ind T (lift h (S (plus i d)) (THead k x1 t0)) (\lambda (t2: T).ex2 T (\lambda (t3: T).eq T t2 (lift h (S (plus i d)) t3)) (\lambda (t3: T).subst0 i u (THead k t t0) t3)) (ex_intro2 T (\lambda (t2: T).eq T (lift h (S (plus i d)) (THead k x1 t0)) (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst0 i u (THead k t t0) t2) (THead k x1 t0) (refl_equal T (lift h (S (plus i d)) (THead k x1 t0))) (subst0_fst u x1 t i H7 t0 k)) (THead k (lift h (S (plus i d)) x1) (lift h (s k (S (plus i d))) t0)) (lift_head k x1 t0 h (S (plus i d)))) x0 H6) (H x0 i h d H5)) x H4) H3) (\lambda (H3: (ex2 T (\lambda (t2: T).eq T x (THead k (lift h (S (plus i d)) t) t2)) (\lambda (t2: T).subst0 (s k i) (lift h d u) (lift h (s k (S (plus i d))) t0) t2))).ex2_ind T (\lambda (t2: T).eq T x (THead k (lift h (S (plus i d)) t) t2)) (\lambda (t2: T).subst0 (s k i) (lift h d u) (lift h (s k (S (plus i d))) t0) t2) (ex2 T (\lambda (t2: T).eq T x (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst0 i u (THead k t t0) t2)) (\lambda (x0: T).\lambda (H4: (eq T x (THead k (lift h (S (plus i d)) t) x0))).\lambda (H5: (subst0 (s k i) (lift h d u) (lift h (s k (S (plus i d))) t0) x0)).eq_ind_r T (THead k (lift h (S (plus i d)) t) x0) (\lambda (t2: T).ex2 T (\lambda (t3: T).eq T t2 (lift h (S (plus i d)) t3)) (\lambda (t3: T).subst0 i u (THead k t t0) t3)) (let H6 \def eq_ind nat (s k (S (plus i d))) (\lambda (n: nat).subst0 (s k i) (lift h d u) (lift h n t0) x0) H5 (S (s k (plus i d))) (s_S k (plus i d)) in let H7 \def eq_ind nat (s k (plus i d)) (\lambda (n: nat).subst0 (s k i) (lift h d u) (lift h (S n) t0) x0) H6 (plus (s k i) d) (s_plus k i d) in ex2_ind T (\lambda (t2: T).eq T x0 (lift h (S (plus (s k i) d)) t2)) (\lambda (t2: T).subst0 (s k i) u t0 t2) (ex2 T (\lambda (t2: T).eq T (THead k (lift h (S (plus i d)) t) x0) (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst0 i u (THead k t t0) t2)) (\lambda (x1: T).\lambda (H8: (eq T x0 (lift h (S (plus (s k i) d)) x1))).\lambda (H9: (subst0 (s k i) u t0 x1)).eq_ind_r T (lift h (S (plus (s k i) d)) x1) (\lambda (t2: T).ex2 T (\lambda (t3: T).eq T (THead k (lift h (S (plus i d)) t) t2) (lift h (S (plus i d)) t3)) (\lambda (t3: T).subst0 i u (THead k t t0) t3)) (eq_ind nat (s k (plus i d)) (\lambda (n: nat).ex2 T (\lambda (t2: T).eq T (THead k (lift h (S (plus i d)) t) (lift h (S n) x1)) (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst0 i u (THead k t t0) t2)) (eq_ind nat (s k (S (plus i d))) (\lambda (n: nat).ex2 T (\lambda (t2: T).eq T (THead k (lift h (S (plus i d)) t) (lift h n x1)) (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst0 i u (THead k t t0) t2)) (eq_ind T (lift h (S (plus i d)) (THead k t x1)) (\lambda (t2: T).ex2 T (\lambda (t3: T).eq T t2 (lift h (S (plus i d)) t3)) (\lambda (t3: T).subst0 i u (THead k t t0) t3)) (ex_intro2 T (\lambda (t2: T).eq T (lift h (S (plus i d)) (THead k t x1)) (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst0 i u (THead k t t0) t2) (THead k t x1) (refl_equal T (lift h (S (plus i d)) (THead k t x1))) (subst0_snd k u x1 t0 i H9 t)) (THead k (lift h (S (plus i d)) t) (lift h (s k (S (plus i d))) x1)) (lift_head k t x1 h (S (plus i d)))) (S (s k (plus i d))) (s_S k (plus i d))) (plus (s k i) d) (s_plus k i d)) x0 H8) (H0 x0 (s k i) h d H7)) x H4) H3) (\lambda (H3: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead k u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i (lift h d u) (lift h (S (plus i d)) t) u2) (\lambda (_: T).\lambda (t2: T).subst0 (s k i) (lift h d u) (lift h (s k (S (plus i d))) t0) t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead k u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i (lift h d u) (lift h (S (plus i d)) t) u2) (\lambda (_: T).\lambda (t2: T).subst0 (s k i) (lift h d u) (lift h (s k (S (plus i d))) t0) t2) (ex2 T (\lambda (t2: T).eq T x (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst0 i u (THead k t t0) t2)) (\lambda (x0: T).\lambda (x1: T).\lambda (H4: (eq T x (THead k x0 x1))).\lambda (H5: (subst0 i (lift h d u) (lift h (S (plus i d)) t) x0)).\lambda (H6: (subst0 (s k i) (lift h d u) (lift h (s k (S (plus i d))) t0) x1)).eq_ind_r T (THead k x0 x1) (\lambda (t2: T).ex2 T (\lambda (t3: T).eq T t2 (lift h (S (plus i d)) t3)) (\lambda (t3: T).subst0 i u (THead k t t0) t3)) (let H7 \def eq_ind nat (s k (S (plus i d))) (\lambda (n: nat).subst0 (s k i) (lift h d u) (lift h n t0) x1) H6 (S (s k (plus i d))) (s_S k (plus i d)) in let H8 \def eq_ind nat (s k (plus i d)) (\lambda (n: nat).subst0 (s k i) (lift h d u) (lift h (S n) t0) x1) H7 (plus (s k i) d) (s_plus k i d) in ex2_ind T (\lambda (t2: T).eq T x1 (lift h (S (plus (s k i) d)) t2)) (\lambda (t2: T).subst0 (s k i) u t0 t2) (ex2 T (\lambda (t2: T).eq T (THead k x0 x1) (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst0 i u (THead k t t0) t2)) (\lambda (x2: T).\lambda (H9: (eq T x1 (lift h (S (plus (s k i) d)) x2))).\lambda (H10: (subst0 (s k i) u t0 x2)).ex2_ind T (\lambda (t2: T).eq T x0 (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst0 i u t t2) (ex2 T (\lambda (t2: T).eq T (THead k x0 x1) (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst0 i u (THead k t t0) t2)) (\lambda (x3: T).\lambda (H11: (eq T x0 (lift h (S (plus i d)) x3))).\lambda (H12: (subst0 i u t x3)).eq_ind_r T (lift h (S (plus i d)) x3) (\lambda (t2: T).ex2 T (\lambda (t3: T).eq T (THead k t2 x1) (lift h (S (plus i d)) t3)) (\lambda (t3: T).subst0 i u (THead k t t0) t3)) (eq_ind_r T (lift h (S (plus (s k i) d)) x2) (\lambda (t2: T).ex2 T (\lambda (t3: T).eq T (THead k (lift h (S (plus i d)) x3) t2) (lift h (S (plus i d)) t3)) (\lambda (t3: T).subst0 i u (THead k t t0) t3)) (eq_ind nat (s k (plus i d)) (\lambda (n: nat).ex2 T (\lambda (t2: T).eq T (THead k (lift h (S (plus i d)) x3) (lift h (S n) x2)) (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst0 i u (THead k t t0) t2)) (eq_ind nat (s k (S (plus i d))) (\lambda (n: nat).ex2 T (\lambda (t2: T).eq T (THead k (lift h (S (plus i d)) x3) (lift h n x2)) (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst0 i u (THead k t t0) t2)) (eq_ind T (lift h (S (plus i d)) (THead k x3 x2)) (\lambda (t2: T).ex2 T (\lambda (t3: T).eq T t2 (lift h (S (plus i d)) t3)) (\lambda (t3: T).subst0 i u (THead k t t0) t3)) (ex_intro2 T (\lambda (t2: T).eq T (lift h (S (plus i d)) (THead k x3 x2)) (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst0 i u (THead k t t0) t2) (THead k x3 x2) (refl_equal T (lift h (S (plus i d)) (THead k x3 x2))) (subst0_both u t x3 i H12 k t0 x2 H10)) (THead k (lift h (S (plus i d)) x3) (lift h (s k (S (plus i d))) x2)) (lift_head k x3 x2 h (S (plus i d)))) (S (s k (plus i d))) (s_S k (plus i d))) (plus (s k i) d) (s_plus k i d)) x1 H9) x0 H11) (H x0 i h d H5)) (H0 x1 (s k i) h d H8)) x H4) H3) (subst0_gen_head k (lift h d u) (lift h (S (plus i d)) t) (lift h (s k (S (plus i d))) t0) x i H2)) t1.
+
+theorem subst0_gen_lift_false: \forall (t: T).\forall (u: T).\forall (x: T).\forall (h: nat).\forall (d: nat).\forall (i: nat).(le d i) \to (lt i (plus d h)) \to (subst0 i u (lift h d t) x) \to \forall (P: (Prop)).P \def \lambda (t: T).T_ind (\lambda (t0: T).\forall (u: T).\forall (x: T).\forall (h: nat).\forall (d: nat).\forall (i: nat).(le d i) \to (lt i (plus d h)) \to (subst0 i u (lift h d t0) x) \to \forall (P: (Prop)).P) (\lambda (n: nat).\lambda (u: T).\lambda (x: T).\lambda (h: nat).\lambda (d: nat).\lambda (i: nat).\lambda (_: (le d i)).\lambda (_: (lt i (plus d h))).\lambda (H1: (subst0 i u (lift h d (TSort n)) x)).\lambda (P: (Prop)).let H2 \def eq_ind T (lift h d (TSort n)) (\lambda (t: T).subst0 i u t x) H1 (TSort n) (lift_sort n h d) in subst0_gen_sort u x i n H2 P) (\lambda (n: nat).\lambda (u: T).\lambda (x: T).\lambda (h: nat).\lambda (d: nat).\lambda (i: nat).\lambda (H: (le d i)).\lambda (H0: (lt i (plus d h))).\lambda (H1: (subst0 i u (lift h d (TLRef n)) x)).\lambda (P: (Prop)).lt_le_e n d P (\lambda (H2: (lt n d)).let H3 \def eq_ind T (lift h d (TLRef n)) (\lambda (t: T).subst0 i u t x) H1 (TLRef n) (lift_lref_lt n h d H2) in and_ind (eq nat n i) (eq T x (lift (S n) O u)) P (\lambda (H4: (eq nat n i)).\lambda (_: (eq T x (lift (S n) O u))).let H6 \def eq_ind nat n (\lambda (n: nat).lt n d) H2 i H4 in le_false d i P H H6) (subst0_gen_lref u x i n H3)) (\lambda (H2: (le d n)).let H3 \def eq_ind T (lift h d (TLRef n)) (\lambda (t: T).subst0 i u t x) H1 (TLRef (plus n h)) (lift_lref_ge n h d H2) in and_ind (eq nat (plus n h) i) (eq T x (lift (S (plus n h)) O u)) P (\lambda (H4: (eq nat (plus n h) i)).\lambda (_: (eq T x (lift (S (plus n h)) O u))).let H6 \def eq_ind_r nat i (\lambda (n: nat).lt n (plus d h)) H0 (plus n h) H4 in le_false d n P H2 (lt_le_S n d (simpl_lt_plus_r h n d H6))) (subst0_gen_lref u x i (plus n h) H3))) (\lambda (k: K).\lambda (t0: T).\lambda (H: ((\forall (u: T).\forall (x: T).\forall (h: nat).\forall (d: nat).\forall (i: nat).(le d i) \to (lt i (plus d h)) \to (subst0 i u (lift h d t0) x) \to \forall (P: (Prop)).P))).\lambda (t1: T).\lambda (H0: ((\forall (u: T).\forall (x: T).\forall (h: nat).\forall (d: nat).\forall (i: nat).(le d i) \to (lt i (plus d h)) \to (subst0 i u (lift h d t1) x) \to \forall (P: (Prop)).P))).\lambda (u: T).\lambda (x: T).\lambda (h: nat).\lambda (d: nat).\lambda (i: nat).\lambda (H1: (le d i)).\lambda (H2: (lt i (plus d h))).\lambda (H3: (subst0 i u (lift h d (THead k t0 t1)) x)).\lambda (P: (Prop)).let H4 \def eq_ind T (lift h d (THead k t0 t1)) (\lambda (t: T).subst0 i u t x) H3 (THead k (lift h d t0) (lift h (s k d) t1)) (lift_head k t0 t1 h d) in or3_ind (ex2 T (\lambda (u2: T).eq T x (THead k u2 (lift h (s k d) t1))) (\lambda (u2: T).subst0 i u (lift h d t0) u2)) (ex2 T (\lambda (t2: T).eq T x (THead k (lift h d t0) t2)) (\lambda (t2: T).subst0 (s k i) u (lift h (s k d) t1) t2)) (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead k u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i u (lift h d t0) u2) (\lambda (_: T).\lambda (t2: T).subst0 (s k i) u (lift h (s k d) t1) t2)) P (\lambda (H5: (ex2 T (\lambda (u2: T).eq T x (THead k u2 (lift h (s k d) t1))) (\lambda (u2: T).subst0 i u (lift h d t0) u2))).ex2_ind T (\lambda (u2: T).eq T x (THead k u2 (lift h (s k d) t1))) (\lambda (u2: T).subst0 i u (lift h d t0) u2) P (\lambda (x0: T).\lambda (_: (eq T x (THead k x0 (lift h (s k d) t1)))).\lambda (H7: (subst0 i u (lift h d t0) x0)).H u x0 h d i H1 H2 H7 P) H5) (\lambda (H5: (ex2 T (\lambda (t2: T).eq T x (THead k (lift h d t0) t2)) (\lambda (t2: T).subst0 (s k i) u (lift h (s k d) t1) t2))).ex2_ind T (\lambda (t2: T).eq T x (THead k (lift h d t0) t2)) (\lambda (t2: T).subst0 (s k i) u (lift h (s k d) t1) t2) P (\lambda (x0: T).\lambda (_: (eq T x (THead k (lift h d t0) x0))).\lambda (H7: (subst0 (s k i) u (lift h (s k d) t1) x0)).H0 u x0 h (s k d) (s k i) (s_le k d i H1) (eq_ind nat (s k (plus d h)) (\lambda (n: nat).lt (s k i) n) (lt_le_S (s k i) (s k (plus d h)) (s_lt k i (plus d h) H2)) (plus (s k d) h) (s_plus k d h)) H7 P) H5) (\lambda (H5: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead k u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i u (lift h d t0) u2) (\lambda (_: T).\lambda (t2: T).subst0 (s k i) u (lift h (s k d) t1) t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead k u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i u (lift h d t0) u2) (\lambda (_: T).\lambda (t2: T).subst0 (s k i) u (lift h (s k d) t1) t2) P (\lambda (x0: T).\lambda (x1: T).\lambda (_: (eq T x (THead k x0 x1))).\lambda (H7: (subst0 i u (lift h d t0) x0)).\lambda (_: (subst0 (s k i) u (lift h (s k d) t1) x1)).H u x0 h d i H1 H2 H7 P) H5) (subst0_gen_head k u (lift h d t0) (lift h (s k d) t1) x i H4)) t.
+
+theorem subst0_gen_lift_ge: \forall (u: T).\forall (t1: T).\forall (x: T).\forall (i: nat).\forall (h: nat).\forall (d: nat).(subst0 i u (lift h d t1) x) \to (le (plus d h) i) \to ex2 T (\lambda (t2: T).eq T x (lift h d t2)) (\lambda (t2: T).subst0 (minus i h) u t1 t2) \def \lambda (u: T).\lambda (t1: T).T_ind (\lambda (t: T).\forall (x: T).\forall (i: nat).\forall (h: nat).\forall (d: nat).(subst0 i u (lift h d t) x) \to (le (plus d h) i) \to ex2 T (\lambda (t2: T).eq T x (lift h d t2)) (\lambda (t2: T).subst0 (minus i h) u t t2)) (\lambda (n: nat).\lambda (x: T).\lambda (i: nat).\lambda (h: nat).\lambda (d: nat).\lambda (H: (subst0 i u (lift h d (TSort n)) x)).\lambda (_: (le (plus d h) i)).let H1 \def eq_ind T (lift h d (TSort n)) (\lambda (t: T).subst0 i u t x) H (TSort n) (lift_sort n h d) in subst0_gen_sort u x i n H1 (ex2 T (\lambda (t2: T).eq T x (lift h d t2)) (\lambda (t2: T).subst0 (minus i h) u (TSort n) t2))) (\lambda (n: nat).\lambda (x: T).\lambda (i: nat).\lambda (h: nat).\lambda (d: nat).\lambda (H: (subst0 i u (lift h d (TLRef n)) x)).\lambda (H0: (le (plus d h) i)).lt_le_e n d (ex2 T (\lambda (t2: T).eq T x (lift h d t2)) (\lambda (t2: T).subst0 (minus i h) u (TLRef n) t2)) (\lambda (H1: (lt n d)).let H2 \def eq_ind T (lift h d (TLRef n)) (\lambda (t: T).subst0 i u t x) H (TLRef n) (lift_lref_lt n h d H1) in and_ind (eq nat n i) (eq T x (lift (S n) O u)) (ex2 T (\lambda (t2: T).eq T x (lift h d t2)) (\lambda (t2: T).subst0 (minus i h) u (TLRef n) t2)) (\lambda (H3: (eq nat n i)).\lambda (_: (eq T x (lift (S n) O u))).let H5 \def eq_ind nat n (\lambda (n: nat).lt n d) H1 i H3 in le_false (plus d h) i (ex2 T (\lambda (t2: T).eq T x (lift h d t2)) (\lambda (t2: T).subst0 (minus i h) u (TLRef n) t2)) H0 (le_plus_trans (S i) d h H5)) (subst0_gen_lref u x i n H2)) (\lambda (H1: (le d n)).let H2 \def eq_ind T (lift h d (TLRef n)) (\lambda (t: T).subst0 i u t x) H (TLRef (plus n h)) (lift_lref_ge n h d H1) in and_ind (eq nat (plus n h) i) (eq T x (lift (S (plus n h)) O u)) (ex2 T (\lambda (t2: T).eq T x (lift h d t2)) (\lambda (t2: T).subst0 (minus i h) u (TLRef n) t2)) (\lambda (H3: (eq nat (plus n h) i)).\lambda (H4: (eq T x (lift (S (plus n h)) O u))).eq_ind nat (plus n h) (\lambda (n0: nat).ex2 T (\lambda (t2: T).eq T x (lift h d t2)) (\lambda (t2: T).subst0 (minus n0 h) u (TLRef n) t2)) (eq_ind_r T (lift (S (plus n h)) O u) (\lambda (t: T).ex2 T (\lambda (t2: T).eq T t (lift h d t2)) (\lambda (t2: T).subst0 (minus (plus n h) h) u (TLRef n) t2)) (eq_ind_r nat n (\lambda (n0: nat).ex2 T (\lambda (t2: T).eq T (lift (S (plus n h)) O u) (lift h d t2)) (\lambda (t2: T).subst0 n0 u (TLRef n) t2)) (ex_intro2 T (\lambda (t2: T).eq T (lift (S (plus n h)) O u) (lift h d t2)) (\lambda (t2: T).subst0 n u (TLRef n) t2) (lift (S n) O u) (eq_ind_r T (lift (plus h (S n)) O u) (\lambda (t: T).eq T (lift (S (plus n h)) O u) t) (eq_ind_r nat (plus h n) (\lambda (n0: nat).eq T (lift (S n0) O u) (lift (plus h (S n)) O u)) (eq_ind_r nat (plus h (S n)) (\lambda (n0: nat).eq T (lift n0 O u) (lift (plus h (S n)) O u)) (refl_equal T (lift (plus h (S n)) O u)) (S (plus h n)) (plus_n_Sm h n)) (plus n h) (plus_sym n h)) (lift h d (lift (S n) O u)) (lift_free u (S n) h O d (le_trans d (S n) (plus O (S n)) (le_S d n H1) (le_n (plus O (S n)))) (le_O_n d))) (subst0_lref u n)) (minus (plus n h) h) (minus_plus_r n h)) x H4) i H3) (subst0_gen_lref u x i (plus n h) H2))) (\lambda (k: K).\lambda (t: T).\lambda (H: ((\forall (x: T).\forall (i: nat).\forall (h: nat).\forall (d: nat).(subst0 i u (lift h d t) x) \to (le (plus d h) i) \to ex2 T (\lambda (t2: T).eq T x (lift h d t2)) (\lambda (t2: T).subst0 (minus i h) u t t2)))).\lambda (t0: T).\lambda (H0: ((\forall (x: T).\forall (i: nat).\forall (h: nat).\forall (d: nat).(subst0 i u (lift h d t0) x) \to (le (plus d h) i) \to ex2 T (\lambda (t2: T).eq T x (lift h d t2)) (\lambda (t2: T).subst0 (minus i h) u t0 t2)))).\lambda (x: T).\lambda (i: nat).\lambda (h: nat).\lambda (d: nat).\lambda (H1: (subst0 i u (lift h d (THead k t t0)) x)).\lambda (H2: (le (plus d h) i)).let H3 \def eq_ind T (lift h d (THead k t t0)) (\lambda (t: T).subst0 i u t x) H1 (THead k (lift h d t) (lift h (s k d) t0)) (lift_head k t t0 h d) in or3_ind (ex2 T (\lambda (u2: T).eq T x (THead k u2 (lift h (s k d) t0))) (\lambda (u2: T).subst0 i u (lift h d t) u2)) (ex2 T (\lambda (t2: T).eq T x (THead k (lift h d t) t2)) (\lambda (t2: T).subst0 (s k i) u (lift h (s k d) t0) t2)) (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead k u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i u (lift h d t) u2) (\lambda (_: T).\lambda (t2: T).subst0 (s k i) u (lift h (s k d) t0) t2)) (ex2 T (\lambda (t2: T).eq T x (lift h d t2)) (\lambda (t2: T).subst0 (minus i h) u (THead k t t0) t2)) (\lambda (H4: (ex2 T (\lambda (u2: T).eq T x (THead k u2 (lift h (s k d) t0))) (\lambda (u2: T).subst0 i u (lift h d t) u2))).ex2_ind T (\lambda (u2: T).eq T x (THead k u2 (lift h (s k d) t0))) (\lambda (u2: T).subst0 i u (lift h d t) u2) (ex2 T (\lambda (t2: T).eq T x (lift h d t2)) (\lambda (t2: T).subst0 (minus i h) u (THead k t t0) t2)) (\lambda (x0: T).\lambda (H5: (eq T x (THead k x0 (lift h (s k d) t0)))).\lambda (H6: (subst0 i u (lift h d t) x0)).eq_ind_r T (THead k x0 (lift h (s k d) t0)) (\lambda (t2: T).ex2 T (\lambda (t3: T).eq T t2 (lift h d t3)) (\lambda (t3: T).subst0 (minus i h) u (THead k t t0) t3)) (ex2_ind T (\lambda (t2: T).eq T x0 (lift h d t2)) (\lambda (t2: T).subst0 (minus i h) u t t2) (ex2 T (\lambda (t2: T).eq T (THead k x0 (lift h (s k d) t0)) (lift h d t2)) (\lambda (t2: T).subst0 (minus i h) u (THead k t t0) t2)) (\lambda (x1: T).\lambda (H7: (eq T x0 (lift h d x1))).\lambda (H8: (subst0 (minus i h) u t x1)).eq_ind_r T (lift h d x1) (\lambda (t2: T).ex2 T (\lambda (t3: T).eq T (THead k t2 (lift h (s k d) t0)) (lift h d t3)) (\lambda (t3: T).subst0 (minus i h) u (THead k t t0) t3)) (eq_ind T (lift h d (THead k x1 t0)) (\lambda (t2: T).ex2 T (\lambda (t3: T).eq T t2 (lift h d t3)) (\lambda (t3: T).subst0 (minus i h) u (THead k t t0) t3)) (ex_intro2 T (\lambda (t2: T).eq T (lift h d (THead k x1 t0)) (lift h d t2)) (\lambda (t2: T).subst0 (minus i h) u (THead k t t0) t2) (THead k x1 t0) (refl_equal T (lift h d (THead k x1 t0))) (subst0_fst u x1 t (minus i h) H8 t0 k)) (THead k (lift h d x1) (lift h (s k d) t0)) (lift_head k x1 t0 h d)) x0 H7) (H x0 i h d H6 H2)) x H5) H4) (\lambda (H4: (ex2 T (\lambda (t2: T).eq T x (THead k (lift h d t) t2)) (\lambda (t2: T).subst0 (s k i) u (lift h (s k d) t0) t2))).ex2_ind T (\lambda (t2: T).eq T x (THead k (lift h d t) t2)) (\lambda (t2: T).subst0 (s k i) u (lift h (s k d) t0) t2) (ex2 T (\lambda (t2: T).eq T x (lift h d t2)) (\lambda (t2: T).subst0 (minus i h) u (THead k t t0) t2)) (\lambda (x0: T).\lambda (H5: (eq T x (THead k (lift h d t) x0))).\lambda (H6: (subst0 (s k i) u (lift h (s k d) t0) x0)).eq_ind_r T (THead k (lift h d t) x0) (\lambda (t2: T).ex2 T (\lambda (t3: T).eq T t2 (lift h d t3)) (\lambda (t3: T).subst0 (minus i h) u (THead k t t0) t3)) (ex2_ind T (\lambda (t2: T).eq T x0 (lift h (s k d) t2)) (\lambda (t2: T).subst0 (minus (s k i) h) u t0 t2) (ex2 T (\lambda (t2: T).eq T (THead k (lift h d t) x0) (lift h d t2)) (\lambda (t2: T).subst0 (minus i h) u (THead k t t0) t2)) (\lambda (x1: T).\lambda (H7: (eq T x0 (lift h (s k d) x1))).\lambda (H8: (subst0 (minus (s k i) h) u t0 x1)).eq_ind_r T (lift h (s k d) x1) (\lambda (t2: T).ex2 T (\lambda (t3: T).eq T (THead k (lift h d t) t2) (lift h d t3)) (\lambda (t3: T).subst0 (minus i h) u (THead k t t0) t3)) (eq_ind T (lift h d (THead k t x1)) (\lambda (t2: T).ex2 T (\lambda (t3: T).eq T t2 (lift h d t3)) (\lambda (t3: T).subst0 (minus i h) u (THead k t t0) t3)) (let H9 \def eq_ind_r nat (minus (s k i) h) (\lambda (n: nat).subst0 n u t0 x1) H8 (s k (minus i h)) (s_minus k i h (le_trans_plus_r d h i H2)) in ex_intro2 T (\lambda (t2: T).eq T (lift h d (THead k t x1)) (lift h d t2)) (\lambda (t2: T).subst0 (minus i h) u (THead k t t0) t2) (THead k t x1) (refl_equal T (lift h d (THead k t x1))) (subst0_snd k u x1 t0 (minus i h) H9 t)) (THead k (lift h d t) (lift h (s k d) x1)) (lift_head k t x1 h d)) x0 H7) (H0 x0 (s k i) h (s k d) H6 (eq_ind nat (s k (plus d h)) (\lambda (n: nat).le n (s k i)) (s_le k (plus d h) i H2) (plus (s k d) h) (s_plus k d h)))) x H5) H4) (\lambda (H4: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead k u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i u (lift h d t) u2) (\lambda (_: T).\lambda (t2: T).subst0 (s k i) u (lift h (s k d) t0) t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead k u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i u (lift h d t) u2) (\lambda (_: T).\lambda (t2: T).subst0 (s k i) u (lift h (s k d) t0) t2) (ex2 T (\lambda (t2: T).eq T x (lift h d t2)) (\lambda (t2: T).subst0 (minus i h) u (THead k t t0) t2)) (\lambda (x0: T).\lambda (x1: T).\lambda (H5: (eq T x (THead k x0 x1))).\lambda (H6: (subst0 i u (lift h d t) x0)).\lambda (H7: (subst0 (s k i) u (lift h (s k d) t0) x1)).eq_ind_r T (THead k x0 x1) (\lambda (t2: T).ex2 T (\lambda (t3: T).eq T t2 (lift h d t3)) (\lambda (t3: T).subst0 (minus i h) u (THead k t t0) t3)) (ex2_ind T (\lambda (t2: T).eq T x1 (lift h (s k d) t2)) (\lambda (t2: T).subst0 (minus (s k i) h) u t0 t2) (ex2 T (\lambda (t2: T).eq T (THead k x0 x1) (lift h d t2)) (\lambda (t2: T).subst0 (minus i h) u (THead k t t0) t2)) (\lambda (x2: T).\lambda (H8: (eq T x1 (lift h (s k d) x2))).\lambda (H9: (subst0 (minus (s k i) h) u t0 x2)).ex2_ind T (\lambda (t2: T).eq T x0 (lift h d t2)) (\lambda (t2: T).subst0 (minus i h) u t t2) (ex2 T (\lambda (t2: T).eq T (THead k x0 x1) (lift h d t2)) (\lambda (t2: T).subst0 (minus i h) u (THead k t t0) t2)) (\lambda (x3: T).\lambda (H10: (eq T x0 (lift h d x3))).\lambda (H11: (subst0 (minus i h) u t x3)).eq_ind_r T (lift h d x3) (\lambda (t2: T).ex2 T (\lambda (t3: T).eq T (THead k t2 x1) (lift h d t3)) (\lambda (t3: T).subst0 (minus i h) u (THead k t t0) t3)) (eq_ind_r T (lift h (s k d) x2) (\lambda (t2: T).ex2 T (\lambda (t3: T).eq T (THead k (lift h d x3) t2) (lift h d t3)) (\lambda (t3: T).subst0 (minus i h) u (THead k t t0) t3)) (eq_ind T (lift h d (THead k x3 x2)) (\lambda (t2: T).ex2 T (\lambda (t3: T).eq T t2 (lift h d t3)) (\lambda (t3: T).subst0 (minus i h) u (THead k t t0) t3)) (let H12 \def eq_ind_r nat (minus (s k i) h) (\lambda (n: nat).subst0 n u t0 x2) H9 (s k (minus i h)) (s_minus k i h (le_trans_plus_r d h i H2)) in ex_intro2 T (\lambda (t2: T).eq T (lift h d (THead k x3 x2)) (lift h d t2)) (\lambda (t2: T).subst0 (minus i h) u (THead k t t0) t2) (THead k x3 x2) (refl_equal T (lift h d (THead k x3 x2))) (subst0_both u t x3 (minus i h) H11 k t0 x2 H12)) (THead k (lift h d x3) (lift h (s k d) x2)) (lift_head k x3 x2 h d)) x1 H8) x0 H10) (H x0 i h d H6 H2)) (H0 x1 (s k i) h (s k d) H7 (eq_ind nat (s k (plus d h)) (\lambda (n: nat).le n (s k i)) (s_le k (plus d h) i H2) (plus (s k d) h) (s_plus k d h)))) x H5) H4) (subst0_gen_head k u (lift h d t) (lift h (s k d) t0) x i H3)) t1.
+
+theorem subst0_lift_lt: \forall (t1: T).\forall (t2: T).\forall (u: T).\forall (i: nat).(subst0 i u t1 t2) \to \forall (d: nat).(lt i d) \to \forall (h: nat).subst0 i (lift h (minus d (S i)) u) (lift h d t1) (lift h d t2) \def \lambda (t1: T).\lambda (t2: T).\lambda (u: T).\lambda (i: nat).\lambda (H: (subst0 i u t1 t2)).subst0_ind (\lambda (n: nat).\lambda (t: T).\lambda (t0: T).\lambda (t3: T).\forall (d: nat).(lt n d) \to \forall (h: nat).subst0 n (lift h (minus d (S n)) t) (lift h d t0) (lift h d t3)) (\lambda (v: T).\lambda (i0: nat).\lambda (d: nat).\lambda (H0: (lt i0 d)).\lambda (h: nat).eq_ind_r T (TLRef i0) (\lambda (t: T).subst0 i0 (lift h (minus d (S i0)) v) t (lift h d (lift (S i0) O v))) (let w \def minus d (S i0) in eq_ind nat (plus (S i0) (minus d (S i0))) (\lambda (n: nat).subst0 i0 (lift h w v) (TLRef i0) (lift h n (lift (S i0) O v))) (eq_ind_r T (lift (S i0) O (lift h (minus d (S i0)) v)) (\lambda (t: T).subst0 i0 (lift h w v) (TLRef i0) t) (subst0_lref (lift h (minus d (S i0)) v) i0) (lift h (plus (S i0) (minus d (S i0))) (lift (S i0) O v)) (lift_d v h (S i0) (minus d (S i0)) O (le_O_n (minus d (S i0))))) d (le_plus_minus_r (S i0) d H0)) (lift h d (TLRef i0)) (lift_lref_lt i0 h d H0)) (\lambda (v: T).\lambda (u2: T).\lambda (u1: T).\lambda (i0: nat).\lambda (_: (subst0 i0 v u1 u2)).\lambda (H1: ((\forall (d: nat).(lt i0 d) \to \forall (h: nat).subst0 i0 (lift h (minus d (S i0)) v) (lift h d u1) (lift h d u2)))).\lambda (t: T).\lambda (k: K).\lambda (d: nat).\lambda (H2: (lt i0 d)).\lambda (h: nat).eq_ind_r T (THead k (lift h d u1) (lift h (s k d) t)) (\lambda (t0: T).subst0 i0 (lift h (minus d (S i0)) v) t0 (lift h d (THead k u2 t))) (eq_ind_r T (THead k (lift h d u2) (lift h (s k d) t)) (\lambda (t0: T).subst0 i0 (lift h (minus d (S i0)) v) (THead k (lift h d u1) (lift h (s k d) t)) t0) (subst0_fst (lift h (minus d (S i0)) v) (lift h d u2) (lift h d u1) i0 (H1 d H2 h) (lift h (s k d) t) k) (lift h d (THead k u2 t)) (lift_head k u2 t h d)) (lift h d (THead k u1 t)) (lift_head k u1 t h d)) (\lambda (k: K).\lambda (v: T).\lambda (t0: T).\lambda (t3: T).\lambda (i0: nat).\lambda (_: (subst0 (s k i0) v t3 t0)).\lambda (H1: ((\forall (d: nat).(lt (s k i0) d) \to \forall (h: nat).subst0 (s k i0) (lift h (minus d (S (s k i0))) v) (lift h d t3) (lift h d t0)))).\lambda (u0: T).\lambda (d: nat).\lambda (H2: (lt i0 d)).\lambda (h: nat).let H3 \def eq_ind_r nat (S (s k i0)) (\lambda (n: nat).\forall (d: nat).(lt (s k i0) d) \to \forall (h: nat).subst0 (s k i0) (lift h (minus d n) v) (lift h d t3) (lift h d t0)) H1 (s k (S i0)) (s_S k i0) in eq_ind_r T (THead k (lift h d u0) (lift h (s k d) t3)) (\lambda (t: T).subst0 i0 (lift h (minus d (S i0)) v) t (lift h d (THead k u0 t0))) (eq_ind_r T (THead k (lift h d u0) (lift h (s k d) t0)) (\lambda (t: T).subst0 i0 (lift h (minus d (S i0)) v) (THead k (lift h d u0) (lift h (s k d) t3)) t) (eq_ind nat (minus (s k d) (s k (S i0))) (\lambda (n: nat).subst0 i0 (lift h n v) (THead k (lift h d u0) (lift h (s k d) t3)) (THead k (lift h d u0) (lift h (s k d) t0))) (subst0_snd k (lift h (minus (s k d) (s k (S i0))) v) (lift h (s k d) t0) (lift h (s k d) t3) i0 (H3 (s k d) (s_lt k i0 d H2) h) (lift h d u0)) (minus d (S i0)) (minus_s_s k d (S i0))) (lift h d (THead k u0 t0)) (lift_head k u0 t0 h d)) (lift h d (THead k u0 t3)) (lift_head k u0 t3 h d)) (\lambda (v: T).\lambda (u1: T).\lambda (u2: T).\lambda (i0: nat).\lambda (_: (subst0 i0 v u1 u2)).\lambda (H1: ((\forall (d: nat).(lt i0 d) \to \forall (h: nat).subst0 i0 (lift h (minus d (S i0)) v) (lift h d u1) (lift h d u2)))).\lambda (k: K).\lambda (t0: T).\lambda (t3: T).\lambda (_: (subst0 (s k i0) v t0 t3)).\lambda (H3: ((\forall (d: nat).(lt (s k i0) d) \to \forall (h: nat).subst0 (s k i0) (lift h (minus d (S (s k i0))) v) (lift h d t0) (lift h d t3)))).\lambda (d: nat).\lambda (H4: (lt i0 d)).\lambda (h: nat).let H5 \def eq_ind_r nat (S (s k i0)) (\lambda (n: nat).\forall (d: nat).(lt (s k i0) d) \to \forall (h: nat).subst0 (s k i0) (lift h (minus d n) v) (lift h d t0) (lift h d t3)) H3 (s k (S i0)) (s_S k i0) in eq_ind_r T (THead k (lift h d u1) (lift h (s k d) t0)) (\lambda (t: T).subst0 i0 (lift h (minus d (S i0)) v) t (lift h d (THead k u2 t3))) (eq_ind_r T (THead k (lift h d u2) (lift h (s k d) t3)) (\lambda (t: T).subst0 i0 (lift h (minus d (S i0)) v) (THead k (lift h d u1) (lift h (s k d) t0)) t) (subst0_both (lift h (minus d (S i0)) v) (lift h d u1) (lift h d u2) i0 (H1 d H4 h) k (lift h (s k d) t0) (lift h (s k d) t3) (eq_ind nat (minus (s k d) (s k (S i0))) (\lambda (n: nat).subst0 (s k i0) (lift h n v) (lift h (s k d) t0) (lift h (s k d) t3)) (H5 (s k d) (lt_le_S (s k i0) (s k d) (s_lt k i0 d H4)) h) (minus d (S i0)) (minus_s_s k d (S i0)))) (lift h d (THead k u2 t3)) (lift_head k u2 t3 h d)) (lift h d (THead k u1 t0)) (lift_head k u1 t0 h d)) i u t1 t2 H.
+
+theorem subst0_lift_ge: \forall (t1: T).\forall (t2: T).\forall (u: T).\forall (i: nat).\forall (h: nat).(subst0 i u t1 t2) \to \forall (d: nat).(le d i) \to subst0 (plus i h) u (lift h d t1) (lift h d t2) \def \lambda (t1: T).\lambda (t2: T).\lambda (u: T).\lambda (i: nat).\lambda (h: nat).\lambda (H: (subst0 i u t1 t2)).subst0_ind (\lambda (n: nat).\lambda (t: T).\lambda (t0: T).\lambda (t3: T).\forall (d: nat).(le d n) \to subst0 (plus n h) t (lift h d t0) (lift h d t3)) (\lambda (v: T).\lambda (i0: nat).\lambda (d: nat).\lambda (H0: (le d i0)).eq_ind_r T (TLRef (plus i0 h)) (\lambda (t: T).subst0 (plus i0 h) v t (lift h d (lift (S i0) O v))) (eq_ind_r T (lift (plus h (S i0)) O v) (\lambda (t: T).subst0 (plus i0 h) v (TLRef (plus i0 h)) t) (eq_ind nat (S (plus h i0)) (\lambda (n: nat).subst0 (plus i0 h) v (TLRef (plus i0 h)) (lift n O v)) (eq_ind_r nat (plus h i0) (\lambda (n: nat).subst0 n v (TLRef n) (lift (S (plus h i0)) O v)) (subst0_lref v (plus h i0)) (plus i0 h) (plus_sym i0 h)) (plus h (S i0)) (plus_n_Sm h i0)) (lift h d (lift (S i0) O v)) (lift_free v (S i0) h O d (le_S d i0 H0) (le_O_n d))) (lift h d (TLRef i0)) (lift_lref_ge i0 h d H0)) (\lambda (v: T).\lambda (u2: T).\lambda (u1: T).\lambda (i0: nat).\lambda (_: (subst0 i0 v u1 u2)).\lambda (H1: ((\forall (d: nat).(le d i0) \to subst0 (plus i0 h) v (lift h d u1) (lift h d u2)))).\lambda (t: T).\lambda (k: K).\lambda (d: nat).\lambda (H2: (le d i0)).eq_ind_r T (THead k (lift h d u1) (lift h (s k d) t)) (\lambda (t0: T).subst0 (plus i0 h) v t0 (lift h d (THead k u2 t))) (eq_ind_r T (THead k (lift h d u2) (lift h (s k d) t)) (\lambda (t0: T).subst0 (plus i0 h) v (THead k (lift h d u1) (lift h (s k d) t)) t0) (subst0_fst v (lift h d u2) (lift h d u1) (plus i0 h) (H1 d H2) (lift h (s k d) t) k) (lift h d (THead k u2 t)) (lift_head k u2 t h d)) (lift h d (THead k u1 t)) (lift_head k u1 t h d)) (\lambda (k: K).\lambda (v: T).\lambda (t0: T).\lambda (t3: T).\lambda (i0: nat).\lambda (_: (subst0 (s k i0) v t3 t0)).\lambda (H1: ((\forall (d: nat).(le d (s k i0)) \to subst0 (plus (s k i0) h) v (lift h d t3) (lift h d t0)))).\lambda (u0: T).\lambda (d: nat).\lambda (H2: (le d i0)).let H3 \def eq_ind_r nat (plus (s k i0) h) (\lambda (n: nat).\forall (d: nat).(le d (s k i0)) \to subst0 n v (lift h d t3) (lift h d t0)) H1 (s k (plus i0 h)) (s_plus k i0 h) in eq_ind_r T (THead k (lift h d u0) (lift h (s k d) t3)) (\lambda (t: T).subst0 (plus i0 h) v t (lift h d (THead k u0 t0))) (eq_ind_r T (THead k (lift h d u0) (lift h (s k d) t0)) (\lambda (t: T).subst0 (plus i0 h) v (THead k (lift h d u0) (lift h (s k d) t3)) t) (subst0_snd k v (lift h (s k d) t0) (lift h (s k d) t3) (plus i0 h) (H3 (s k d) (s_le k d i0 H2)) (lift h d u0)) (lift h d (THead k u0 t0)) (lift_head k u0 t0 h d)) (lift h d (THead k u0 t3)) (lift_head k u0 t3 h d)) (\lambda (v: T).\lambda (u1: T).\lambda (u2: T).\lambda (i0: nat).\lambda (_: (subst0 i0 v u1 u2)).\lambda (H1: ((\forall (d: nat).(le d i0) \to subst0 (plus i0 h) v (lift h d u1) (lift h d u2)))).\lambda (k: K).\lambda (t0: T).\lambda (t3: T).\lambda (_: (subst0 (s k i0) v t0 t3)).\lambda (H3: ((\forall (d: nat).(le d (s k i0)) \to subst0 (plus (s k i0) h) v (lift h d t0) (lift h d t3)))).\lambda (d: nat).\lambda (H4: (le d i0)).let H5 \def eq_ind_r nat (plus (s k i0) h) (\lambda (n: nat).\forall (d: nat).(le d (s k i0)) \to subst0 n v (lift h d t0) (lift h d t3)) H3 (s k (plus i0 h)) (s_plus k i0 h) in eq_ind_r T (THead k (lift h d u1) (lift h (s k d) t0)) (\lambda (t: T).subst0 (plus i0 h) v t (lift h d (THead k u2 t3))) (eq_ind_r T (THead k (lift h d u2) (lift h (s k d) t3)) (\lambda (t: T).subst0 (plus i0 h) v (THead k (lift h d u1) (lift h (s k d) t0)) t) (subst0_both v (lift h d u1) (lift h d u2) (plus i0 h) (H1 d H4) k (lift h (s k d) t0) (lift h (s k d) t3) (H5 (s k d) (s_le k d i0 H4))) (lift h d (THead k u2 t3)) (lift_head k u2 t3 h d)) (lift h d (THead k u1 t0)) (lift_head k u1 t0 h d)) i u t1 t2 H.
+
+theorem subst0_lift_ge_S: \forall (t1: T).\forall (t2: T).\forall (u: T).\forall (i: nat).(subst0 i u t1 t2) \to \forall (d: nat).(le d i) \to subst0 (S i) u (lift (S O) d t1) (lift (S O) d t2) \def \lambda (t1: T).\lambda (t2: T).\lambda (u: T).\lambda (i: nat).\lambda (H: (subst0 i u t1 t2)).\lambda (d: nat).\lambda (H0: (le d i)).eq_ind nat (plus i (S O)) (\lambda (n: nat).subst0 n u (lift (S O) d t1) (lift (S O) d t2)) (subst0_lift_ge t1 t2 u i (S O) H d H0) (S i) (eq_ind_r nat (plus (S O) i) (\lambda (n: nat).eq nat n (S i)) (refl_equal nat (S i)) (plus i (S O)) (plus_sym i (S O))).
+
+theorem subst0_lift_ge_s: \forall (t1: T).\forall (t2: T).\forall (u: T).\forall (i: nat).(subst0 i u t1 t2) \to \forall (d: nat).(le d i) \to \forall (b: B).subst0 (s (Bind b) i) u (lift (S O) d t1) (lift (S O) d t2) \def \lambda (t1: T).\lambda (t2: T).\lambda (u: T).\lambda (i: nat).\lambda (H: (subst0 i u t1 t2)).\lambda (d: nat).\lambda (H0: (le d i)).\lambda (_: B).subst0_lift_ge_S t1 t2 u i H d H0.
+
+theorem subst0_subst0: \forall (t1: T).\forall (t2: T).\forall (u2: T).\forall (j: nat).(subst0 j u2 t1 t2) \to \forall (u1: T).\forall (u: T).\forall (i: nat).(subst0 i u u1 u2) \to ex2 T (\lambda (t: T).subst0 j u1 t1 t) (\lambda (t: T).subst0 (S (plus i j)) u t t2) \def \lambda (t1: T).\lambda (t2: T).\lambda (u2: T).\lambda (j: nat).\lambda (H: (subst0 j u2 t1 t2)).subst0_ind (\lambda (n: nat).\lambda (t: T).\lambda (t0: T).\lambda (t3: T).\forall (u1: T).\forall (u: T).\forall (i: nat).(subst0 i u u1 t) \to ex2 T (\lambda (t4: T).subst0 n u1 t0 t4) (\lambda (t4: T).subst0 (S (plus i n)) u t4 t3)) (\lambda (v: T).\lambda (i: nat).\lambda (u1: T).\lambda (u: T).\lambda (i0: nat).\lambda (H0: (subst0 i0 u u1 v)).eq_ind nat (plus i0 (S i)) (\lambda (n: nat).ex2 T (\lambda (t: T).subst0 i u1 (TLRef i) t) (\lambda (t: T).subst0 n u t (lift (S i) O v))) (ex_intro2 T (\lambda (t: T).subst0 i u1 (TLRef i) t) (\lambda (t: T).subst0 (plus i0 (S i)) u t (lift (S i) O v)) (lift (S i) O u1) (subst0_lref u1 i) (subst0_lift_ge u1 v u i0 (S i) H0 O (le_O_n i0))) (S (plus i0 i)) (sym_eq nat (S (plus i0 i)) (plus i0 (S i)) (plus_n_Sm i0 i))) (\lambda (v: T).\lambda (u0: T).\lambda (u1: T).\lambda (i: nat).\lambda (_: (subst0 i v u1 u0)).\lambda (H1: ((\forall (u2: T).\forall (u: T).\forall (i0: nat).(subst0 i0 u u2 v) \to ex2 T (\lambda (t: T).subst0 i u2 u1 t) (\lambda (t: T).subst0 (S (plus i0 i)) u t u0)))).\lambda (t: T).\lambda (k: K).\lambda (u3: T).\lambda (u: T).\lambda (i0: nat).\lambda (H2: (subst0 i0 u u3 v)).ex2_ind T (\lambda (t0: T).subst0 i u3 u1 t0) (\lambda (t0: T).subst0 (S (plus i0 i)) u t0 u0) (ex2 T (\lambda (t0: T).subst0 i u3 (THead k u1 t) t0) (\lambda (t0: T).subst0 (S (plus i0 i)) u t0 (THead k u0 t))) (\lambda (x: T).\lambda (H3: (subst0 i u3 u1 x)).\lambda (H4: (subst0 (S (plus i0 i)) u x u0)).ex_intro2 T (\lambda (t0: T).subst0 i u3 (THead k u1 t) t0) (\lambda (t0: T).subst0 (S (plus i0 i)) u t0 (THead k u0 t)) (THead k x t) (subst0_fst u3 x u1 i H3 t k) (subst0_fst u u0 x (S (plus i0 i)) H4 t k)) (H1 u3 u i0 H2)) (\lambda (k: K).\lambda (v: T).\lambda (t0: T).\lambda (t3: T).\lambda (i: nat).\lambda (_: (subst0 (s k i) v t3 t0)).\lambda (H1: ((\forall (u1: T).\forall (u: T).\forall (i0: nat).(subst0 i0 u u1 v) \to ex2 T (\lambda (t: T).subst0 (s k i) u1 t3 t) (\lambda (t: T).subst0 (S (plus i0 (s k i))) u t t0)))).\lambda (u: T).\lambda (u1: T).\lambda (u0: T).\lambda (i0: nat).\lambda (H2: (subst0 i0 u0 u1 v)).ex2_ind T (\lambda (t: T).subst0 (s k i) u1 t3 t) (\lambda (t: T).subst0 (S (plus i0 (s k i))) u0 t t0) (ex2 T (\lambda (t: T).subst0 i u1 (THead k u t3) t) (\lambda (t: T).subst0 (S (plus i0 i)) u0 t (THead k u t0))) (\lambda (x: T).\lambda (H3: (subst0 (s k i) u1 t3 x)).\lambda (H4: (subst0 (S (plus i0 (s k i))) u0 x t0)).let H5 \def eq_ind_r nat (plus i0 (s k i)) (\lambda (n: nat).subst0 (S n) u0 x t0) H4 (s k (plus i0 i)) (s_plus_sym k i0 i) in let H6 \def eq_ind_r nat (S (s k (plus i0 i))) (\lambda (n: nat).subst0 n u0 x t0) H5 (s k (S (plus i0 i))) (s_S k (plus i0 i)) in ex_intro2 T (\lambda (t: T).subst0 i u1 (THead k u t3) t) (\lambda (t: T).subst0 (S (plus i0 i)) u0 t (THead k u t0)) (THead k u x) (subst0_snd k u1 x t3 i H3 u) (subst0_snd k u0 t0 x (S (plus i0 i)) H6 u)) (H1 u1 u0 i0 H2)) (\lambda (v: T).\lambda (u1: T).\lambda (u0: T).\lambda (i: nat).\lambda (_: (subst0 i v u1 u0)).\lambda (H1: ((\forall (u2: T).\forall (u: T).\forall (i0: nat).(subst0 i0 u u2 v) \to ex2 T (\lambda (t: T).subst0 i u2 u1 t) (\lambda (t: T).subst0 (S (plus i0 i)) u t u0)))).\lambda (k: K).\lambda (t0: T).\lambda (t3: T).\lambda (_: (subst0 (s k i) v t0 t3)).\lambda (H3: ((\forall (u1: T).\forall (u: T).\forall (i0: nat).(subst0 i0 u u1 v) \to ex2 T (\lambda (t: T).subst0 (s k i) u1 t0 t) (\lambda (t: T).subst0 (S (plus i0 (s k i))) u t t3)))).\lambda (u3: T).\lambda (u: T).\lambda (i0: nat).\lambda (H4: (subst0 i0 u u3 v)).ex2_ind T (\lambda (t: T).subst0 (s k i) u3 t0 t) (\lambda (t: T).subst0 (S (plus i0 (s k i))) u t t3) (ex2 T (\lambda (t: T).subst0 i u3 (THead k u1 t0) t) (\lambda (t: T).subst0 (S (plus i0 i)) u t (THead k u0 t3))) (\lambda (x: T).\lambda (H5: (subst0 (s k i) u3 t0 x)).\lambda (H6: (subst0 (S (plus i0 (s k i))) u x t3)).ex2_ind T (\lambda (t: T).subst0 i u3 u1 t) (\lambda (t: T).subst0 (S (plus i0 i)) u t u0) (ex2 T (\lambda (t: T).subst0 i u3 (THead k u1 t0) t) (\lambda (t: T).subst0 (S (plus i0 i)) u t (THead k u0 t3))) (\lambda (x0: T).\lambda (H7: (subst0 i u3 u1 x0)).\lambda (H8: (subst0 (S (plus i0 i)) u x0 u0)).let H9 \def eq_ind_r nat (plus i0 (s k i)) (\lambda (n: nat).subst0 (S n) u x t3) H6 (s k (plus i0 i)) (s_plus_sym k i0 i) in let H10 \def eq_ind_r nat (S (s k (plus i0 i))) (\lambda (n: nat).subst0 n u x t3) H9 (s k (S (plus i0 i))) (s_S k (plus i0 i)) in ex_intro2 T (\lambda (t: T).subst0 i u3 (THead k u1 t0) t) (\lambda (t: T).subst0 (S (plus i0 i)) u t (THead k u0 t3)) (THead k x0 x) (subst0_both u3 u1 x0 i H7 k t0 x H5) (subst0_both u x0 u0 (S (plus i0 i)) H8 k x t3 H10)) (H1 u3 u i0 H4)) (H3 u3 u i0 H4)) j u2 t1 t2 H.
+
+theorem subst0_subst0_back: \forall (t1: T).\forall (t2: T).\forall (u2: T).\forall (j: nat).(subst0 j u2 t1 t2) \to \forall (u1: T).\forall (u: T).\forall (i: nat).(subst0 i u u2 u1) \to ex2 T (\lambda (t: T).subst0 j u1 t1 t) (\lambda (t: T).subst0 (S (plus i j)) u t2 t) \def \lambda (t1: T).\lambda (t2: T).\lambda (u2: T).\lambda (j: nat).\lambda (H: (subst0 j u2 t1 t2)).subst0_ind (\lambda (n: nat).\lambda (t: T).\lambda (t0: T).\lambda (t3: T).\forall (u1: T).\forall (u: T).\forall (i: nat).(subst0 i u t u1) \to ex2 T (\lambda (t4: T).subst0 n u1 t0 t4) (\lambda (t4: T).subst0 (S (plus i n)) u t3 t4)) (\lambda (v: T).\lambda (i: nat).\lambda (u1: T).\lambda (u: T).\lambda (i0: nat).\lambda (H0: (subst0 i0 u v u1)).eq_ind nat (plus i0 (S i)) (\lambda (n: nat).ex2 T (\lambda (t: T).subst0 i u1 (TLRef i) t) (\lambda (t: T).subst0 n u (lift (S i) O v) t)) (ex_intro2 T (\lambda (t: T).subst0 i u1 (TLRef i) t) (\lambda (t: T).subst0 (plus i0 (S i)) u (lift (S i) O v) t) (lift (S i) O u1) (subst0_lref u1 i) (subst0_lift_ge v u1 u i0 (S i) H0 O (le_O_n i0))) (S (plus i0 i)) (sym_eq nat (S (plus i0 i)) (plus i0 (S i)) (plus_n_Sm i0 i))) (\lambda (v: T).\lambda (u0: T).\lambda (u1: T).\lambda (i: nat).\lambda (_: (subst0 i v u1 u0)).\lambda (H1: ((\forall (u2: T).\forall (u: T).\forall (i0: nat).(subst0 i0 u v u2) \to ex2 T (\lambda (t: T).subst0 i u2 u1 t) (\lambda (t: T).subst0 (S (plus i0 i)) u u0 t)))).\lambda (t: T).\lambda (k: K).\lambda (u3: T).\lambda (u: T).\lambda (i0: nat).\lambda (H2: (subst0 i0 u v u3)).ex2_ind T (\lambda (t0: T).subst0 i u3 u1 t0) (\lambda (t0: T).subst0 (S (plus i0 i)) u u0 t0) (ex2 T (\lambda (t0: T).subst0 i u3 (THead k u1 t) t0) (\lambda (t0: T).subst0 (S (plus i0 i)) u (THead k u0 t) t0)) (\lambda (x: T).\lambda (H3: (subst0 i u3 u1 x)).\lambda (H4: (subst0 (S (plus i0 i)) u u0 x)).ex_intro2 T (\lambda (t0: T).subst0 i u3 (THead k u1 t) t0) (\lambda (t0: T).subst0 (S (plus i0 i)) u (THead k u0 t) t0) (THead k x t) (subst0_fst u3 x u1 i H3 t k) (subst0_fst u x u0 (S (plus i0 i)) H4 t k)) (H1 u3 u i0 H2)) (\lambda (k: K).\lambda (v: T).\lambda (t0: T).\lambda (t3: T).\lambda (i: nat).\lambda (_: (subst0 (s k i) v t3 t0)).\lambda (H1: ((\forall (u1: T).\forall (u: T).\forall (i0: nat).(subst0 i0 u v u1) \to ex2 T (\lambda (t: T).subst0 (s k i) u1 t3 t) (\lambda (t: T).subst0 (S (plus i0 (s k i))) u t0 t)))).\lambda (u: T).\lambda (u1: T).\lambda (u0: T).\lambda (i0: nat).\lambda (H2: (subst0 i0 u0 v u1)).ex2_ind T (\lambda (t: T).subst0 (s k i) u1 t3 t) (\lambda (t: T).subst0 (S (plus i0 (s k i))) u0 t0 t) (ex2 T (\lambda (t: T).subst0 i u1 (THead k u t3) t) (\lambda (t: T).subst0 (S (plus i0 i)) u0 (THead k u t0) t)) (\lambda (x: T).\lambda (H3: (subst0 (s k i) u1 t3 x)).\lambda (H4: (subst0 (S (plus i0 (s k i))) u0 t0 x)).let H5 \def eq_ind_r nat (plus i0 (s k i)) (\lambda (n: nat).subst0 (S n) u0 t0 x) H4 (s k (plus i0 i)) (s_plus_sym k i0 i) in let H6 \def eq_ind_r nat (S (s k (plus i0 i))) (\lambda (n: nat).subst0 n u0 t0 x) H5 (s k (S (plus i0 i))) (s_S k (plus i0 i)) in ex_intro2 T (\lambda (t: T).subst0 i u1 (THead k u t3) t) (\lambda (t: T).subst0 (S (plus i0 i)) u0 (THead k u t0) t) (THead k u x) (subst0_snd k u1 x t3 i H3 u) (subst0_snd k u0 x t0 (S (plus i0 i)) H6 u)) (H1 u1 u0 i0 H2)) (\lambda (v: T).\lambda (u1: T).\lambda (u0: T).\lambda (i: nat).\lambda (_: (subst0 i v u1 u0)).\lambda (H1: ((\forall (u2: T).\forall (u: T).\forall (i0: nat).(subst0 i0 u v u2) \to ex2 T (\lambda (t: T).subst0 i u2 u1 t) (\lambda (t: T).subst0 (S (plus i0 i)) u u0 t)))).\lambda (k: K).\lambda (t0: T).\lambda (t3: T).\lambda (_: (subst0 (s k i) v t0 t3)).\lambda (H3: ((\forall (u1: T).\forall (u: T).\forall (i0: nat).(subst0 i0 u v u1) \to ex2 T (\lambda (t: T).subst0 (s k i) u1 t0 t) (\lambda (t: T).subst0 (S (plus i0 (s k i))) u t3 t)))).\lambda (u3: T).\lambda (u: T).\lambda (i0: nat).\lambda (H4: (subst0 i0 u v u3)).ex2_ind T (\lambda (t: T).subst0 (s k i) u3 t0 t) (\lambda (t: T).subst0 (S (plus i0 (s k i))) u t3 t) (ex2 T (\lambda (t: T).subst0 i u3 (THead k u1 t0) t) (\lambda (t: T).subst0 (S (plus i0 i)) u (THead k u0 t3) t)) (\lambda (x: T).\lambda (H5: (subst0 (s k i) u3 t0 x)).\lambda (H6: (subst0 (S (plus i0 (s k i))) u t3 x)).ex2_ind T (\lambda (t: T).subst0 i u3 u1 t) (\lambda (t: T).subst0 (S (plus i0 i)) u u0 t) (ex2 T (\lambda (t: T).subst0 i u3 (THead k u1 t0) t) (\lambda (t: T).subst0 (S (plus i0 i)) u (THead k u0 t3) t)) (\lambda (x0: T).\lambda (H7: (subst0 i u3 u1 x0)).\lambda (H8: (subst0 (S (plus i0 i)) u u0 x0)).let H9 \def eq_ind_r nat (plus i0 (s k i)) (\lambda (n: nat).subst0 (S n) u t3 x) H6 (s k (plus i0 i)) (s_plus_sym k i0 i) in let H10 \def eq_ind_r nat (S (s k (plus i0 i))) (\lambda (n: nat).subst0 n u t3 x) H9 (s k (S (plus i0 i))) (s_S k (plus i0 i)) in ex_intro2 T (\lambda (t: T).subst0 i u3 (THead k u1 t0) t) (\lambda (t: T).subst0 (S (plus i0 i)) u (THead k u0 t3) t) (THead k x0 x) (subst0_both u3 u1 x0 i H7 k t0 x H5) (subst0_both u u0 x0 (S (plus i0 i)) H8 k t3 x H10)) (H1 u3 u i0 H4)) (H3 u3 u i0 H4)) j u2 t1 t2 H.
+
+theorem subst0_trans: \forall (t2: T).\forall (t1: T).\forall (v: T).\forall (i: nat).(subst0 i v t1 t2) \to \forall (t3: T).(subst0 i v t2 t3) \to subst0 i v t1 t3 \def \lambda (t2: T).\lambda (t1: T).\lambda (v: T).\lambda (i: nat).\lambda (H: (subst0 i v t1 t2)).subst0_ind (\lambda (n: nat).\lambda (t: T).\lambda (t0: T).\lambda (t3: T).\forall (t4: T).(subst0 n t t3 t4) \to subst0 n t t0 t4) (\lambda (v0: T).\lambda (i0: nat).\lambda (t3: T).\lambda (H0: (subst0 i0 v0 (lift (S i0) O v0) t3)).subst0_gen_lift_false v0 v0 t3 (S i0) O i0 (le_O_n i0) (le_n (plus O (S i0))) H0 (subst0 i0 v0 (TLRef i0) t3)) (\lambda (v0: T).\lambda (u2: T).\lambda (u1: T).\lambda (i0: nat).\lambda (H0: (subst0 i0 v0 u1 u2)).\lambda (H1: ((\forall (t3: T).(subst0 i0 v0 u2 t3) \to subst0 i0 v0 u1 t3))).\lambda (t: T).\lambda (k: K).\lambda (t3: T).\lambda (H2: (subst0 i0 v0 (THead k u2 t) t3)).or3_ind (ex2 T (\lambda (u3: T).eq T t3 (THead k u3 t)) (\lambda (u3: T).subst0 i0 v0 u2 u3)) (ex2 T (\lambda (t4: T).eq T t3 (THead k u2 t4)) (\lambda (t4: T).subst0 (s k i0) v0 t t4)) (ex3_2 T T (\lambda (u3: T).\lambda (t4: T).eq T t3 (THead k u3 t4)) (\lambda (u3: T).\lambda (_: T).subst0 i0 v0 u2 u3) (\lambda (_: T).\lambda (t4: T).subst0 (s k i0) v0 t t4)) (subst0 i0 v0 (THead k u1 t) t3) (\lambda (H3: (ex2 T (\lambda (u2: T).eq T t3 (THead k u2 t)) (\lambda (u3: T).subst0 i0 v0 u2 u3))).ex2_ind T (\lambda (u3: T).eq T t3 (THead k u3 t)) (\lambda (u3: T).subst0 i0 v0 u2 u3) (subst0 i0 v0 (THead k u1 t) t3) (\lambda (x: T).\lambda (H4: (eq T t3 (THead k x t))).\lambda (H5: (subst0 i0 v0 u2 x)).eq_ind_r T (THead k x t) (\lambda (t0: T).subst0 i0 v0 (THead k u1 t) t0) (subst0_fst v0 x u1 i0 (H1 x H5) t k) t3 H4) H3) (\lambda (H3: (ex2 T (\lambda (t2: T).eq T t3 (THead k u2 t2)) (\lambda (t2: T).subst0 (s k i0) v0 t t2))).ex2_ind T (\lambda (t4: T).eq T t3 (THead k u2 t4)) (\lambda (t4: T).subst0 (s k i0) v0 t t4) (subst0 i0 v0 (THead k u1 t) t3) (\lambda (x: T).\lambda (H4: (eq T t3 (THead k u2 x))).\lambda (H5: (subst0 (s k i0) v0 t x)).eq_ind_r T (THead k u2 x) (\lambda (t0: T).subst0 i0 v0 (THead k u1 t) t0) (subst0_both v0 u1 u2 i0 H0 k t x H5) t3 H4) H3) (\lambda (H3: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t3 (THead k u2 t2)) (\lambda (u3: T).\lambda (_: T).subst0 i0 v0 u2 u3) (\lambda (_: T).\lambda (t2: T).subst0 (s k i0) v0 t t2))).ex3_2_ind T T (\lambda (u3: T).\lambda (t4: T).eq T t3 (THead k u3 t4)) (\lambda (u3: T).\lambda (_: T).subst0 i0 v0 u2 u3) (\lambda (_: T).\lambda (t4: T).subst0 (s k i0) v0 t t4) (subst0 i0 v0 (THead k u1 t) t3) (\lambda (x0: T).\lambda (x1: T).\lambda (H4: (eq T t3 (THead k x0 x1))).\lambda (H5: (subst0 i0 v0 u2 x0)).\lambda (H6: (subst0 (s k i0) v0 t x1)).eq_ind_r T (THead k x0 x1) (\lambda (t0: T).subst0 i0 v0 (THead k u1 t) t0) (subst0_both v0 u1 x0 i0 (H1 x0 H5) k t x1 H6) t3 H4) H3) (subst0_gen_head k v0 u2 t t3 i0 H2)) (\lambda (k: K).\lambda (v0: T).\lambda (t0: T).\lambda (t3: T).\lambda (i0: nat).\lambda (H0: (subst0 (s k i0) v0 t3 t0)).\lambda (H1: ((\forall (t4: T).(subst0 (s k i0) v0 t0 t4) \to subst0 (s k i0) v0 t3 t4))).\lambda (u: T).\lambda (t4: T).\lambda (H2: (subst0 i0 v0 (THead k u t0) t4)).or3_ind (ex2 T (\lambda (u2: T).eq T t4 (THead k u2 t0)) (\lambda (u2: T).subst0 i0 v0 u u2)) (ex2 T (\lambda (t5: T).eq T t4 (THead k u t5)) (\lambda (t5: T).subst0 (s k i0) v0 t0 t5)) (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead k u2 t5)) (\lambda (u2: T).\lambda (_: T).subst0 i0 v0 u u2) (\lambda (_: T).\lambda (t5: T).subst0 (s k i0) v0 t0 t5)) (subst0 i0 v0 (THead k u t3) t4) (\lambda (H3: (ex2 T (\lambda (u2: T).eq T t4 (THead k u2 t0)) (\lambda (u2: T).subst0 i0 v0 u u2))).ex2_ind T (\lambda (u2: T).eq T t4 (THead k u2 t0)) (\lambda (u2: T).subst0 i0 v0 u u2) (subst0 i0 v0 (THead k u t3) t4) (\lambda (x: T).\lambda (H4: (eq T t4 (THead k x t0))).\lambda (H5: (subst0 i0 v0 u x)).eq_ind_r T (THead k x t0) (\lambda (t: T).subst0 i0 v0 (THead k u t3) t) (subst0_both v0 u x i0 H5 k t3 t0 H0) t4 H4) H3) (\lambda (H3: (ex2 T (\lambda (t2: T).eq T t4 (THead k u t2)) (\lambda (t2: T).subst0 (s k i0) v0 t0 t2))).ex2_ind T (\lambda (t5: T).eq T t4 (THead k u t5)) (\lambda (t5: T).subst0 (s k i0) v0 t0 t5) (subst0 i0 v0 (THead k u t3) t4) (\lambda (x: T).\lambda (H4: (eq T t4 (THead k u x))).\lambda (H5: (subst0 (s k i0) v0 t0 x)).eq_ind_r T (THead k u x) (\lambda (t: T).subst0 i0 v0 (THead k u t3) t) (subst0_snd k v0 x t3 i0 (H1 x H5) u) t4 H4) H3) (\lambda (H3: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t4 (THead k u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i0 v0 u u2) (\lambda (_: T).\lambda (t2: T).subst0 (s k i0) v0 t0 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead k u2 t5)) (\lambda (u2: T).\lambda (_: T).subst0 i0 v0 u u2) (\lambda (_: T).\lambda (t5: T).subst0 (s k i0) v0 t0 t5) (subst0 i0 v0 (THead k u t3) t4) (\lambda (x0: T).\lambda (x1: T).\lambda (H4: (eq T t4 (THead k x0 x1))).\lambda (H5: (subst0 i0 v0 u x0)).\lambda (H6: (subst0 (s k i0) v0 t0 x1)).eq_ind_r T (THead k x0 x1) (\lambda (t: T).subst0 i0 v0 (THead k u t3) t) (subst0_both v0 u x0 i0 H5 k t3 x1 (H1 x1 H6)) t4 H4) H3) (subst0_gen_head k v0 u t0 t4 i0 H2)) (\lambda (v0: T).\lambda (u1: T).\lambda (u2: T).\lambda (i0: nat).\lambda (H0: (subst0 i0 v0 u1 u2)).\lambda (H1: ((\forall (t3: T).(subst0 i0 v0 u2 t3) \to subst0 i0 v0 u1 t3))).\lambda (k: K).\lambda (t0: T).\lambda (t3: T).\lambda (H2: (subst0 (s k i0) v0 t0 t3)).\lambda (H3: ((\forall (t4: T).(subst0 (s k i0) v0 t3 t4) \to subst0 (s k i0) v0 t0 t4))).\lambda (t4: T).\lambda (H4: (subst0 i0 v0 (THead k u2 t3) t4)).or3_ind (ex2 T (\lambda (u3: T).eq T t4 (THead k u3 t3)) (\lambda (u3: T).subst0 i0 v0 u2 u3)) (ex2 T (\lambda (t5: T).eq T t4 (THead k u2 t5)) (\lambda (t5: T).subst0 (s k i0) v0 t3 t5)) (ex3_2 T T (\lambda (u3: T).\lambda (t5: T).eq T t4 (THead k u3 t5)) (\lambda (u3: T).\lambda (_: T).subst0 i0 v0 u2 u3) (\lambda (_: T).\lambda (t5: T).subst0 (s k i0) v0 t3 t5)) (subst0 i0 v0 (THead k u1 t0) t4) (\lambda (H5: (ex2 T (\lambda (u2: T).eq T t4 (THead k u2 t3)) (\lambda (u3: T).subst0 i0 v0 u2 u3))).ex2_ind T (\lambda (u3: T).eq T t4 (THead k u3 t3)) (\lambda (u3: T).subst0 i0 v0 u2 u3) (subst0 i0 v0 (THead k u1 t0) t4) (\lambda (x: T).\lambda (H6: (eq T t4 (THead k x t3))).\lambda (H7: (subst0 i0 v0 u2 x)).eq_ind_r T (THead k x t3) (\lambda (t: T).subst0 i0 v0 (THead k u1 t0) t) (subst0_both v0 u1 x i0 (H1 x H7) k t0 t3 H2) t4 H6) H5) (\lambda (H5: (ex2 T (\lambda (t2: T).eq T t4 (THead k u2 t2)) (\lambda (t2: T).subst0 (s k i0) v0 t3 t2))).ex2_ind T (\lambda (t5: T).eq T t4 (THead k u2 t5)) (\lambda (t5: T).subst0 (s k i0) v0 t3 t5) (subst0 i0 v0 (THead k u1 t0) t4) (\lambda (x: T).\lambda (H6: (eq T t4 (THead k u2 x))).\lambda (H7: (subst0 (s k i0) v0 t3 x)).eq_ind_r T (THead k u2 x) (\lambda (t: T).subst0 i0 v0 (THead k u1 t0) t) (subst0_both v0 u1 u2 i0 H0 k t0 x (H3 x H7)) t4 H6) H5) (\lambda (H5: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t4 (THead k u2 t2)) (\lambda (u3: T).\lambda (_: T).subst0 i0 v0 u2 u3) (\lambda (_: T).\lambda (t2: T).subst0 (s k i0) v0 t3 t2))).ex3_2_ind T T (\lambda (u3: T).\lambda (t5: T).eq T t4 (THead k u3 t5)) (\lambda (u3: T).\lambda (_: T).subst0 i0 v0 u2 u3) (\lambda (_: T).\lambda (t5: T).subst0 (s k i0) v0 t3 t5) (subst0 i0 v0 (THead k u1 t0) t4) (\lambda (x0: T).\lambda (x1: T).\lambda (H6: (eq T t4 (THead k x0 x1))).\lambda (H7: (subst0 i0 v0 u2 x0)).\lambda (H8: (subst0 (s k i0) v0 t3 x1)).eq_ind_r T (THead k x0 x1) (\lambda (t: T).subst0 i0 v0 (THead k u1 t0) t) (subst0_both v0 u1 x0 i0 (H1 x0 H7) k t0 x1 (H3 x1 H8)) t4 H6) H5) (subst0_gen_head k v0 u2 t3 t4 i0 H4)) i v t1 t2 H.
+
+theorem subst0_confluence_neq: \forall (t0: T).\forall (t1: T).\forall (u1: T).\forall (i1: nat).(subst0 i1 u1 t0 t1) \to \forall (t2: T).\forall (u2: T).\forall (i2: nat).(subst0 i2 u2 t0 t2) \to (not (eq nat i1 i2)) \to ex2 T (\lambda (t: T).subst0 i2 u2 t1 t) (\lambda (t: T).subst0 i1 u1 t2 t) \def \lambda (t0: T).\lambda (t1: T).\lambda (u1: T).\lambda (i1: nat).\lambda (H: (subst0 i1 u1 t0 t1)).subst0_ind (\lambda (n: nat).\lambda (t: T).\lambda (t2: T).\lambda (t3: T).\forall (t4: T).\forall (u2: T).\forall (i2: nat).(subst0 i2 u2 t2 t4) \to (not (eq nat n i2)) \to ex2 T (\lambda (t5: T).subst0 i2 u2 t3 t5) (\lambda (t5: T).subst0 n t t4 t5)) (\lambda (v: T).\lambda (i: nat).\lambda (t2: T).\lambda (u2: T).\lambda (i2: nat).\lambda (H0: (subst0 i2 u2 (TLRef i) t2)).\lambda (H1: (not (eq nat i i2))).and_ind (eq nat i i2) (eq T t2 (lift (S i) O u2)) (ex2 T (\lambda (t: T).subst0 i2 u2 (lift (S i) O v) t) (\lambda (t: T).subst0 i v t2 t)) (\lambda (H2: (eq nat i i2)).\lambda (H3: (eq T t2 (lift (S i) O u2))).let H4 \def eq_ind nat i (\lambda (n: nat).not (eq nat n i2)) H1 i2 H2 in eq_ind_r T (lift (S i) O u2) (\lambda (t: T).ex2 T (\lambda (t3: T).subst0 i2 u2 (lift (S i) O v) t3) (\lambda (t3: T).subst0 i v t t3)) (let H5 \def match (H4 (refl_equal nat i2)) return (ex2 T (\lambda (t: T).subst0 i2 u2 (lift (S i) O v) t) (\lambda (t: T).subst0 i v (lift (S i) O u2) t)) with [] in H5) t2 H3) (subst0_gen_lref u2 t2 i2 i H0)) (\lambda (v: T).\lambda (u2: T).\lambda (u0: T).\lambda (i: nat).\lambda (H0: (subst0 i v u0 u2)).\lambda (H1: ((\forall (t2: T).\forall (u3: T).\forall (i2: nat).(subst0 i2 u3 u0 t2) \to (not (eq nat i i2)) \to ex2 T (\lambda (t: T).subst0 i2 u3 u2 t) (\lambda (t: T).subst0 i v t2 t)))).\lambda (t: T).\lambda (k: K).\lambda (t2: T).\lambda (u3: T).\lambda (i2: nat).\lambda (H2: (subst0 i2 u3 (THead k u0 t) t2)).\lambda (H3: (not (eq nat i i2))).or3_ind (ex2 T (\lambda (u4: T).eq T t2 (THead k u4 t)) (\lambda (u4: T).subst0 i2 u3 u0 u4)) (ex2 T (\lambda (t3: T).eq T t2 (THead k u0 t3)) (\lambda (t3: T).subst0 (s k i2) u3 t t3)) (ex3_2 T T (\lambda (u4: T).\lambda (t3: T).eq T t2 (THead k u4 t3)) (\lambda (u4: T).\lambda (_: T).subst0 i2 u3 u0 u4) (\lambda (_: T).\lambda (t3: T).subst0 (s k i2) u3 t t3)) (ex2 T (\lambda (t3: T).subst0 i2 u3 (THead k u2 t) t3) (\lambda (t3: T).subst0 i v t2 t3)) (\lambda (H4: (ex2 T (\lambda (u2: T).eq T t2 (THead k u2 t)) (\lambda (u2: T).subst0 i2 u3 u0 u2))).ex2_ind T (\lambda (u4: T).eq T t2 (THead k u4 t)) (\lambda (u4: T).subst0 i2 u3 u0 u4) (ex2 T (\lambda (t3: T).subst0 i2 u3 (THead k u2 t) t3) (\lambda (t3: T).subst0 i v t2 t3)) (\lambda (x: T).\lambda (H5: (eq T t2 (THead k x t))).\lambda (H6: (subst0 i2 u3 u0 x)).eq_ind_r T (THead k x t) (\lambda (t3: T).ex2 T (\lambda (t4: T).subst0 i2 u3 (THead k u2 t) t4) (\lambda (t4: T).subst0 i v t3 t4)) (ex2_ind T (\lambda (t3: T).subst0 i2 u3 u2 t3) (\lambda (t3: T).subst0 i v x t3) (ex2 T (\lambda (t3: T).subst0 i2 u3 (THead k u2 t) t3) (\lambda (t3: T).subst0 i v (THead k x t) t3)) (\lambda (x0: T).\lambda (H7: (subst0 i2 u3 u2 x0)).\lambda (H8: (subst0 i v x x0)).ex_intro2 T (\lambda (t3: T).subst0 i2 u3 (THead k u2 t) t3) (\lambda (t3: T).subst0 i v (THead k x t) t3) (THead k x0 t) (subst0_fst u3 x0 u2 i2 H7 t k) (subst0_fst v x0 x i H8 t k)) (H1 x u3 i2 H6 H3)) t2 H5) H4) (\lambda (H4: (ex2 T (\lambda (t3: T).eq T t2 (THead k u0 t3)) (\lambda (t2: T).subst0 (s k i2) u3 t t2))).ex2_ind T (\lambda (t3: T).eq T t2 (THead k u0 t3)) (\lambda (t3: T).subst0 (s k i2) u3 t t3) (ex2 T (\lambda (t3: T).subst0 i2 u3 (THead k u2 t) t3) (\lambda (t3: T).subst0 i v t2 t3)) (\lambda (x: T).\lambda (H5: (eq T t2 (THead k u0 x))).\lambda (H6: (subst0 (s k i2) u3 t x)).eq_ind_r T (THead k u0 x) (\lambda (t3: T).ex2 T (\lambda (t4: T).subst0 i2 u3 (THead k u2 t) t4) (\lambda (t4: T).subst0 i v t3 t4)) (ex_intro2 T (\lambda (t3: T).subst0 i2 u3 (THead k u2 t) t3) (\lambda (t3: T).subst0 i v (THead k u0 x) t3) (THead k u2 x) (subst0_snd k u3 x t i2 H6 u2) (subst0_fst v u2 u0 i H0 x k)) t2 H5) H4) (\lambda (H4: (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead k u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i2 u3 u0 u2) (\lambda (_: T).\lambda (t2: T).subst0 (s k i2) u3 t t2))).ex3_2_ind T T (\lambda (u4: T).\lambda (t3: T).eq T t2 (THead k u4 t3)) (\lambda (u4: T).\lambda (_: T).subst0 i2 u3 u0 u4) (\lambda (_: T).\lambda (t3: T).subst0 (s k i2) u3 t t3) (ex2 T (\lambda (t3: T).subst0 i2 u3 (THead k u2 t) t3) (\lambda (t3: T).subst0 i v t2 t3)) (\lambda (x0: T).\lambda (x1: T).\lambda (H5: (eq T t2 (THead k x0 x1))).\lambda (H6: (subst0 i2 u3 u0 x0)).\lambda (H7: (subst0 (s k i2) u3 t x1)).eq_ind_r T (THead k x0 x1) (\lambda (t3: T).ex2 T (\lambda (t4: T).subst0 i2 u3 (THead k u2 t) t4) (\lambda (t4: T).subst0 i v t3 t4)) (ex2_ind T (\lambda (t3: T).subst0 i2 u3 u2 t3) (\lambda (t3: T).subst0 i v x0 t3) (ex2 T (\lambda (t3: T).subst0 i2 u3 (THead k u2 t) t3) (\lambda (t3: T).subst0 i v (THead k x0 x1) t3)) (\lambda (x: T).\lambda (H8: (subst0 i2 u3 u2 x)).\lambda (H9: (subst0 i v x0 x)).ex_intro2 T (\lambda (t3: T).subst0 i2 u3 (THead k u2 t) t3) (\lambda (t3: T).subst0 i v (THead k x0 x1) t3) (THead k x x1) (subst0_both u3 u2 x i2 H8 k t x1 H7) (subst0_fst v x x0 i H9 x1 k)) (H1 x0 u3 i2 H6 H3)) t2 H5) H4) (subst0_gen_head k u3 u0 t t2 i2 H2)) (\lambda (k: K).\lambda (v: T).\lambda (t2: T).\lambda (t3: T).\lambda (i: nat).\lambda (H0: (subst0 (s k i) v t3 t2)).\lambda (H1: ((\forall (t4: T).\forall (u2: T).\forall (i2: nat).(subst0 i2 u2 t3 t4) \to (not (eq nat (s k i) i2)) \to ex2 T (\lambda (t: T).subst0 i2 u2 t2 t) (\lambda (t: T).subst0 (s k i) v t4 t)))).\lambda (u: T).\lambda (t4: T).\lambda (u2: T).\lambda (i2: nat).\lambda (H2: (subst0 i2 u2 (THead k u t3) t4)).\lambda (H3: (not (eq nat i i2))).or3_ind (ex2 T (\lambda (u3: T).eq T t4 (THead k u3 t3)) (\lambda (u3: T).subst0 i2 u2 u u3)) (ex2 T (\lambda (t5: T).eq T t4 (THead k u t5)) (\lambda (t5: T).subst0 (s k i2) u2 t3 t5)) (ex3_2 T T (\lambda (u3: T).\lambda (t5: T).eq T t4 (THead k u3 t5)) (\lambda (u3: T).\lambda (_: T).subst0 i2 u2 u u3) (\lambda (_: T).\lambda (t5: T).subst0 (s k i2) u2 t3 t5)) (ex2 T (\lambda (t: T).subst0 i2 u2 (THead k u t2) t) (\lambda (t: T).subst0 i v t4 t)) (\lambda (H4: (ex2 T (\lambda (u2: T).eq T t4 (THead k u2 t3)) (\lambda (u3: T).subst0 i2 u2 u u3))).ex2_ind T (\lambda (u3: T).eq T t4 (THead k u3 t3)) (\lambda (u3: T).subst0 i2 u2 u u3) (ex2 T (\lambda (t: T).subst0 i2 u2 (THead k u t2) t) (\lambda (t: T).subst0 i v t4 t)) (\lambda (x: T).\lambda (H5: (eq T t4 (THead k x t3))).\lambda (H6: (subst0 i2 u2 u x)).eq_ind_r T (THead k x t3) (\lambda (t: T).ex2 T (\lambda (t5: T).subst0 i2 u2 (THead k u t2) t5) (\lambda (t5: T).subst0 i v t t5)) (ex_intro2 T (\lambda (t: T).subst0 i2 u2 (THead k u t2) t) (\lambda (t: T).subst0 i v (THead k x t3) t) (THead k x t2) (subst0_fst u2 x u i2 H6 t2 k) (subst0_snd k v t2 t3 i H0 x)) t4 H5) H4) (\lambda (H4: (ex2 T (\lambda (t2: T).eq T t4 (THead k u t2)) (\lambda (t2: T).subst0 (s k i2) u2 t3 t2))).ex2_ind T (\lambda (t5: T).eq T t4 (THead k u t5)) (\lambda (t5: T).subst0 (s k i2) u2 t3 t5) (ex2 T (\lambda (t: T).subst0 i2 u2 (THead k u t2) t) (\lambda (t: T).subst0 i v t4 t)) (\lambda (x: T).\lambda (H5: (eq T t4 (THead k u x))).\lambda (H6: (subst0 (s k i2) u2 t3 x)).eq_ind_r T (THead k u x) (\lambda (t: T).ex2 T (\lambda (t5: T).subst0 i2 u2 (THead k u t2) t5) (\lambda (t5: T).subst0 i v t t5)) (ex2_ind T (\lambda (t: T).subst0 (s k i2) u2 t2 t) (\lambda (t: T).subst0 (s k i) v x t) (ex2 T (\lambda (t: T).subst0 i2 u2 (THead k u t2) t) (\lambda (t: T).subst0 i v (THead k u x) t)) (\lambda (x0: T).\lambda (H7: (subst0 (s k i2) u2 t2 x0)).\lambda (H8: (subst0 (s k i) v x x0)).ex_intro2 T (\lambda (t: T).subst0 i2 u2 (THead k u t2) t) (\lambda (t: T).subst0 i v (THead k u x) t) (THead k u x0) (subst0_snd k u2 x0 t2 i2 H7 u) (subst0_snd k v x0 x i H8 u)) (H1 x u2 (s k i2) H6 (\lambda (H7: (eq nat (s k i) (s k i2))).H3 (s_inj k i i2 H7)))) t4 H5) H4) (\lambda (H4: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t4 (THead k u2 t2)) (\lambda (u3: T).\lambda (_: T).subst0 i2 u2 u u3) (\lambda (_: T).\lambda (t2: T).subst0 (s k i2) u2 t3 t2))).ex3_2_ind T T (\lambda (u3: T).\lambda (t5: T).eq T t4 (THead k u3 t5)) (\lambda (u3: T).\lambda (_: T).subst0 i2 u2 u u3) (\lambda (_: T).\lambda (t5: T).subst0 (s k i2) u2 t3 t5) (ex2 T (\lambda (t: T).subst0 i2 u2 (THead k u t2) t) (\lambda (t: T).subst0 i v t4 t)) (\lambda (x0: T).\lambda (x1: T).\lambda (H5: (eq T t4 (THead k x0 x1))).\lambda (H6: (subst0 i2 u2 u x0)).\lambda (H7: (subst0 (s k i2) u2 t3 x1)).eq_ind_r T (THead k x0 x1) (\lambda (t: T).ex2 T (\lambda (t5: T).subst0 i2 u2 (THead k u t2) t5) (\lambda (t5: T).subst0 i v t t5)) (ex2_ind T (\lambda (t: T).subst0 (s k i2) u2 t2 t) (\lambda (t: T).subst0 (s k i) v x1 t) (ex2 T (\lambda (t: T).subst0 i2 u2 (THead k u t2) t) (\lambda (t: T).subst0 i v (THead k x0 x1) t)) (\lambda (x: T).\lambda (H8: (subst0 (s k i2) u2 t2 x)).\lambda (H9: (subst0 (s k i) v x1 x)).ex_intro2 T (\lambda (t: T).subst0 i2 u2 (THead k u t2) t) (\lambda (t: T).subst0 i v (THead k x0 x1) t) (THead k x0 x) (subst0_both u2 u x0 i2 H6 k t2 x H8) (subst0_snd k v x x1 i H9 x0)) (H1 x1 u2 (s k i2) H7 (\lambda (H8: (eq nat (s k i) (s k i2))).H3 (s_inj k i i2 H8)))) t4 H5) H4) (subst0_gen_head k u2 u t3 t4 i2 H2)) (\lambda (v: T).\lambda (u0: T).\lambda (u2: T).\lambda (i: nat).\lambda (H0: (subst0 i v u0 u2)).\lambda (H1: ((\forall (t2: T).\forall (u3: T).\forall (i2: nat).(subst0 i2 u3 u0 t2) \to (not (eq nat i i2)) \to ex2 T (\lambda (t: T).subst0 i2 u3 u2 t) (\lambda (t: T).subst0 i v t2 t)))).\lambda (k: K).\lambda (t2: T).\lambda (t3: T).\lambda (H2: (subst0 (s k i) v t2 t3)).\lambda (H3: ((\forall (t4: T).\forall (u2: T).\forall (i2: nat).(subst0 i2 u2 t2 t4) \to (not (eq nat (s k i) i2)) \to ex2 T (\lambda (t: T).subst0 i2 u2 t3 t) (\lambda (t: T).subst0 (s k i) v t4 t)))).\lambda (t4: T).\lambda (u3: T).\lambda (i2: nat).\lambda (H4: (subst0 i2 u3 (THead k u0 t2) t4)).\lambda (H5: (not (eq nat i i2))).or3_ind (ex2 T (\lambda (u4: T).eq T t4 (THead k u4 t2)) (\lambda (u4: T).subst0 i2 u3 u0 u4)) (ex2 T (\lambda (t5: T).eq T t4 (THead k u0 t5)) (\lambda (t5: T).subst0 (s k i2) u3 t2 t5)) (ex3_2 T T (\lambda (u4: T).\lambda (t5: T).eq T t4 (THead k u4 t5)) (\lambda (u4: T).\lambda (_: T).subst0 i2 u3 u0 u4) (\lambda (_: T).\lambda (t5: T).subst0 (s k i2) u3 t2 t5)) (ex2 T (\lambda (t: T).subst0 i2 u3 (THead k u2 t3) t) (\lambda (t: T).subst0 i v t4 t)) (\lambda (H6: (ex2 T (\lambda (u2: T).eq T t4 (THead k u2 t2)) (\lambda (u2: T).subst0 i2 u3 u0 u2))).ex2_ind T (\lambda (u4: T).eq T t4 (THead k u4 t2)) (\lambda (u4: T).subst0 i2 u3 u0 u4) (ex2 T (\lambda (t: T).subst0 i2 u3 (THead k u2 t3) t) (\lambda (t: T).subst0 i v t4 t)) (\lambda (x: T).\lambda (H7: (eq T t4 (THead k x t2))).\lambda (H8: (subst0 i2 u3 u0 x)).eq_ind_r T (THead k x t2) (\lambda (t: T).ex2 T (\lambda (t5: T).subst0 i2 u3 (THead k u2 t3) t5) (\lambda (t5: T).subst0 i v t t5)) (ex2_ind T (\lambda (t: T).subst0 i2 u3 u2 t) (\lambda (t: T).subst0 i v x t) (ex2 T (\lambda (t: T).subst0 i2 u3 (THead k u2 t3) t) (\lambda (t: T).subst0 i v (THead k x t2) t)) (\lambda (x0: T).\lambda (H9: (subst0 i2 u3 u2 x0)).\lambda (H10: (subst0 i v x x0)).ex_intro2 T (\lambda (t: T).subst0 i2 u3 (THead k u2 t3) t) (\lambda (t: T).subst0 i v (THead k x t2) t) (THead k x0 t3) (subst0_fst u3 x0 u2 i2 H9 t3 k) (subst0_both v x x0 i H10 k t2 t3 H2)) (H1 x u3 i2 H8 H5)) t4 H7) H6) (\lambda (H6: (ex2 T (\lambda (t2: T).eq T t4 (THead k u0 t2)) (\lambda (t3: T).subst0 (s k i2) u3 t2 t3))).ex2_ind T (\lambda (t5: T).eq T t4 (THead k u0 t5)) (\lambda (t5: T).subst0 (s k i2) u3 t2 t5) (ex2 T (\lambda (t: T).subst0 i2 u3 (THead k u2 t3) t) (\lambda (t: T).subst0 i v t4 t)) (\lambda (x: T).\lambda (H7: (eq T t4 (THead k u0 x))).\lambda (H8: (subst0 (s k i2) u3 t2 x)).eq_ind_r T (THead k u0 x) (\lambda (t: T).ex2 T (\lambda (t5: T).subst0 i2 u3 (THead k u2 t3) t5) (\lambda (t5: T).subst0 i v t t5)) (ex2_ind T (\lambda (t: T).subst0 (s k i2) u3 t3 t) (\lambda (t: T).subst0 (s k i) v x t) (ex2 T (\lambda (t: T).subst0 i2 u3 (THead k u2 t3) t) (\lambda (t: T).subst0 i v (THead k u0 x) t)) (\lambda (x0: T).\lambda (H9: (subst0 (s k i2) u3 t3 x0)).\lambda (H10: (subst0 (s k i) v x x0)).ex_intro2 T (\lambda (t: T).subst0 i2 u3 (THead k u2 t3) t) (\lambda (t: T).subst0 i v (THead k u0 x) t) (THead k u2 x0) (subst0_snd k u3 x0 t3 i2 H9 u2) (subst0_both v u0 u2 i H0 k x x0 H10)) (H3 x u3 (s k i2) H8 (\lambda (H9: (eq nat (s k i) (s k i2))).H5 (s_inj k i i2 H9)))) t4 H7) H6) (\lambda (H6: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t4 (THead k u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i2 u3 u0 u2) (\lambda (_: T).\lambda (t3: T).subst0 (s k i2) u3 t2 t3))).ex3_2_ind T T (\lambda (u4: T).\lambda (t5: T).eq T t4 (THead k u4 t5)) (\lambda (u4: T).\lambda (_: T).subst0 i2 u3 u0 u4) (\lambda (_: T).\lambda (t5: T).subst0 (s k i2) u3 t2 t5) (ex2 T (\lambda (t: T).subst0 i2 u3 (THead k u2 t3) t) (\lambda (t: T).subst0 i v t4 t)) (\lambda (x0: T).\lambda (x1: T).\lambda (H7: (eq T t4 (THead k x0 x1))).\lambda (H8: (subst0 i2 u3 u0 x0)).\lambda (H9: (subst0 (s k i2) u3 t2 x1)).eq_ind_r T (THead k x0 x1) (\lambda (t: T).ex2 T (\lambda (t5: T).subst0 i2 u3 (THead k u2 t3) t5) (\lambda (t5: T).subst0 i v t t5)) (ex2_ind T (\lambda (t: T).subst0 i2 u3 u2 t) (\lambda (t: T).subst0 i v x0 t) (ex2 T (\lambda (t: T).subst0 i2 u3 (THead k u2 t3) t) (\lambda (t: T).subst0 i v (THead k x0 x1) t)) (\lambda (x: T).\lambda (H10: (subst0 i2 u3 u2 x)).\lambda (H11: (subst0 i v x0 x)).ex2_ind T (\lambda (t: T).subst0 (s k i2) u3 t3 t) (\lambda (t: T).subst0 (s k i) v x1 t) (ex2 T (\lambda (t: T).subst0 i2 u3 (THead k u2 t3) t) (\lambda (t: T).subst0 i v (THead k x0 x1) t)) (\lambda (x2: T).\lambda (H12: (subst0 (s k i2) u3 t3 x2)).\lambda (H13: (subst0 (s k i) v x1 x2)).ex_intro2 T (\lambda (t: T).subst0 i2 u3 (THead k u2 t3) t) (\lambda (t: T).subst0 i v (THead k x0 x1) t) (THead k x x2) (subst0_both u3 u2 x i2 H10 k t3 x2 H12) (subst0_both v x0 x i H11 k x1 x2 H13)) (H3 x1 u3 (s k i2) H9 (\lambda (H12: (eq nat (s k i) (s k i2))).H5 (s_inj k i i2 H12)))) (H1 x0 u3 i2 H8 H5)) t4 H7) H6) (subst0_gen_head k u3 u0 t2 t4 i2 H4)) i1 u1 t0 t1 H.
+
+theorem subst0_confluence_eq: \forall (t0: T).\forall (t1: T).\forall (u: T).\forall (i: nat).(subst0 i u t0 t1) \to \forall (t2: T).(subst0 i u t0 t2) \to or4 (eq T t1 t2) (ex2 T (\lambda (t: T).subst0 i u t1 t) (\lambda (t: T).subst0 i u t2 t)) (subst0 i u t1 t2) (subst0 i u t2 t1) \def \lambda (t0: T).\lambda (t1: T).\lambda (u: T).\lambda (i: nat).\lambda (H: (subst0 i u t0 t1)).subst0_ind (\lambda (n: nat).\lambda (t: T).\lambda (t2: T).\lambda (t3: T).\forall (t4: T).(subst0 n t t2 t4) \to or4 (eq T t3 t4) (ex2 T (\lambda (t5: T).subst0 n t t3 t5) (\lambda (t5: T).subst0 n t t4 t5)) (subst0 n t t3 t4) (subst0 n t t4 t3)) (\lambda (v: T).\lambda (i0: nat).\lambda (t2: T).\lambda (H0: (subst0 i0 v (TLRef i0) t2)).and_ind (eq nat i0 i0) (eq T t2 (lift (S i0) O v)) (or4 (eq T (lift (S i0) O v) t2) (ex2 T (\lambda (t: T).subst0 i0 v (lift (S i0) O v) t) (\lambda (t: T).subst0 i0 v t2 t)) (subst0 i0 v (lift (S i0) O v) t2) (subst0 i0 v t2 (lift (S i0) O v))) (\lambda (_: (eq nat i0 i0)).\lambda (H2: (eq T t2 (lift (S i0) O v))).or4_intro0 (eq T (lift (S i0) O v) t2) (ex2 T (\lambda (t: T).subst0 i0 v (lift (S i0) O v) t) (\lambda (t: T).subst0 i0 v t2 t)) (subst0 i0 v (lift (S i0) O v) t2) (subst0 i0 v t2 (lift (S i0) O v)) (sym_eq T t2 (lift (S i0) O v) H2)) (subst0_gen_lref v t2 i0 i0 H0)) (\lambda (v: T).\lambda (u2: T).\lambda (u1: T).\lambda (i0: nat).\lambda (H0: (subst0 i0 v u1 u2)).\lambda (H1: ((\forall (t2: T).(subst0 i0 v u1 t2) \to or4 (eq T u2 t2) (ex2 T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v t2 t)) (subst0 i0 v u2 t2) (subst0 i0 v t2 u2)))).\lambda (t: T).\lambda (k: K).\lambda (t2: T).\lambda (H2: (subst0 i0 v (THead k u1 t) t2)).or3_ind (ex2 T (\lambda (u3: T).eq T t2 (THead k u3 t)) (\lambda (u3: T).subst0 i0 v u1 u3)) (ex2 T (\lambda (t3: T).eq T t2 (THead k u1 t3)) (\lambda (t3: T).subst0 (s k i0) v t t3)) (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T t2 (THead k u3 t3)) (\lambda (u3: T).\lambda (_: T).subst0 i0 v u1 u3) (\lambda (_: T).\lambda (t3: T).subst0 (s k i0) v t t3)) (or4 (eq T (THead k u2 t) t2) (ex2 T (\lambda (t3: T).subst0 i0 v (THead k u2 t) t3) (\lambda (t3: T).subst0 i0 v t2 t3)) (subst0 i0 v (THead k u2 t) t2) (subst0 i0 v t2 (THead k u2 t))) (\lambda (H3: (ex2 T (\lambda (u2: T).eq T t2 (THead k u2 t)) (\lambda (u2: T).subst0 i0 v u1 u2))).ex2_ind T (\lambda (u3: T).eq T t2 (THead k u3 t)) (\lambda (u3: T).subst0 i0 v u1 u3) (or4 (eq T (THead k u2 t) t2) (ex2 T (\lambda (t3: T).subst0 i0 v (THead k u2 t) t3) (\lambda (t3: T).subst0 i0 v t2 t3)) (subst0 i0 v (THead k u2 t) t2) (subst0 i0 v t2 (THead k u2 t))) (\lambda (x: T).\lambda (H4: (eq T t2 (THead k x t))).\lambda (H5: (subst0 i0 v u1 x)).eq_ind_r T (THead k x t) (\lambda (t3: T).or4 (eq T (THead k u2 t) t3) (ex2 T (\lambda (t4: T).subst0 i0 v (THead k u2 t) t4) (\lambda (t4: T).subst0 i0 v t3 t4)) (subst0 i0 v (THead k u2 t) t3) (subst0 i0 v t3 (THead k u2 t))) (or4_ind (eq T u2 x) (ex2 T (\lambda (t3: T).subst0 i0 v u2 t3) (\lambda (t3: T).subst0 i0 v x t3)) (subst0 i0 v u2 x) (subst0 i0 v x u2) (or4 (eq T (THead k u2 t) (THead k x t)) (ex2 T (\lambda (t3: T).subst0 i0 v (THead k u2 t) t3) (\lambda (t3: T).subst0 i0 v (THead k x t) t3)) (subst0 i0 v (THead k u2 t) (THead k x t)) (subst0 i0 v (THead k x t) (THead k u2 t))) (\lambda (H6: (eq T u2 x)).eq_ind_r T x (\lambda (t3: T).or4 (eq T (THead k t3 t) (THead k x t)) (ex2 T (\lambda (t4: T).subst0 i0 v (THead k t3 t) t4) (\lambda (t4: T).subst0 i0 v (THead k x t) t4)) (subst0 i0 v (THead k t3 t) (THead k x t)) (subst0 i0 v (THead k x t) (THead k t3 t))) (or4_intro0 (eq T (THead k x t) (THead k x t)) (ex2 T (\lambda (t3: T).subst0 i0 v (THead k x t) t3) (\lambda (t3: T).subst0 i0 v (THead k x t) t3)) (subst0 i0 v (THead k x t) (THead k x t)) (subst0 i0 v (THead k x t) (THead k x t)) (refl_equal T (THead k x t))) u2 H6) (\lambda (H6: (ex2 T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v x t))).ex2_ind T (\lambda (t3: T).subst0 i0 v u2 t3) (\lambda (t3: T).subst0 i0 v x t3) (or4 (eq T (THead k u2 t) (THead k x t)) (ex2 T (\lambda (t3: T).subst0 i0 v (THead k u2 t) t3) (\lambda (t3: T).subst0 i0 v (THead k x t) t3)) (subst0 i0 v (THead k u2 t) (THead k x t)) (subst0 i0 v (THead k x t) (THead k u2 t))) (\lambda (x0: T).\lambda (H7: (subst0 i0 v u2 x0)).\lambda (H8: (subst0 i0 v x x0)).or4_intro1 (eq T (THead k u2 t) (THead k x t)) (ex2 T (\lambda (t3: T).subst0 i0 v (THead k u2 t) t3) (\lambda (t3: T).subst0 i0 v (THead k x t) t3)) (subst0 i0 v (THead k u2 t) (THead k x t)) (subst0 i0 v (THead k x t) (THead k u2 t)) (ex_intro2 T (\lambda (t3: T).subst0 i0 v (THead k u2 t) t3) (\lambda (t3: T).subst0 i0 v (THead k x t) t3) (THead k x0 t) (subst0_fst v x0 u2 i0 H7 t k) (subst0_fst v x0 x i0 H8 t k))) H6) (\lambda (H6: (subst0 i0 v u2 x)).or4_intro2 (eq T (THead k u2 t) (THead k x t)) (ex2 T (\lambda (t3: T).subst0 i0 v (THead k u2 t) t3) (\lambda (t3: T).subst0 i0 v (THead k x t) t3)) (subst0 i0 v (THead k u2 t) (THead k x t)) (subst0 i0 v (THead k x t) (THead k u2 t)) (subst0_fst v x u2 i0 H6 t k)) (\lambda (H6: (subst0 i0 v x u2)).or4_intro3 (eq T (THead k u2 t) (THead k x t)) (ex2 T (\lambda (t3: T).subst0 i0 v (THead k u2 t) t3) (\lambda (t3: T).subst0 i0 v (THead k x t) t3)) (subst0 i0 v (THead k u2 t) (THead k x t)) (subst0 i0 v (THead k x t) (THead k u2 t)) (subst0_fst v u2 x i0 H6 t k)) (H1 x H5)) t2 H4) H3) (\lambda (H3: (ex2 T (\lambda (t3: T).eq T t2 (THead k u1 t3)) (\lambda (t2: T).subst0 (s k i0) v t t2))).ex2_ind T (\lambda (t3: T).eq T t2 (THead k u1 t3)) (\lambda (t3: T).subst0 (s k i0) v t t3) (or4 (eq T (THead k u2 t) t2) (ex2 T (\lambda (t3: T).subst0 i0 v (THead k u2 t) t3) (\lambda (t3: T).subst0 i0 v t2 t3)) (subst0 i0 v (THead k u2 t) t2) (subst0 i0 v t2 (THead k u2 t))) (\lambda (x: T).\lambda (H4: (eq T t2 (THead k u1 x))).\lambda (H5: (subst0 (s k i0) v t x)).eq_ind_r T (THead k u1 x) (\lambda (t3: T).or4 (eq T (THead k u2 t) t3) (ex2 T (\lambda (t4: T).subst0 i0 v (THead k u2 t) t4) (\lambda (t4: T).subst0 i0 v t3 t4)) (subst0 i0 v (THead k u2 t) t3) (subst0 i0 v t3 (THead k u2 t))) (or4_ind (eq T u2 u2) (ex2 T (\lambda (t3: T).subst0 i0 v u2 t3) (\lambda (t3: T).subst0 i0 v u2 t3)) (subst0 i0 v u2 u2) (subst0 i0 v u2 u2) (or4 (eq T (THead k u2 t) (THead k u1 x)) (ex2 T (\lambda (t3: T).subst0 i0 v (THead k u2 t) t3) (\lambda (t3: T).subst0 i0 v (THead k u1 x) t3)) (subst0 i0 v (THead k u2 t) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 t))) (\lambda (_: (eq T u2 u2)).or4_intro1 (eq T (THead k u2 t) (THead k u1 x)) (ex2 T (\lambda (t3: T).subst0 i0 v (THead k u2 t) t3) (\lambda (t3: T).subst0 i0 v (THead k u1 x) t3)) (subst0 i0 v (THead k u2 t) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 t)) (ex_intro2 T (\lambda (t3: T).subst0 i0 v (THead k u2 t) t3) (\lambda (t3: T).subst0 i0 v (THead k u1 x) t3) (THead k u2 x) (subst0_snd k v x t i0 H5 u2) (subst0_fst v u2 u1 i0 H0 x k))) (\lambda (H6: (ex2 T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v u2 t))).ex2_ind T (\lambda (t3: T).subst0 i0 v u2 t3) (\lambda (t3: T).subst0 i0 v u2 t3) (or4 (eq T (THead k u2 t) (THead k u1 x)) (ex2 T (\lambda (t3: T).subst0 i0 v (THead k u2 t) t3) (\lambda (t3: T).subst0 i0 v (THead k u1 x) t3)) (subst0 i0 v (THead k u2 t) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 t))) (\lambda (x0: T).\lambda (_: (subst0 i0 v u2 x0)).\lambda (_: (subst0 i0 v u2 x0)).or4_intro1 (eq T (THead k u2 t) (THead k u1 x)) (ex2 T (\lambda (t3: T).subst0 i0 v (THead k u2 t) t3) (\lambda (t3: T).subst0 i0 v (THead k u1 x) t3)) (subst0 i0 v (THead k u2 t) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 t)) (ex_intro2 T (\lambda (t3: T).subst0 i0 v (THead k u2 t) t3) (\lambda (t3: T).subst0 i0 v (THead k u1 x) t3) (THead k u2 x) (subst0_snd k v x t i0 H5 u2) (subst0_fst v u2 u1 i0 H0 x k))) H6) (\lambda (_: (subst0 i0 v u2 u2)).or4_intro1 (eq T (THead k u2 t) (THead k u1 x)) (ex2 T (\lambda (t3: T).subst0 i0 v (THead k u2 t) t3) (\lambda (t3: T).subst0 i0 v (THead k u1 x) t3)) (subst0 i0 v (THead k u2 t) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 t)) (ex_intro2 T (\lambda (t3: T).subst0 i0 v (THead k u2 t) t3) (\lambda (t3: T).subst0 i0 v (THead k u1 x) t3) (THead k u2 x) (subst0_snd k v x t i0 H5 u2) (subst0_fst v u2 u1 i0 H0 x k))) (\lambda (_: (subst0 i0 v u2 u2)).or4_intro1 (eq T (THead k u2 t) (THead k u1 x)) (ex2 T (\lambda (t3: T).subst0 i0 v (THead k u2 t) t3) (\lambda (t3: T).subst0 i0 v (THead k u1 x) t3)) (subst0 i0 v (THead k u2 t) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 t)) (ex_intro2 T (\lambda (t3: T).subst0 i0 v (THead k u2 t) t3) (\lambda (t3: T).subst0 i0 v (THead k u1 x) t3) (THead k u2 x) (subst0_snd k v x t i0 H5 u2) (subst0_fst v u2 u1 i0 H0 x k))) (H1 u2 H0)) t2 H4) H3) (\lambda (H3: (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead k u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i0 v u1 u2) (\lambda (_: T).\lambda (t2: T).subst0 (s k i0) v t t2))).ex3_2_ind T T (\lambda (u3: T).\lambda (t3: T).eq T t2 (THead k u3 t3)) (\lambda (u3: T).\lambda (_: T).subst0 i0 v u1 u3) (\lambda (_: T).\lambda (t3: T).subst0 (s k i0) v t t3) (or4 (eq T (THead k u2 t) t2) (ex2 T (\lambda (t3: T).subst0 i0 v (THead k u2 t) t3) (\lambda (t3: T).subst0 i0 v t2 t3)) (subst0 i0 v (THead k u2 t) t2) (subst0 i0 v t2 (THead k u2 t))) (\lambda (x0: T).\lambda (x1: T).\lambda (H4: (eq T t2 (THead k x0 x1))).\lambda (H5: (subst0 i0 v u1 x0)).\lambda (H6: (subst0 (s k i0) v t x1)).eq_ind_r T (THead k x0 x1) (\lambda (t3: T).or4 (eq T (THead k u2 t) t3) (ex2 T (\lambda (t4: T).subst0 i0 v (THead k u2 t) t4) (\lambda (t4: T).subst0 i0 v t3 t4)) (subst0 i0 v (THead k u2 t) t3) (subst0 i0 v t3 (THead k u2 t))) (or4_ind (eq T u2 x0) (ex2 T (\lambda (t3: T).subst0 i0 v u2 t3) (\lambda (t3: T).subst0 i0 v x0 t3)) (subst0 i0 v u2 x0) (subst0 i0 v x0 u2) (or4 (eq T (THead k u2 t) (THead k x0 x1)) (ex2 T (\lambda (t3: T).subst0 i0 v (THead k u2 t) t3) (\lambda (t3: T).subst0 i0 v (THead k x0 x1) t3)) (subst0 i0 v (THead k u2 t) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u2 t))) (\lambda (H7: (eq T u2 x0)).eq_ind_r T x0 (\lambda (t3: T).or4 (eq T (THead k t3 t) (THead k x0 x1)) (ex2 T (\lambda (t4: T).subst0 i0 v (THead k t3 t) t4) (\lambda (t4: T).subst0 i0 v (THead k x0 x1) t4)) (subst0 i0 v (THead k t3 t) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k t3 t))) (or4_intro2 (eq T (THead k x0 t) (THead k x0 x1)) (ex2 T (\lambda (t3: T).subst0 i0 v (THead k x0 t) t3) (\lambda (t3: T).subst0 i0 v (THead k x0 x1) t3)) (subst0 i0 v (THead k x0 t) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k x0 t)) (subst0_snd k v x1 t i0 H6 x0)) u2 H7) (\lambda (H7: (ex2 T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v x0 t))).ex2_ind T (\lambda (t3: T).subst0 i0 v u2 t3) (\lambda (t3: T).subst0 i0 v x0 t3) (or4 (eq T (THead k u2 t) (THead k x0 x1)) (ex2 T (\lambda (t3: T).subst0 i0 v (THead k u2 t) t3) (\lambda (t3: T).subst0 i0 v (THead k x0 x1) t3)) (subst0 i0 v (THead k u2 t) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u2 t))) (\lambda (x: T).\lambda (H8: (subst0 i0 v u2 x)).\lambda (H9: (subst0 i0 v x0 x)).or4_intro1 (eq T (THead k u2 t) (THead k x0 x1)) (ex2 T (\lambda (t3: T).subst0 i0 v (THead k u2 t) t3) (\lambda (t3: T).subst0 i0 v (THead k x0 x1) t3)) (subst0 i0 v (THead k u2 t) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u2 t)) (ex_intro2 T (\lambda (t3: T).subst0 i0 v (THead k u2 t) t3) (\lambda (t3: T).subst0 i0 v (THead k x0 x1) t3) (THead k x x1) (subst0_both v u2 x i0 H8 k t x1 H6) (subst0_fst v x x0 i0 H9 x1 k))) H7) (\lambda (H7: (subst0 i0 v u2 x0)).or4_intro2 (eq T (THead k u2 t) (THead k x0 x1)) (ex2 T (\lambda (t3: T).subst0 i0 v (THead k u2 t) t3) (\lambda (t3: T).subst0 i0 v (THead k x0 x1) t3)) (subst0 i0 v (THead k u2 t) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u2 t)) (subst0_both v u2 x0 i0 H7 k t x1 H6)) (\lambda (H7: (subst0 i0 v x0 u2)).or4_intro1 (eq T (THead k u2 t) (THead k x0 x1)) (ex2 T (\lambda (t3: T).subst0 i0 v (THead k u2 t) t3) (\lambda (t3: T).subst0 i0 v (THead k x0 x1) t3)) (subst0 i0 v (THead k u2 t) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u2 t)) (ex_intro2 T (\lambda (t3: T).subst0 i0 v (THead k u2 t) t3) (\lambda (t3: T).subst0 i0 v (THead k x0 x1) t3) (THead k u2 x1) (subst0_snd k v x1 t i0 H6 u2) (subst0_fst v u2 x0 i0 H7 x1 k))) (H1 x0 H5)) t2 H4) H3) (subst0_gen_head k v u1 t t2 i0 H2)) (\lambda (k: K).\lambda (v: T).\lambda (t2: T).\lambda (t3: T).\lambda (i0: nat).\lambda (H0: (subst0 (s k i0) v t3 t2)).\lambda (H1: ((\forall (t4: T).(subst0 (s k i0) v t3 t4) \to or4 (eq T t2 t4) (ex2 T (\lambda (t: T).subst0 (s k i0) v t2 t) (\lambda (t: T).subst0 (s k i0) v t4 t)) (subst0 (s k i0) v t2 t4) (subst0 (s k i0) v t4 t2)))).\lambda (u0: T).\lambda (t4: T).\lambda (H2: (subst0 i0 v (THead k u0 t3) t4)).or3_ind (ex2 T (\lambda (u2: T).eq T t4 (THead k u2 t3)) (\lambda (u2: T).subst0 i0 v u0 u2)) (ex2 T (\lambda (t5: T).eq T t4 (THead k u0 t5)) (\lambda (t5: T).subst0 (s k i0) v t3 t5)) (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead k u2 t5)) (\lambda (u2: T).\lambda (_: T).subst0 i0 v u0 u2) (\lambda (_: T).\lambda (t5: T).subst0 (s k i0) v t3 t5)) (or4 (eq T (THead k u0 t2) t4) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u0 t2) t) (\lambda (t: T).subst0 i0 v t4 t)) (subst0 i0 v (THead k u0 t2) t4) (subst0 i0 v t4 (THead k u0 t2))) (\lambda (H3: (ex2 T (\lambda (u2: T).eq T t4 (THead k u2 t3)) (\lambda (u2: T).subst0 i0 v u0 u2))).ex2_ind T (\lambda (u2: T).eq T t4 (THead k u2 t3)) (\lambda (u2: T).subst0 i0 v u0 u2) (or4 (eq T (THead k u0 t2) t4) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u0 t2) t) (\lambda (t: T).subst0 i0 v t4 t)) (subst0 i0 v (THead k u0 t2) t4) (subst0 i0 v t4 (THead k u0 t2))) (\lambda (x: T).\lambda (H4: (eq T t4 (THead k x t3))).\lambda (H5: (subst0 i0 v u0 x)).eq_ind_r T (THead k x t3) (\lambda (t: T).or4 (eq T (THead k u0 t2) t) (ex2 T (\lambda (t5: T).subst0 i0 v (THead k u0 t2) t5) (\lambda (t5: T).subst0 i0 v t t5)) (subst0 i0 v (THead k u0 t2) t) (subst0 i0 v t (THead k u0 t2))) (or4_ind (eq T t2 t2) (ex2 T (\lambda (t: T).subst0 (s k i0) v t2 t) (\lambda (t: T).subst0 (s k i0) v t2 t)) (subst0 (s k i0) v t2 t2) (subst0 (s k i0) v t2 t2) (or4 (eq T (THead k u0 t2) (THead k x t3)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u0 t2) t) (\lambda (t: T).subst0 i0 v (THead k x t3) t)) (subst0 i0 v (THead k u0 t2) (THead k x t3)) (subst0 i0 v (THead k x t3) (THead k u0 t2))) (\lambda (_: (eq T t2 t2)).or4_intro1 (eq T (THead k u0 t2) (THead k x t3)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u0 t2) t) (\lambda (t: T).subst0 i0 v (THead k x t3) t)) (subst0 i0 v (THead k u0 t2) (THead k x t3)) (subst0 i0 v (THead k x t3) (THead k u0 t2)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u0 t2) t) (\lambda (t: T).subst0 i0 v (THead k x t3) t) (THead k x t2) (subst0_fst v x u0 i0 H5 t2 k) (subst0_snd k v t2 t3 i0 H0 x))) (\lambda (H6: (ex2 T (\lambda (t: T).subst0 (s k i0) v t2 t) (\lambda (t: T).subst0 (s k i0) v t2 t))).ex2_ind T (\lambda (t: T).subst0 (s k i0) v t2 t) (\lambda (t: T).subst0 (s k i0) v t2 t) (or4 (eq T (THead k u0 t2) (THead k x t3)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u0 t2) t) (\lambda (t: T).subst0 i0 v (THead k x t3) t)) (subst0 i0 v (THead k u0 t2) (THead k x t3)) (subst0 i0 v (THead k x t3) (THead k u0 t2))) (\lambda (x0: T).\lambda (_: (subst0 (s k i0) v t2 x0)).\lambda (_: (subst0 (s k i0) v t2 x0)).or4_intro1 (eq T (THead k u0 t2) (THead k x t3)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u0 t2) t) (\lambda (t: T).subst0 i0 v (THead k x t3) t)) (subst0 i0 v (THead k u0 t2) (THead k x t3)) (subst0 i0 v (THead k x t3) (THead k u0 t2)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u0 t2) t) (\lambda (t: T).subst0 i0 v (THead k x t3) t) (THead k x t2) (subst0_fst v x u0 i0 H5 t2 k) (subst0_snd k v t2 t3 i0 H0 x))) H6) (\lambda (_: (subst0 (s k i0) v t2 t2)).or4_intro1 (eq T (THead k u0 t2) (THead k x t3)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u0 t2) t) (\lambda (t: T).subst0 i0 v (THead k x t3) t)) (subst0 i0 v (THead k u0 t2) (THead k x t3)) (subst0 i0 v (THead k x t3) (THead k u0 t2)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u0 t2) t) (\lambda (t: T).subst0 i0 v (THead k x t3) t) (THead k x t2) (subst0_fst v x u0 i0 H5 t2 k) (subst0_snd k v t2 t3 i0 H0 x))) (\lambda (_: (subst0 (s k i0) v t2 t2)).or4_intro1 (eq T (THead k u0 t2) (THead k x t3)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u0 t2) t) (\lambda (t: T).subst0 i0 v (THead k x t3) t)) (subst0 i0 v (THead k u0 t2) (THead k x t3)) (subst0 i0 v (THead k x t3) (THead k u0 t2)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u0 t2) t) (\lambda (t: T).subst0 i0 v (THead k x t3) t) (THead k x t2) (subst0_fst v x u0 i0 H5 t2 k) (subst0_snd k v t2 t3 i0 H0 x))) (H1 t2 H0)) t4 H4) H3) (\lambda (H3: (ex2 T (\lambda (t2: T).eq T t4 (THead k u0 t2)) (\lambda (t2: T).subst0 (s k i0) v t3 t2))).ex2_ind T (\lambda (t5: T).eq T t4 (THead k u0 t5)) (\lambda (t5: T).subst0 (s k i0) v t3 t5) (or4 (eq T (THead k u0 t2) t4) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u0 t2) t) (\lambda (t: T).subst0 i0 v t4 t)) (subst0 i0 v (THead k u0 t2) t4) (subst0 i0 v t4 (THead k u0 t2))) (\lambda (x: T).\lambda (H4: (eq T t4 (THead k u0 x))).\lambda (H5: (subst0 (s k i0) v t3 x)).eq_ind_r T (THead k u0 x) (\lambda (t: T).or4 (eq T (THead k u0 t2) t) (ex2 T (\lambda (t5: T).subst0 i0 v (THead k u0 t2) t5) (\lambda (t5: T).subst0 i0 v t t5)) (subst0 i0 v (THead k u0 t2) t) (subst0 i0 v t (THead k u0 t2))) (or4_ind (eq T t2 x) (ex2 T (\lambda (t: T).subst0 (s k i0) v t2 t) (\lambda (t: T).subst0 (s k i0) v x t)) (subst0 (s k i0) v t2 x) (subst0 (s k i0) v x t2) (or4 (eq T (THead k u0 t2) (THead k u0 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u0 t2) t) (\lambda (t: T).subst0 i0 v (THead k u0 x) t)) (subst0 i0 v (THead k u0 t2) (THead k u0 x)) (subst0 i0 v (THead k u0 x) (THead k u0 t2))) (\lambda (H6: (eq T t2 x)).eq_ind_r T x (\lambda (t: T).or4 (eq T (THead k u0 t) (THead k u0 x)) (ex2 T (\lambda (t5: T).subst0 i0 v (THead k u0 t) t5) (\lambda (t5: T).subst0 i0 v (THead k u0 x) t5)) (subst0 i0 v (THead k u0 t) (THead k u0 x)) (subst0 i0 v (THead k u0 x) (THead k u0 t))) (or4_intro0 (eq T (THead k u0 x) (THead k u0 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u0 x) t) (\lambda (t: T).subst0 i0 v (THead k u0 x) t)) (subst0 i0 v (THead k u0 x) (THead k u0 x)) (subst0 i0 v (THead k u0 x) (THead k u0 x)) (refl_equal T (THead k u0 x))) t2 H6) (\lambda (H6: (ex2 T (\lambda (t: T).subst0 (s k i0) v t2 t) (\lambda (t: T).subst0 (s k i0) v x t))).ex2_ind T (\lambda (t: T).subst0 (s k i0) v t2 t) (\lambda (t: T).subst0 (s k i0) v x t) (or4 (eq T (THead k u0 t2) (THead k u0 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u0 t2) t) (\lambda (t: T).subst0 i0 v (THead k u0 x) t)) (subst0 i0 v (THead k u0 t2) (THead k u0 x)) (subst0 i0 v (THead k u0 x) (THead k u0 t2))) (\lambda (x0: T).\lambda (H7: (subst0 (s k i0) v t2 x0)).\lambda (H8: (subst0 (s k i0) v x x0)).or4_intro1 (eq T (THead k u0 t2) (THead k u0 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u0 t2) t) (\lambda (t: T).subst0 i0 v (THead k u0 x) t)) (subst0 i0 v (THead k u0 t2) (THead k u0 x)) (subst0 i0 v (THead k u0 x) (THead k u0 t2)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u0 t2) t) (\lambda (t: T).subst0 i0 v (THead k u0 x) t) (THead k u0 x0) (subst0_snd k v x0 t2 i0 H7 u0) (subst0_snd k v x0 x i0 H8 u0))) H6) (\lambda (H6: (subst0 (s k i0) v t2 x)).or4_intro2 (eq T (THead k u0 t2) (THead k u0 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u0 t2) t) (\lambda (t: T).subst0 i0 v (THead k u0 x) t)) (subst0 i0 v (THead k u0 t2) (THead k u0 x)) (subst0 i0 v (THead k u0 x) (THead k u0 t2)) (subst0_snd k v x t2 i0 H6 u0)) (\lambda (H6: (subst0 (s k i0) v x t2)).or4_intro3 (eq T (THead k u0 t2) (THead k u0 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u0 t2) t) (\lambda (t: T).subst0 i0 v (THead k u0 x) t)) (subst0 i0 v (THead k u0 t2) (THead k u0 x)) (subst0 i0 v (THead k u0 x) (THead k u0 t2)) (subst0_snd k v t2 x i0 H6 u0)) (H1 x H5)) t4 H4) H3) (\lambda (H3: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t4 (THead k u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i0 v u0 u2) (\lambda (_: T).\lambda (t2: T).subst0 (s k i0) v t3 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead k u2 t5)) (\lambda (u2: T).\lambda (_: T).subst0 i0 v u0 u2) (\lambda (_: T).\lambda (t5: T).subst0 (s k i0) v t3 t5) (or4 (eq T (THead k u0 t2) t4) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u0 t2) t) (\lambda (t: T).subst0 i0 v t4 t)) (subst0 i0 v (THead k u0 t2) t4) (subst0 i0 v t4 (THead k u0 t2))) (\lambda (x0: T).\lambda (x1: T).\lambda (H4: (eq T t4 (THead k x0 x1))).\lambda (H5: (subst0 i0 v u0 x0)).\lambda (H6: (subst0 (s k i0) v t3 x1)).eq_ind_r T (THead k x0 x1) (\lambda (t: T).or4 (eq T (THead k u0 t2) t) (ex2 T (\lambda (t5: T).subst0 i0 v (THead k u0 t2) t5) (\lambda (t5: T).subst0 i0 v t t5)) (subst0 i0 v (THead k u0 t2) t) (subst0 i0 v t (THead k u0 t2))) (or4_ind (eq T t2 x1) (ex2 T (\lambda (t: T).subst0 (s k i0) v t2 t) (\lambda (t: T).subst0 (s k i0) v x1 t)) (subst0 (s k i0) v t2 x1) (subst0 (s k i0) v x1 t2) (or4 (eq T (THead k u0 t2) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u0 t2) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k u0 t2) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u0 t2))) (\lambda (H7: (eq T t2 x1)).eq_ind_r T x1 (\lambda (t: T).or4 (eq T (THead k u0 t) (THead k x0 x1)) (ex2 T (\lambda (t5: T).subst0 i0 v (THead k u0 t) t5) (\lambda (t5: T).subst0 i0 v (THead k x0 x1) t5)) (subst0 i0 v (THead k u0 t) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u0 t))) (or4_intro2 (eq T (THead k u0 x1) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u0 x1) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k u0 x1) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u0 x1)) (subst0_fst v x0 u0 i0 H5 x1 k)) t2 H7) (\lambda (H7: (ex2 T (\lambda (t: T).subst0 (s k i0) v t2 t) (\lambda (t: T).subst0 (s k i0) v x1 t))).ex2_ind T (\lambda (t: T).subst0 (s k i0) v t2 t) (\lambda (t: T).subst0 (s k i0) v x1 t) (or4 (eq T (THead k u0 t2) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u0 t2) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k u0 t2) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u0 t2))) (\lambda (x: T).\lambda (H8: (subst0 (s k i0) v t2 x)).\lambda (H9: (subst0 (s k i0) v x1 x)).or4_intro1 (eq T (THead k u0 t2) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u0 t2) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k u0 t2) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u0 t2)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u0 t2) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t) (THead k x0 x) (subst0_both v u0 x0 i0 H5 k t2 x H8) (subst0_snd k v x x1 i0 H9 x0))) H7) (\lambda (H7: (subst0 (s k i0) v t2 x1)).or4_intro2 (eq T (THead k u0 t2) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u0 t2) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k u0 t2) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u0 t2)) (subst0_both v u0 x0 i0 H5 k t2 x1 H7)) (\lambda (H7: (subst0 (s k i0) v x1 t2)).or4_intro1 (eq T (THead k u0 t2) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u0 t2) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k u0 t2) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u0 t2)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u0 t2) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t) (THead k x0 t2) (subst0_fst v x0 u0 i0 H5 t2 k) (subst0_snd k v t2 x1 i0 H7 x0))) (H1 x1 H6)) t4 H4) H3) (subst0_gen_head k v u0 t3 t4 i0 H2)) (\lambda (v: T).\lambda (u1: T).\lambda (u2: T).\lambda (i0: nat).\lambda (H0: (subst0 i0 v u1 u2)).\lambda (H1: ((\forall (t2: T).(subst0 i0 v u1 t2) \to or4 (eq T u2 t2) (ex2 T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v t2 t)) (subst0 i0 v u2 t2) (subst0 i0 v t2 u2)))).\lambda (k: K).\lambda (t2: T).\lambda (t3: T).\lambda (H2: (subst0 (s k i0) v t2 t3)).\lambda (H3: ((\forall (t4: T).(subst0 (s k i0) v t2 t4) \to or4 (eq T t3 t4) (ex2 T (\lambda (t: T).subst0 (s k i0) v t3 t) (\lambda (t: T).subst0 (s k i0) v t4 t)) (subst0 (s k i0) v t3 t4) (subst0 (s k i0) v t4 t3)))).\lambda (t4: T).\lambda (H4: (subst0 i0 v (THead k u1 t2) t4)).or3_ind (ex2 T (\lambda (u3: T).eq T t4 (THead k u3 t2)) (\lambda (u3: T).subst0 i0 v u1 u3)) (ex2 T (\lambda (t5: T).eq T t4 (THead k u1 t5)) (\lambda (t5: T).subst0 (s k i0) v t2 t5)) (ex3_2 T T (\lambda (u3: T).\lambda (t5: T).eq T t4 (THead k u3 t5)) (\lambda (u3: T).\lambda (_: T).subst0 i0 v u1 u3) (\lambda (_: T).\lambda (t5: T).subst0 (s k i0) v t2 t5)) (or4 (eq T (THead k u2 t3) t4) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v t4 t)) (subst0 i0 v (THead k u2 t3) t4) (subst0 i0 v t4 (THead k u2 t3))) (\lambda (H5: (ex2 T (\lambda (u2: T).eq T t4 (THead k u2 t2)) (\lambda (u2: T).subst0 i0 v u1 u2))).ex2_ind T (\lambda (u3: T).eq T t4 (THead k u3 t2)) (\lambda (u3: T).subst0 i0 v u1 u3) (or4 (eq T (THead k u2 t3) t4) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v t4 t)) (subst0 i0 v (THead k u2 t3) t4) (subst0 i0 v t4 (THead k u2 t3))) (\lambda (x: T).\lambda (H6: (eq T t4 (THead k x t2))).\lambda (H7: (subst0 i0 v u1 x)).eq_ind_r T (THead k x t2) (\lambda (t: T).or4 (eq T (THead k u2 t3) t) (ex2 T (\lambda (t5: T).subst0 i0 v (THead k u2 t3) t5) (\lambda (t5: T).subst0 i0 v t t5)) (subst0 i0 v (THead k u2 t3) t) (subst0 i0 v t (THead k u2 t3))) (or4_ind (eq T t3 t3) (ex2 T (\lambda (t: T).subst0 (s k i0) v t3 t) (\lambda (t: T).subst0 (s k i0) v t3 t)) (subst0 (s k i0) v t3 t3) (subst0 (s k i0) v t3 t3) (or4 (eq T (THead k u2 t3) (THead k x t2)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t)) (subst0 i0 v (THead k u2 t3) (THead k x t2)) (subst0 i0 v (THead k x t2) (THead k u2 t3))) (\lambda (_: (eq T t3 t3)).or4_ind (eq T u2 x) (ex2 T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v x t)) (subst0 i0 v u2 x) (subst0 i0 v x u2) (or4 (eq T (THead k u2 t3) (THead k x t2)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t)) (subst0 i0 v (THead k u2 t3) (THead k x t2)) (subst0 i0 v (THead k x t2) (THead k u2 t3))) (\lambda (H9: (eq T u2 x)).eq_ind_r T x (\lambda (t: T).or4 (eq T (THead k t t3) (THead k x t2)) (ex2 T (\lambda (t5: T).subst0 i0 v (THead k t t3) t5) (\lambda (t5: T).subst0 i0 v (THead k x t2) t5)) (subst0 i0 v (THead k t t3) (THead k x t2)) (subst0 i0 v (THead k x t2) (THead k t t3))) (or4_intro3 (eq T (THead k x t3) (THead k x t2)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k x t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t)) (subst0 i0 v (THead k x t3) (THead k x t2)) (subst0 i0 v (THead k x t2) (THead k x t3)) (subst0_snd k v t3 t2 i0 H2 x)) u2 H9) (\lambda (H9: (ex2 T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v x t))).ex2_ind T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v x t) (or4 (eq T (THead k u2 t3) (THead k x t2)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t)) (subst0 i0 v (THead k u2 t3) (THead k x t2)) (subst0 i0 v (THead k x t2) (THead k u2 t3))) (\lambda (x0: T).\lambda (H10: (subst0 i0 v u2 x0)).\lambda (H11: (subst0 i0 v x x0)).or4_intro1 (eq T (THead k u2 t3) (THead k x t2)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t)) (subst0 i0 v (THead k u2 t3) (THead k x t2)) (subst0 i0 v (THead k x t2) (THead k u2 t3)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t) (THead k x0 t3) (subst0_fst v x0 u2 i0 H10 t3 k) (subst0_both v x x0 i0 H11 k t2 t3 H2))) H9) (\lambda (H9: (subst0 i0 v u2 x)).or4_intro1 (eq T (THead k u2 t3) (THead k x t2)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t)) (subst0 i0 v (THead k u2 t3) (THead k x t2)) (subst0 i0 v (THead k x t2) (THead k u2 t3)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t) (THead k x t3) (subst0_fst v x u2 i0 H9 t3 k) (subst0_snd k v t3 t2 i0 H2 x))) (\lambda (H9: (subst0 i0 v x u2)).or4_intro3 (eq T (THead k u2 t3) (THead k x t2)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t)) (subst0 i0 v (THead k u2 t3) (THead k x t2)) (subst0 i0 v (THead k x t2) (THead k u2 t3)) (subst0_both v x u2 i0 H9 k t2 t3 H2)) (H1 x H7)) (\lambda (H8: (ex2 T (\lambda (t: T).subst0 (s k i0) v t3 t) (\lambda (t: T).subst0 (s k i0) v t3 t))).ex2_ind T (\lambda (t: T).subst0 (s k i0) v t3 t) (\lambda (t: T).subst0 (s k i0) v t3 t) (or4 (eq T (THead k u2 t3) (THead k x t2)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t)) (subst0 i0 v (THead k u2 t3) (THead k x t2)) (subst0 i0 v (THead k x t2) (THead k u2 t3))) (\lambda (x0: T).\lambda (_: (subst0 (s k i0) v t3 x0)).\lambda (_: (subst0 (s k i0) v t3 x0)).or4_ind (eq T u2 x) (ex2 T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v x t)) (subst0 i0 v u2 x) (subst0 i0 v x u2) (or4 (eq T (THead k u2 t3) (THead k x t2)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t)) (subst0 i0 v (THead k u2 t3) (THead k x t2)) (subst0 i0 v (THead k x t2) (THead k u2 t3))) (\lambda (H11: (eq T u2 x)).eq_ind_r T x (\lambda (t: T).or4 (eq T (THead k t t3) (THead k x t2)) (ex2 T (\lambda (t5: T).subst0 i0 v (THead k t t3) t5) (\lambda (t5: T).subst0 i0 v (THead k x t2) t5)) (subst0 i0 v (THead k t t3) (THead k x t2)) (subst0 i0 v (THead k x t2) (THead k t t3))) (or4_intro3 (eq T (THead k x t3) (THead k x t2)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k x t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t)) (subst0 i0 v (THead k x t3) (THead k x t2)) (subst0 i0 v (THead k x t2) (THead k x t3)) (subst0_snd k v t3 t2 i0 H2 x)) u2 H11) (\lambda (H11: (ex2 T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v x t))).ex2_ind T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v x t) (or4 (eq T (THead k u2 t3) (THead k x t2)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t)) (subst0 i0 v (THead k u2 t3) (THead k x t2)) (subst0 i0 v (THead k x t2) (THead k u2 t3))) (\lambda (x1: T).\lambda (H12: (subst0 i0 v u2 x1)).\lambda (H13: (subst0 i0 v x x1)).or4_intro1 (eq T (THead k u2 t3) (THead k x t2)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t)) (subst0 i0 v (THead k u2 t3) (THead k x t2)) (subst0 i0 v (THead k x t2) (THead k u2 t3)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t) (THead k x1 t3) (subst0_fst v x1 u2 i0 H12 t3 k) (subst0_both v x x1 i0 H13 k t2 t3 H2))) H11) (\lambda (H11: (subst0 i0 v u2 x)).or4_intro1 (eq T (THead k u2 t3) (THead k x t2)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t)) (subst0 i0 v (THead k u2 t3) (THead k x t2)) (subst0 i0 v (THead k x t2) (THead k u2 t3)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t) (THead k x t3) (subst0_fst v x u2 i0 H11 t3 k) (subst0_snd k v t3 t2 i0 H2 x))) (\lambda (H11: (subst0 i0 v x u2)).or4_intro3 (eq T (THead k u2 t3) (THead k x t2)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t)) (subst0 i0 v (THead k u2 t3) (THead k x t2)) (subst0 i0 v (THead k x t2) (THead k u2 t3)) (subst0_both v x u2 i0 H11 k t2 t3 H2)) (H1 x H7)) H8) (\lambda (_: (subst0 (s k i0) v t3 t3)).or4_ind (eq T u2 x) (ex2 T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v x t)) (subst0 i0 v u2 x) (subst0 i0 v x u2) (or4 (eq T (THead k u2 t3) (THead k x t2)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t)) (subst0 i0 v (THead k u2 t3) (THead k x t2)) (subst0 i0 v (THead k x t2) (THead k u2 t3))) (\lambda (H9: (eq T u2 x)).eq_ind_r T x (\lambda (t: T).or4 (eq T (THead k t t3) (THead k x t2)) (ex2 T (\lambda (t5: T).subst0 i0 v (THead k t t3) t5) (\lambda (t5: T).subst0 i0 v (THead k x t2) t5)) (subst0 i0 v (THead k t t3) (THead k x t2)) (subst0 i0 v (THead k x t2) (THead k t t3))) (or4_intro3 (eq T (THead k x t3) (THead k x t2)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k x t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t)) (subst0 i0 v (THead k x t3) (THead k x t2)) (subst0 i0 v (THead k x t2) (THead k x t3)) (subst0_snd k v t3 t2 i0 H2 x)) u2 H9) (\lambda (H9: (ex2 T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v x t))).ex2_ind T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v x t) (or4 (eq T (THead k u2 t3) (THead k x t2)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t)) (subst0 i0 v (THead k u2 t3) (THead k x t2)) (subst0 i0 v (THead k x t2) (THead k u2 t3))) (\lambda (x0: T).\lambda (H10: (subst0 i0 v u2 x0)).\lambda (H11: (subst0 i0 v x x0)).or4_intro1 (eq T (THead k u2 t3) (THead k x t2)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t)) (subst0 i0 v (THead k u2 t3) (THead k x t2)) (subst0 i0 v (THead k x t2) (THead k u2 t3)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t) (THead k x0 t3) (subst0_fst v x0 u2 i0 H10 t3 k) (subst0_both v x x0 i0 H11 k t2 t3 H2))) H9) (\lambda (H9: (subst0 i0 v u2 x)).or4_intro1 (eq T (THead k u2 t3) (THead k x t2)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t)) (subst0 i0 v (THead k u2 t3) (THead k x t2)) (subst0 i0 v (THead k x t2) (THead k u2 t3)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t) (THead k x t3) (subst0_fst v x u2 i0 H9 t3 k) (subst0_snd k v t3 t2 i0 H2 x))) (\lambda (H9: (subst0 i0 v x u2)).or4_intro3 (eq T (THead k u2 t3) (THead k x t2)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t)) (subst0 i0 v (THead k u2 t3) (THead k x t2)) (subst0 i0 v (THead k x t2) (THead k u2 t3)) (subst0_both v x u2 i0 H9 k t2 t3 H2)) (H1 x H7)) (\lambda (_: (subst0 (s k i0) v t3 t3)).or4_ind (eq T u2 x) (ex2 T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v x t)) (subst0 i0 v u2 x) (subst0 i0 v x u2) (or4 (eq T (THead k u2 t3) (THead k x t2)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t)) (subst0 i0 v (THead k u2 t3) (THead k x t2)) (subst0 i0 v (THead k x t2) (THead k u2 t3))) (\lambda (H9: (eq T u2 x)).eq_ind_r T x (\lambda (t: T).or4 (eq T (THead k t t3) (THead k x t2)) (ex2 T (\lambda (t5: T).subst0 i0 v (THead k t t3) t5) (\lambda (t5: T).subst0 i0 v (THead k x t2) t5)) (subst0 i0 v (THead k t t3) (THead k x t2)) (subst0 i0 v (THead k x t2) (THead k t t3))) (or4_intro3 (eq T (THead k x t3) (THead k x t2)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k x t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t)) (subst0 i0 v (THead k x t3) (THead k x t2)) (subst0 i0 v (THead k x t2) (THead k x t3)) (subst0_snd k v t3 t2 i0 H2 x)) u2 H9) (\lambda (H9: (ex2 T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v x t))).ex2_ind T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v x t) (or4 (eq T (THead k u2 t3) (THead k x t2)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t)) (subst0 i0 v (THead k u2 t3) (THead k x t2)) (subst0 i0 v (THead k x t2) (THead k u2 t3))) (\lambda (x0: T).\lambda (H10: (subst0 i0 v u2 x0)).\lambda (H11: (subst0 i0 v x x0)).or4_intro1 (eq T (THead k u2 t3) (THead k x t2)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t)) (subst0 i0 v (THead k u2 t3) (THead k x t2)) (subst0 i0 v (THead k x t2) (THead k u2 t3)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t) (THead k x0 t3) (subst0_fst v x0 u2 i0 H10 t3 k) (subst0_both v x x0 i0 H11 k t2 t3 H2))) H9) (\lambda (H9: (subst0 i0 v u2 x)).or4_intro1 (eq T (THead k u2 t3) (THead k x t2)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t)) (subst0 i0 v (THead k u2 t3) (THead k x t2)) (subst0 i0 v (THead k x t2) (THead k u2 t3)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t) (THead k x t3) (subst0_fst v x u2 i0 H9 t3 k) (subst0_snd k v t3 t2 i0 H2 x))) (\lambda (H9: (subst0 i0 v x u2)).or4_intro3 (eq T (THead k u2 t3) (THead k x t2)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x t2) t)) (subst0 i0 v (THead k u2 t3) (THead k x t2)) (subst0 i0 v (THead k x t2) (THead k u2 t3)) (subst0_both v x u2 i0 H9 k t2 t3 H2)) (H1 x H7)) (H3 t3 H2)) t4 H6) H5) (\lambda (H5: (ex2 T (\lambda (t2: T).eq T t4 (THead k u1 t2)) (\lambda (t3: T).subst0 (s k i0) v t2 t3))).ex2_ind T (\lambda (t5: T).eq T t4 (THead k u1 t5)) (\lambda (t5: T).subst0 (s k i0) v t2 t5) (or4 (eq T (THead k u2 t3) t4) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v t4 t)) (subst0 i0 v (THead k u2 t3) t4) (subst0 i0 v t4 (THead k u2 t3))) (\lambda (x: T).\lambda (H6: (eq T t4 (THead k u1 x))).\lambda (H7: (subst0 (s k i0) v t2 x)).eq_ind_r T (THead k u1 x) (\lambda (t: T).or4 (eq T (THead k u2 t3) t) (ex2 T (\lambda (t5: T).subst0 i0 v (THead k u2 t3) t5) (\lambda (t5: T).subst0 i0 v t t5)) (subst0 i0 v (THead k u2 t3) t) (subst0 i0 v t (THead k u2 t3))) (or4_ind (eq T t3 x) (ex2 T (\lambda (t: T).subst0 (s k i0) v t3 t) (\lambda (t: T).subst0 (s k i0) v x t)) (subst0 (s k i0) v t3 x) (subst0 (s k i0) v x t3) (or4 (eq T (THead k u2 t3) (THead k u1 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t)) (subst0 i0 v (THead k u2 t3) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 t3))) (\lambda (H8: (eq T t3 x)).eq_ind_r T x (\lambda (t: T).or4 (eq T (THead k u2 t) (THead k u1 x)) (ex2 T (\lambda (t5: T).subst0 i0 v (THead k u2 t) t5) (\lambda (t5: T).subst0 i0 v (THead k u1 x) t5)) (subst0 i0 v (THead k u2 t) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 t))) (or4_ind (eq T u2 u2) (ex2 T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v u2 t)) (subst0 i0 v u2 u2) (subst0 i0 v u2 u2) (or4 (eq T (THead k u2 x) (THead k u1 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 x) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t)) (subst0 i0 v (THead k u2 x) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 x))) (\lambda (_: (eq T u2 u2)).or4_intro3 (eq T (THead k u2 x) (THead k u1 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 x) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t)) (subst0 i0 v (THead k u2 x) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 x)) (subst0_fst v u2 u1 i0 H0 x k)) (\lambda (H9: (ex2 T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v u2 t))).ex2_ind T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v u2 t) (or4 (eq T (THead k u2 x) (THead k u1 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 x) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t)) (subst0 i0 v (THead k u2 x) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 x))) (\lambda (x0: T).\lambda (_: (subst0 i0 v u2 x0)).\lambda (_: (subst0 i0 v u2 x0)).or4_intro3 (eq T (THead k u2 x) (THead k u1 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 x) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t)) (subst0 i0 v (THead k u2 x) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 x)) (subst0_fst v u2 u1 i0 H0 x k)) H9) (\lambda (_: (subst0 i0 v u2 u2)).or4_intro3 (eq T (THead k u2 x) (THead k u1 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 x) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t)) (subst0 i0 v (THead k u2 x) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 x)) (subst0_fst v u2 u1 i0 H0 x k)) (\lambda (_: (subst0 i0 v u2 u2)).or4_intro3 (eq T (THead k u2 x) (THead k u1 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 x) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t)) (subst0 i0 v (THead k u2 x) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 x)) (subst0_fst v u2 u1 i0 H0 x k)) (H1 u2 H0)) t3 H8) (\lambda (H8: (ex2 T (\lambda (t: T).subst0 (s k i0) v t3 t) (\lambda (t: T).subst0 (s k i0) v x t))).ex2_ind T (\lambda (t: T).subst0 (s k i0) v t3 t) (\lambda (t: T).subst0 (s k i0) v x t) (or4 (eq T (THead k u2 t3) (THead k u1 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t)) (subst0 i0 v (THead k u2 t3) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 t3))) (\lambda (x0: T).\lambda (H9: (subst0 (s k i0) v t3 x0)).\lambda (H10: (subst0 (s k i0) v x x0)).or4_ind (eq T u2 u2) (ex2 T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v u2 t)) (subst0 i0 v u2 u2) (subst0 i0 v u2 u2) (or4 (eq T (THead k u2 t3) (THead k u1 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t)) (subst0 i0 v (THead k u2 t3) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 t3))) (\lambda (_: (eq T u2 u2)).or4_intro1 (eq T (THead k u2 t3) (THead k u1 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t)) (subst0 i0 v (THead k u2 t3) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 t3)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t) (THead k u2 x0) (subst0_snd k v x0 t3 i0 H9 u2) (subst0_both v u1 u2 i0 H0 k x x0 H10))) (\lambda (H11: (ex2 T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v u2 t))).ex2_ind T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v u2 t) (or4 (eq T (THead k u2 t3) (THead k u1 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t)) (subst0 i0 v (THead k u2 t3) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 t3))) (\lambda (x1: T).\lambda (_: (subst0 i0 v u2 x1)).\lambda (_: (subst0 i0 v u2 x1)).or4_intro1 (eq T (THead k u2 t3) (THead k u1 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t)) (subst0 i0 v (THead k u2 t3) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 t3)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t) (THead k u2 x0) (subst0_snd k v x0 t3 i0 H9 u2) (subst0_both v u1 u2 i0 H0 k x x0 H10))) H11) (\lambda (_: (subst0 i0 v u2 u2)).or4_intro1 (eq T (THead k u2 t3) (THead k u1 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t)) (subst0 i0 v (THead k u2 t3) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 t3)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t) (THead k u2 x0) (subst0_snd k v x0 t3 i0 H9 u2) (subst0_both v u1 u2 i0 H0 k x x0 H10))) (\lambda (_: (subst0 i0 v u2 u2)).or4_intro1 (eq T (THead k u2 t3) (THead k u1 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t)) (subst0 i0 v (THead k u2 t3) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 t3)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t) (THead k u2 x0) (subst0_snd k v x0 t3 i0 H9 u2) (subst0_both v u1 u2 i0 H0 k x x0 H10))) (H1 u2 H0)) H8) (\lambda (H8: (subst0 (s k i0) v t3 x)).or4_ind (eq T u2 u2) (ex2 T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v u2 t)) (subst0 i0 v u2 u2) (subst0 i0 v u2 u2) (or4 (eq T (THead k u2 t3) (THead k u1 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t)) (subst0 i0 v (THead k u2 t3) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 t3))) (\lambda (_: (eq T u2 u2)).or4_intro1 (eq T (THead k u2 t3) (THead k u1 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t)) (subst0 i0 v (THead k u2 t3) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 t3)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t) (THead k u2 x) (subst0_snd k v x t3 i0 H8 u2) (subst0_fst v u2 u1 i0 H0 x k))) (\lambda (H9: (ex2 T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v u2 t))).ex2_ind T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v u2 t) (or4 (eq T (THead k u2 t3) (THead k u1 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t)) (subst0 i0 v (THead k u2 t3) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 t3))) (\lambda (x0: T).\lambda (_: (subst0 i0 v u2 x0)).\lambda (_: (subst0 i0 v u2 x0)).or4_intro1 (eq T (THead k u2 t3) (THead k u1 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t)) (subst0 i0 v (THead k u2 t3) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 t3)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t) (THead k u2 x) (subst0_snd k v x t3 i0 H8 u2) (subst0_fst v u2 u1 i0 H0 x k))) H9) (\lambda (_: (subst0 i0 v u2 u2)).or4_intro1 (eq T (THead k u2 t3) (THead k u1 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t)) (subst0 i0 v (THead k u2 t3) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 t3)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t) (THead k u2 x) (subst0_snd k v x t3 i0 H8 u2) (subst0_fst v u2 u1 i0 H0 x k))) (\lambda (_: (subst0 i0 v u2 u2)).or4_intro1 (eq T (THead k u2 t3) (THead k u1 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t)) (subst0 i0 v (THead k u2 t3) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 t3)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t) (THead k u2 x) (subst0_snd k v x t3 i0 H8 u2) (subst0_fst v u2 u1 i0 H0 x k))) (H1 u2 H0)) (\lambda (H8: (subst0 (s k i0) v x t3)).or4_ind (eq T u2 u2) (ex2 T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v u2 t)) (subst0 i0 v u2 u2) (subst0 i0 v u2 u2) (or4 (eq T (THead k u2 t3) (THead k u1 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t)) (subst0 i0 v (THead k u2 t3) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 t3))) (\lambda (_: (eq T u2 u2)).or4_intro3 (eq T (THead k u2 t3) (THead k u1 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t)) (subst0 i0 v (THead k u2 t3) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 t3)) (subst0_both v u1 u2 i0 H0 k x t3 H8)) (\lambda (H9: (ex2 T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v u2 t))).ex2_ind T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v u2 t) (or4 (eq T (THead k u2 t3) (THead k u1 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t)) (subst0 i0 v (THead k u2 t3) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 t3))) (\lambda (x0: T).\lambda (_: (subst0 i0 v u2 x0)).\lambda (_: (subst0 i0 v u2 x0)).or4_intro3 (eq T (THead k u2 t3) (THead k u1 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t)) (subst0 i0 v (THead k u2 t3) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 t3)) (subst0_both v u1 u2 i0 H0 k x t3 H8)) H9) (\lambda (_: (subst0 i0 v u2 u2)).or4_intro3 (eq T (THead k u2 t3) (THead k u1 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t)) (subst0 i0 v (THead k u2 t3) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 t3)) (subst0_both v u1 u2 i0 H0 k x t3 H8)) (\lambda (_: (subst0 i0 v u2 u2)).or4_intro3 (eq T (THead k u2 t3) (THead k u1 x)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k u1 x) t)) (subst0 i0 v (THead k u2 t3) (THead k u1 x)) (subst0 i0 v (THead k u1 x) (THead k u2 t3)) (subst0_both v u1 u2 i0 H0 k x t3 H8)) (H1 u2 H0)) (H3 x H7)) t4 H6) H5) (\lambda (H5: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t4 (THead k u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i0 v u1 u2) (\lambda (_: T).\lambda (t3: T).subst0 (s k i0) v t2 t3))).ex3_2_ind T T (\lambda (u3: T).\lambda (t5: T).eq T t4 (THead k u3 t5)) (\lambda (u3: T).\lambda (_: T).subst0 i0 v u1 u3) (\lambda (_: T).\lambda (t5: T).subst0 (s k i0) v t2 t5) (or4 (eq T (THead k u2 t3) t4) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v t4 t)) (subst0 i0 v (THead k u2 t3) t4) (subst0 i0 v t4 (THead k u2 t3))) (\lambda (x0: T).\lambda (x1: T).\lambda (H6: (eq T t4 (THead k x0 x1))).\lambda (H7: (subst0 i0 v u1 x0)).\lambda (H8: (subst0 (s k i0) v t2 x1)).eq_ind_r T (THead k x0 x1) (\lambda (t: T).or4 (eq T (THead k u2 t3) t) (ex2 T (\lambda (t5: T).subst0 i0 v (THead k u2 t3) t5) (\lambda (t5: T).subst0 i0 v t t5)) (subst0 i0 v (THead k u2 t3) t) (subst0 i0 v t (THead k u2 t3))) (or4_ind (eq T t3 x1) (ex2 T (\lambda (t: T).subst0 (s k i0) v t3 t) (\lambda (t: T).subst0 (s k i0) v x1 t)) (subst0 (s k i0) v t3 x1) (subst0 (s k i0) v x1 t3) (or4 (eq T (THead k u2 t3) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k u2 t3) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u2 t3))) (\lambda (H9: (eq T t3 x1)).eq_ind_r T x1 (\lambda (t: T).or4 (eq T (THead k u2 t) (THead k x0 x1)) (ex2 T (\lambda (t5: T).subst0 i0 v (THead k u2 t) t5) (\lambda (t5: T).subst0 i0 v (THead k x0 x1) t5)) (subst0 i0 v (THead k u2 t) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u2 t))) (or4_ind (eq T u2 x0) (ex2 T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v x0 t)) (subst0 i0 v u2 x0) (subst0 i0 v x0 u2) (or4 (eq T (THead k u2 x1) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 x1) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k u2 x1) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u2 x1))) (\lambda (H10: (eq T u2 x0)).eq_ind_r T x0 (\lambda (t: T).or4 (eq T (THead k t x1) (THead k x0 x1)) (ex2 T (\lambda (t5: T).subst0 i0 v (THead k t x1) t5) (\lambda (t5: T).subst0 i0 v (THead k x0 x1) t5)) (subst0 i0 v (THead k t x1) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k t x1))) (or4_intro0 (eq T (THead k x0 x1) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k x0 x1) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k x0 x1) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k x0 x1)) (refl_equal T (THead k x0 x1))) u2 H10) (\lambda (H10: (ex2 T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v x0 t))).ex2_ind T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v x0 t) (or4 (eq T (THead k u2 x1) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 x1) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k u2 x1) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u2 x1))) (\lambda (x: T).\lambda (H11: (subst0 i0 v u2 x)).\lambda (H12: (subst0 i0 v x0 x)).or4_intro1 (eq T (THead k u2 x1) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 x1) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k u2 x1) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u2 x1)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u2 x1) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t) (THead k x x1) (subst0_fst v x u2 i0 H11 x1 k) (subst0_fst v x x0 i0 H12 x1 k))) H10) (\lambda (H10: (subst0 i0 v u2 x0)).or4_intro2 (eq T (THead k u2 x1) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 x1) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k u2 x1) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u2 x1)) (subst0_fst v x0 u2 i0 H10 x1 k)) (\lambda (H10: (subst0 i0 v x0 u2)).or4_intro3 (eq T (THead k u2 x1) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 x1) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k u2 x1) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u2 x1)) (subst0_fst v u2 x0 i0 H10 x1 k)) (H1 x0 H7)) t3 H9) (\lambda (H9: (ex2 T (\lambda (t: T).subst0 (s k i0) v t3 t) (\lambda (t: T).subst0 (s k i0) v x1 t))).ex2_ind T (\lambda (t: T).subst0 (s k i0) v t3 t) (\lambda (t: T).subst0 (s k i0) v x1 t) (or4 (eq T (THead k u2 t3) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k u2 t3) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u2 t3))) (\lambda (x: T).\lambda (H10: (subst0 (s k i0) v t3 x)).\lambda (H11: (subst0 (s k i0) v x1 x)).or4_ind (eq T u2 x0) (ex2 T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v x0 t)) (subst0 i0 v u2 x0) (subst0 i0 v x0 u2) (or4 (eq T (THead k u2 t3) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k u2 t3) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u2 t3))) (\lambda (H12: (eq T u2 x0)).eq_ind_r T x0 (\lambda (t: T).or4 (eq T (THead k t t3) (THead k x0 x1)) (ex2 T (\lambda (t5: T).subst0 i0 v (THead k t t3) t5) (\lambda (t5: T).subst0 i0 v (THead k x0 x1) t5)) (subst0 i0 v (THead k t t3) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k t t3))) (or4_intro1 (eq T (THead k x0 t3) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k x0 t3) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k x0 t3) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k x0 t3)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k x0 t3) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t) (THead k x0 x) (subst0_snd k v x t3 i0 H10 x0) (subst0_snd k v x x1 i0 H11 x0))) u2 H12) (\lambda (H12: (ex2 T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v x0 t))).ex2_ind T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v x0 t) (or4 (eq T (THead k u2 t3) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k u2 t3) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u2 t3))) (\lambda (x2: T).\lambda (H13: (subst0 i0 v u2 x2)).\lambda (H14: (subst0 i0 v x0 x2)).or4_intro1 (eq T (THead k u2 t3) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k u2 t3) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u2 t3)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t) (THead k x2 x) (subst0_both v u2 x2 i0 H13 k t3 x H10) (subst0_both v x0 x2 i0 H14 k x1 x H11))) H12) (\lambda (H12: (subst0 i0 v u2 x0)).or4_intro1 (eq T (THead k u2 t3) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k u2 t3) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u2 t3)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t) (THead k x0 x) (subst0_both v u2 x0 i0 H12 k t3 x H10) (subst0_snd k v x x1 i0 H11 x0))) (\lambda (H12: (subst0 i0 v x0 u2)).or4_intro1 (eq T (THead k u2 t3) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k u2 t3) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u2 t3)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t) (THead k u2 x) (subst0_snd k v x t3 i0 H10 u2) (subst0_both v x0 u2 i0 H12 k x1 x H11))) (H1 x0 H7)) H9) (\lambda (H9: (subst0 (s k i0) v t3 x1)).or4_ind (eq T u2 x0) (ex2 T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v x0 t)) (subst0 i0 v u2 x0) (subst0 i0 v x0 u2) (or4 (eq T (THead k u2 t3) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k u2 t3) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u2 t3))) (\lambda (H10: (eq T u2 x0)).eq_ind_r T x0 (\lambda (t: T).or4 (eq T (THead k t t3) (THead k x0 x1)) (ex2 T (\lambda (t5: T).subst0 i0 v (THead k t t3) t5) (\lambda (t5: T).subst0 i0 v (THead k x0 x1) t5)) (subst0 i0 v (THead k t t3) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k t t3))) (or4_intro2 (eq T (THead k x0 t3) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k x0 t3) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k x0 t3) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k x0 t3)) (subst0_snd k v x1 t3 i0 H9 x0)) u2 H10) (\lambda (H10: (ex2 T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v x0 t))).ex2_ind T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v x0 t) (or4 (eq T (THead k u2 t3) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k u2 t3) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u2 t3))) (\lambda (x: T).\lambda (H11: (subst0 i0 v u2 x)).\lambda (H12: (subst0 i0 v x0 x)).or4_intro1 (eq T (THead k u2 t3) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k u2 t3) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u2 t3)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t) (THead k x x1) (subst0_both v u2 x i0 H11 k t3 x1 H9) (subst0_fst v x x0 i0 H12 x1 k))) H10) (\lambda (H10: (subst0 i0 v u2 x0)).or4_intro2 (eq T (THead k u2 t3) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k u2 t3) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u2 t3)) (subst0_both v u2 x0 i0 H10 k t3 x1 H9)) (\lambda (H10: (subst0 i0 v x0 u2)).or4_intro1 (eq T (THead k u2 t3) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k u2 t3) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u2 t3)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t) (THead k u2 x1) (subst0_snd k v x1 t3 i0 H9 u2) (subst0_fst v u2 x0 i0 H10 x1 k))) (H1 x0 H7)) (\lambda (H9: (subst0 (s k i0) v x1 t3)).or4_ind (eq T u2 x0) (ex2 T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v x0 t)) (subst0 i0 v u2 x0) (subst0 i0 v x0 u2) (or4 (eq T (THead k u2 t3) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k u2 t3) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u2 t3))) (\lambda (H10: (eq T u2 x0)).eq_ind_r T x0 (\lambda (t: T).or4 (eq T (THead k t t3) (THead k x0 x1)) (ex2 T (\lambda (t5: T).subst0 i0 v (THead k t t3) t5) (\lambda (t5: T).subst0 i0 v (THead k x0 x1) t5)) (subst0 i0 v (THead k t t3) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k t t3))) (or4_intro3 (eq T (THead k x0 t3) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k x0 t3) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k x0 t3) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k x0 t3)) (subst0_snd k v t3 x1 i0 H9 x0)) u2 H10) (\lambda (H10: (ex2 T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v x0 t))).ex2_ind T (\lambda (t: T).subst0 i0 v u2 t) (\lambda (t: T).subst0 i0 v x0 t) (or4 (eq T (THead k u2 t3) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k u2 t3) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u2 t3))) (\lambda (x: T).\lambda (H11: (subst0 i0 v u2 x)).\lambda (H12: (subst0 i0 v x0 x)).or4_intro1 (eq T (THead k u2 t3) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k u2 t3) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u2 t3)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t) (THead k x t3) (subst0_fst v x u2 i0 H11 t3 k) (subst0_both v x0 x i0 H12 k x1 t3 H9))) H10) (\lambda (H10: (subst0 i0 v u2 x0)).or4_intro1 (eq T (THead k u2 t3) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k u2 t3) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u2 t3)) (ex_intro2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t) (THead k x0 t3) (subst0_fst v x0 u2 i0 H10 t3 k) (subst0_snd k v t3 x1 i0 H9 x0))) (\lambda (H10: (subst0 i0 v x0 u2)).or4_intro3 (eq T (THead k u2 t3) (THead k x0 x1)) (ex2 T (\lambda (t: T).subst0 i0 v (THead k u2 t3) t) (\lambda (t: T).subst0 i0 v (THead k x0 x1) t)) (subst0 i0 v (THead k u2 t3) (THead k x0 x1)) (subst0 i0 v (THead k x0 x1) (THead k u2 t3)) (subst0_both v x0 u2 i0 H10 k x1 t3 H9)) (H1 x0 H7)) (H3 x1 H8)) t4 H6) H5) (subst0_gen_head k v u1 t2 t4 i0 H4)) i u t0 t1 H.
+
+theorem subst0_confluence_lift: \forall (t0: T).\forall (t1: T).\forall (u: T).\forall (i: nat).(subst0 i u t0 (lift (S O) i t1)) \to \forall (t2: T).(subst0 i u t0 (lift (S O) i t2)) \to eq T t1 t2 \def \lambda (t0: T).\lambda (t1: T).\lambda (u: T).\lambda (i: nat).\lambda (H: (subst0 i u t0 (lift (S O) i t1))).\lambda (t2: T).\lambda (H0: (subst0 i u t0 (lift (S O) i t2))).or4_ind (eq T (lift (S O) i t2) (lift (S O) i t1)) (ex2 T (\lambda (t: T).subst0 i u (lift (S O) i t2) t) (\lambda (t: T).subst0 i u (lift (S O) i t1) t)) (subst0 i u (lift (S O) i t2) (lift (S O) i t1)) (subst0 i u (lift (S O) i t1) (lift (S O) i t2)) (eq T t1 t2) (\lambda (H1: (eq T (lift (S O) i t2) (lift (S O) i t1))).let H2 \def sym_equal T (lift (S O) i t2) (lift (S O) i t1) H1 in lift_inj t1 t2 (S O) i H2) (\lambda (H1: (ex2 T (\lambda (t: T).subst0 i u (lift (S O) i t2) t) (\lambda (t: T).subst0 i u (lift (S O) i t1) t))).ex2_ind T (\lambda (t: T).subst0 i u (lift (S O) i t2) t) (\lambda (t: T).subst0 i u (lift (S O) i t1) t) (eq T t1 t2) (\lambda (x: T).\lambda (_: (subst0 i u (lift (S O) i t2) x)).\lambda (H3: (subst0 i u (lift (S O) i t1) x)).subst0_gen_lift_false t1 u x (S O) i i (le_n i) (eq_ind_r nat (plus (S O) i) (\lambda (n: nat).lt i n) (le_n (plus (S O) i)) (plus i (S O)) (plus_sym i (S O))) H3 (eq T t1 t2)) H1) (\lambda (H1: (subst0 i u (lift (S O) i t2) (lift (S O) i t1))).subst0_gen_lift_false t2 u (lift (S O) i t1) (S O) i i (le_n i) (eq_ind_r nat (plus (S O) i) (\lambda (n: nat).lt i n) (le_n (plus (S O) i)) (plus i (S O)) (plus_sym i (S O))) H1 (eq T t1 t2)) (\lambda (H1: (subst0 i u (lift (S O) i t1) (lift (S O) i t2))).subst0_gen_lift_false t1 u (lift (S O) i t2) (S O) i i (le_n i) (eq_ind_r nat (plus (S O) i) (\lambda (n: nat).lt i n) (le_n (plus (S O) i)) (plus i (S O)) (plus_sym i (S O))) H1 (eq T t1 t2)) (subst0_confluence_eq t0 (lift (S O) i t2) u i H0 (lift (S O) i t1) H).
+
+theorem subst0_weight_le: \forall (u: T).\forall (t: T).\forall (z: T).\forall (d: nat).(subst0 d u t z) \to \forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S d) O u)) (g d)) \to le (weight_map f z) (weight_map g t) \def \lambda (u: T).\lambda (t: T).\lambda (z: T).\lambda (d: nat).\lambda (H: (subst0 d u t z)).subst0_ind (\lambda (n: nat).\lambda (t0: T).\lambda (t1: T).\lambda (t2: T).\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S n) O t0)) (g n)) \to le (weight_map f t2) (weight_map g t1)) (\lambda (v: T).\lambda (i: nat).\lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (_: ((\forall (m: nat).le (f m) (g m)))).\lambda (H1: (lt (weight_map f (lift (S i) O v)) (g i))).le_S_n (weight_map f (lift (S i) O v)) (weight_map g (TLRef i)) (le_S (S (weight_map f (lift (S i) O v))) (weight_map g (TLRef i)) H1)) (\lambda (v: T).\lambda (u2: T).\lambda (u1: T).\lambda (i: nat).\lambda (_: (subst0 i v u1 u2)).\lambda (H1: ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S i) O v)) (g i)) \to le (weight_map f u2) (weight_map g u1)))).\lambda (t0: T).\lambda (k: K).K_ind (\lambda (k0: K).\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S i) O v)) (g i)) \to le (weight_map f (THead k0 u2 t0)) (weight_map g (THead k0 u1 t0))) (\lambda (b: B).B_ind (\lambda (b0: B).\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S i) O v)) (g i)) \to le (weight_map f (THead (Bind b0) u2 t0)) (weight_map g (THead (Bind b0) u1 t0))) (\lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H2: ((\forall (m: nat).le (f m) (g m)))).\lambda (H3: (lt (weight_map f (lift (S i) O v)) (g i))).le_n_S (plus (weight_map f u2) (weight_map (wadd f (S (weight_map f u2))) t0)) (plus (weight_map g u1) (weight_map (wadd g (S (weight_map g u1))) t0)) (le_plus_plus (weight_map f u2) (weight_map g u1) (weight_map (wadd f (S (weight_map f u2))) t0) (weight_map (wadd g (S (weight_map g u1))) t0) (H1 f g H2 H3) (weight_le t0 (wadd f (S (weight_map f u2))) (wadd g (S (weight_map g u1))) (\lambda (n: nat).wadd_le f g H2 (S (weight_map f u2)) (S (weight_map g u1)) (le_n_S (weight_map f u2) (weight_map g u1) (H1 f g H2 H3)) n)))) (\lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H2: ((\forall (m: nat).le (f m) (g m)))).\lambda (H3: (lt (weight_map f (lift (S i) O v)) (g i))).le_n_S (plus (weight_map f u2) (weight_map (wadd f O) t0)) (plus (weight_map g u1) (weight_map (wadd g O) t0)) (le_plus_plus (weight_map f u2) (weight_map g u1) (weight_map (wadd f O) t0) (weight_map (wadd g O) t0) (H1 f g H2 H3) (weight_le t0 (wadd f O) (wadd g O) (\lambda (n: nat).wadd_le f g H2 O O (le_n O) n)))) (\lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H2: ((\forall (m: nat).le (f m) (g m)))).\lambda (H3: (lt (weight_map f (lift (S i) O v)) (g i))).le_n_S (plus (weight_map f u2) (weight_map (wadd f O) t0)) (plus (weight_map g u1) (weight_map (wadd g O) t0)) (le_plus_plus (weight_map f u2) (weight_map g u1) (weight_map (wadd f O) t0) (weight_map (wadd g O) t0) (H1 f g H2 H3) (weight_le t0 (wadd f O) (wadd g O) (\lambda (n: nat).wadd_le f g H2 O O (le_n O) n)))) b) (\lambda (_: F).\lambda (f0: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H2: ((\forall (m: nat).le (f0 m) (g m)))).\lambda (H3: (lt (weight_map f0 (lift (S i) O v)) (g i))).lt_le_S (plus (weight_map f0 u2) (weight_map f0 t0)) (S (plus (weight_map g u1) (weight_map g t0))) (le_lt_n_Sm (plus (weight_map f0 u2) (weight_map f0 t0)) (plus (weight_map g u1) (weight_map g t0)) (le_plus_plus (weight_map f0 u2) (weight_map g u1) (weight_map f0 t0) (weight_map g t0) (H1 f0 g H2 H3) (weight_le t0 f0 g H2)))) k) (\lambda (k: K).K_ind (\lambda (k0: K).\forall (v: T).\forall (t2: T).\forall (t1: T).\forall (i: nat).(subst0 (s k0 i) v t1 t2) \to ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S (s k0 i)) O v)) (g (s k0 i))) \to le (weight_map f t2) (weight_map g t1))) \to \forall (u0: T).\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S i) O v)) (g i)) \to le (weight_map f (THead k0 u0 t2)) (weight_map g (THead k0 u0 t1))) (\lambda (b: B).B_ind (\lambda (b0: B).\forall (v: T).\forall (t2: T).\forall (t1: T).\forall (i: nat).(subst0 (s (Bind b0) i) v t1 t2) \to ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S (s (Bind b0) i)) O v)) (g (s (Bind b0) i))) \to le (weight_map f t2) (weight_map g t1))) \to \forall (u0: T).\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S i) O v)) (g i)) \to le (weight_map f (THead (Bind b0) u0 t2)) (weight_map g (THead (Bind b0) u0 t1))) (\lambda (v: T).\lambda (t2: T).\lambda (t1: T).\lambda (i: nat).\lambda (_: (subst0 (S i) v t1 t2)).\lambda (H1: ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S (S i)) O v)) (g (S i))) \to le (weight_map f t2) (weight_map g t1)))).\lambda (u0: T).\lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H2: ((\forall (m: nat).le (f m) (g m)))).\lambda (H3: (lt (weight_map f (lift (S i) O v)) (g i))).le_n_S (plus (weight_map f u0) (weight_map (wadd f (S (weight_map f u0))) t2)) (plus (weight_map g u0) (weight_map (wadd g (S (weight_map g u0))) t1)) (le_plus_plus (weight_map f u0) (weight_map g u0) (weight_map (wadd f (S (weight_map f u0))) t2) (weight_map (wadd g (S (weight_map g u0))) t1) (weight_le u0 f g H2) (H1 (wadd f (S (weight_map f u0))) (wadd g (S (weight_map g u0))) (\lambda (m: nat).wadd_le f g H2 (S (weight_map f u0)) (S (weight_map g u0)) (le_n_S (weight_map f u0) (weight_map g u0) (weight_le u0 f g H2)) m) (lt_le_S (weight_map (wadd f (S (weight_map f u0))) (lift (S (S i)) O v)) (wadd g (S (weight_map g u0)) (S i)) (eq_ind nat (weight_map f (lift (S i) O v)) (\lambda (n: nat).lt n (g i)) H3 (weight_map (wadd f (S (weight_map f u0))) (lift (S (S i)) O v)) (lift_weight_add_O (S (weight_map f u0)) v (S i) f)))))) (\lambda (v: T).\lambda (t2: T).\lambda (t1: T).\lambda (i: nat).\lambda (_: (subst0 (S i) v t1 t2)).\lambda (H1: ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S (S i)) O v)) (g (S i))) \to le (weight_map f t2) (weight_map g t1)))).\lambda (u0: T).\lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H2: ((\forall (m: nat).le (f m) (g m)))).\lambda (H3: (lt (weight_map f (lift (S i) O v)) (g i))).le_n_S (plus (weight_map f u0) (weight_map (wadd f O) t2)) (plus (weight_map g u0) (weight_map (wadd g O) t1)) (le_plus_plus (weight_map f u0) (weight_map g u0) (weight_map (wadd f O) t2) (weight_map (wadd g O) t1) (weight_le u0 f g H2) (H1 (wadd f O) (wadd g O) (\lambda (m: nat).wadd_le f g H2 O O (le_n O) m) (eq_ind nat (weight_map f (lift (S i) O v)) (\lambda (n: nat).lt n (g i)) H3 (weight_map (wadd f O) (lift (S (S i)) O v)) (lift_weight_add_O O v (S i) f))))) (\lambda (v: T).\lambda (t2: T).\lambda (t1: T).\lambda (i: nat).\lambda (_: (subst0 (S i) v t1 t2)).\lambda (H1: ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S (S i)) O v)) (g (S i))) \to le (weight_map f t2) (weight_map g t1)))).\lambda (u0: T).\lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H2: ((\forall (m: nat).le (f m) (g m)))).\lambda (H3: (lt (weight_map f (lift (S i) O v)) (g i))).le_n_S (plus (weight_map f u0) (weight_map (wadd f O) t2)) (plus (weight_map g u0) (weight_map (wadd g O) t1)) (le_plus_plus (weight_map f u0) (weight_map g u0) (weight_map (wadd f O) t2) (weight_map (wadd g O) t1) (weight_le u0 f g H2) (H1 (wadd f O) (wadd g O) (\lambda (m: nat).wadd_le f g H2 O O (le_n O) m) (eq_ind nat (weight_map f (lift (S i) O v)) (\lambda (n: nat).lt n (g i)) H3 (weight_map (wadd f O) (lift (S (S i)) O v)) (lift_weight_add_O O v (S i) f))))) b) (\lambda (_: F).\lambda (v: T).\lambda (t2: T).\lambda (t1: T).\lambda (i: nat).\lambda (_: (subst0 i v t1 t2)).\lambda (H1: ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S i) O v)) (g i)) \to le (weight_map f t2) (weight_map g t1)))).\lambda (u0: T).\lambda (f0: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H2: ((\forall (m: nat).le (f0 m) (g m)))).\lambda (H3: (lt (weight_map f0 (lift (S i) O v)) (g i))).lt_le_S (plus (weight_map f0 u0) (weight_map f0 t2)) (S (plus (weight_map g u0) (weight_map g t1))) (le_lt_n_Sm (plus (weight_map f0 u0) (weight_map f0 t2)) (plus (weight_map g u0) (weight_map g t1)) (le_plus_plus (weight_map f0 u0) (weight_map g u0) (weight_map f0 t2) (weight_map g t1) (weight_le u0 f0 g H2) (H1 f0 g H2 H3)))) k) (\lambda (v: T).\lambda (u1: T).\lambda (u2: T).\lambda (i: nat).\lambda (_: (subst0 i v u1 u2)).\lambda (H1: ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S i) O v)) (g i)) \to le (weight_map f u2) (weight_map g u1)))).\lambda (k: K).K_ind (\lambda (k0: K).\forall (t1: T).\forall (t2: T).(subst0 (s k0 i) v t1 t2) \to ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S (s k0 i)) O v)) (g (s k0 i))) \to le (weight_map f t2) (weight_map g t1))) \to \forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S i) O v)) (g i)) \to le (weight_map f (THead k0 u2 t2)) (weight_map g (THead k0 u1 t1))) (\lambda (b: B).B_ind (\lambda (b0: B).\forall (t1: T).\forall (t2: T).(subst0 (s (Bind b0) i) v t1 t2) \to ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S (s (Bind b0) i)) O v)) (g (s (Bind b0) i))) \to le (weight_map f t2) (weight_map g t1))) \to \forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S i) O v)) (g i)) \to le (weight_map f (THead (Bind b0) u2 t2)) (weight_map g (THead (Bind b0) u1 t1))) (\lambda (t1: T).\lambda (t2: T).\lambda (_: (subst0 (S i) v t1 t2)).\lambda (H3: ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S (S i)) O v)) (g (S i))) \to le (weight_map f t2) (weight_map g t1)))).\lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H4: ((\forall (m: nat).le (f m) (g m)))).\lambda (H5: (lt (weight_map f (lift (S i) O v)) (g i))).le_n_S (plus (weight_map f u2) (weight_map (wadd f (S (weight_map f u2))) t2)) (plus (weight_map g u1) (weight_map (wadd g (S (weight_map g u1))) t1)) (le_plus_plus (weight_map f u2) (weight_map g u1) (weight_map (wadd f (S (weight_map f u2))) t2) (weight_map (wadd g (S (weight_map g u1))) t1) (H1 f g H4 H5) (H3 (wadd f (S (weight_map f u2))) (wadd g (S (weight_map g u1))) (\lambda (m: nat).wadd_le f g H4 (S (weight_map f u2)) (S (weight_map g u1)) (le_n_S (weight_map f u2) (weight_map g u1) (H1 f g H4 H5)) m) (lt_le_S (weight_map (wadd f (S (weight_map f u2))) (lift (S (S i)) O v)) (wadd g (S (weight_map g u1)) (S i)) (eq_ind nat (weight_map f (lift (S i) O v)) (\lambda (n: nat).lt n (g i)) H5 (weight_map (wadd f (S (weight_map f u2))) (lift (S (S i)) O v)) (lift_weight_add_O (S (weight_map f u2)) v (S i) f)))))) (\lambda (t1: T).\lambda (t2: T).\lambda (_: (subst0 (S i) v t1 t2)).\lambda (H3: ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S (S i)) O v)) (g (S i))) \to le (weight_map f t2) (weight_map g t1)))).\lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H4: ((\forall (m: nat).le (f m) (g m)))).\lambda (H5: (lt (weight_map f (lift (S i) O v)) (g i))).le_n_S (plus (weight_map f u2) (weight_map (wadd f O) t2)) (plus (weight_map g u1) (weight_map (wadd g O) t1)) (le_plus_plus (weight_map f u2) (weight_map g u1) (weight_map (wadd f O) t2) (weight_map (wadd g O) t1) (H1 f g H4 H5) (H3 (wadd f O) (wadd g O) (\lambda (m: nat).wadd_le f g H4 O O (le_n O) m) (eq_ind nat (weight_map f (lift (S i) O v)) (\lambda (n: nat).lt n (g i)) H5 (weight_map (wadd f O) (lift (S (S i)) O v)) (lift_weight_add_O O v (S i) f))))) (\lambda (t1: T).\lambda (t2: T).\lambda (_: (subst0 (S i) v t1 t2)).\lambda (H3: ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S (S i)) O v)) (g (S i))) \to le (weight_map f t2) (weight_map g t1)))).\lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H4: ((\forall (m: nat).le (f m) (g m)))).\lambda (H5: (lt (weight_map f (lift (S i) O v)) (g i))).le_n_S (plus (weight_map f u2) (weight_map (wadd f O) t2)) (plus (weight_map g u1) (weight_map (wadd g O) t1)) (le_plus_plus (weight_map f u2) (weight_map g u1) (weight_map (wadd f O) t2) (weight_map (wadd g O) t1) (H1 f g H4 H5) (H3 (wadd f O) (wadd g O) (\lambda (m: nat).wadd_le f g H4 O O (le_n O) m) (eq_ind nat (weight_map f (lift (S i) O v)) (\lambda (n: nat).lt n (g i)) H5 (weight_map (wadd f O) (lift (S (S i)) O v)) (lift_weight_add_O O v (S i) f))))) b) (\lambda (_: F).\lambda (t1: T).\lambda (t2: T).\lambda (_: (subst0 i v t1 t2)).\lambda (H3: ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S i) O v)) (g i)) \to le (weight_map f t2) (weight_map g t1)))).\lambda (f0: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H4: ((\forall (m: nat).le (f0 m) (g m)))).\lambda (H5: (lt (weight_map f0 (lift (S i) O v)) (g i))).lt_le_S (plus (weight_map f0 u2) (weight_map f0 t2)) (S (plus (weight_map g u1) (weight_map g t1))) (le_lt_n_Sm (plus (weight_map f0 u2) (weight_map f0 t2)) (plus (weight_map g u1) (weight_map g t1)) (le_plus_plus (weight_map f0 u2) (weight_map g u1) (weight_map f0 t2) (weight_map g t1) (H1 f0 g H4 H5) (H3 f0 g H4 H5)))) k) d u t z H.
+
+theorem subst0_weight_lt: \forall (u: T).\forall (t: T).\forall (z: T).\forall (d: nat).(subst0 d u t z) \to \forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S d) O u)) (g d)) \to lt (weight_map f z) (weight_map g t) \def \lambda (u: T).\lambda (t: T).\lambda (z: T).\lambda (d: nat).\lambda (H: (subst0 d u t z)).subst0_ind (\lambda (n: nat).\lambda (t0: T).\lambda (t1: T).\lambda (t2: T).\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S n) O t0)) (g n)) \to lt (weight_map f t2) (weight_map g t1)) (\lambda (v: T).\lambda (i: nat).\lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (_: ((\forall (m: nat).le (f m) (g m)))).\lambda (H1: (lt (weight_map f (lift (S i) O v)) (g i))).H1) (\lambda (v: T).\lambda (u2: T).\lambda (u1: T).\lambda (i: nat).\lambda (_: (subst0 i v u1 u2)).\lambda (H1: ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S i) O v)) (g i)) \to lt (weight_map f u2) (weight_map g u1)))).\lambda (t0: T).\lambda (k: K).K_ind (\lambda (k0: K).\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S i) O v)) (g i)) \to lt (weight_map f (THead k0 u2 t0)) (weight_map g (THead k0 u1 t0))) (\lambda (b: B).B_ind (\lambda (b0: B).\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S i) O v)) (g i)) \to lt (weight_map f (THead (Bind b0) u2 t0)) (weight_map g (THead (Bind b0) u1 t0))) (\lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H2: ((\forall (m: nat).le (f m) (g m)))).\lambda (H3: (lt (weight_map f (lift (S i) O v)) (g i))).lt_n_S (plus (weight_map f u2) (weight_map (wadd f (S (weight_map f u2))) t0)) (plus (weight_map g u1) (weight_map (wadd g (S (weight_map g u1))) t0)) (lt_le_plus_plus (weight_map f u2) (weight_map g u1) (weight_map (wadd f (S (weight_map f u2))) t0) (weight_map (wadd g (S (weight_map g u1))) t0) (H1 f g H2 H3) (weight_le t0 (wadd f (S (weight_map f u2))) (wadd g (S (weight_map g u1))) (\lambda (n: nat).wadd_le f g H2 (S (weight_map f u2)) (S (weight_map g u1)) (le_S (S (weight_map f u2)) (weight_map g u1) (lt_le_S (weight_map f u2) (weight_map g u1) (H1 f g H2 H3))) n)))) (\lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H2: ((\forall (m: nat).le (f m) (g m)))).\lambda (H3: (lt (weight_map f (lift (S i) O v)) (g i))).lt_n_S (plus (weight_map f u2) (weight_map (wadd f O) t0)) (plus (weight_map g u1) (weight_map (wadd g O) t0)) (lt_le_plus_plus (weight_map f u2) (weight_map g u1) (weight_map (wadd f O) t0) (weight_map (wadd g O) t0) (H1 f g H2 H3) (weight_le t0 (wadd f O) (wadd g O) (\lambda (n: nat).le_S_n (wadd f O n) (wadd g O n) (le_n_S (wadd f O n) (wadd g O n) (wadd_le f g H2 O O (le_n O) n)))))) (\lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H2: ((\forall (m: nat).le (f m) (g m)))).\lambda (H3: (lt (weight_map f (lift (S i) O v)) (g i))).lt_n_S (plus (weight_map f u2) (weight_map (wadd f O) t0)) (plus (weight_map g u1) (weight_map (wadd g O) t0)) (lt_le_plus_plus (weight_map f u2) (weight_map g u1) (weight_map (wadd f O) t0) (weight_map (wadd g O) t0) (H1 f g H2 H3) (weight_le t0 (wadd f O) (wadd g O) (\lambda (n: nat).le_S_n (wadd f O n) (wadd g O n) (le_n_S (wadd f O n) (wadd g O n) (wadd_le f g H2 O O (le_n O) n)))))) b) (\lambda (_: F).\lambda (f0: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H2: ((\forall (m: nat).le (f0 m) (g m)))).\lambda (H3: (lt (weight_map f0 (lift (S i) O v)) (g i))).lt_n_S (plus (weight_map f0 u2) (weight_map f0 t0)) (plus (weight_map g u1) (weight_map g t0)) (lt_le_plus_plus (weight_map f0 u2) (weight_map g u1) (weight_map f0 t0) (weight_map g t0) (H1 f0 g H2 H3) (weight_le t0 f0 g H2))) k) (\lambda (k: K).K_ind (\lambda (k0: K).\forall (v: T).\forall (t2: T).\forall (t1: T).\forall (i: nat).(subst0 (s k0 i) v t1 t2) \to ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S (s k0 i)) O v)) (g (s k0 i))) \to lt (weight_map f t2) (weight_map g t1))) \to \forall (u0: T).\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S i) O v)) (g i)) \to lt (weight_map f (THead k0 u0 t2)) (weight_map g (THead k0 u0 t1))) (\lambda (b: B).B_ind (\lambda (b0: B).\forall (v: T).\forall (t2: T).\forall (t1: T).\forall (i: nat).(subst0 (s (Bind b0) i) v t1 t2) \to ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S (s (Bind b0) i)) O v)) (g (s (Bind b0) i))) \to lt (weight_map f t2) (weight_map g t1))) \to \forall (u0: T).\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S i) O v)) (g i)) \to lt (weight_map f (THead (Bind b0) u0 t2)) (weight_map g (THead (Bind b0) u0 t1))) (\lambda (v: T).\lambda (t2: T).\lambda (t1: T).\lambda (i: nat).\lambda (_: (subst0 (S i) v t1 t2)).\lambda (H1: ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S (S i)) O v)) (g (S i))) \to lt (weight_map f t2) (weight_map g t1)))).\lambda (u0: T).\lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H2: ((\forall (m: nat).le (f m) (g m)))).\lambda (H3: (lt (weight_map f (lift (S i) O v)) (g i))).lt_n_S (plus (weight_map f u0) (weight_map (wadd f (S (weight_map f u0))) t2)) (plus (weight_map g u0) (weight_map (wadd g (S (weight_map g u0))) t1)) (le_lt_plus_plus (weight_map f u0) (weight_map g u0) (weight_map (wadd f (S (weight_map f u0))) t2) (weight_map (wadd g (S (weight_map g u0))) t1) (weight_le u0 f g H2) (H1 (wadd f (S (weight_map f u0))) (wadd g (S (weight_map g u0))) (\lambda (m: nat).wadd_le f g H2 (S (weight_map f u0)) (S (weight_map g u0)) (lt_le_S (weight_map f u0) (S (weight_map g u0)) (le_lt_n_Sm (weight_map f u0) (weight_map g u0) (weight_le u0 f g H2))) m) (lt_le_S (weight_map (wadd f (S (weight_map f u0))) (lift (S (S i)) O v)) (wadd g (S (weight_map g u0)) (S i)) (eq_ind nat (weight_map f (lift (S i) O v)) (\lambda (n: nat).lt n (g i)) H3 (weight_map (wadd f (S (weight_map f u0))) (lift (S (S i)) O v)) (lift_weight_add_O (S (weight_map f u0)) v (S i) f)))))) (\lambda (v: T).\lambda (t2: T).\lambda (t1: T).\lambda (i: nat).\lambda (_: (subst0 (S i) v t1 t2)).\lambda (H1: ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S (S i)) O v)) (g (S i))) \to lt (weight_map f t2) (weight_map g t1)))).\lambda (u0: T).\lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H2: ((\forall (m: nat).le (f m) (g m)))).\lambda (H3: (lt (weight_map f (lift (S i) O v)) (g i))).lt_n_S (plus (weight_map f u0) (weight_map (wadd f O) t2)) (plus (weight_map g u0) (weight_map (wadd g O) t1)) (le_lt_plus_plus (weight_map f u0) (weight_map g u0) (weight_map (wadd f O) t2) (weight_map (wadd g O) t1) (weight_le u0 f g H2) (H1 (wadd f O) (wadd g O) (\lambda (m: nat).wadd_le f g H2 O O (le_n O) m) (eq_ind nat (weight_map f (lift (S i) O v)) (\lambda (n: nat).lt n (g i)) H3 (weight_map (wadd f O) (lift (S (S i)) O v)) (lift_weight_add_O O v (S i) f))))) (\lambda (v: T).\lambda (t2: T).\lambda (t1: T).\lambda (i: nat).\lambda (_: (subst0 (S i) v t1 t2)).\lambda (H1: ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S (S i)) O v)) (g (S i))) \to lt (weight_map f t2) (weight_map g t1)))).\lambda (u0: T).\lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H2: ((\forall (m: nat).le (f m) (g m)))).\lambda (H3: (lt (weight_map f (lift (S i) O v)) (g i))).lt_n_S (plus (weight_map f u0) (weight_map (wadd f O) t2)) (plus (weight_map g u0) (weight_map (wadd g O) t1)) (le_lt_plus_plus (weight_map f u0) (weight_map g u0) (weight_map (wadd f O) t2) (weight_map (wadd g O) t1) (weight_le u0 f g H2) (H1 (wadd f O) (wadd g O) (\lambda (m: nat).wadd_le f g H2 O O (le_n O) m) (eq_ind nat (weight_map f (lift (S i) O v)) (\lambda (n: nat).lt n (g i)) H3 (weight_map (wadd f O) (lift (S (S i)) O v)) (lift_weight_add_O O v (S i) f))))) b) (\lambda (_: F).\lambda (v: T).\lambda (t2: T).\lambda (t1: T).\lambda (i: nat).\lambda (_: (subst0 i v t1 t2)).\lambda (H1: ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S i) O v)) (g i)) \to lt (weight_map f t2) (weight_map g t1)))).\lambda (u0: T).\lambda (f0: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H2: ((\forall (m: nat).le (f0 m) (g m)))).\lambda (H3: (lt (weight_map f0 (lift (S i) O v)) (g i))).lt_n_S (plus (weight_map f0 u0) (weight_map f0 t2)) (plus (weight_map g u0) (weight_map g t1)) (le_lt_plus_plus (weight_map f0 u0) (weight_map g u0) (weight_map f0 t2) (weight_map g t1) (weight_le u0 f0 g H2) (H1 f0 g H2 H3))) k) (\lambda (v: T).\lambda (u1: T).\lambda (u2: T).\lambda (i: nat).\lambda (_: (subst0 i v u1 u2)).\lambda (H1: ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S i) O v)) (g i)) \to lt (weight_map f u2) (weight_map g u1)))).\lambda (k: K).K_ind (\lambda (k0: K).\forall (t1: T).\forall (t2: T).(subst0 (s k0 i) v t1 t2) \to ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S (s k0 i)) O v)) (g (s k0 i))) \to lt (weight_map f t2) (weight_map g t1))) \to \forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S i) O v)) (g i)) \to lt (weight_map f (THead k0 u2 t2)) (weight_map g (THead k0 u1 t1))) (\lambda (b: B).B_ind (\lambda (b0: B).\forall (t1: T).\forall (t2: T).(subst0 (s (Bind b0) i) v t1 t2) \to ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S (s (Bind b0) i)) O v)) (g (s (Bind b0) i))) \to lt (weight_map f t2) (weight_map g t1))) \to \forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S i) O v)) (g i)) \to lt (weight_map f (THead (Bind b0) u2 t2)) (weight_map g (THead (Bind b0) u1 t1))) (\lambda (t1: T).\lambda (t2: T).\lambda (H2: (subst0 (S i) v t1 t2)).\lambda (_: ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S (S i)) O v)) (g (S i))) \to lt (weight_map f t2) (weight_map g t1)))).\lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H4: ((\forall (m: nat).le (f m) (g m)))).\lambda (H5: (lt (weight_map f (lift (S i) O v)) (g i))).lt_n_S (plus (weight_map f u2) (weight_map (wadd f (S (weight_map f u2))) t2)) (plus (weight_map g u1) (weight_map (wadd g (S (weight_map g u1))) t1)) (lt_le_plus_plus (weight_map f u2) (weight_map g u1) (weight_map (wadd f (S (weight_map f u2))) t2) (weight_map (wadd g (S (weight_map g u1))) t1) (H1 f g H4 H5) (subst0_weight_le v t1 t2 (S i) H2 (wadd f (S (weight_map f u2))) (wadd g (S (weight_map g u1))) (\lambda (m: nat).wadd_le f g H4 (S (weight_map f u2)) (S (weight_map g u1)) (le_S (S (weight_map f u2)) (weight_map g u1) (lt_le_S (weight_map f u2) (weight_map g u1) (H1 f g H4 H5))) m) (lt_le_S (weight_map (wadd f (S (weight_map f u2))) (lift (S (S i)) O v)) (wadd g (S (weight_map g u1)) (S i)) (eq_ind nat (weight_map f (lift (S i) O v)) (\lambda (n: nat).lt n (g i)) H5 (weight_map (wadd f (S (weight_map f u2))) (lift (S (S i)) O v)) (lift_weight_add_O (S (weight_map f u2)) v (S i) f)))))) (\lambda (t1: T).\lambda (t2: T).\lambda (_: (subst0 (S i) v t1 t2)).\lambda (H3: ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S (S i)) O v)) (g (S i))) \to lt (weight_map f t2) (weight_map g t1)))).\lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H4: ((\forall (m: nat).le (f m) (g m)))).\lambda (H5: (lt (weight_map f (lift (S i) O v)) (g i))).lt_n_S (plus (weight_map f u2) (weight_map (wadd f O) t2)) (plus (weight_map g u1) (weight_map (wadd g O) t1)) (lt_plus_plus (weight_map f u2) (weight_map g u1) (weight_map (wadd f O) t2) (weight_map (wadd g O) t1) (H1 f g H4 H5) (H3 (wadd f O) (wadd g O) (\lambda (m: nat).le_S_n (wadd f O m) (wadd g O m) (le_n_S (wadd f O m) (wadd g O m) (wadd_le f g H4 O O (le_n O) m))) (lt_le_S (weight_map (wadd f O) (lift (S (S i)) O v)) (wadd g O (S i)) (eq_ind nat (weight_map f (lift (S i) O v)) (\lambda (n: nat).lt n (g i)) H5 (weight_map (wadd f O) (lift (S (S i)) O v)) (lift_weight_add_O O v (S i) f)))))) (\lambda (t1: T).\lambda (t2: T).\lambda (_: (subst0 (S i) v t1 t2)).\lambda (H3: ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S (S i)) O v)) (g (S i))) \to lt (weight_map f t2) (weight_map g t1)))).\lambda (f: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H4: ((\forall (m: nat).le (f m) (g m)))).\lambda (H5: (lt (weight_map f (lift (S i) O v)) (g i))).lt_n_S (plus (weight_map f u2) (weight_map (wadd f O) t2)) (plus (weight_map g u1) (weight_map (wadd g O) t1)) (lt_plus_plus (weight_map f u2) (weight_map g u1) (weight_map (wadd f O) t2) (weight_map (wadd g O) t1) (H1 f g H4 H5) (H3 (wadd f O) (wadd g O) (\lambda (m: nat).le_S_n (wadd f O m) (wadd g O m) (le_n_S (wadd f O m) (wadd g O m) (wadd_le f g H4 O O (le_n O) m))) (lt_le_S (weight_map (wadd f O) (lift (S (S i)) O v)) (wadd g O (S i)) (eq_ind nat (weight_map f (lift (S i) O v)) (\lambda (n: nat).lt n (g i)) H5 (weight_map (wadd f O) (lift (S (S i)) O v)) (lift_weight_add_O O v (S i) f)))))) b) (\lambda (_: F).\lambda (t1: T).\lambda (t2: T).\lambda (_: (subst0 i v t1 t2)).\lambda (H3: ((\forall (f: ((nat \to nat))).\forall (g: ((nat \to nat))).((\forall (m: nat).le (f m) (g m))) \to (lt (weight_map f (lift (S i) O v)) (g i)) \to lt (weight_map f t2) (weight_map g t1)))).\lambda (f0: ((nat \to nat))).\lambda (g: ((nat \to nat))).\lambda (H4: ((\forall (m: nat).le (f0 m) (g m)))).\lambda (H5: (lt (weight_map f0 (lift (S i) O v)) (g i))).lt_n_S (plus (weight_map f0 u2) (weight_map f0 t2)) (plus (weight_map g u1) (weight_map g t1)) (lt_plus_plus (weight_map f0 u2) (weight_map g u1) (weight_map f0 t2) (weight_map g t1) (H1 f0 g H4 H5) (H3 f0 g H4 H5))) k) d u t z H.
+
+theorem subst0_tlt_head: \forall (u: T).\forall (t: T).\forall (z: T).(subst0 O u t z) \to tlt (THead (Bind Abbr) u z) (THead (Bind Abbr) u t) \def \lambda (u: T).\lambda (t: T).\lambda (z: T).\lambda (H: (subst0 O u t z)).lt_n_S (plus (weight_map (\lambda (_: nat).O) u) (weight_map (wadd (\lambda (_: nat).O) (S (weight_map (\lambda (_: nat).O) u))) z)) (plus (weight_map (\lambda (_: nat).O) u) (weight_map (wadd (\lambda (_: nat).O) (S (weight_map (\lambda (_: nat).O) u))) t)) (le_lt_plus_plus (weight_map (\lambda (_: nat).O) u) (weight_map (\lambda (_: nat).O) u) (weight_map (wadd (\lambda (_: nat).O) (S (weight_map (\lambda (_: nat).O) u))) z) (weight_map (wadd (\lambda (_: nat).O) (S (weight_map (\lambda (_: nat).O) u))) t) (le_n (weight_map (\lambda (_: nat).O) u)) (subst0_weight_lt u t z O H (wadd (\lambda (_: nat).O) (S (weight_map (\lambda (_: nat).O) u))) (wadd (\lambda (_: nat).O) (S (weight_map (\lambda (_: nat).O) u))) (\lambda (m: nat).le_n (wadd (\lambda (_: nat).O) (S (weight_map (\lambda (_: nat).O) u)) m)) (eq_ind nat (weight_map (\lambda (_: nat).O) (lift O O u)) (\lambda (n: nat).lt n (S (weight_map (\lambda (_: nat).O) u))) (eq_ind_r T u (\lambda (t0: T).lt (weight_map (\lambda (_: nat).O) t0) (S (weight_map (\lambda (_: nat).O) u))) (le_n (S (weight_map (\lambda (_: nat).O) u))) (lift O O u) (lift_r u O)) (weight_map (wadd (\lambda (_: nat).O) (S (weight_map (\lambda (_: nat).O) u))) (lift (S O) O u)) (lift_weight_add_O (S (weight_map (\lambda (_: nat).O) u)) u O (\lambda (_: nat).O))))).
+
+theorem subst0_tlt: \forall (u: T).\forall (t: T).\forall (z: T).(subst0 O u t z) \to tlt z (THead (Bind Abbr) u t) \def \lambda (u: T).\lambda (t: T).\lambda (z: T).\lambda (H: (subst0 O u t z)).tlt_trans (THead (Bind Abbr) u z) z (THead (Bind Abbr) u t) (tlt_head_dx (Bind Abbr) u z) (subst0_tlt_head u t z H).
+
+theorem dnf_dec: \forall (w: T).\forall (t: T).\forall (d: nat).ex T (\lambda (v: T).or (subst0 d w t (lift (S O) d v)) (eq T t (lift (S O) d v))) \def \lambda (w: T).\lambda (t: T).T_ind (\lambda (t0: T).\forall (d: nat).ex T (\lambda (v: T).or (subst0 d w t0 (lift (S O) d v)) (eq T t0 (lift (S O) d v)))) (\lambda (n: nat).\lambda (d: nat).ex_intro T (\lambda (v: T).or (subst0 d w (TSort n) (lift (S O) d v)) (eq T (TSort n) (lift (S O) d v))) (TSort n) (eq_ind_r T (TSort n) (\lambda (t0: T).or (subst0 d w (TSort n) t0) (eq T (TSort n) t0)) (or_intror (subst0 d w (TSort n) (TSort n)) (eq T (TSort n) (TSort n)) (refl_equal T (TSort n))) (lift (S O) d (TSort n)) (lift_sort n (S O) d))) (\lambda (n: nat).\lambda (d: nat).lt_eq_gt_e n d (ex T (\lambda (v: T).or (subst0 d w (TLRef n) (lift (S O) d v)) (eq T (TLRef n) (lift (S O) d v)))) (\lambda (H: (lt n d)).ex_intro T (\lambda (v: T).or (subst0 d w (TLRef n) (lift (S O) d v)) (eq T (TLRef n) (lift (S O) d v))) (TLRef n) (eq_ind_r T (TLRef n) (\lambda (t0: T).or (subst0 d w (TLRef n) t0) (eq T (TLRef n) t0)) (or_intror (subst0 d w (TLRef n) (TLRef n)) (eq T (TLRef n) (TLRef n)) (refl_equal T (TLRef n))) (lift (S O) d (TLRef n)) (lift_lref_lt n (S O) d H))) (\lambda (H: (eq nat n d)).eq_ind nat n (\lambda (n0: nat).ex T (\lambda (v: T).or (subst0 n0 w (TLRef n) (lift (S O) n0 v)) (eq T (TLRef n) (lift (S O) n0 v)))) (ex_intro T (\lambda (v: T).or (subst0 n w (TLRef n) (lift (S O) n v)) (eq T (TLRef n) (lift (S O) n v))) (lift n O w) (eq_ind_r T (lift (plus (S O) n) O w) (\lambda (t0: T).or (subst0 n w (TLRef n) t0) (eq T (TLRef n) t0)) (or_introl (subst0 n w (TLRef n) (lift (S n) O w)) (eq T (TLRef n) (lift (S n) O w)) (subst0_lref w n)) (lift (S O) n (lift n O w)) (lift_free w n (S O) O n (le_n (plus O n)) (le_O_n n)))) d H) (\lambda (H: (lt d n)).ex_intro T (\lambda (v: T).or (subst0 d w (TLRef n) (lift (S O) d v)) (eq T (TLRef n) (lift (S O) d v))) (TLRef (pred n)) (eq_ind_r T (TLRef n) (\lambda (t0: T).or (subst0 d w (TLRef n) t0) (eq T (TLRef n) t0)) (or_intror (subst0 d w (TLRef n) (TLRef n)) (eq T (TLRef n) (TLRef n)) (refl_equal T (TLRef n))) (lift (S O) d (TLRef (pred n))) (lift_lref_gt d n H)))) (\lambda (k: K).\lambda (t0: T).\lambda (H: ((\forall (d: nat).ex T (\lambda (v: T).or (subst0 d w t0 (lift (S O) d v)) (eq T t0 (lift (S O) d v)))))).\lambda (t1: T).\lambda (H0: ((\forall (d: nat).ex T (\lambda (v: T).or (subst0 d w t1 (lift (S O) d v)) (eq T t1 (lift (S O) d v)))))).\lambda (d: nat).let H_x \def H d in let H1 \def H_x in ex_ind T (\lambda (v: T).or (subst0 d w t0 (lift (S O) d v)) (eq T t0 (lift (S O) d v))) (ex T (\lambda (v: T).or (subst0 d w (THead k t0 t1) (lift (S O) d v)) (eq T (THead k t0 t1) (lift (S O) d v)))) (\lambda (x: T).\lambda (H2: (or (subst0 d w t0 (lift (S O) d x)) (eq T t0 (lift (S O) d x)))).or_ind (subst0 d w t0 (lift (S O) d x)) (eq T t0 (lift (S O) d x)) (ex T (\lambda (v: T).or (subst0 d w (THead k t0 t1) (lift (S O) d v)) (eq T (THead k t0 t1) (lift (S O) d v)))) (\lambda (H3: (subst0 d w t0 (lift (S O) d x))).let H_x0 \def H0 (s k d) in let H4 \def H_x0 in ex_ind T (\lambda (v: T).or (subst0 (s k d) w t1 (lift (S O) (s k d) v)) (eq T t1 (lift (S O) (s k d) v))) (ex T (\lambda (v: T).or (subst0 d w (THead k t0 t1) (lift (S O) d v)) (eq T (THead k t0 t1) (lift (S O) d v)))) (\lambda (x0: T).\lambda (H5: (or (subst0 (s k d) w t1 (lift (S O) (s k d) x0)) (eq T t1 (lift (S O) (s k d) x0)))).or_ind (subst0 (s k d) w t1 (lift (S O) (s k d) x0)) (eq T t1 (lift (S O) (s k d) x0)) (ex T (\lambda (v: T).or (subst0 d w (THead k t0 t1) (lift (S O) d v)) (eq T (THead k t0 t1) (lift (S O) d v)))) (\lambda (H6: (subst0 (s k d) w t1 (lift (S O) (s k d) x0))).ex_intro T (\lambda (v: T).or (subst0 d w (THead k t0 t1) (lift (S O) d v)) (eq T (THead k t0 t1) (lift (S O) d v))) (THead k x x0) (eq_ind_r T (THead k (lift (S O) d x) (lift (S O) (s k d) x0)) (\lambda (t2: T).or (subst0 d w (THead k t0 t1) t2) (eq T (THead k t0 t1) t2)) (or_introl (subst0 d w (THead k t0 t1) (THead k (lift (S O) d x) (lift (S O) (s k d) x0))) (eq T (THead k t0 t1) (THead k (lift (S O) d x) (lift (S O) (s k d) x0))) (subst0_both w t0 (lift (S O) d x) d H3 k t1 (lift (S O) (s k d) x0) H6)) (lift (S O) d (THead k x x0)) (lift_head k x x0 (S O) d))) (\lambda (H6: (eq T t1 (lift (S O) (s k d) x0))).eq_ind_r T (lift (S O) (s k d) x0) (\lambda (t2: T).ex T (\lambda (v: T).or (subst0 d w (THead k t0 t2) (lift (S O) d v)) (eq T (THead k t0 t2) (lift (S O) d v)))) (ex_intro T (\lambda (v: T).or (subst0 d w (THead k t0 (lift (S O) (s k d) x0)) (lift (S O) d v)) (eq T (THead k t0 (lift (S O) (s k d) x0)) (lift (S O) d v))) (THead k x x0) (eq_ind_r T (THead k (lift (S O) d x) (lift (S O) (s k d) x0)) (\lambda (t2: T).or (subst0 d w (THead k t0 (lift (S O) (s k d) x0)) t2) (eq T (THead k t0 (lift (S O) (s k d) x0)) t2)) (or_introl (subst0 d w (THead k t0 (lift (S O) (s k d) x0)) (THead k (lift (S O) d x) (lift (S O) (s k d) x0))) (eq T (THead k t0 (lift (S O) (s k d) x0)) (THead k (lift (S O) d x) (lift (S O) (s k d) x0))) (subst0_fst w (lift (S O) d x) t0 d H3 (lift (S O) (s k d) x0) k)) (lift (S O) d (THead k x x0)) (lift_head k x x0 (S O) d))) t1 H6) H5) H4) (\lambda (H3: (eq T t0 (lift (S O) d x))).let H_x0 \def H0 (s k d) in let H4 \def H_x0 in ex_ind T (\lambda (v: T).or (subst0 (s k d) w t1 (lift (S O) (s k d) v)) (eq T t1 (lift (S O) (s k d) v))) (ex T (\lambda (v: T).or (subst0 d w (THead k t0 t1) (lift (S O) d v)) (eq T (THead k t0 t1) (lift (S O) d v)))) (\lambda (x0: T).\lambda (H5: (or (subst0 (s k d) w t1 (lift (S O) (s k d) x0)) (eq T t1 (lift (S O) (s k d) x0)))).or_ind (subst0 (s k d) w t1 (lift (S O) (s k d) x0)) (eq T t1 (lift (S O) (s k d) x0)) (ex T (\lambda (v: T).or (subst0 d w (THead k t0 t1) (lift (S O) d v)) (eq T (THead k t0 t1) (lift (S O) d v)))) (\lambda (H6: (subst0 (s k d) w t1 (lift (S O) (s k d) x0))).eq_ind_r T (lift (S O) d x) (\lambda (t2: T).ex T (\lambda (v: T).or (subst0 d w (THead k t2 t1) (lift (S O) d v)) (eq T (THead k t2 t1) (lift (S O) d v)))) (ex_intro T (\lambda (v: T).or (subst0 d w (THead k (lift (S O) d x) t1) (lift (S O) d v)) (eq T (THead k (lift (S O) d x) t1) (lift (S O) d v))) (THead k x x0) (eq_ind_r T (THead k (lift (S O) d x) (lift (S O) (s k d) x0)) (\lambda (t2: T).or (subst0 d w (THead k (lift (S O) d x) t1) t2) (eq T (THead k (lift (S O) d x) t1) t2)) (or_introl (subst0 d w (THead k (lift (S O) d x) t1) (THead k (lift (S O) d x) (lift (S O) (s k d) x0))) (eq T (THead k (lift (S O) d x) t1) (THead k (lift (S O) d x) (lift (S O) (s k d) x0))) (subst0_snd k w (lift (S O) (s k d) x0) t1 d H6 (lift (S O) d x))) (lift (S O) d (THead k x x0)) (lift_head k x x0 (S O) d))) t0 H3) (\lambda (H6: (eq T t1 (lift (S O) (s k d) x0))).eq_ind_r T (lift (S O) (s k d) x0) (\lambda (t2: T).ex T (\lambda (v: T).or (subst0 d w (THead k t0 t2) (lift (S O) d v)) (eq T (THead k t0 t2) (lift (S O) d v)))) (eq_ind_r T (lift (S O) d x) (\lambda (t2: T).ex T (\lambda (v: T).or (subst0 d w (THead k t2 (lift (S O) (s k d) x0)) (lift (S O) d v)) (eq T (THead k t2 (lift (S O) (s k d) x0)) (lift (S O) d v)))) (ex_intro T (\lambda (v: T).or (subst0 d w (THead k (lift (S O) d x) (lift (S O) (s k d) x0)) (lift (S O) d v)) (eq T (THead k (lift (S O) d x) (lift (S O) (s k d) x0)) (lift (S O) d v))) (THead k x x0) (eq_ind_r T (THead k (lift (S O) d x) (lift (S O) (s k d) x0)) (\lambda (t2: T).or (subst0 d w (THead k (lift (S O) d x) (lift (S O) (s k d) x0)) t2) (eq T (THead k (lift (S O) d x) (lift (S O) (s k d) x0)) t2)) (or_intror (subst0 d w (THead k (lift (S O) d x) (lift (S O) (s k d) x0)) (THead k (lift (S O) d x) (lift (S O) (s k d) x0))) (eq T (THead k (lift (S O) d x) (lift (S O) (s k d) x0)) (THead k (lift (S O) d x) (lift (S O) (s k d) x0))) (refl_equal T (THead k (lift (S O) d x) (lift (S O) (s k d) x0)))) (lift (S O) d (THead k x x0)) (lift_head k x x0 (S O) d))) t0 H3) t1 H6) H5) H4) H2) H1) t.
+
+inductive subst1 (i:nat) (v:T) (t1:T): T \to Prop \def
+| subst1_refl: subst1 i v t1 t1
+| subst1_single: \forall (t2: T).(subst0 i v t1 t2) \to subst1 i v t1 t2.
+
+theorem subst1_head: \forall (v: T).\forall (u1: T).\forall (u2: T).\forall (i: nat).(subst1 i v u1 u2) \to \forall (k: K).\forall (t1: T).\forall (t2: T).(subst1 (s k i) v t1 t2) \to subst1 i v (THead k u1 t1) (THead k u2 t2) \def \lambda (v: T).\lambda (u1: T).\lambda (u2: T).\lambda (i: nat).\lambda (H: (subst1 i v u1 u2)).subst1_ind i v u1 (\lambda (t: T).\forall (k: K).\forall (t1: T).\forall (t2: T).(subst1 (s k i) v t1 t2) \to subst1 i v (THead k u1 t1) (THead k t t2)) (\lambda (k: K).\lambda (t1: T).\lambda (t2: T).\lambda (H0: (subst1 (s k i) v t1 t2)).subst1_ind (s k i) v t1 (\lambda (t: T).subst1 i v (THead k u1 t1) (THead k u1 t)) (subst1_refl i v (THead k u1 t1)) (\lambda (t3: T).\lambda (H1: (subst0 (s k i) v t1 t3)).subst1_single i v (THead k u1 t1) (THead k u1 t3) (subst0_snd k v t3 t1 i H1 u1)) t2 H0) (\lambda (t2: T).\lambda (H0: (subst0 i v u1 t2)).\lambda (k: K).\lambda (t1: T).\lambda (t0: T).\lambda (H1: (subst1 (s k i) v t1 t0)).subst1_ind (s k i) v t1 (\lambda (t: T).subst1 i v (THead k u1 t1) (THead k t2 t)) (subst1_single i v (THead k u1 t1) (THead k t2 t1) (subst0_fst v t2 u1 i H0 t1 k)) (\lambda (t3: T).\lambda (H2: (subst0 (s k i) v t1 t3)).subst1_single i v (THead k u1 t1) (THead k t2 t3) (subst0_both v u1 t2 i H0 k t1 t3 H2)) t0 H1) u2 H.
+
+theorem subst1_gen_sort: \forall (v: T).\forall (x: T).\forall (i: nat).\forall (n: nat).(subst1 i v (TSort n) x) \to eq T x (TSort n) \def \lambda (v: T).\lambda (x: T).\lambda (i: nat).\lambda (n: nat).\lambda (H: (subst1 i v (TSort n) x)).subst1_ind i v (TSort n) (\lambda (t: T).eq T t (TSort n)) (refl_equal T (TSort n)) (\lambda (t2: T).\lambda (H0: (subst0 i v (TSort n) t2)).subst0_gen_sort v t2 i n H0 (eq T t2 (TSort n))) x H.
+
+theorem subst1_gen_lref: \forall (v: T).\forall (x: T).\forall (i: nat).\forall (n: nat).(subst1 i v (TLRef n) x) \to or (eq T x (TLRef n)) (and (eq nat n i) (eq T x (lift (S n) O v))) \def \lambda (v: T).\lambda (x: T).\lambda (i: nat).\lambda (n: nat).\lambda (H: (subst1 i v (TLRef n) x)).subst1_ind i v (TLRef n) (\lambda (t: T).or (eq T t (TLRef n)) (and (eq nat n i) (eq T t (lift (S n) O v)))) (or_introl (eq T (TLRef n) (TLRef n)) (and (eq nat n i) (eq T (TLRef n) (lift (S n) O v))) (refl_equal T (TLRef n))) (\lambda (t2: T).\lambda (H0: (subst0 i v (TLRef n) t2)).and_ind (eq nat n i) (eq T t2 (lift (S n) O v)) (or (eq T t2 (TLRef n)) (and (eq nat n i) (eq T t2 (lift (S n) O v)))) (\lambda (H1: (eq nat n i)).\lambda (H2: (eq T t2 (lift (S n) O v))).or_intror (eq T t2 (TLRef n)) (and (eq nat n i) (eq T t2 (lift (S n) O v))) (conj (eq nat n i) (eq T t2 (lift (S n) O v)) H1 H2)) (subst0_gen_lref v t2 i n H0)) x H.
+
+theorem subst1_gen_head: \forall (k: K).\forall (v: T).\forall (u1: T).\forall (t1: T).\forall (x: T).\forall (i: nat).(subst1 i v (THead k u1 t1) x) \to ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead k u2 t2)) (\lambda (u2: T).\lambda (_: T).subst1 i v u1 u2) (\lambda (_: T).\lambda (t2: T).subst1 (s k i) v t1 t2) \def \lambda (k: K).\lambda (v: T).\lambda (u1: T).\lambda (t1: T).\lambda (x: T).\lambda (i: nat).\lambda (H: (subst1 i v (THead k u1 t1) x)).subst1_ind i v (THead k u1 t1) (\lambda (t: T).ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t (THead k u2 t2)) (\lambda (u2: T).\lambda (_: T).subst1 i v u1 u2) (\lambda (_: T).\lambda (t2: T).subst1 (s k i) v t1 t2)) (ex3_2_intro T T (\lambda (u2: T).\lambda (t2: T).eq T (THead k u1 t1) (THead k u2 t2)) (\lambda (u2: T).\lambda (_: T).subst1 i v u1 u2) (\lambda (_: T).\lambda (t2: T).subst1 (s k i) v t1 t2) u1 t1 (refl_equal T (THead k u1 t1)) (subst1_refl i v u1) (subst1_refl (s k i) v t1)) (\lambda (t2: T).\lambda (H0: (subst0 i v (THead k u1 t1) t2)).or3_ind (ex2 T (\lambda (u2: T).eq T t2 (THead k u2 t1)) (\lambda (u2: T).subst0 i v u1 u2)) (ex2 T (\lambda (t3: T).eq T t2 (THead k u1 t3)) (\lambda (t3: T).subst0 (s k i) v t1 t3)) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead k u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i v u1 u2) (\lambda (_: T).\lambda (t3: T).subst0 (s k i) v t1 t3)) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead k u2 t3)) (\lambda (u2: T).\lambda (_: T).subst1 i v u1 u2) (\lambda (_: T).\lambda (t3: T).subst1 (s k i) v t1 t3)) (\lambda (H1: (ex2 T (\lambda (u2: T).eq T t2 (THead k u2 t1)) (\lambda (u2: T).subst0 i v u1 u2))).ex2_ind T (\lambda (u2: T).eq T t2 (THead k u2 t1)) (\lambda (u2: T).subst0 i v u1 u2) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead k u2 t3)) (\lambda (u2: T).\lambda (_: T).subst1 i v u1 u2) (\lambda (_: T).\lambda (t3: T).subst1 (s k i) v t1 t3)) (\lambda (x0: T).\lambda (H2: (eq T t2 (THead k x0 t1))).\lambda (H3: (subst0 i v u1 x0)).ex3_2_intro T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead k u2 t3)) (\lambda (u2: T).\lambda (_: T).subst1 i v u1 u2) (\lambda (_: T).\lambda (t3: T).subst1 (s k i) v t1 t3) x0 t1 H2 (subst1_single i v u1 x0 H3) (subst1_refl (s k i) v t1)) H1) (\lambda (H1: (ex2 T (\lambda (t3: T).eq T t2 (THead k u1 t3)) (\lambda (t2: T).subst0 (s k i) v t1 t2))).ex2_ind T (\lambda (t3: T).eq T t2 (THead k u1 t3)) (\lambda (t3: T).subst0 (s k i) v t1 t3) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead k u2 t3)) (\lambda (u2: T).\lambda (_: T).subst1 i v u1 u2) (\lambda (_: T).\lambda (t3: T).subst1 (s k i) v t1 t3)) (\lambda (x0: T).\lambda (H2: (eq T t2 (THead k u1 x0))).\lambda (H3: (subst0 (s k i) v t1 x0)).ex3_2_intro T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead k u2 t3)) (\lambda (u2: T).\lambda (_: T).subst1 i v u1 u2) (\lambda (_: T).\lambda (t3: T).subst1 (s k i) v t1 t3) u1 x0 H2 (subst1_refl i v u1) (subst1_single (s k i) v t1 x0 H3)) H1) (\lambda (H1: (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead k u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i v u1 u2) (\lambda (_: T).\lambda (t2: T).subst0 (s k i) v t1 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead k u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i v u1 u2) (\lambda (_: T).\lambda (t3: T).subst0 (s k i) v t1 t3) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead k u2 t3)) (\lambda (u2: T).\lambda (_: T).subst1 i v u1 u2) (\lambda (_: T).\lambda (t3: T).subst1 (s k i) v t1 t3)) (\lambda (x0: T).\lambda (x1: T).\lambda (H2: (eq T t2 (THead k x0 x1))).\lambda (H3: (subst0 i v u1 x0)).\lambda (H4: (subst0 (s k i) v t1 x1)).ex3_2_intro T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead k u2 t3)) (\lambda (u2: T).\lambda (_: T).subst1 i v u1 u2) (\lambda (_: T).\lambda (t3: T).subst1 (s k i) v t1 t3) x0 x1 H2 (subst1_single i v u1 x0 H3) (subst1_single (s k i) v t1 x1 H4)) H1) (subst0_gen_head k v u1 t1 t2 i H0)) x H.
+
+theorem subst1_gen_lift_lt: \forall (u: T).\forall (t1: T).\forall (x: T).\forall (i: nat).\forall (h: nat).\forall (d: nat).(subst1 i (lift h d u) (lift h (S (plus i d)) t1) x) \to ex2 T (\lambda (t2: T).eq T x (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst1 i u t1 t2) \def \lambda (u: T).\lambda (t1: T).\lambda (x: T).\lambda (i: nat).\lambda (h: nat).\lambda (d: nat).\lambda (H: (subst1 i (lift h d u) (lift h (S (plus i d)) t1) x)).subst1_ind i (lift h d u) (lift h (S (plus i d)) t1) (\lambda (t: T).ex2 T (\lambda (t2: T).eq T t (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst1 i u t1 t2)) (ex_intro2 T (\lambda (t2: T).eq T (lift h (S (plus i d)) t1) (lift h (S (plus i d)) t2)) (\lambda (t2: T).subst1 i u t1 t2) t1 (refl_equal T (lift h (S (plus i d)) t1)) (subst1_refl i u t1)) (\lambda (t2: T).\lambda (H0: (subst0 i (lift h d u) (lift h (S (plus i d)) t1) t2)).ex2_ind T (\lambda (t3: T).eq T t2 (lift h (S (plus i d)) t3)) (\lambda (t3: T).subst0 i u t1 t3) (ex2 T (\lambda (t3: T).eq T t2 (lift h (S (plus i d)) t3)) (\lambda (t3: T).subst1 i u t1 t3)) (\lambda (x0: T).\lambda (H1: (eq T t2 (lift h (S (plus i d)) x0))).\lambda (H2: (subst0 i u t1 x0)).ex_intro2 T (\lambda (t3: T).eq T t2 (lift h (S (plus i d)) t3)) (\lambda (t3: T).subst1 i u t1 t3) x0 H1 (subst1_single i u t1 x0 H2)) (subst0_gen_lift_lt u t1 t2 i h d H0)) x H.
+
+theorem subst1_gen_lift_eq: \forall (t: T).\forall (u: T).\forall (x: T).\forall (h: nat).\forall (d: nat).\forall (i: nat).(le d i) \to (lt i (plus d h)) \to (subst1 i u (lift h d t) x) \to eq T x (lift h d t) \def \lambda (t: T).\lambda (u: T).\lambda (x: T).\lambda (h: nat).\lambda (d: nat).\lambda (i: nat).\lambda (H: (le d i)).\lambda (H0: (lt i (plus d h))).\lambda (H1: (subst1 i u (lift h d t) x)).subst1_ind i u (lift h d t) (\lambda (t0: T).eq T t0 (lift h d t)) (refl_equal T (lift h d t)) (\lambda (t2: T).\lambda (H2: (subst0 i u (lift h d t) t2)).subst0_gen_lift_false t u t2 h d i H H0 H2 (eq T t2 (lift h d t))) x H1.
+
+theorem subst1_gen_lift_ge: \forall (u: T).\forall (t1: T).\forall (x: T).\forall (i: nat).\forall (h: nat).\forall (d: nat).(subst1 i u (lift h d t1) x) \to (le (plus d h) i) \to ex2 T (\lambda (t2: T).eq T x (lift h d t2)) (\lambda (t2: T).subst1 (minus i h) u t1 t2) \def \lambda (u: T).\lambda (t1: T).\lambda (x: T).\lambda (i: nat).\lambda (h: nat).\lambda (d: nat).\lambda (H: (subst1 i u (lift h d t1) x)).\lambda (H0: (le (plus d h) i)).subst1_ind i u (lift h d t1) (\lambda (t: T).ex2 T (\lambda (t2: T).eq T t (lift h d t2)) (\lambda (t2: T).subst1 (minus i h) u t1 t2)) (ex_intro2 T (\lambda (t2: T).eq T (lift h d t1) (lift h d t2)) (\lambda (t2: T).subst1 (minus i h) u t1 t2) t1 (refl_equal T (lift h d t1)) (subst1_refl (minus i h) u t1)) (\lambda (t2: T).\lambda (H1: (subst0 i u (lift h d t1) t2)).ex2_ind T (\lambda (t3: T).eq T t2 (lift h d t3)) (\lambda (t3: T).subst0 (minus i h) u t1 t3) (ex2 T (\lambda (t3: T).eq T t2 (lift h d t3)) (\lambda (t3: T).subst1 (minus i h) u t1 t3)) (\lambda (x0: T).\lambda (H2: (eq T t2 (lift h d x0))).\lambda (H3: (subst0 (minus i h) u t1 x0)).ex_intro2 T (\lambda (t3: T).eq T t2 (lift h d t3)) (\lambda (t3: T).subst1 (minus i h) u t1 t3) x0 H2 (subst1_single (minus i h) u t1 x0 H3)) (subst0_gen_lift_ge u t1 t2 i h d H1 H0)) x H.
+
+theorem subst1_lift_lt: \forall (t1: T).\forall (t2: T).\forall (u: T).\forall (i: nat).(subst1 i u t1 t2) \to \forall (d: nat).(lt i d) \to \forall (h: nat).subst1 i (lift h (minus d (S i)) u) (lift h d t1) (lift h d t2) \def \lambda (t1: T).\lambda (t2: T).\lambda (u: T).\lambda (i: nat).\lambda (H: (subst1 i u t1 t2)).subst1_ind i u t1 (\lambda (t: T).\forall (d: nat).(lt i d) \to \forall (h: nat).subst1 i (lift h (minus d (S i)) u) (lift h d t1) (lift h d t)) (\lambda (d: nat).\lambda (_: (lt i d)).\lambda (h: nat).subst1_refl i (lift h (minus d (S i)) u) (lift h d t1)) (\lambda (t3: T).\lambda (H0: (subst0 i u t1 t3)).\lambda (d: nat).\lambda (H1: (lt i d)).\lambda (h: nat).subst1_single i (lift h (minus d (S i)) u) (lift h d t1) (lift h d t3) (subst0_lift_lt t1 t3 u i H0 d H1 h)) t2 H.
+
+theorem subst1_lift_ge: \forall (t1: T).\forall (t2: T).\forall (u: T).\forall (i: nat).\forall (h: nat).(subst1 i u t1 t2) \to \forall (d: nat).(le d i) \to subst1 (plus i h) u (lift h d t1) (lift h d t2) \def \lambda (t1: T).\lambda (t2: T).\lambda (u: T).\lambda (i: nat).\lambda (h: nat).\lambda (H: (subst1 i u t1 t2)).subst1_ind i u t1 (\lambda (t: T).\forall (d: nat).(le d i) \to subst1 (plus i h) u (lift h d t1) (lift h d t)) (\lambda (d: nat).\lambda (_: (le d i)).subst1_refl (plus i h) u (lift h d t1)) (\lambda (t3: T).\lambda (H0: (subst0 i u t1 t3)).\lambda (d: nat).\lambda (H1: (le d i)).subst1_single (plus i h) u (lift h d t1) (lift h d t3) (subst0_lift_ge t1 t3 u i h H0 d H1)) t2 H.
+
+theorem subst1_ex: \forall (u: T).\forall (t1: T).\forall (d: nat).ex T (\lambda (t2: T).subst1 d u t1 (lift (S O) d t2)) \def \lambda (u: T).\lambda (t1: T).T_ind (\lambda (t: T).\forall (d: nat).ex T (\lambda (t2: T).subst1 d u t (lift (S O) d t2))) (\lambda (n: nat).\lambda (d: nat).ex_intro T (\lambda (t2: T).subst1 d u (TSort n) (lift (S O) d t2)) (TSort n) (eq_ind_r T (TSort n) (\lambda (t: T).subst1 d u (TSort n) t) (subst1_refl d u (TSort n)) (lift (S O) d (TSort n)) (lift_sort n (S O) d))) (\lambda (n: nat).\lambda (d: nat).lt_eq_gt_e n d (ex T (\lambda (t2: T).subst1 d u (TLRef n) (lift (S O) d t2))) (\lambda (H: (lt n d)).ex_intro T (\lambda (t2: T).subst1 d u (TLRef n) (lift (S O) d t2)) (TLRef n) (eq_ind_r T (TLRef n) (\lambda (t: T).subst1 d u (TLRef n) t) (subst1_refl d u (TLRef n)) (lift (S O) d (TLRef n)) (lift_lref_lt n (S O) d H))) (\lambda (H: (eq nat n d)).eq_ind nat n (\lambda (n0: nat).ex T (\lambda (t2: T).subst1 n0 u (TLRef n) (lift (S O) n0 t2))) (ex_intro T (\lambda (t2: T).subst1 n u (TLRef n) (lift (S O) n t2)) (lift n O u) (eq_ind_r T (lift (plus (S O) n) O u) (\lambda (t: T).subst1 n u (TLRef n) t) (subst1_single n u (TLRef n) (lift (S n) O u) (subst0_lref u n)) (lift (S O) n (lift n O u)) (lift_free u n (S O) O n (le_n (plus O n)) (le_O_n n)))) d H) (\lambda (H: (lt d n)).ex_intro T (\lambda (t2: T).subst1 d u (TLRef n) (lift (S O) d t2)) (TLRef (pred n)) (eq_ind_r T (TLRef n) (\lambda (t: T).subst1 d u (TLRef n) t) (subst1_refl d u (TLRef n)) (lift (S O) d (TLRef (pred n))) (lift_lref_gt d n H)))) (\lambda (k: K).\lambda (t: T).\lambda (H: ((\forall (d: nat).ex T (\lambda (t2: T).subst1 d u t (lift (S O) d t2))))).\lambda (t0: T).\lambda (H0: ((\forall (d: nat).ex T (\lambda (t2: T).subst1 d u t0 (lift (S O) d t2))))).\lambda (d: nat).let H_x \def H d in let H1 \def H_x in ex_ind T (\lambda (t2: T).subst1 d u t (lift (S O) d t2)) (ex T (\lambda (t2: T).subst1 d u (THead k t t0) (lift (S O) d t2))) (\lambda (x: T).\lambda (H2: (subst1 d u t (lift (S O) d x))).let H_x0 \def H0 (s k d) in let H3 \def H_x0 in ex_ind T (\lambda (t2: T).subst1 (s k d) u t0 (lift (S O) (s k d) t2)) (ex T (\lambda (t2: T).subst1 d u (THead k t t0) (lift (S O) d t2))) (\lambda (x0: T).\lambda (H4: (subst1 (s k d) u t0 (lift (S O) (s k d) x0))).ex_intro T (\lambda (t2: T).subst1 d u (THead k t t0) (lift (S O) d t2)) (THead k x x0) (eq_ind_r T (THead k (lift (S O) d x) (lift (S O) (s k d) x0)) (\lambda (t2: T).subst1 d u (THead k t t0) t2) (subst1_head u t (lift (S O) d x) d H2 k t0 (lift (S O) (s k d) x0) H4) (lift (S O) d (THead k x x0)) (lift_head k x x0 (S O) d))) H3) H1) t1.
+
+theorem subst1_subst1: \forall (t1: T).\forall (t2: T).\forall (u2: T).\forall (j: nat).(subst1 j u2 t1 t2) \to \forall (u1: T).\forall (u: T).\forall (i: nat).(subst1 i u u1 u2) \to ex2 T (\lambda (t: T).subst1 j u1 t1 t) (\lambda (t: T).subst1 (S (plus i j)) u t t2) \def \lambda (t1: T).\lambda (t2: T).\lambda (u2: T).\lambda (j: nat).\lambda (H: (subst1 j u2 t1 t2)).subst1_ind j u2 t1 (\lambda (t: T).\forall (u1: T).\forall (u: T).\forall (i: nat).(subst1 i u u1 u2) \to ex2 T (\lambda (t0: T).subst1 j u1 t1 t0) (\lambda (t0: T).subst1 (S (plus i j)) u t0 t)) (\lambda (u1: T).\lambda (u: T).\lambda (i: nat).\lambda (_: (subst1 i u u1 u2)).ex_intro2 T (\lambda (t: T).subst1 j u1 t1 t) (\lambda (t: T).subst1 (S (plus i j)) u t t1) t1 (subst1_refl j u1 t1) (subst1_refl (S (plus i j)) u t1)) (\lambda (t3: T).\lambda (H0: (subst0 j u2 t1 t3)).\lambda (u1: T).\lambda (u: T).\lambda (i: nat).\lambda (H1: (subst1 i u u1 u2)).insert_eq T u2 (\lambda (t: T).subst1 i u u1 t) (ex2 T (\lambda (t: T).subst1 j u1 t1 t) (\lambda (t: T).subst1 (S (plus i j)) u t t3)) (\lambda (y: T).\lambda (H2: (subst1 i u u1 y)).subst1_ind i u u1 (\lambda (t: T).(eq T t u2) \to ex2 T (\lambda (t0: T).subst1 j u1 t1 t0) (\lambda (t0: T).subst1 (S (plus i j)) u t0 t3)) (\lambda (H3: (eq T u1 u2)).eq_ind_r T u2 (\lambda (t: T).ex2 T (\lambda (t0: T).subst1 j t t1 t0) (\lambda (t0: T).subst1 (S (plus i j)) u t0 t3)) (ex_intro2 T (\lambda (t: T).subst1 j u2 t1 t) (\lambda (t: T).subst1 (S (plus i j)) u t t3) t3 (subst1_single j u2 t1 t3 H0) (subst1_refl (S (plus i j)) u t3)) u1 H3) (\lambda (t0: T).\lambda (H3: (subst0 i u u1 t0)).\lambda (H4: (eq T t0 u2)).let H5 \def eq_ind T t0 (\lambda (t: T).subst0 i u u1 t) H3 u2 H4 in ex2_ind T (\lambda (t: T).subst0 j u1 t1 t) (\lambda (t: T).subst0 (S (plus i j)) u t t3) (ex2 T (\lambda (t: T).subst1 j u1 t1 t) (\lambda (t: T).subst1 (S (plus i j)) u t t3)) (\lambda (x: T).\lambda (H6: (subst0 j u1 t1 x)).\lambda (H7: (subst0 (S (plus i j)) u x t3)).ex_intro2 T (\lambda (t: T).subst1 j u1 t1 t) (\lambda (t: T).subst1 (S (plus i j)) u t t3) x (subst1_single j u1 t1 x H6) (subst1_single (S (plus i j)) u x t3 H7)) (subst0_subst0 t1 t3 u2 j H0 u1 u i H5)) y H2) H1) t2 H.
+
+theorem subst1_subst1_back: \forall (t1: T).\forall (t2: T).\forall (u2: T).\forall (j: nat).(subst1 j u2 t1 t2) \to \forall (u1: T).\forall (u: T).\forall (i: nat).(subst1 i u u2 u1) \to ex2 T (\lambda (t: T).subst1 j u1 t1 t) (\lambda (t: T).subst1 (S (plus i j)) u t2 t) \def \lambda (t1: T).\lambda (t2: T).\lambda (u2: T).\lambda (j: nat).\lambda (H: (subst1 j u2 t1 t2)).subst1_ind j u2 t1 (\lambda (t: T).\forall (u1: T).\forall (u: T).\forall (i: nat).(subst1 i u u2 u1) \to ex2 T (\lambda (t0: T).subst1 j u1 t1 t0) (\lambda (t0: T).subst1 (S (plus i j)) u t t0)) (\lambda (u1: T).\lambda (u: T).\lambda (i: nat).\lambda (_: (subst1 i u u2 u1)).ex_intro2 T (\lambda (t: T).subst1 j u1 t1 t) (\lambda (t: T).subst1 (S (plus i j)) u t1 t) t1 (subst1_refl j u1 t1) (subst1_refl (S (plus i j)) u t1)) (\lambda (t3: T).\lambda (H0: (subst0 j u2 t1 t3)).\lambda (u1: T).\lambda (u: T).\lambda (i: nat).\lambda (H1: (subst1 i u u2 u1)).subst1_ind i u u2 (\lambda (t: T).ex2 T (\lambda (t0: T).subst1 j t t1 t0) (\lambda (t0: T).subst1 (S (plus i j)) u t3 t0)) (ex_intro2 T (\lambda (t: T).subst1 j u2 t1 t) (\lambda (t: T).subst1 (S (plus i j)) u t3 t) t3 (subst1_single j u2 t1 t3 H0) (subst1_refl (S (plus i j)) u t3)) (\lambda (t0: T).\lambda (H2: (subst0 i u u2 t0)).ex2_ind T (\lambda (t: T).subst0 j t0 t1 t) (\lambda (t: T).subst0 (S (plus i j)) u t3 t) (ex2 T (\lambda (t: T).subst1 j t0 t1 t) (\lambda (t: T).subst1 (S (plus i j)) u t3 t)) (\lambda (x: T).\lambda (H3: (subst0 j t0 t1 x)).\lambda (H4: (subst0 (S (plus i j)) u t3 x)).ex_intro2 T (\lambda (t: T).subst1 j t0 t1 t) (\lambda (t: T).subst1 (S (plus i j)) u t3 t) x (subst1_single j t0 t1 x H3) (subst1_single (S (plus i j)) u t3 x H4)) (subst0_subst0_back t1 t3 u2 j H0 t0 u i H2)) u1 H1) t2 H.
+
+theorem subst1_trans: \forall (t2: T).\forall (t1: T).\forall (v: T).\forall (i: nat).(subst1 i v t1 t2) \to \forall (t3: T).(subst1 i v t2 t3) \to subst1 i v t1 t3 \def \lambda (t2: T).\lambda (t1: T).\lambda (v: T).\lambda (i: nat).\lambda (H: (subst1 i v t1 t2)).subst1_ind i v t1 (\lambda (t: T).\forall (t3: T).(subst1 i v t t3) \to subst1 i v t1 t3) (\lambda (t3: T).\lambda (H0: (subst1 i v t1 t3)).H0) (\lambda (t3: T).\lambda (H0: (subst0 i v t1 t3)).\lambda (t4: T).\lambda (H1: (subst1 i v t3 t4)).subst1_ind i v t3 (\lambda (t: T).subst1 i v t1 t) (subst1_single i v t1 t3 H0) (\lambda (t0: T).\lambda (H2: (subst0 i v t3 t0)).subst1_single i v t1 t0 (subst0_trans t3 t1 v i H0 t0 H2)) t4 H1) t2 H.
+
+theorem subst1_confluence_neq: \forall (t0: T).\forall (t1: T).\forall (u1: T).\forall (i1: nat).(subst1 i1 u1 t0 t1) \to \forall (t2: T).\forall (u2: T).\forall (i2: nat).(subst1 i2 u2 t0 t2) \to (not (eq nat i1 i2)) \to ex2 T (\lambda (t: T).subst1 i2 u2 t1 t) (\lambda (t: T).subst1 i1 u1 t2 t) \def \lambda (t0: T).\lambda (t1: T).\lambda (u1: T).\lambda (i1: nat).\lambda (H: (subst1 i1 u1 t0 t1)).subst1_ind i1 u1 t0 (\lambda (t: T).\forall (t2: T).\forall (u2: T).\forall (i2: nat).(subst1 i2 u2 t0 t2) \to (not (eq nat i1 i2)) \to ex2 T (\lambda (t3: T).subst1 i2 u2 t t3) (\lambda (t3: T).subst1 i1 u1 t2 t3)) (\lambda (t2: T).\lambda (u2: T).\lambda (i2: nat).\lambda (H0: (subst1 i2 u2 t0 t2)).\lambda (_: (not (eq nat i1 i2))).ex_intro2 T (\lambda (t: T).subst1 i2 u2 t0 t) (\lambda (t: T).subst1 i1 u1 t2 t) t2 H0 (subst1_refl i1 u1 t2)) (\lambda (t2: T).\lambda (H0: (subst0 i1 u1 t0 t2)).\lambda (t3: T).\lambda (u2: T).\lambda (i2: nat).\lambda (H1: (subst1 i2 u2 t0 t3)).\lambda (H2: (not (eq nat i1 i2))).subst1_ind i2 u2 t0 (\lambda (t: T).ex2 T (\lambda (t4: T).subst1 i2 u2 t2 t4) (\lambda (t4: T).subst1 i1 u1 t t4)) (ex_intro2 T (\lambda (t: T).subst1 i2 u2 t2 t) (\lambda (t: T).subst1 i1 u1 t0 t) t2 (subst1_refl i2 u2 t2) (subst1_single i1 u1 t0 t2 H0)) (\lambda (t4: T).\lambda (H3: (subst0 i2 u2 t0 t4)).ex2_ind T (\lambda (t: T).subst0 i1 u1 t4 t) (\lambda (t: T).subst0 i2 u2 t2 t) (ex2 T (\lambda (t: T).subst1 i2 u2 t2 t) (\lambda (t: T).subst1 i1 u1 t4 t)) (\lambda (x: T).\lambda (H4: (subst0 i1 u1 t4 x)).\lambda (H5: (subst0 i2 u2 t2 x)).ex_intro2 T (\lambda (t: T).subst1 i2 u2 t2 t) (\lambda (t: T).subst1 i1 u1 t4 t) x (subst1_single i2 u2 t2 x H5) (subst1_single i1 u1 t4 x H4)) (subst0_confluence_neq t0 t4 u2 i2 H3 t2 u1 i1 H0 (sym_not_eq nat i1 i2 H2))) t3 H1) t1 H.
+
+theorem subst1_confluence_eq: \forall (t0: T).\forall (t1: T).\forall (u: T).\forall (i: nat).(subst1 i u t0 t1) \to \forall (t2: T).(subst1 i u t0 t2) \to ex2 T (\lambda (t: T).subst1 i u t1 t) (\lambda (t: T).subst1 i u t2 t) \def \lambda (t0: T).\lambda (t1: T).\lambda (u: T).\lambda (i: nat).\lambda (H: (subst1 i u t0 t1)).subst1_ind i u t0 (\lambda (t: T).\forall (t2: T).(subst1 i u t0 t2) \to ex2 T (\lambda (t3: T).subst1 i u t t3) (\lambda (t3: T).subst1 i u t2 t3)) (\lambda (t2: T).\lambda (H0: (subst1 i u t0 t2)).ex_intro2 T (\lambda (t: T).subst1 i u t0 t) (\lambda (t: T).subst1 i u t2 t) t2 H0 (subst1_refl i u t2)) (\lambda (t2: T).\lambda (H0: (subst0 i u t0 t2)).\lambda (t3: T).\lambda (H1: (subst1 i u t0 t3)).subst1_ind i u t0 (\lambda (t: T).ex2 T (\lambda (t4: T).subst1 i u t2 t4) (\lambda (t4: T).subst1 i u t t4)) (ex_intro2 T (\lambda (t: T).subst1 i u t2 t) (\lambda (t: T).subst1 i u t0 t) t2 (subst1_refl i u t2) (subst1_single i u t0 t2 H0)) (\lambda (t4: T).\lambda (H2: (subst0 i u t0 t4)).or4_ind (eq T t4 t2) (ex2 T (\lambda (t: T).subst0 i u t4 t) (\lambda (t: T).subst0 i u t2 t)) (subst0 i u t4 t2) (subst0 i u t2 t4) (ex2 T (\lambda (t: T).subst1 i u t2 t) (\lambda (t: T).subst1 i u t4 t)) (\lambda (H3: (eq T t4 t2)).eq_ind_r T t2 (\lambda (t: T).ex2 T (\lambda (t5: T).subst1 i u t2 t5) (\lambda (t5: T).subst1 i u t t5)) (ex_intro2 T (\lambda (t: T).subst1 i u t2 t) (\lambda (t: T).subst1 i u t2 t) t2 (subst1_refl i u t2) (subst1_refl i u t2)) t4 H3) (\lambda (H3: (ex2 T (\lambda (t: T).subst0 i u t4 t) (\lambda (t: T).subst0 i u t2 t))).ex2_ind T (\lambda (t: T).subst0 i u t4 t) (\lambda (t: T).subst0 i u t2 t) (ex2 T (\lambda (t: T).subst1 i u t2 t) (\lambda (t: T).subst1 i u t4 t)) (\lambda (x: T).\lambda (H4: (subst0 i u t4 x)).\lambda (H5: (subst0 i u t2 x)).ex_intro2 T (\lambda (t: T).subst1 i u t2 t) (\lambda (t: T).subst1 i u t4 t) x (subst1_single i u t2 x H5) (subst1_single i u t4 x H4)) H3) (\lambda (H3: (subst0 i u t4 t2)).ex_intro2 T (\lambda (t: T).subst1 i u t2 t) (\lambda (t: T).subst1 i u t4 t) t2 (subst1_refl i u t2) (subst1_single i u t4 t2 H3)) (\lambda (H3: (subst0 i u t2 t4)).ex_intro2 T (\lambda (t: T).subst1 i u t2 t) (\lambda (t: T).subst1 i u t4 t) t4 (subst1_single i u t2 t4 H3) (subst1_refl i u t4)) (subst0_confluence_eq t0 t4 u i H2 t2 H0)) t3 H1) t1 H.
+
+theorem subst1_confluence_lift: \forall (t0: T).\forall (t1: T).\forall (u: T).\forall (i: nat).(subst1 i u t0 (lift (S O) i t1)) \to \forall (t2: T).(subst1 i u t0 (lift (S O) i t2)) \to eq T t1 t2 \def \lambda (t0: T).\lambda (t1: T).\lambda (u: T).\lambda (i: nat).\lambda (H: (subst1 i u t0 (lift (S O) i t1))).insert_eq T (lift (S O) i t1) (\lambda (t: T).subst1 i u t0 t) (\forall (t2: T).(subst1 i u t0 (lift (S O) i t2)) \to eq T t1 t2) (\lambda (y: T).\lambda (H0: (subst1 i u t0 y)).subst1_ind i u t0 (\lambda (t: T).(eq T t (lift (S O) i t1)) \to \forall (t2: T).(subst1 i u t0 (lift (S O) i t2)) \to eq T t1 t2) (\lambda (H1: (eq T t0 (lift (S O) i t1))).\lambda (t2: T).\lambda (H2: (subst1 i u t0 (lift (S O) i t2))).let H3 \def eq_ind T t0 (\lambda (t: T).subst1 i u t (lift (S O) i t2)) H2 (lift (S O) i t1) H1 in let H4 \def sym_equal T (lift (S O) i t2) (lift (S O) i t1) (subst1_gen_lift_eq t1 u (lift (S O) i t2) (S O) i i (le_n i) (eq_ind_r nat (plus (S O) i) (\lambda (n: nat).lt i n) (le_n (plus (S O) i)) (plus i (S O)) (plus_sym i (S O))) H3) in lift_inj t1 t2 (S O) i H4) (\lambda (t2: T).\lambda (H1: (subst0 i u t0 t2)).\lambda (H2: (eq T t2 (lift (S O) i t1))).\lambda (t3: T).\lambda (H3: (subst1 i u t0 (lift (S O) i t3))).let H4 \def eq_ind T t2 (\lambda (t: T).subst0 i u t0 t) H1 (lift (S O) i t1) H2 in insert_eq T (lift (S O) i t3) (\lambda (t: T).subst1 i u t0 t) (eq T t1 t3) (\lambda (y0: T).\lambda (H5: (subst1 i u t0 y0)).subst1_ind i u t0 (\lambda (t: T).(eq T t (lift (S O) i t3)) \to eq T t1 t3) (\lambda (H6: (eq T t0 (lift (S O) i t3))).let H7 \def eq_ind T t0 (\lambda (t: T).subst0 i u t (lift (S O) i t1)) H4 (lift (S O) i t3) H6 in subst0_gen_lift_false t3 u (lift (S O) i t1) (S O) i i (le_n i) (eq_ind_r nat (plus (S O) i) (\lambda (n: nat).lt i n) (le_n (plus (S O) i)) (plus i (S O)) (plus_sym i (S O))) H7 (eq T t1 t3)) (\lambda (t4: T).\lambda (H6: (subst0 i u t0 t4)).\lambda (H7: (eq T t4 (lift (S O) i t3))).let H8 \def eq_ind T t4 (\lambda (t: T).subst0 i u t0 t) H6 (lift (S O) i t3) H7 in sym_eq T t3 t1 (subst0_confluence_lift t0 t3 u i H8 t1 H4)) y0 H5) H3) y H0) H.
+
+inductive csubst0: nat \to T \to C \to C \to Prop \def
+| csubst0_snd: \forall (k: K).\forall (i: nat).\forall (v: T).\forall (u1: T).\forall (u2: T).(subst0 i v u1 u2) \to \forall (c: C).csubst0 (s k i) v (CHead c k u1) (CHead c k u2)
+| csubst0_fst: \forall (k: K).\forall (i: nat).\forall (c1: C).\forall (c2: C).\forall (v: T).(csubst0 i v c1 c2) \to \forall (u: T).csubst0 (s k i) v (CHead c1 k u) (CHead c2 k u)
+| csubst0_both: \forall (k: K).\forall (i: nat).\forall (v: T).\forall (u1: T).\forall (u2: T).(subst0 i v u1 u2) \to \forall (c1: C).\forall (c2: C).(csubst0 i v c1 c2) \to csubst0 (s k i) v (CHead c1 k u1) (CHead c2 k u2).
+
+theorem csubst0_snd_bind: \forall (b: B).\forall (i: nat).\forall (v: T).\forall (u1: T).\forall (u2: T).(subst0 i v u1 u2) \to \forall (c: C).csubst0 (S i) v (CHead c (Bind b) u1) (CHead c (Bind b) u2) \def \lambda (b: B).\lambda (i: nat).\lambda (v: T).\lambda (u1: T).\lambda (u2: T).\lambda (H: (subst0 i v u1 u2)).\lambda (c: C).eq_ind nat (s (Bind b) i) (\lambda (n: nat).csubst0 n v (CHead c (Bind b) u1) (CHead c (Bind b) u2)) (csubst0_snd (Bind b) i v u1 u2 H c) (S i) (refl_equal nat (S i)).
+
+theorem csubst0_fst_bind: \forall (b: B).\forall (i: nat).\forall (c1: C).\forall (c2: C).\forall (v: T).(csubst0 i v c1 c2) \to \forall (u: T).csubst0 (S i) v (CHead c1 (Bind b) u) (CHead c2 (Bind b) u) \def \lambda (b: B).\lambda (i: nat).\lambda (c1: C).\lambda (c2: C).\lambda (v: T).\lambda (H: (csubst0 i v c1 c2)).\lambda (u: T).eq_ind nat (s (Bind b) i) (\lambda (n: nat).csubst0 n v (CHead c1 (Bind b) u) (CHead c2 (Bind b) u)) (csubst0_fst (Bind b) i c1 c2 v H u) (S i) (refl_equal nat (S i)).
+
+theorem csubst0_both_bind: \forall (b: B).\forall (i: nat).\forall (v: T).\forall (u1: T).\forall (u2: T).(subst0 i v u1 u2) \to \forall (c1: C).\forall (c2: C).(csubst0 i v c1 c2) \to csubst0 (S i) v (CHead c1 (Bind b) u1) (CHead c2 (Bind b) u2) \def \lambda (b: B).\lambda (i: nat).\lambda (v: T).\lambda (u1: T).\lambda (u2: T).\lambda (H: (subst0 i v u1 u2)).\lambda (c1: C).\lambda (c2: C).\lambda (H0: (csubst0 i v c1 c2)).eq_ind nat (s (Bind b) i) (\lambda (n: nat).csubst0 n v (CHead c1 (Bind b) u1) (CHead c2 (Bind b) u2)) (csubst0_both (Bind b) i v u1 u2 H c1 c2 H0) (S i) (refl_equal nat (S i)).
+
+theorem csubst0_gen_sort: \forall (x: C).\forall (v: T).\forall (i: nat).\forall (n: nat).(csubst0 i v (CSort n) x) \to \forall (P: (Prop)).P \def \lambda (x: C).\lambda (v: T).\lambda (i: nat).\lambda (n: nat).\lambda (H: (csubst0 i v (CSort n) x)).\lambda (P: (Prop)).let H0 \def match H return (\lambda (n0: nat).\lambda (t: T).\lambda (c: C).\lambda (c0: C).(eq nat n0 i) \to (eq T t v) \to (eq C c (CSort n)) \to (eq C c0 x) \to P) with [(csubst0_snd k i0 v0 u1 u2 H0 c) \Rightarrow (\lambda (H1: (eq nat (s k i0) i)).\lambda (H2: (eq T v0 v)).\lambda (H3: (eq C (CHead c k u1) (CSort n))).\lambda (H4: (eq C (CHead c k u2) x)).eq_ind nat (s k i0) (\lambda (_: nat).(eq T v0 v) \to (eq C (CHead c k u1) (CSort n)) \to (eq C (CHead c k u2) x) \to (subst0 i0 v0 u1 u2) \to P) (\lambda (H5: (eq T v0 v)).eq_ind T v (\lambda (t: T).(eq C (CHead c k u1) (CSort n)) \to (eq C (CHead c k u2) x) \to (subst0 i0 t u1 u2) \to P) (\lambda (H6: (eq C (CHead c k u1) (CSort n))).let H7 \def eq_ind C (CHead c k u1) (\lambda (e: C).match e return (Prop) with [(CSort _) \Rightarrow False | (CHead _ _ _) \Rightarrow True]) I (CSort n) H6 in False_ind ((eq C (CHead c k u2) x) \to (subst0 i0 v u1 u2) \to P) H7) v0 (sym_eq T v0 v H5)) i H1 H2 H3 H4 H0) | (csubst0_fst k i0 c1 c2 v0 H0 u) \Rightarrow (\lambda (H1: (eq nat (s k i0) i)).\lambda (H2: (eq T v0 v)).\lambda (H3: (eq C (CHead c1 k u) (CSort n))).\lambda (H4: (eq C (CHead c2 k u) x)).eq_ind nat (s k i0) (\lambda (_: nat).(eq T v0 v) \to (eq C (CHead c1 k u) (CSort n)) \to (eq C (CHead c2 k u) x) \to (csubst0 i0 v0 c1 c2) \to P) (\lambda (H5: (eq T v0 v)).eq_ind T v (\lambda (t: T).(eq C (CHead c1 k u) (CSort n)) \to (eq C (CHead c2 k u) x) \to (csubst0 i0 t c1 c2) \to P) (\lambda (H6: (eq C (CHead c1 k u) (CSort n))).let H7 \def eq_ind C (CHead c1 k u) (\lambda (e: C).match e return (Prop) with [(CSort _) \Rightarrow False | (CHead _ _ _) \Rightarrow True]) I (CSort n) H6 in False_ind ((eq C (CHead c2 k u) x) \to (csubst0 i0 v c1 c2) \to P) H7) v0 (sym_eq T v0 v H5)) i H1 H2 H3 H4 H0) | (csubst0_both k i0 v0 u1 u2 H0 c1 c2 H1) \Rightarrow (\lambda (H2: (eq nat (s k i0) i)).\lambda (H3: (eq T v0 v)).\lambda (H4: (eq C (CHead c1 k u1) (CSort n))).\lambda (H5: (eq C (CHead c2 k u2) x)).eq_ind nat (s k i0) (\lambda (_: nat).(eq T v0 v) \to (eq C (CHead c1 k u1) (CSort n)) \to (eq C (CHead c2 k u2) x) \to (subst0 i0 v0 u1 u2) \to (csubst0 i0 v0 c1 c2) \to P) (\lambda (H6: (eq T v0 v)).eq_ind T v (\lambda (t: T).(eq C (CHead c1 k u1) (CSort n)) \to (eq C (CHead c2 k u2) x) \to (subst0 i0 t u1 u2) \to (csubst0 i0 t c1 c2) \to P) (\lambda (H7: (eq C (CHead c1 k u1) (CSort n))).let H8 \def eq_ind C (CHead c1 k u1) (\lambda (e: C).match e return (Prop) with [(CSort _) \Rightarrow False | (CHead _ _ _) \Rightarrow True]) I (CSort n) H7 in False_ind ((eq C (CHead c2 k u2) x) \to (subst0 i0 v u1 u2) \to (csubst0 i0 v c1 c2) \to P) H8) v0 (sym_eq T v0 v H6)) i H2 H3 H4 H5 H0 H1)] in H0 (refl_equal nat i) (refl_equal T v) (refl_equal C (CSort n)) (refl_equal C x).
+
+theorem csubst0_gen_head: \forall (k: K).\forall (c1: C).\forall (x: C).\forall (u1: T).\forall (v: T).\forall (i: nat).(csubst0 i v (CHead c1 k u1) x) \to or3 (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat i (s k j)) (\lambda (u2: T).\lambda (_: nat).eq C x (CHead c1 k u2)) (\lambda (u2: T).\lambda (j: nat).subst0 j v u1 u2)) (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat i (s k j)) (\lambda (c2: C).\lambda (_: nat).eq C x (CHead c2 k u1)) (\lambda (c2: C).\lambda (j: nat).csubst0 j v c1 c2)) (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat i (s k j)) (\lambda (u2: T).\lambda (c2: C).\lambda (_: nat).eq C x (CHead c2 k u2)) (\lambda (u2: T).\lambda (_: C).\lambda (j: nat).subst0 j v u1 u2) (\lambda (_: T).\lambda (c2: C).\lambda (j: nat).csubst0 j v c1 c2)) \def \lambda (k: K).\lambda (c1: C).\lambda (x: C).\lambda (u1: T).\lambda (v: T).\lambda (i: nat).\lambda (H: (csubst0 i v (CHead c1 k u1) x)).let H0 \def match H return (\lambda (n: nat).\lambda (t: T).\lambda (c: C).\lambda (c0: C).(eq nat n i) \to (eq T t v) \to (eq C c (CHead c1 k u1)) \to (eq C c0 x) \to or3 (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat i (s k j)) (\lambda (u2: T).\lambda (_: nat).eq C x (CHead c1 k u2)) (\lambda (u2: T).\lambda (j: nat).subst0 j v u1 u2)) (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat i (s k j)) (\lambda (c2: C).\lambda (_: nat).eq C x (CHead c2 k u1)) (\lambda (c2: C).\lambda (j: nat).csubst0 j v c1 c2)) (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat i (s k j)) (\lambda (u2: T).\lambda (c2: C).\lambda (_: nat).eq C x (CHead c2 k u2)) (\lambda (u2: T).\lambda (_: C).\lambda (j: nat).subst0 j v u1 u2) (\lambda (_: T).\lambda (c2: C).\lambda (j: nat).csubst0 j v c1 c2))) with [(csubst0_snd k0 i0 v0 u0 u2 H0 c) \Rightarrow (\lambda (H1: (eq nat (s k0 i0) i)).\lambda (H2: (eq T v0 v)).\lambda (H3: (eq C (CHead c k0 u0) (CHead c1 k u1))).\lambda (H4: (eq C (CHead c k0 u2) x)).eq_ind nat (s k0 i0) (\lambda (n: nat).(eq T v0 v) \to (eq C (CHead c k0 u0) (CHead c1 k u1)) \to (eq C (CHead c k0 u2) x) \to (subst0 i0 v0 u0 u2) \to or3 (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat n (s k j)) (\lambda (u3: T).\lambda (_: nat).eq C x (CHead c1 k u3)) (\lambda (u3: T).\lambda (j: nat).subst0 j v u1 u3)) (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat n (s k j)) (\lambda (c2: C).\lambda (_: nat).eq C x (CHead c2 k u1)) (\lambda (c2: C).\lambda (j: nat).csubst0 j v c1 c2)) (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat n (s k j)) (\lambda (u3: T).\lambda (c2: C).\lambda (_: nat).eq C x (CHead c2 k u3)) (\lambda (u3: T).\lambda (_: C).\lambda (j: nat).subst0 j v u1 u3) (\lambda (_: T).\lambda (c2: C).\lambda (j: nat).csubst0 j v c1 c2))) (\lambda (H5: (eq T v0 v)).eq_ind T v (\lambda (t: T).(eq C (CHead c k0 u0) (CHead c1 k u1)) \to (eq C (CHead c k0 u2) x) \to (subst0 i0 t u0 u2) \to or3 (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat (s k0 i0) (s k j)) (\lambda (u3: T).\lambda (_: nat).eq C x (CHead c1 k u3)) (\lambda (u3: T).\lambda (j: nat).subst0 j v u1 u3)) (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat (s k0 i0) (s k j)) (\lambda (c2: C).\lambda (_: nat).eq C x (CHead c2 k u1)) (\lambda (c2: C).\lambda (j: nat).csubst0 j v c1 c2)) (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat (s k0 i0) (s k j)) (\lambda (u3: T).\lambda (c2: C).\lambda (_: nat).eq C x (CHead c2 k u3)) (\lambda (u3: T).\lambda (_: C).\lambda (j: nat).subst0 j v u1 u3) (\lambda (_: T).\lambda (c2: C).\lambda (j: nat).csubst0 j v c1 c2))) (\lambda (H6: (eq C (CHead c k0 u0) (CHead c1 k u1))).let H7 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u0 | (CHead _ _ t) \Rightarrow t]) (CHead c k0 u0) (CHead c1 k u1) H6 in (let H8 \def f_equal C K (\lambda (e: C).match e return K with [(CSort _) \Rightarrow k0 | (CHead _ k _) \Rightarrow k]) (CHead c k0 u0) (CHead c1 k u1) H6 in (let H9 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c | (CHead c _ _) \Rightarrow c]) (CHead c k0 u0) (CHead c1 k u1) H6 in eq_ind C c1 (\lambda (c0: C).(eq K k0 k) \to (eq T u0 u1) \to (eq C (CHead c0 k0 u2) x) \to (subst0 i0 v u0 u2) \to or3 (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat (s k0 i0) (s k j)) (\lambda (u3: T).\lambda (_: nat).eq C x (CHead c1 k u3)) (\lambda (u3: T).\lambda (j: nat).subst0 j v u1 u3)) (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat (s k0 i0) (s k j)) (\lambda (c2: C).\lambda (_: nat).eq C x (CHead c2 k u1)) (\lambda (c2: C).\lambda (j: nat).csubst0 j v c1 c2)) (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat (s k0 i0) (s k j)) (\lambda (u3: T).\lambda (c2: C).\lambda (_: nat).eq C x (CHead c2 k u3)) (\lambda (u3: T).\lambda (_: C).\lambda (j: nat).subst0 j v u1 u3) (\lambda (_: T).\lambda (c2: C).\lambda (j: nat).csubst0 j v c1 c2))) (\lambda (H10: (eq K k0 k)).eq_ind K k (\lambda (k1: K).(eq T u0 u1) \to (eq C (CHead c1 k1 u2) x) \to (subst0 i0 v u0 u2) \to or3 (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat (s k1 i0) (s k j)) (\lambda (u3: T).\lambda (_: nat).eq C x (CHead c1 k u3)) (\lambda (u3: T).\lambda (j: nat).subst0 j v u1 u3)) (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat (s k1 i0) (s k j)) (\lambda (c2: C).\lambda (_: nat).eq C x (CHead c2 k u1)) (\lambda (c2: C).\lambda (j: nat).csubst0 j v c1 c2)) (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat (s k1 i0) (s k j)) (\lambda (u3: T).\lambda (c2: C).\lambda (_: nat).eq C x (CHead c2 k u3)) (\lambda (u3: T).\lambda (_: C).\lambda (j: nat).subst0 j v u1 u3) (\lambda (_: T).\lambda (c2: C).\lambda (j: nat).csubst0 j v c1 c2))) (\lambda (H11: (eq T u0 u1)).eq_ind T u1 (\lambda (t: T).(eq C (CHead c1 k u2) x) \to (subst0 i0 v t u2) \to or3 (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat (s k i0) (s k j)) (\lambda (u3: T).\lambda (_: nat).eq C x (CHead c1 k u3)) (\lambda (u3: T).\lambda (j: nat).subst0 j v u1 u3)) (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat (s k i0) (s k j)) (\lambda (c2: C).\lambda (_: nat).eq C x (CHead c2 k u1)) (\lambda (c2: C).\lambda (j: nat).csubst0 j v c1 c2)) (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat (s k i0) (s k j)) (\lambda (u3: T).\lambda (c2: C).\lambda (_: nat).eq C x (CHead c2 k u3)) (\lambda (u3: T).\lambda (_: C).\lambda (j: nat).subst0 j v u1 u3) (\lambda (_: T).\lambda (c2: C).\lambda (j: nat).csubst0 j v c1 c2))) (\lambda (H12: (eq C (CHead c1 k u2) x)).eq_ind C (CHead c1 k u2) (\lambda (c0: C).(subst0 i0 v u1 u2) \to or3 (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat (s k i0) (s k j)) (\lambda (u3: T).\lambda (_: nat).eq C c0 (CHead c1 k u3)) (\lambda (u3: T).\lambda (j: nat).subst0 j v u1 u3)) (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat (s k i0) (s k j)) (\lambda (c2: C).\lambda (_: nat).eq C c0 (CHead c2 k u1)) (\lambda (c2: C).\lambda (j: nat).csubst0 j v c1 c2)) (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat (s k i0) (s k j)) (\lambda (u3: T).\lambda (c2: C).\lambda (_: nat).eq C c0 (CHead c2 k u3)) (\lambda (u3: T).\lambda (_: C).\lambda (j: nat).subst0 j v u1 u3) (\lambda (_: T).\lambda (c2: C).\lambda (j: nat).csubst0 j v c1 c2))) (\lambda (H13: (subst0 i0 v u1 u2)).let H \def eq_ind K k0 (\lambda (k: K).eq nat (s k i0) i) H1 k H10 in or3_intro0 (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat (s k i0) (s k j)) (\lambda (u3: T).\lambda (_: nat).eq C (CHead c1 k u2) (CHead c1 k u3)) (\lambda (u3: T).\lambda (j: nat).subst0 j v u1 u3)) (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat (s k i0) (s k j)) (\lambda (c2: C).\lambda (_: nat).eq C (CHead c1 k u2) (CHead c2 k u1)) (\lambda (c2: C).\lambda (j: nat).csubst0 j v c1 c2)) (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat (s k i0) (s k j)) (\lambda (u3: T).\lambda (c2: C).\lambda (_: nat).eq C (CHead c1 k u2) (CHead c2 k u3)) (\lambda (u3: T).\lambda (_: C).\lambda (j: nat).subst0 j v u1 u3) (\lambda (_: T).\lambda (c2: C).\lambda (j: nat).csubst0 j v c1 c2)) (ex3_2_intro T nat (\lambda (_: T).\lambda (j: nat).eq nat (s k i0) (s k j)) (\lambda (u3: T).\lambda (_: nat).eq C (CHead c1 k u2) (CHead c1 k u3)) (\lambda (u3: T).\lambda (j: nat).subst0 j v u1 u3) u2 i0 (refl_equal nat (s k i0)) (refl_equal C (CHead c1 k u2)) H13)) x H12) u0 (sym_eq T u0 u1 H11)) k0 (sym_eq K k0 k H10)) c (sym_eq C c c1 H9)) H8) H7) v0 (sym_eq T v0 v H5)) i H1 H2 H3 H4 H0) | (csubst0_fst k0 i0 c0 c2 v0 H0 u) \Rightarrow (\lambda (H1: (eq nat (s k0 i0) i)).\lambda (H2: (eq T v0 v)).\lambda (H3: (eq C (CHead c0 k0 u) (CHead c1 k u1))).\lambda (H4: (eq C (CHead c2 k0 u) x)).eq_ind nat (s k0 i0) (\lambda (n: nat).(eq T v0 v) \to (eq C (CHead c0 k0 u) (CHead c1 k u1)) \to (eq C (CHead c2 k0 u) x) \to (csubst0 i0 v0 c0 c2) \to or3 (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat n (s k j)) (\lambda (u2: T).\lambda (_: nat).eq C x (CHead c1 k u2)) (\lambda (u2: T).\lambda (j: nat).subst0 j v u1 u2)) (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat n (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C x (CHead c3 k u1)) (\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3)) (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat n (s k j)) (\lambda (u2: T).\lambda (c3: C).\lambda (_: nat).eq C x (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).\lambda (j: nat).subst0 j v u1 u2) (\lambda (_: T).\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3))) (\lambda (H5: (eq T v0 v)).eq_ind T v (\lambda (t: T).(eq C (CHead c0 k0 u) (CHead c1 k u1)) \to (eq C (CHead c2 k0 u) x) \to (csubst0 i0 t c0 c2) \to or3 (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat (s k0 i0) (s k j)) (\lambda (u2: T).\lambda (_: nat).eq C x (CHead c1 k u2)) (\lambda (u2: T).\lambda (j: nat).subst0 j v u1 u2)) (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat (s k0 i0) (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C x (CHead c3 k u1)) (\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3)) (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat (s k0 i0) (s k j)) (\lambda (u2: T).\lambda (c3: C).\lambda (_: nat).eq C x (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).\lambda (j: nat).subst0 j v u1 u2) (\lambda (_: T).\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3))) (\lambda (H6: (eq C (CHead c0 k0 u) (CHead c1 k u1))).let H7 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead c0 k0 u) (CHead c1 k u1) H6 in (let H8 \def f_equal C K (\lambda (e: C).match e return K with [(CSort _) \Rightarrow k0 | (CHead _ k _) \Rightarrow k]) (CHead c0 k0 u) (CHead c1 k u1) H6 in (let H9 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c0 | (CHead c _ _) \Rightarrow c]) (CHead c0 k0 u) (CHead c1 k u1) H6 in eq_ind C c1 (\lambda (c: C).(eq K k0 k) \to (eq T u u1) \to (eq C (CHead c2 k0 u) x) \to (csubst0 i0 v c c2) \to or3 (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat (s k0 i0) (s k j)) (\lambda (u2: T).\lambda (_: nat).eq C x (CHead c1 k u2)) (\lambda (u2: T).\lambda (j: nat).subst0 j v u1 u2)) (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat (s k0 i0) (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C x (CHead c3 k u1)) (\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3)) (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat (s k0 i0) (s k j)) (\lambda (u2: T).\lambda (c3: C).\lambda (_: nat).eq C x (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).\lambda (j: nat).subst0 j v u1 u2) (\lambda (_: T).\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3))) (\lambda (H10: (eq K k0 k)).eq_ind K k (\lambda (k1: K).(eq T u u1) \to (eq C (CHead c2 k1 u) x) \to (csubst0 i0 v c1 c2) \to or3 (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat (s k1 i0) (s k j)) (\lambda (u2: T).\lambda (_: nat).eq C x (CHead c1 k u2)) (\lambda (u2: T).\lambda (j: nat).subst0 j v u1 u2)) (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat (s k1 i0) (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C x (CHead c3 k u1)) (\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3)) (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat (s k1 i0) (s k j)) (\lambda (u2: T).\lambda (c3: C).\lambda (_: nat).eq C x (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).\lambda (j: nat).subst0 j v u1 u2) (\lambda (_: T).\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3))) (\lambda (H11: (eq T u u1)).eq_ind T u1 (\lambda (t: T).(eq C (CHead c2 k t) x) \to (csubst0 i0 v c1 c2) \to or3 (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat (s k i0) (s k j)) (\lambda (u2: T).\lambda (_: nat).eq C x (CHead c1 k u2)) (\lambda (u2: T).\lambda (j: nat).subst0 j v u1 u2)) (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat (s k i0) (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C x (CHead c3 k u1)) (\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3)) (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat (s k i0) (s k j)) (\lambda (u2: T).\lambda (c3: C).\lambda (_: nat).eq C x (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).\lambda (j: nat).subst0 j v u1 u2) (\lambda (_: T).\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3))) (\lambda (H12: (eq C (CHead c2 k u1) x)).eq_ind C (CHead c2 k u1) (\lambda (c: C).(csubst0 i0 v c1 c2) \to or3 (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat (s k i0) (s k j)) (\lambda (u2: T).\lambda (_: nat).eq C c (CHead c1 k u2)) (\lambda (u2: T).\lambda (j: nat).subst0 j v u1 u2)) (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat (s k i0) (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C c (CHead c3 k u1)) (\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3)) (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat (s k i0) (s k j)) (\lambda (u2: T).\lambda (c3: C).\lambda (_: nat).eq C c (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).\lambda (j: nat).subst0 j v u1 u2) (\lambda (_: T).\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3))) (\lambda (H13: (csubst0 i0 v c1 c2)).let H \def eq_ind K k0 (\lambda (k: K).eq nat (s k i0) i) H1 k H10 in or3_intro1 (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat (s k i0) (s k j)) (\lambda (u2: T).\lambda (_: nat).eq C (CHead c2 k u1) (CHead c1 k u2)) (\lambda (u2: T).\lambda (j: nat).subst0 j v u1 u2)) (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat (s k i0) (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C (CHead c2 k u1) (CHead c3 k u1)) (\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3)) (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat (s k i0) (s k j)) (\lambda (u2: T).\lambda (c3: C).\lambda (_: nat).eq C (CHead c2 k u1) (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).\lambda (j: nat).subst0 j v u1 u2) (\lambda (_: T).\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3)) (ex3_2_intro C nat (\lambda (_: C).\lambda (j: nat).eq nat (s k i0) (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C (CHead c2 k u1) (CHead c3 k u1)) (\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3) c2 i0 (refl_equal nat (s k i0)) (refl_equal C (CHead c2 k u1)) H13)) x H12) u (sym_eq T u u1 H11)) k0 (sym_eq K k0 k H10)) c0 (sym_eq C c0 c1 H9)) H8) H7) v0 (sym_eq T v0 v H5)) i H1 H2 H3 H4 H0) | (csubst0_both k0 i0 v0 u0 u2 H0 c0 c2 H1) \Rightarrow (\lambda (H2: (eq nat (s k0 i0) i)).\lambda (H3: (eq T v0 v)).\lambda (H4: (eq C (CHead c0 k0 u0) (CHead c1 k u1))).\lambda (H5: (eq C (CHead c2 k0 u2) x)).eq_ind nat (s k0 i0) (\lambda (n: nat).(eq T v0 v) \to (eq C (CHead c0 k0 u0) (CHead c1 k u1)) \to (eq C (CHead c2 k0 u2) x) \to (subst0 i0 v0 u0 u2) \to (csubst0 i0 v0 c0 c2) \to or3 (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat n (s k j)) (\lambda (u3: T).\lambda (_: nat).eq C x (CHead c1 k u3)) (\lambda (u3: T).\lambda (j: nat).subst0 j v u1 u3)) (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat n (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C x (CHead c3 k u1)) (\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3)) (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat n (s k j)) (\lambda (u3: T).\lambda (c3: C).\lambda (_: nat).eq C x (CHead c3 k u3)) (\lambda (u3: T).\lambda (_: C).\lambda (j: nat).subst0 j v u1 u3) (\lambda (_: T).\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3))) (\lambda (H6: (eq T v0 v)).eq_ind T v (\lambda (t: T).(eq C (CHead c0 k0 u0) (CHead c1 k u1)) \to (eq C (CHead c2 k0 u2) x) \to (subst0 i0 t u0 u2) \to (csubst0 i0 t c0 c2) \to or3 (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat (s k0 i0) (s k j)) (\lambda (u3: T).\lambda (_: nat).eq C x (CHead c1 k u3)) (\lambda (u3: T).\lambda (j: nat).subst0 j v u1 u3)) (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat (s k0 i0) (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C x (CHead c3 k u1)) (\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3)) (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat (s k0 i0) (s k j)) (\lambda (u3: T).\lambda (c3: C).\lambda (_: nat).eq C x (CHead c3 k u3)) (\lambda (u3: T).\lambda (_: C).\lambda (j: nat).subst0 j v u1 u3) (\lambda (_: T).\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3))) (\lambda (H7: (eq C (CHead c0 k0 u0) (CHead c1 k u1))).let H8 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u0 | (CHead _ _ t) \Rightarrow t]) (CHead c0 k0 u0) (CHead c1 k u1) H7 in (let H9 \def f_equal C K (\lambda (e: C).match e return K with [(CSort _) \Rightarrow k0 | (CHead _ k _) \Rightarrow k]) (CHead c0 k0 u0) (CHead c1 k u1) H7 in (let H10 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c0 | (CHead c _ _) \Rightarrow c]) (CHead c0 k0 u0) (CHead c1 k u1) H7 in eq_ind C c1 (\lambda (c: C).(eq K k0 k) \to (eq T u0 u1) \to (eq C (CHead c2 k0 u2) x) \to (subst0 i0 v u0 u2) \to (csubst0 i0 v c c2) \to or3 (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat (s k0 i0) (s k j)) (\lambda (u3: T).\lambda (_: nat).eq C x (CHead c1 k u3)) (\lambda (u3: T).\lambda (j: nat).subst0 j v u1 u3)) (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat (s k0 i0) (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C x (CHead c3 k u1)) (\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3)) (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat (s k0 i0) (s k j)) (\lambda (u3: T).\lambda (c3: C).\lambda (_: nat).eq C x (CHead c3 k u3)) (\lambda (u3: T).\lambda (_: C).\lambda (j: nat).subst0 j v u1 u3) (\lambda (_: T).\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3))) (\lambda (H11: (eq K k0 k)).eq_ind K k (\lambda (k1: K).(eq T u0 u1) \to (eq C (CHead c2 k1 u2) x) \to (subst0 i0 v u0 u2) \to (csubst0 i0 v c1 c2) \to or3 (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat (s k1 i0) (s k j)) (\lambda (u3: T).\lambda (_: nat).eq C x (CHead c1 k u3)) (\lambda (u3: T).\lambda (j: nat).subst0 j v u1 u3)) (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat (s k1 i0) (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C x (CHead c3 k u1)) (\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3)) (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat (s k1 i0) (s k j)) (\lambda (u3: T).\lambda (c3: C).\lambda (_: nat).eq C x (CHead c3 k u3)) (\lambda (u3: T).\lambda (_: C).\lambda (j: nat).subst0 j v u1 u3) (\lambda (_: T).\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3))) (\lambda (H12: (eq T u0 u1)).eq_ind T u1 (\lambda (t: T).(eq C (CHead c2 k u2) x) \to (subst0 i0 v t u2) \to (csubst0 i0 v c1 c2) \to or3 (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat (s k i0) (s k j)) (\lambda (u3: T).\lambda (_: nat).eq C x (CHead c1 k u3)) (\lambda (u3: T).\lambda (j: nat).subst0 j v u1 u3)) (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat (s k i0) (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C x (CHead c3 k u1)) (\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3)) (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat (s k i0) (s k j)) (\lambda (u3: T).\lambda (c3: C).\lambda (_: nat).eq C x (CHead c3 k u3)) (\lambda (u3: T).\lambda (_: C).\lambda (j: nat).subst0 j v u1 u3) (\lambda (_: T).\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3))) (\lambda (H13: (eq C (CHead c2 k u2) x)).eq_ind C (CHead c2 k u2) (\lambda (c: C).(subst0 i0 v u1 u2) \to (csubst0 i0 v c1 c2) \to or3 (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat (s k i0) (s k j)) (\lambda (u3: T).\lambda (_: nat).eq C c (CHead c1 k u3)) (\lambda (u3: T).\lambda (j: nat).subst0 j v u1 u3)) (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat (s k i0) (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C c (CHead c3 k u1)) (\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3)) (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat (s k i0) (s k j)) (\lambda (u3: T).\lambda (c3: C).\lambda (_: nat).eq C c (CHead c3 k u3)) (\lambda (u3: T).\lambda (_: C).\lambda (j: nat).subst0 j v u1 u3) (\lambda (_: T).\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3))) (\lambda (H14: (subst0 i0 v u1 u2)).\lambda (H15: (csubst0 i0 v c1 c2)).let H \def eq_ind K k0 (\lambda (k: K).eq nat (s k i0) i) H2 k H11 in or3_intro2 (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat (s k i0) (s k j)) (\lambda (u3: T).\lambda (_: nat).eq C (CHead c2 k u2) (CHead c1 k u3)) (\lambda (u3: T).\lambda (j: nat).subst0 j v u1 u3)) (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat (s k i0) (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C (CHead c2 k u2) (CHead c3 k u1)) (\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3)) (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat (s k i0) (s k j)) (\lambda (u3: T).\lambda (c3: C).\lambda (_: nat).eq C (CHead c2 k u2) (CHead c3 k u3)) (\lambda (u3: T).\lambda (_: C).\lambda (j: nat).subst0 j v u1 u3) (\lambda (_: T).\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3)) (ex4_3_intro T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat (s k i0) (s k j)) (\lambda (u3: T).\lambda (c3: C).\lambda (_: nat).eq C (CHead c2 k u2) (CHead c3 k u3)) (\lambda (u3: T).\lambda (_: C).\lambda (j: nat).subst0 j v u1 u3) (\lambda (_: T).\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3) u2 c2 i0 (refl_equal nat (s k i0)) (refl_equal C (CHead c2 k u2)) H14 H15)) x H13) u0 (sym_eq T u0 u1 H12)) k0 (sym_eq K k0 k H11)) c0 (sym_eq C c0 c1 H10)) H9) H8) v0 (sym_eq T v0 v H6)) i H2 H3 H4 H5 H0 H1)] in H0 (refl_equal nat i) (refl_equal T v) (refl_equal C (CHead c1 k u1)) (refl_equal C x).
+
+theorem csubst0_drop_gt: \forall (n: nat).\forall (i: nat).(lt i n) \to \forall (c1: C).\forall (c2: C).\forall (v: T).(csubst0 i v c1 c2) \to \forall (e: C).(drop n O c1 e) \to drop n O c2 e \def \lambda (n: nat).nat_ind (\lambda (n0: nat).\forall (i: nat).(lt i n0) \to \forall (c1: C).\forall (c2: C).\forall (v: T).(csubst0 i v c1 c2) \to \forall (e: C).(drop n0 O c1 e) \to drop n0 O c2 e) (\lambda (i: nat).\lambda (H: (lt i O)).\lambda (c1: C).\lambda (c2: C).\lambda (v: T).\lambda (_: (csubst0 i v c1 c2)).\lambda (e: C).\lambda (_: (drop O O c1 e)).let H2 \def match H return (\lambda (n: nat).(eq nat n O) \to drop O O c2 e) with [le_n \Rightarrow (\lambda (H2: (eq nat (S i) O)).let H3 \def eq_ind nat (S i) (\lambda (e0: nat).match e0 return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H2 in False_ind (drop O O c2 e) H3) | (le_S m H2) \Rightarrow (\lambda (H3: (eq nat (S m) O)).(let H4 \def eq_ind nat (S m) (\lambda (e0: nat).match e0 return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H3 in False_ind ((le (S i) m) \to drop O O c2 e) H4) H2)] in H2 (refl_equal nat O)) (\lambda (n0: nat).\lambda (H: ((\forall (i: nat).(lt i n0) \to \forall (c1: C).\forall (c2: C).\forall (v: T).(csubst0 i v c1 c2) \to \forall (e: C).(drop n0 O c1 e) \to drop n0 O c2 e))).\lambda (i: nat).\lambda (H0: (lt i (S n0))).\lambda (c1: C).C_ind (\lambda (c: C).\forall (c2: C).\forall (v: T).(csubst0 i v c c2) \to \forall (e: C).(drop (S n0) O c e) \to drop (S n0) O c2 e) (\lambda (n1: nat).\lambda (c2: C).\lambda (v: T).\lambda (_: (csubst0 i v (CSort n1) c2)).\lambda (e: C).\lambda (H2: (drop (S n0) O (CSort n1) e)).and3_ind (eq C e (CSort n1)) (eq nat (S n0) O) (eq nat O O) (drop (S n0) O c2 e) (\lambda (H3: (eq C e (CSort n1))).\lambda (H4: (eq nat (S n0) O)).\lambda (_: (eq nat O O)).eq_ind_r C (CSort n1) (\lambda (c: C).drop (S n0) O c2 c) (let H6 \def eq_ind nat (S n0) (\lambda (ee: nat).match ee return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H4 in False_ind (drop (S n0) O c2 (CSort n1)) H6) e H3) (drop_gen_sort n1 (S n0) O e H2)) (\lambda (c: C).\lambda (H1: ((\forall (c2: C).\forall (v: T).(csubst0 i v c c2) \to \forall (e: C).(drop (S n0) O c e) \to drop (S n0) O c2 e))).\lambda (k: K).\lambda (t: T).\lambda (c2: C).\lambda (v: T).\lambda (H2: (csubst0 i v (CHead c k t) c2)).\lambda (e: C).\lambda (H3: (drop (S n0) O (CHead c k t) e)).or3_ind (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat i (s k j)) (\lambda (u2: T).\lambda (_: nat).eq C c2 (CHead c k u2)) (\lambda (u2: T).\lambda (j: nat).subst0 j v t u2)) (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat i (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k t)) (\lambda (c3: C).\lambda (j: nat).csubst0 j v c c3)) (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat i (s k j)) (\lambda (u2: T).\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).\lambda (j: nat).subst0 j v t u2) (\lambda (_: T).\lambda (c3: C).\lambda (j: nat).csubst0 j v c c3)) (drop (S n0) O c2 e) (\lambda (H4: (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat i (s k j)) (\lambda (u2: T).\lambda (_: nat).eq C c2 (CHead c k u2)) (\lambda (u2: T).\lambda (j: nat).subst0 j v t u2))).ex3_2_ind T nat (\lambda (_: T).\lambda (j: nat).eq nat i (s k j)) (\lambda (u2: T).\lambda (_: nat).eq C c2 (CHead c k u2)) (\lambda (u2: T).\lambda (j: nat).subst0 j v t u2) (drop (S n0) O c2 e) (\lambda (x0: T).\lambda (x1: nat).\lambda (H5: (eq nat i (s k x1))).\lambda (H6: (eq C c2 (CHead c k x0))).\lambda (_: (subst0 x1 v t x0)).eq_ind_r C (CHead c k x0) (\lambda (c0: C).drop (S n0) O c0 e) (let H8 \def eq_ind nat i (\lambda (n: nat).\forall (c2: C).\forall (v: T).(csubst0 n v c c2) \to \forall (e: C).(drop (S n0) O c e) \to drop (S n0) O c2 e) H1 (s k x1) H5 in let H9 \def eq_ind nat i (\lambda (n: nat).lt n (S n0)) H0 (s k x1) H5 in (match k return (\lambda (k0: K).(drop (r k0 n0) O c e) \to ((\forall (c2: C).\forall (v: T).(csubst0 (s k0 x1) v c c2) \to \forall (e: C).(drop (S n0) O c e) \to drop (S n0) O c2 e)) \to (lt (s k0 x1) (S n0)) \to drop (S n0) O (CHead c k0 x0) e) with [(Bind b) \Rightarrow (\lambda (H10: (drop (r (Bind b) n0) O c e)).\lambda (_: ((\forall (c2: C).\forall (v: T).(csubst0 (s (Bind b) x1) v c c2) \to \forall (e: C).(drop (S n0) O c e) \to drop (S n0) O c2 e))).\lambda (_: (lt (s (Bind b) x1) (S n0))).drop_drop (Bind b) n0 c e H10 x0) | (Flat f) \Rightarrow (\lambda (H10: (drop (r (Flat f) n0) O c e)).\lambda (_: ((\forall (c2: C).\forall (v: T).(csubst0 (s (Flat f) x1) v c c2) \to \forall (e: C).(drop (S n0) O c e) \to drop (S n0) O c2 e))).\lambda (H12: (lt (s (Flat f) x1) (S n0))).or_ind (eq nat x1 O) (ex2 nat (\lambda (m: nat).eq nat x1 (S m)) (\lambda (m: nat).lt m n0)) (drop (S n0) O (CHead c (Flat f) x0) e) (\lambda (_: (eq nat x1 O)).drop_drop (Flat f) n0 c e H10 x0) (\lambda (H13: (ex2 nat (\lambda (m: nat).eq nat x1 (S m)) (\lambda (m: nat).lt m n0))).ex2_ind nat (\lambda (m: nat).eq nat x1 (S m)) (\lambda (m: nat).lt m n0) (drop (S n0) O (CHead c (Flat f) x0) e) (\lambda (x: nat).\lambda (_: (eq nat x1 (S x))).\lambda (_: (lt x n0)).drop_drop (Flat f) n0 c e H10 x0) H13) (lt_gen_xS x1 n0 H12))]) (drop_gen_drop k c e t n0 H3) H8 H9) c2 H6) H4) (\lambda (H4: (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat i (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k t)) (\lambda (c2: C).\lambda (j: nat).csubst0 j v c c2))).ex3_2_ind C nat (\lambda (_: C).\lambda (j: nat).eq nat i (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k t)) (\lambda (c3: C).\lambda (j: nat).csubst0 j v c c3) (drop (S n0) O c2 e) (\lambda (x0: C).\lambda (x1: nat).\lambda (H5: (eq nat i (s k x1))).\lambda (H6: (eq C c2 (CHead x0 k t))).\lambda (H7: (csubst0 x1 v c x0)).eq_ind_r C (CHead x0 k t) (\lambda (c0: C).drop (S n0) O c0 e) (let H8 \def eq_ind nat i (\lambda (n: nat).\forall (c2: C).\forall (v: T).(csubst0 n v c c2) \to \forall (e: C).(drop (S n0) O c e) \to drop (S n0) O c2 e) H1 (s k x1) H5 in let H9 \def eq_ind nat i (\lambda (n: nat).lt n (S n0)) H0 (s k x1) H5 in (match k return (\lambda (k0: K).(drop (r k0 n0) O c e) \to ((\forall (c2: C).\forall (v: T).(csubst0 (s k0 x1) v c c2) \to \forall (e: C).(drop (S n0) O c e) \to drop (S n0) O c2 e)) \to (lt (s k0 x1) (S n0)) \to drop (S n0) O (CHead x0 k0 t) e) with [(Bind b) \Rightarrow (\lambda (H10: (drop (r (Bind b) n0) O c e)).\lambda (_: ((\forall (c2: C).\forall (v: T).(csubst0 (s (Bind b) x1) v c c2) \to \forall (e: C).(drop (S n0) O c e) \to drop (S n0) O c2 e))).\lambda (H12: (lt (s (Bind b) x1) (S n0))).drop_drop (Bind b) n0 x0 e (H x1 (lt_S_n x1 n0 H12) c x0 v H7 e H10) t) | (Flat f) \Rightarrow (\lambda (H10: (drop (r (Flat f) n0) O c e)).\lambda (H11: ((\forall (c2: C).\forall (v: T).(csubst0 (s (Flat f) x1) v c c2) \to \forall (e: C).(drop (S n0) O c e) \to drop (S n0) O c2 e))).\lambda (H12: (lt (s (Flat f) x1) (S n0))).or_ind (eq nat x1 O) (ex2 nat (\lambda (m: nat).eq nat x1 (S m)) (\lambda (m: nat).lt m n0)) (drop (S n0) O (CHead x0 (Flat f) t) e) (\lambda (_: (eq nat x1 O)).drop_drop (Flat f) n0 x0 e (H11 x0 v H7 e H10) t) (\lambda (H13: (ex2 nat (\lambda (m: nat).eq nat x1 (S m)) (\lambda (m: nat).lt m n0))).ex2_ind nat (\lambda (m: nat).eq nat x1 (S m)) (\lambda (m: nat).lt m n0) (drop (S n0) O (CHead x0 (Flat f) t) e) (\lambda (x: nat).\lambda (_: (eq nat x1 (S x))).\lambda (_: (lt x n0)).drop_drop (Flat f) n0 x0 e (H11 x0 v H7 e H10) t) H13) (lt_gen_xS x1 n0 H12))]) (drop_gen_drop k c e t n0 H3) H8 H9) c2 H6) H4) (\lambda (H4: (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat i (s k j)) (\lambda (u2: T).\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).\lambda (j: nat).subst0 j v t u2) (\lambda (_: T).\lambda (c2: C).\lambda (j: nat).csubst0 j v c c2))).ex4_3_ind T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat i (s k j)) (\lambda (u2: T).\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).\lambda (j: nat).subst0 j v t u2) (\lambda (_: T).\lambda (c3: C).\lambda (j: nat).csubst0 j v c c3) (drop (S n0) O c2 e) (\lambda (x0: T).\lambda (x1: C).\lambda (x2: nat).\lambda (H5: (eq nat i (s k x2))).\lambda (H6: (eq C c2 (CHead x1 k x0))).\lambda (_: (subst0 x2 v t x0)).\lambda (H8: (csubst0 x2 v c x1)).eq_ind_r C (CHead x1 k x0) (\lambda (c0: C).drop (S n0) O c0 e) (let H9 \def eq_ind nat i (\lambda (n: nat).\forall (c2: C).\forall (v: T).(csubst0 n v c c2) \to \forall (e: C).(drop (S n0) O c e) \to drop (S n0) O c2 e) H1 (s k x2) H5 in let H10 \def eq_ind nat i (\lambda (n: nat).lt n (S n0)) H0 (s k x2) H5 in (match k return (\lambda (k0: K).(drop (r k0 n0) O c e) \to ((\forall (c2: C).\forall (v: T).(csubst0 (s k0 x2) v c c2) \to \forall (e: C).(drop (S n0) O c e) \to drop (S n0) O c2 e)) \to (lt (s k0 x2) (S n0)) \to drop (S n0) O (CHead x1 k0 x0) e) with [(Bind b) \Rightarrow (\lambda (H11: (drop (r (Bind b) n0) O c e)).\lambda (_: ((\forall (c2: C).\forall (v: T).(csubst0 (s (Bind b) x2) v c c2) \to \forall (e: C).(drop (S n0) O c e) \to drop (S n0) O c2 e))).\lambda (H13: (lt (s (Bind b) x2) (S n0))).drop_drop (Bind b) n0 x1 e (H x2 (lt_S_n x2 n0 H13) c x1 v H8 e H11) x0) | (Flat f) \Rightarrow (\lambda (H11: (drop (r (Flat f) n0) O c e)).\lambda (H12: ((\forall (c2: C).\forall (v: T).(csubst0 (s (Flat f) x2) v c c2) \to \forall (e: C).(drop (S n0) O c e) \to drop (S n0) O c2 e))).\lambda (H13: (lt (s (Flat f) x2) (S n0))).or_ind (eq nat x2 O) (ex2 nat (\lambda (m: nat).eq nat x2 (S m)) (\lambda (m: nat).lt m n0)) (drop (S n0) O (CHead x1 (Flat f) x0) e) (\lambda (_: (eq nat x2 O)).drop_drop (Flat f) n0 x1 e (H12 x1 v H8 e H11) x0) (\lambda (H14: (ex2 nat (\lambda (m: nat).eq nat x2 (S m)) (\lambda (m: nat).lt m n0))).ex2_ind nat (\lambda (m: nat).eq nat x2 (S m)) (\lambda (m: nat).lt m n0) (drop (S n0) O (CHead x1 (Flat f) x0) e) (\lambda (x: nat).\lambda (_: (eq nat x2 (S x))).\lambda (_: (lt x n0)).drop_drop (Flat f) n0 x1 e (H12 x1 v H8 e H11) x0) H14) (lt_gen_xS x2 n0 H13))]) (drop_gen_drop k c e t n0 H3) H9 H10) c2 H6) H4) (csubst0_gen_head k c c2 t v i H2)) c1) n.
+
+theorem csubst0_drop_gt_back: \forall (n: nat).\forall (i: nat).(lt i n) \to \forall (c1: C).\forall (c2: C).\forall (v: T).(csubst0 i v c1 c2) \to \forall (e: C).(drop n O c2 e) \to drop n O c1 e \def \lambda (n: nat).nat_ind (\lambda (n0: nat).\forall (i: nat).(lt i n0) \to \forall (c1: C).\forall (c2: C).\forall (v: T).(csubst0 i v c1 c2) \to \forall (e: C).(drop n0 O c2 e) \to drop n0 O c1 e) (\lambda (i: nat).\lambda (H: (lt i O)).\lambda (c1: C).\lambda (c2: C).\lambda (v: T).\lambda (_: (csubst0 i v c1 c2)).\lambda (e: C).\lambda (_: (drop O O c2 e)).let H2 \def match H return (\lambda (n: nat).(eq nat n O) \to drop O O c1 e) with [le_n \Rightarrow (\lambda (H2: (eq nat (S i) O)).let H3 \def eq_ind nat (S i) (\lambda (e0: nat).match e0 return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H2 in False_ind (drop O O c1 e) H3) | (le_S m H2) \Rightarrow (\lambda (H3: (eq nat (S m) O)).(let H4 \def eq_ind nat (S m) (\lambda (e0: nat).match e0 return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H3 in False_ind ((le (S i) m) \to drop O O c1 e) H4) H2)] in H2 (refl_equal nat O)) (\lambda (n0: nat).\lambda (H: ((\forall (i: nat).(lt i n0) \to \forall (c1: C).\forall (c2: C).\forall (v: T).(csubst0 i v c1 c2) \to \forall (e: C).(drop n0 O c2 e) \to drop n0 O c1 e))).\lambda (i: nat).\lambda (H0: (lt i (S n0))).\lambda (c1: C).C_ind (\lambda (c: C).\forall (c2: C).\forall (v: T).(csubst0 i v c c2) \to \forall (e: C).(drop (S n0) O c2 e) \to drop (S n0) O c e) (\lambda (n1: nat).\lambda (c2: C).\lambda (v: T).\lambda (H1: (csubst0 i v (CSort n1) c2)).\lambda (e: C).\lambda (_: (drop (S n0) O c2 e)).csubst0_gen_sort c2 v i n1 H1 (drop (S n0) O (CSort n1) e)) (\lambda (c: C).\lambda (H1: ((\forall (c2: C).\forall (v: T).(csubst0 i v c c2) \to \forall (e: C).(drop (S n0) O c2 e) \to drop (S n0) O c e))).\lambda (k: K).\lambda (t: T).\lambda (c2: C).\lambda (v: T).\lambda (H2: (csubst0 i v (CHead c k t) c2)).\lambda (e: C).\lambda (H3: (drop (S n0) O c2 e)).or3_ind (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat i (s k j)) (\lambda (u2: T).\lambda (_: nat).eq C c2 (CHead c k u2)) (\lambda (u2: T).\lambda (j: nat).subst0 j v t u2)) (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat i (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k t)) (\lambda (c3: C).\lambda (j: nat).csubst0 j v c c3)) (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat i (s k j)) (\lambda (u2: T).\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).\lambda (j: nat).subst0 j v t u2) (\lambda (_: T).\lambda (c3: C).\lambda (j: nat).csubst0 j v c c3)) (drop (S n0) O (CHead c k t) e) (\lambda (H4: (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat i (s k j)) (\lambda (u2: T).\lambda (_: nat).eq C c2 (CHead c k u2)) (\lambda (u2: T).\lambda (j: nat).subst0 j v t u2))).ex3_2_ind T nat (\lambda (_: T).\lambda (j: nat).eq nat i (s k j)) (\lambda (u2: T).\lambda (_: nat).eq C c2 (CHead c k u2)) (\lambda (u2: T).\lambda (j: nat).subst0 j v t u2) (drop (S n0) O (CHead c k t) e) (\lambda (x0: T).\lambda (x1: nat).\lambda (H5: (eq nat i (s k x1))).\lambda (H6: (eq C c2 (CHead c k x0))).\lambda (_: (subst0 x1 v t x0)).let H8 \def eq_ind C c2 (\lambda (c: C).drop (S n0) O c e) H3 (CHead c k x0) H6 in let H9 \def eq_ind nat i (\lambda (n: nat).\forall (c2: C).\forall (v: T).(csubst0 n v c c2) \to \forall (e: C).(drop (S n0) O c2 e) \to drop (S n0) O c e) H1 (s k x1) H5 in let H10 \def eq_ind nat i (\lambda (n: nat).lt n (S n0)) H0 (s k x1) H5 in (match k return (\lambda (k0: K).((\forall (c2: C).\forall (v: T).(csubst0 (s k0 x1) v c c2) \to \forall (e: C).(drop (S n0) O c2 e) \to drop (S n0) O c e)) \to (lt (s k0 x1) (S n0)) \to (drop (r k0 n0) O c e) \to drop (S n0) O (CHead c k0 t) e) with [(Bind b) \Rightarrow (\lambda (_: ((\forall (c2: C).\forall (v: T).(csubst0 (s (Bind b) x1) v c c2) \to \forall (e: C).(drop (S n0) O c2 e) \to drop (S n0) O c e))).\lambda (_: (lt (s (Bind b) x1) (S n0))).\lambda (H13: (drop (r (Bind b) n0) O c e)).drop_drop (Bind b) n0 c e H13 t) | (Flat f) \Rightarrow (\lambda (_: ((\forall (c2: C).\forall (v: T).(csubst0 (s (Flat f) x1) v c c2) \to \forall (e: C).(drop (S n0) O c2 e) \to drop (S n0) O c e))).\lambda (H12: (lt (s (Flat f) x1) (S n0))).\lambda (H13: (drop (r (Flat f) n0) O c e)).or_ind (eq nat x1 O) (ex2 nat (\lambda (m: nat).eq nat x1 (S m)) (\lambda (m: nat).lt m n0)) (drop (S n0) O (CHead c (Flat f) t) e) (\lambda (_: (eq nat x1 O)).drop_drop (Flat f) n0 c e H13 t) (\lambda (H14: (ex2 nat (\lambda (m: nat).eq nat x1 (S m)) (\lambda (m: nat).lt m n0))).ex2_ind nat (\lambda (m: nat).eq nat x1 (S m)) (\lambda (m: nat).lt m n0) (drop (S n0) O (CHead c (Flat f) t) e) (\lambda (x: nat).\lambda (_: (eq nat x1 (S x))).\lambda (_: (lt x n0)).drop_drop (Flat f) n0 c e H13 t) H14) (lt_gen_xS x1 n0 H12))]) H9 H10 (drop_gen_drop k c e x0 n0 H8)) H4) (\lambda (H4: (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat i (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k t)) (\lambda (c2: C).\lambda (j: nat).csubst0 j v c c2))).ex3_2_ind C nat (\lambda (_: C).\lambda (j: nat).eq nat i (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k t)) (\lambda (c3: C).\lambda (j: nat).csubst0 j v c c3) (drop (S n0) O (CHead c k t) e) (\lambda (x0: C).\lambda (x1: nat).\lambda (H5: (eq nat i (s k x1))).\lambda (H6: (eq C c2 (CHead x0 k t))).\lambda (H7: (csubst0 x1 v c x0)).let H8 \def eq_ind C c2 (\lambda (c: C).drop (S n0) O c e) H3 (CHead x0 k t) H6 in let H9 \def eq_ind nat i (\lambda (n: nat).\forall (c2: C).\forall (v: T).(csubst0 n v c c2) \to \forall (e: C).(drop (S n0) O c2 e) \to drop (S n0) O c e) H1 (s k x1) H5 in let H10 \def eq_ind nat i (\lambda (n: nat).lt n (S n0)) H0 (s k x1) H5 in (match k return (\lambda (k0: K).((\forall (c2: C).\forall (v: T).(csubst0 (s k0 x1) v c c2) \to \forall (e: C).(drop (S n0) O c2 e) \to drop (S n0) O c e)) \to (lt (s k0 x1) (S n0)) \to (drop (r k0 n0) O x0 e) \to drop (S n0) O (CHead c k0 t) e) with [(Bind b) \Rightarrow (\lambda (_: ((\forall (c2: C).\forall (v: T).(csubst0 (s (Bind b) x1) v c c2) \to \forall (e: C).(drop (S n0) O c2 e) \to drop (S n0) O c e))).\lambda (H12: (lt (s (Bind b) x1) (S n0))).\lambda (H13: (drop (r (Bind b) n0) O x0 e)).drop_drop (Bind b) n0 c e (H x1 (lt_S_n x1 n0 H12) c x0 v H7 e H13) t) | (Flat f) \Rightarrow (\lambda (H11: ((\forall (c2: C).\forall (v: T).(csubst0 (s (Flat f) x1) v c c2) \to \forall (e: C).(drop (S n0) O c2 e) \to drop (S n0) O c e))).\lambda (H12: (lt (s (Flat f) x1) (S n0))).\lambda (H13: (drop (r (Flat f) n0) O x0 e)).or_ind (eq nat x1 O) (ex2 nat (\lambda (m: nat).eq nat x1 (S m)) (\lambda (m: nat).lt m n0)) (drop (S n0) O (CHead c (Flat f) t) e) (\lambda (_: (eq nat x1 O)).drop_drop (Flat f) n0 c e (H11 x0 v H7 e H13) t) (\lambda (H14: (ex2 nat (\lambda (m: nat).eq nat x1 (S m)) (\lambda (m: nat).lt m n0))).ex2_ind nat (\lambda (m: nat).eq nat x1 (S m)) (\lambda (m: nat).lt m n0) (drop (S n0) O (CHead c (Flat f) t) e) (\lambda (x: nat).\lambda (_: (eq nat x1 (S x))).\lambda (_: (lt x n0)).drop_drop (Flat f) n0 c e (H11 x0 v H7 e H13) t) H14) (lt_gen_xS x1 n0 H12))]) H9 H10 (drop_gen_drop k x0 e t n0 H8)) H4) (\lambda (H4: (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat i (s k j)) (\lambda (u2: T).\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).\lambda (j: nat).subst0 j v t u2) (\lambda (_: T).\lambda (c2: C).\lambda (j: nat).csubst0 j v c c2))).ex4_3_ind T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat i (s k j)) (\lambda (u2: T).\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).\lambda (j: nat).subst0 j v t u2) (\lambda (_: T).\lambda (c3: C).\lambda (j: nat).csubst0 j v c c3) (drop (S n0) O (CHead c k t) e) (\lambda (x0: T).\lambda (x1: C).\lambda (x2: nat).\lambda (H5: (eq nat i (s k x2))).\lambda (H6: (eq C c2 (CHead x1 k x0))).\lambda (_: (subst0 x2 v t x0)).\lambda (H8: (csubst0 x2 v c x1)).let H9 \def eq_ind C c2 (\lambda (c: C).drop (S n0) O c e) H3 (CHead x1 k x0) H6 in let H10 \def eq_ind nat i (\lambda (n: nat).\forall (c2: C).\forall (v: T).(csubst0 n v c c2) \to \forall (e: C).(drop (S n0) O c2 e) \to drop (S n0) O c e) H1 (s k x2) H5 in let H11 \def eq_ind nat i (\lambda (n: nat).lt n (S n0)) H0 (s k x2) H5 in (match k return (\lambda (k0: K).((\forall (c2: C).\forall (v: T).(csubst0 (s k0 x2) v c c2) \to \forall (e: C).(drop (S n0) O c2 e) \to drop (S n0) O c e)) \to (lt (s k0 x2) (S n0)) \to (drop (r k0 n0) O x1 e) \to drop (S n0) O (CHead c k0 t) e) with [(Bind b) \Rightarrow (\lambda (_: ((\forall (c2: C).\forall (v: T).(csubst0 (s (Bind b) x2) v c c2) \to \forall (e: C).(drop (S n0) O c2 e) \to drop (S n0) O c e))).\lambda (H13: (lt (s (Bind b) x2) (S n0))).\lambda (H14: (drop (r (Bind b) n0) O x1 e)).drop_drop (Bind b) n0 c e (H x2 (lt_S_n x2 n0 H13) c x1 v H8 e H14) t) | (Flat f) \Rightarrow (\lambda (H12: ((\forall (c2: C).\forall (v: T).(csubst0 (s (Flat f) x2) v c c2) \to \forall (e: C).(drop (S n0) O c2 e) \to drop (S n0) O c e))).\lambda (H13: (lt (s (Flat f) x2) (S n0))).\lambda (H14: (drop (r (Flat f) n0) O x1 e)).or_ind (eq nat x2 O) (ex2 nat (\lambda (m: nat).eq nat x2 (S m)) (\lambda (m: nat).lt m n0)) (drop (S n0) O (CHead c (Flat f) t) e) (\lambda (_: (eq nat x2 O)).drop_drop (Flat f) n0 c e (H12 x1 v H8 e H14) t) (\lambda (H15: (ex2 nat (\lambda (m: nat).eq nat x2 (S m)) (\lambda (m: nat).lt m n0))).ex2_ind nat (\lambda (m: nat).eq nat x2 (S m)) (\lambda (m: nat).lt m n0) (drop (S n0) O (CHead c (Flat f) t) e) (\lambda (x: nat).\lambda (_: (eq nat x2 (S x))).\lambda (_: (lt x n0)).drop_drop (Flat f) n0 c e (H12 x1 v H8 e H14) t) H15) (lt_gen_xS x2 n0 H13))]) H10 H11 (drop_gen_drop k x1 e x0 n0 H9)) H4) (csubst0_gen_head k c c2 t v i H2)) c1) n.
+
+theorem csubst0_drop_lt: \forall (n: nat).\forall (i: nat).(lt n i) \to \forall (c1: C).\forall (c2: C).\forall (v: T).(csubst0 i v c1 c2) \to \forall (e: C).(drop n O c1 e) \to or4 (drop n O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop n O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (s k n)) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop n O c2 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (s k n)) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop n O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (s k n)) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (s k n)) v e1 e2)) \def \lambda (n: nat).nat_ind (\lambda (n0: nat).\forall (i: nat).(lt n0 i) \to \forall (c1: C).\forall (c2: C).\forall (v: T).(csubst0 i v c1 c2) \to \forall (e: C).(drop n0 O c1 e) \to or4 (drop n0 O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop n0 O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (s k n0)) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop n0 O c2 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (s k n0)) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop n0 O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (s k n0)) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (s k n0)) v e1 e2))) (\lambda (i: nat).\lambda (_: (lt O i)).\lambda (c1: C).\lambda (c2: C).\lambda (v: T).\lambda (H0: (csubst0 i v c1 c2)).\lambda (e: C).\lambda (H1: (drop O O c1 e)).eq_ind C c1 (\lambda (c: C).or4 (drop O O c2 c) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop O O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (s k O)) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop O O c2 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (s k O)) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop O O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (s k O)) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (s k O)) v e1 e2))) (csubst0_ind (\lambda (n0: nat).\lambda (t: T).\lambda (c: C).\lambda (c0: C).or4 (drop O O c0 c) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop O O c0 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus n0 (s k O)) t u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop O O c0 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus n0 (s k O)) t e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop O O c0 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus n0 (s k O)) t u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus n0 (s k O)) t e1 e2))) (\lambda (k: K).\lambda (i0: nat).\lambda (v0: T).\lambda (u1: T).\lambda (u2: T).\lambda (H2: (subst0 i0 v0 u1 u2)).\lambda (c: C).let H3 \def eq_ind_r nat i0 (\lambda (n: nat).subst0 n v0 u1 u2) H2 (minus (s k i0) (s k O)) (s_arith0 k i0) in or4_intro1 (drop O O (CHead c k u2) (CHead c k u1)) (ex3_4 K C T T (\lambda (k0: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead c k u1) (CHead e0 k0 u)) (\lambda (k0: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop O O (CHead c k u2) (CHead e0 k0 w)) (\lambda (k0: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k i0) (s k0 O)) v0 u w)) (ex3_4 K C C T (\lambda (k0: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead c k u1) (CHead e1 k0 u)) (\lambda (k0: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop O O (CHead c k u2) (CHead e2 k0 u)) (\lambda (k0: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s k i0) (s k0 O)) v0 e1 e2)) (ex4_5 K C C T T (\lambda (k0: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead c k u1) (CHead e1 k0 u)) (\lambda (k0: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop O O (CHead c k u2) (CHead e2 k0 w)) (\lambda (k0: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k i0) (s k0 O)) v0 u w) (\lambda (k0: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s k i0) (s k0 O)) v0 e1 e2)) (ex3_4_intro K C T T (\lambda (k0: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead c k u1) (CHead e0 k0 u)) (\lambda (k0: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop O O (CHead c k u2) (CHead e0 k0 w)) (\lambda (k0: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k i0) (s k0 O)) v0 u w) k c u1 u2 (refl_equal C (CHead c k u1)) (drop_refl (CHead c k u2)) H3)) (\lambda (k: K).\lambda (i0: nat).\lambda (c3: C).\lambda (c4: C).\lambda (v0: T).\lambda (H2: (csubst0 i0 v0 c3 c4)).\lambda (H3: (or4 (drop O O c4 c3) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c3 (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop O O c4 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (s k O)) v0 u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c3 (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop O O c4 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (s k O)) v0 e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c3 (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop O O c4 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (s k O)) v0 u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (s k O)) v0 e1 e2)))).\lambda (u: T).let H4 \def eq_ind_r nat i0 (\lambda (n: nat).csubst0 n v0 c3 c4) H2 (minus (s k i0) (s k O)) (s_arith0 k i0) in let H5 \def eq_ind_r nat i0 (\lambda (n: nat).or4 (drop O O c4 c3) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c3 (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop O O c4 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus n (s k O)) v0 u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c3 (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop O O c4 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus n (s k O)) v0 e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c3 (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop O O c4 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus n (s k O)) v0 u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus n (s k O)) v0 e1 e2))) H3 (minus (s k i0) (s k O)) (s_arith0 k i0) in or4_intro2 (drop O O (CHead c4 k u) (CHead c3 k u)) (ex3_4 K C T T (\lambda (k0: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C (CHead c3 k u) (CHead e0 k0 u0)) (\lambda (k0: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop O O (CHead c4 k u) (CHead e0 k0 w)) (\lambda (k0: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s k i0) (s k0 O)) v0 u0 w)) (ex3_4 K C C T (\lambda (k0: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C (CHead c3 k u) (CHead e1 k0 u0)) (\lambda (k0: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop O O (CHead c4 k u) (CHead e2 k0 u0)) (\lambda (k0: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s k i0) (s k0 O)) v0 e1 e2)) (ex4_5 K C C T T (\lambda (k0: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C (CHead c3 k u) (CHead e1 k0 u0)) (\lambda (k0: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop O O (CHead c4 k u) (CHead e2 k0 w)) (\lambda (k0: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s k i0) (s k0 O)) v0 u0 w) (\lambda (k0: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s k i0) (s k0 O)) v0 e1 e2)) (ex3_4_intro K C C T (\lambda (k0: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C (CHead c3 k u) (CHead e1 k0 u0)) (\lambda (k0: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop O O (CHead c4 k u) (CHead e2 k0 u0)) (\lambda (k0: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s k i0) (s k0 O)) v0 e1 e2) k c3 c4 u (refl_equal C (CHead c3 k u)) (drop_refl (CHead c4 k u)) H4)) (\lambda (k: K).\lambda (i0: nat).\lambda (v0: T).\lambda (u1: T).\lambda (u2: T).\lambda (H2: (subst0 i0 v0 u1 u2)).\lambda (c3: C).\lambda (c4: C).\lambda (H3: (csubst0 i0 v0 c3 c4)).\lambda (_: (or4 (drop O O c4 c3) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c3 (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop O O c4 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (s k O)) v0 u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c3 (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop O O c4 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (s k O)) v0 e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c3 (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop O O c4 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (s k O)) v0 u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (s k O)) v0 e1 e2)))).let H5 \def eq_ind_r nat i0 (\lambda (n: nat).subst0 n v0 u1 u2) H2 (minus (s k i0) (s k O)) (s_arith0 k i0) in let H6 \def eq_ind_r nat i0 (\lambda (n: nat).csubst0 n v0 c3 c4) H3 (minus (s k i0) (s k O)) (s_arith0 k i0) in or4_intro3 (drop O O (CHead c4 k u2) (CHead c3 k u1)) (ex3_4 K C T T (\lambda (k0: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead c3 k u1) (CHead e0 k0 u)) (\lambda (k0: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop O O (CHead c4 k u2) (CHead e0 k0 w)) (\lambda (k0: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k i0) (s k0 O)) v0 u w)) (ex3_4 K C C T (\lambda (k0: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead c3 k u1) (CHead e1 k0 u)) (\lambda (k0: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop O O (CHead c4 k u2) (CHead e2 k0 u)) (\lambda (k0: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s k i0) (s k0 O)) v0 e1 e2)) (ex4_5 K C C T T (\lambda (k0: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead c3 k u1) (CHead e1 k0 u)) (\lambda (k0: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop O O (CHead c4 k u2) (CHead e2 k0 w)) (\lambda (k0: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k i0) (s k0 O)) v0 u w) (\lambda (k0: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s k i0) (s k0 O)) v0 e1 e2)) (ex4_5_intro K C C T T (\lambda (k0: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead c3 k u1) (CHead e1 k0 u)) (\lambda (k0: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop O O (CHead c4 k u2) (CHead e2 k0 w)) (\lambda (k0: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k i0) (s k0 O)) v0 u w) (\lambda (k0: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s k i0) (s k0 O)) v0 e1 e2) k c3 c4 u1 u2 (refl_equal C (CHead c3 k u1)) (drop_refl (CHead c4 k u2)) H5 H6)) i v c1 c2 H0) e (drop_gen_refl c1 e H1)) (\lambda (n0: nat).\lambda (IHn: ((\forall (i: nat).(lt n0 i) \to \forall (c1: C).\forall (c2: C).\forall (v: T).(csubst0 i v c1 c2) \to \forall (e: C).(drop n0 O c1 e) \to or4 (drop n0 O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop n0 O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (s k n0)) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop n0 O c2 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (s k n0)) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop n0 O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (s k n0)) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (s k n0)) v e1 e2))))).\lambda (i: nat).\lambda (H: (lt (S n0) i)).\lambda (c1: C).C_ind (\lambda (c: C).\forall (c2: C).\forall (v: T).(csubst0 i v c c2) \to \forall (e: C).(drop (S n0) O c e) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (s k (S n0))) v e1 e2))) (\lambda (n1: nat).\lambda (c2: C).\lambda (v: T).\lambda (_: (csubst0 i v (CSort n1) c2)).\lambda (e: C).\lambda (H1: (drop (S n0) O (CSort n1) e)).and3_ind (eq C e (CSort n1)) (eq nat (S n0) O) (eq nat O O) (or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (s k (S n0))) v e1 e2))) (\lambda (H2: (eq C e (CSort n1))).\lambda (H3: (eq nat (S n0) O)).\lambda (_: (eq nat O O)).eq_ind_r C (CSort n1) (\lambda (c: C).or4 (drop (S n0) O c2 c) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (s k (S n0))) v e1 e2))) (let H5 \def eq_ind nat (S n0) (\lambda (ee: nat).match ee return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H3 in False_ind (or4 (drop (S n0) O c2 (CSort n1)) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CSort n1) (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CSort n1) (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CSort n1) (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (s k (S n0))) v e1 e2))) H5) e H2) (drop_gen_sort n1 (S n0) O e H1)) (\lambda (c: C).\lambda (H0: ((\forall (c2: C).\forall (v: T).(csubst0 i v c c2) \to \forall (e: C).(drop (S n0) O c e) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (s k (S n0))) v e1 e2))))).\lambda (k: K).\lambda (t: T).\lambda (c2: C).\lambda (v: T).\lambda (H1: (csubst0 i v (CHead c k t) c2)).\lambda (e: C).\lambda (H2: (drop (S n0) O (CHead c k t) e)).let H3 \def match H1 return (\lambda (n: nat).\lambda (t0: T).\lambda (c0: C).\lambda (c1: C).(eq nat n i) \to (eq T t0 v) \to (eq C c0 (CHead c k t)) \to (eq C c1 c2) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (s k (S n0))) v e1 e2))) with [(csubst0_snd k0 i0 v0 u1 u2 H3 c0) \Rightarrow (\lambda (H4: (eq nat (s k0 i0) i)).\lambda (H5: (eq T v0 v)).\lambda (H6: (eq C (CHead c0 k0 u1) (CHead c k t))).\lambda (H7: (eq C (CHead c0 k0 u2) c2)).eq_ind nat (s k0 i0) (\lambda (n: nat).(eq T v0 v) \to (eq C (CHead c0 k0 u1) (CHead c k t)) \to (eq C (CHead c0 k0 u2) c2) \to (subst0 i0 v0 u1 u2) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus n (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus n (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus n (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus n (s k (S n0))) v e1 e2))) (\lambda (H8: (eq T v0 v)).eq_ind T v (\lambda (t0: T).(eq C (CHead c0 k0 u1) (CHead c k t)) \to (eq C (CHead c0 k0 u2) c2) \to (subst0 i0 t0 u1 u2) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k0 i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s k0 i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k0 i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s k0 i0) (s k (S n0))) v e1 e2))) (\lambda (H9: (eq C (CHead c0 k0 u1) (CHead c k t))).let H10 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u1 | (CHead _ _ t) \Rightarrow t]) (CHead c0 k0 u1) (CHead c k t) H9 in (let H11 \def f_equal C K (\lambda (e0: C).match e0 return K with [(CSort _) \Rightarrow k0 | (CHead _ k _) \Rightarrow k]) (CHead c0 k0 u1) (CHead c k t) H9 in (let H12 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow c0 | (CHead c _ _) \Rightarrow c]) (CHead c0 k0 u1) (CHead c k t) H9 in eq_ind C c (\lambda (c: C).(eq K k0 k) \to (eq T u1 t) \to (eq C (CHead c k0 u2) c2) \to (subst0 i0 v u1 u2) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k0 i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s k0 i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k0 i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s k0 i0) (s k (S n0))) v e1 e2))) (\lambda (H13: (eq K k0 k)).eq_ind K k (\lambda (k: K).(eq T u1 t) \to (eq C (CHead c k u2) c2) \to (subst0 i0 v u1 u2) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k1: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k1 u)) (\lambda (k1: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k1 w)) (\lambda (k1: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k i0) (s k1 (S n0))) v u w)) (ex3_4 K C C T (\lambda (k1: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k1 u)) (\lambda (k1: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 k1 u)) (\lambda (k1: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s k i0) (s k1 (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k1: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k1 u)) (\lambda (k1: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k1 w)) (\lambda (k1: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k i0) (s k1 (S n0))) v u w) (\lambda (k1: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s k i0) (s k1 (S n0))) v e1 e2))) (\lambda (H14: (eq T u1 t)).eq_ind T t (\lambda (t: T).(eq C (CHead c k u2) c2) \to (subst0 i0 v t u2) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k1: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k i0) (s k1 (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 k u)) (\lambda (k1: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s k i0) (s k1 (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k1: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k i0) (s k1 (S n0))) v u w) (\lambda (k1: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s k i0) (s k1 (S n0))) v e1 e2))) (\lambda (H15: (eq C (CHead c k u2) c2)).eq_ind C (CHead c k u2) (\lambda (c: C).(subst0 i0 v t u2) \to or4 (drop (S n0) O c e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c (CHead e0 k w)) (\lambda (k1: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k i0) (s k1 (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c (CHead e2 k u)) (\lambda (k1: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s k i0) (s k1 (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c (CHead e2 k w)) (\lambda (k1: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k i0) (s k1 (S n0))) v u w) (\lambda (k1: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s k i0) (s k1 (S n0))) v e1 e2))) (\lambda (_: (subst0 i0 v t u2)).let H1 \def eq_ind K k0 (\lambda (k: K).eq nat (s k i0) i) H4 k H13 in let H17 \def eq_ind_r nat i (\lambda (n: nat).\forall (c2: C).\forall (v: T).(csubst0 n v c c2) \to \forall (e: C).(drop (S n0) O c e) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus n (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus n (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus n (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus n (s k (S n0))) v e1 e2))) H0 (s k i0) H1 in let H18 \def eq_ind_r nat i (\lambda (n: nat).lt (S n0) n) H (s k i0) H1 in K_ind (\lambda (k: K).(drop (r k n0) O c e) \to ((\forall (c2: C).\forall (v: T).(csubst0 (s k i0) v c c2) \to \forall (e: C).(drop (S n0) O c e) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k0: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k i0) (s k0 (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 k u)) (\lambda (k0: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s k i0) (s k0 (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k0: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k i0) (s k0 (S n0))) v u w) (\lambda (k0: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s k i0) (s k0 (S n0))) v e1 e2)))) \to (lt (S n0) (s k i0)) \to or4 (drop (S n0) O (CHead c k u2) e) (ex3_4 K C T T (\lambda (k1: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k1 u)) (\lambda (k1: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c k u2) (CHead e0 k1 w)) (\lambda (k1: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k i0) (s k1 (S n0))) v u w)) (ex3_4 K C C T (\lambda (k1: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k1 u)) (\lambda (k1: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O (CHead c k u2) (CHead e2 k1 u)) (\lambda (k1: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s k i0) (s k1 (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k1: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k1 u)) (\lambda (k1: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c k u2) (CHead e2 k1 w)) (\lambda (k1: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k i0) (s k1 (S n0))) v u w) (\lambda (k1: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s k i0) (s k1 (S n0))) v e1 e2))) (\lambda (b: B).\lambda (H2: (drop (r (Bind b) n0) O c e)).\lambda (_: ((\forall (c2: C).\forall (v: T).(csubst0 (s (Bind b) i0) v c c2) \to \forall (e: C).(drop (S n0) O c e) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2))))).\lambda (_: (lt (S n0) (s (Bind b) i0))).or4_intro0 (drop (S n0) O (CHead c (Bind b) u2) e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c (Bind b) u2) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O (CHead c (Bind b) u2) (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c (Bind b) u2) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (drop_drop (Bind b) n0 c e H2 u2)) (\lambda (f: F).\lambda (H2: (drop (r (Flat f) n0) O c e)).\lambda (_: ((\forall (c2: C).\forall (v: T).(csubst0 (s (Flat f) i0) v c c2) \to \forall (e: C).(drop (S n0) O c e) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2))))).\lambda (_: (lt (S n0) (s (Flat f) i0))).or4_intro0 (drop (S n0) O (CHead c (Flat f) u2) e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c (Flat f) u2) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O (CHead c (Flat f) u2) (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c (Flat f) u2) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (drop_drop (Flat f) n0 c e H2 u2)) k (drop_gen_drop k c e t n0 H2) H17 H18) c2 H15) u1 (sym_eq T u1 t H14)) k0 (sym_eq K k0 k H13)) c0 (sym_eq C c0 c H12)) H11) H10) v0 (sym_eq T v0 v H8)) i H4 H5 H6 H7 H3) | (csubst0_fst k0 i0 c1 c0 v0 H3 u) \Rightarrow (\lambda (H4: (eq nat (s k0 i0) i)).\lambda (H5: (eq T v0 v)).\lambda (H6: (eq C (CHead c1 k0 u) (CHead c k t))).\lambda (H7: (eq C (CHead c0 k0 u) c2)).eq_ind nat (s k0 i0) (\lambda (n: nat).(eq T v0 v) \to (eq C (CHead c1 k0 u) (CHead c k t)) \to (eq C (CHead c0 k0 u) c2) \to (csubst0 i0 v0 c1 c0) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus n (s k (S n0))) v u0 w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O c2 (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus n (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus n (s k (S n0))) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus n (s k (S n0))) v e1 e2))) (\lambda (H8: (eq T v0 v)).eq_ind T v (\lambda (t0: T).(eq C (CHead c1 k0 u) (CHead c k t)) \to (eq C (CHead c0 k0 u) c2) \to (csubst0 i0 t0 c1 c0) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s k0 i0) (s k (S n0))) v u0 w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O c2 (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s k0 i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s k0 i0) (s k (S n0))) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s k0 i0) (s k (S n0))) v e1 e2))) (\lambda (H9: (eq C (CHead c1 k0 u) (CHead c k t))).let H10 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead c1 k0 u) (CHead c k t) H9 in (let H11 \def f_equal C K (\lambda (e0: C).match e0 return K with [(CSort _) \Rightarrow k0 | (CHead _ k _) \Rightarrow k]) (CHead c1 k0 u) (CHead c k t) H9 in (let H12 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow c1 | (CHead c _ _) \Rightarrow c]) (CHead c1 k0 u) (CHead c k t) H9 in eq_ind C c (\lambda (c: C).(eq K k0 k) \to (eq T u t) \to (eq C (CHead c0 k0 u) c2) \to (csubst0 i0 v c c0) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s k0 i0) (s k (S n0))) v u0 w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O c2 (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s k0 i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s k0 i0) (s k (S n0))) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s k0 i0) (s k (S n0))) v e1 e2))) (\lambda (H13: (eq K k0 k)).eq_ind K k (\lambda (k: K).(eq T u t) \to (eq C (CHead c0 k u) c2) \to (csubst0 i0 v c c0) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k1: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 k1 u0)) (\lambda (k1: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k1 w)) (\lambda (k1: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s k i0) (s k1 (S n0))) v u0 w)) (ex3_4 K C C T (\lambda (k1: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 k1 u0)) (\lambda (k1: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O c2 (CHead e2 k1 u0)) (\lambda (k1: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s k i0) (s k1 (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k1: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 k1 u0)) (\lambda (k1: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k1 w)) (\lambda (k1: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s k i0) (s k1 (S n0))) v u0 w) (\lambda (k1: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s k i0) (s k1 (S n0))) v e1 e2))) (\lambda (H14: (eq T u t)).eq_ind T t (\lambda (t: T).(eq C (CHead c0 k t) c2) \to (csubst0 i0 v c c0) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k1: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s k i0) (s k1 (S n0))) v u0 w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O c2 (CHead e2 k u0)) (\lambda (k1: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s k i0) (s k1 (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k1: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s k i0) (s k1 (S n0))) v u0 w) (\lambda (k1: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s k i0) (s k1 (S n0))) v e1 e2))) (\lambda (H15: (eq C (CHead c0 k t) c2)).eq_ind C (CHead c0 k t) (\lambda (c2: C).(csubst0 i0 v c c0) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k1: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s k i0) (s k1 (S n0))) v u0 w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O c2 (CHead e2 k u0)) (\lambda (k1: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s k i0) (s k1 (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k1: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s k i0) (s k1 (S n0))) v u0 w) (\lambda (k1: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s k i0) (s k1 (S n0))) v e1 e2))) (\lambda (H16: (csubst0 i0 v c c0)).let H1 \def eq_ind K k0 (\lambda (k: K).eq nat (s k i0) i) H4 k H13 in let H17 \def eq_ind_r nat i (\lambda (n: nat).\forall (c2: C).\forall (v: T).(csubst0 n v c c2) \to \forall (e: C).(drop (S n0) O c e) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus n (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus n (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus n (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus n (s k (S n0))) v e1 e2))) H0 (s k i0) H1 in let H18 \def eq_ind_r nat i (\lambda (n: nat).lt (S n0) n) H (s k i0) H1 in K_ind (\lambda (k: K).(drop (r k n0) O c e) \to ((\forall (c2: C).\forall (v: T).(csubst0 (s k i0) v c c2) \to \forall (e: C).(drop (S n0) O c e) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k0: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k i0) (s k0 (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 k u)) (\lambda (k0: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s k i0) (s k0 (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k0: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k i0) (s k0 (S n0))) v u w) (\lambda (k0: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s k i0) (s k0 (S n0))) v e1 e2)))) \to (lt (S n0) (s k i0)) \to or4 (drop (S n0) O (CHead c0 k t) e) (ex3_4 K C T T (\lambda (k1: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 k1 u0)) (\lambda (k1: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 k t) (CHead e0 k1 w)) (\lambda (k1: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s k i0) (s k1 (S n0))) v u0 w)) (ex3_4 K C C T (\lambda (k1: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 k1 u0)) (\lambda (k1: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O (CHead c0 k t) (CHead e2 k1 u0)) (\lambda (k1: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s k i0) (s k1 (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k1: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 k1 u0)) (\lambda (k1: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 k t) (CHead e2 k1 w)) (\lambda (k1: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s k i0) (s k1 (S n0))) v u0 w) (\lambda (k1: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s k i0) (s k1 (S n0))) v e1 e2))) (\lambda (b: B).\lambda (H2: (drop (r (Bind b) n0) O c e)).\lambda (_: ((\forall (c2: C).\forall (v: T).(csubst0 (s (Bind b) i0) v c c2) \to \forall (e: C).(drop (S n0) O c e) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2))))).\lambda (H: (lt (S n0) (s (Bind b) i0))).let H19 \def IHn i0 (le_S_n (S n0) i0 H) c c0 v H16 e H2 in or4_ind (drop n0 O c0 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop n0 O c0 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus i0 (s k n0)) v u0 w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop n0 O c0 (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (s k n0)) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop n0 O c0 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus i0 (s k n0)) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (s k n0)) v e1 e2)) (or4 (drop (S n0) O (CHead c0 (Bind b) t) e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u0 w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2))) (\lambda (H20: (drop n0 O c0 e)).or4_intro0 (drop (S n0) O (CHead c0 (Bind b) t) e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u0 w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (drop_drop (Bind b) n0 c0 e H20 t)) (\lambda (H20: (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop n0 O c0 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (s k n0)) v u w))).ex3_4_ind K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop n0 O c0 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus i0 (s k n0)) v u0 w) (or4 (drop (S n0) O (CHead c0 (Bind b) t) e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u0 w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2))) (\lambda (x0: K).\lambda (x1: C).\lambda (x2: T).\lambda (x3: T).\lambda (H21: (eq C e (CHead x1 x0 x2))).\lambda (H22: (drop n0 O c0 (CHead x1 x0 x3))).\lambda (H23: (subst0 (minus i0 (s x0 n0)) v x2 x3)).eq_ind_r C (CHead x1 x0 x2) (\lambda (c: C).or4 (drop (S n0) O (CHead c0 (Bind b) t) c) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C c (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u0 w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C c (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C c (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2))) (or4_intro1 (drop (S n0) O (CHead c0 (Bind b) t) (CHead x1 x0 x2)) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 x0 x2) (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u0 w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C (CHead x1 x0 x2) (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 x0 x2) (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex3_4_intro K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 x0 x2) (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u0 w) x0 x1 x2 x3 (refl_equal C (CHead x1 x0 x2)) (drop_drop (Bind b) n0 c0 (CHead x1 x0 x3) H22 t) (eq_ind_r nat (S (s x0 n0)) (\lambda (n: nat).subst0 (minus (s (Bind b) i0) n) v x2 x3) H23 (s x0 (S n0)) (s_S x0 n0)))) e H21) H20) (\lambda (H20: (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop n0 O c0 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (s k n0)) v e1 e2))).ex3_4_ind K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop n0 O c0 (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (s k n0)) v e1 e2) (or4 (drop (S n0) O (CHead c0 (Bind b) t) e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u0 w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2))) (\lambda (x0: K).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (H21: (eq C e (CHead x1 x0 x3))).\lambda (H22: (drop n0 O c0 (CHead x2 x0 x3))).\lambda (H23: (csubst0 (minus i0 (s x0 n0)) v x1 x2)).eq_ind_r C (CHead x1 x0 x3) (\lambda (c: C).or4 (drop (S n0) O (CHead c0 (Bind b) t) c) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C c (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u0 w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C c (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C c (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2))) (or4_intro2 (drop (S n0) O (CHead c0 (Bind b) t) (CHead x1 x0 x3)) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 x0 x3) (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u0 w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C (CHead x1 x0 x3) (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 x0 x3) (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex3_4_intro K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C (CHead x1 x0 x3) (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2) x0 x1 x2 x3 (refl_equal C (CHead x1 x0 x3)) (drop_drop (Bind b) n0 c0 (CHead x2 x0 x3) H22 t) (eq_ind_r nat (S (s x0 n0)) (\lambda (n: nat).csubst0 (minus (s (Bind b) i0) n) v x1 x2) H23 (s x0 (S n0)) (s_S x0 n0)))) e H21) H20) (\lambda (H20: (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop n0 O c0 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (s k n0)) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (s k n0)) v e1 e2))).ex4_5_ind K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop n0 O c0 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus i0 (s k n0)) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (s k n0)) v e1 e2) (or4 (drop (S n0) O (CHead c0 (Bind b) t) e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u0 w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2))) (\lambda (x0: K).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (x4: T).\lambda (H21: (eq C e (CHead x1 x0 x3))).\lambda (H22: (drop n0 O c0 (CHead x2 x0 x4))).\lambda (H23: (subst0 (minus i0 (s x0 n0)) v x3 x4)).\lambda (H24: (csubst0 (minus i0 (s x0 n0)) v x1 x2)).eq_ind_r C (CHead x1 x0 x3) (\lambda (c: C).or4 (drop (S n0) O (CHead c0 (Bind b) t) c) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C c (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u0 w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C c (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C c (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2))) (or4_intro3 (drop (S n0) O (CHead c0 (Bind b) t) (CHead x1 x0 x3)) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 x0 x3) (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u0 w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C (CHead x1 x0 x3) (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 x0 x3) (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex4_5_intro K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 x0 x3) (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) t) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2) x0 x1 x2 x3 x4 (refl_equal C (CHead x1 x0 x3)) (drop_drop (Bind b) n0 c0 (CHead x2 x0 x4) H22 t) (eq_ind_r nat (S (s x0 n0)) (\lambda (n: nat).subst0 (minus (s (Bind b) i0) n) v x3 x4) H23 (s x0 (S n0)) (s_S x0 n0)) (eq_ind_r nat (S (s x0 n0)) (\lambda (n: nat).csubst0 (minus (s (Bind b) i0) n) v x1 x2) H24 (s x0 (S n0)) (s_S x0 n0)))) e H21) H20) H19) (\lambda (f: F).\lambda (H2: (drop (r (Flat f) n0) O c e)).\lambda (H0: ((\forall (c2: C).\forall (v: T).(csubst0 (s (Flat f) i0) v c c2) \to \forall (e: C).(drop (S n0) O c e) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2))))).\lambda (_: (lt (S n0) (s (Flat f) i0))).let H19 \def H0 c0 v H16 e H2 in or4_ind (drop (S n0) O c0 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c0 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus i0 (s k (S n0))) v u0 w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O c0 (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c0 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus i0 (s k (S n0))) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (s k (S n0))) v e1 e2)) (or4 (drop (S n0) O (CHead c0 (Flat f) t) e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u0 w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2))) (\lambda (H20: (drop (S n0) O c0 e)).or4_intro0 (drop (S n0) O (CHead c0 (Flat f) t) e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u0 w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (drop_drop (Flat f) n0 c0 e H20 t)) (\lambda (H20: (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c0 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (s k (S n0))) v u w))).ex3_4_ind K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c0 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus i0 (s k (S n0))) v u0 w) (or4 (drop (S n0) O (CHead c0 (Flat f) t) e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u0 w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2))) (\lambda (x0: K).\lambda (x1: C).\lambda (x2: T).\lambda (x3: T).\lambda (H21: (eq C e (CHead x1 x0 x2))).\lambda (H22: (drop (S n0) O c0 (CHead x1 x0 x3))).\lambda (H23: (subst0 (minus i0 (s x0 (S n0))) v x2 x3)).eq_ind_r C (CHead x1 x0 x2) (\lambda (c: C).or4 (drop (S n0) O (CHead c0 (Flat f) t) c) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C c (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u0 w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C c (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C c (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2))) (or4_intro1 (drop (S n0) O (CHead c0 (Flat f) t) (CHead x1 x0 x2)) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 x0 x2) (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u0 w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C (CHead x1 x0 x2) (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 x0 x2) (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex3_4_intro K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 x0 x2) (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u0 w) x0 x1 x2 x3 (refl_equal C (CHead x1 x0 x2)) (drop_drop (Flat f) n0 c0 (CHead x1 x0 x3) H22 t) H23)) e H21) H20) (\lambda (H20: (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c0 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (s k (S n0))) v e1 e2))).ex3_4_ind K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O c0 (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (s k (S n0))) v e1 e2) (or4 (drop (S n0) O (CHead c0 (Flat f) t) e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u0 w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2))) (\lambda (x0: K).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (H21: (eq C e (CHead x1 x0 x3))).\lambda (H22: (drop (S n0) O c0 (CHead x2 x0 x3))).\lambda (H23: (csubst0 (minus i0 (s x0 (S n0))) v x1 x2)).eq_ind_r C (CHead x1 x0 x3) (\lambda (c: C).or4 (drop (S n0) O (CHead c0 (Flat f) t) c) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C c (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u0 w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C c (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C c (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2))) (or4_intro2 (drop (S n0) O (CHead c0 (Flat f) t) (CHead x1 x0 x3)) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 x0 x3) (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u0 w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C (CHead x1 x0 x3) (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 x0 x3) (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex3_4_intro K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C (CHead x1 x0 x3) (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2) x0 x1 x2 x3 (refl_equal C (CHead x1 x0 x3)) (drop_drop (Flat f) n0 c0 (CHead x2 x0 x3) H22 t) H23)) e H21) H20) (\lambda (H20: (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c0 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (s k (S n0))) v e1 e2))).ex4_5_ind K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c0 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus i0 (s k (S n0))) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (s k (S n0))) v e1 e2) (or4 (drop (S n0) O (CHead c0 (Flat f) t) e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u0 w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2))) (\lambda (x0: K).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (x4: T).\lambda (H21: (eq C e (CHead x1 x0 x3))).\lambda (H22: (drop (S n0) O c0 (CHead x2 x0 x4))).\lambda (H23: (subst0 (minus i0 (s x0 (S n0))) v x3 x4)).\lambda (H24: (csubst0 (minus i0 (s x0 (S n0))) v x1 x2)).eq_ind_r C (CHead x1 x0 x3) (\lambda (c: C).or4 (drop (S n0) O (CHead c0 (Flat f) t) c) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C c (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u0 w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C c (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C c (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2))) (or4_intro3 (drop (S n0) O (CHead c0 (Flat f) t) (CHead x1 x0 x3)) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 x0 x3) (CHead e0 k u0)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u0 w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C (CHead x1 x0 x3) (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e2 k u0)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 x0 x3) (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex4_5_intro K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 x0 x3) (CHead e1 k u0)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) t) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u0 w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2) x0 x1 x2 x3 x4 (refl_equal C (CHead x1 x0 x3)) (drop_drop (Flat f) n0 c0 (CHead x2 x0 x4) H22 t) H23 H24)) e H21) H20) H19) k (drop_gen_drop k c e t n0 H2) H17 H18) c2 H15) u (sym_eq T u t H14)) k0 (sym_eq K k0 k H13)) c1 (sym_eq C c1 c H12)) H11) H10) v0 (sym_eq T v0 v H8)) i H4 H5 H6 H7 H3) | (csubst0_both k0 i0 v0 u1 u2 H3 c1 c0 H4) \Rightarrow (\lambda (H5: (eq nat (s k0 i0) i)).\lambda (H6: (eq T v0 v)).\lambda (H7: (eq C (CHead c1 k0 u1) (CHead c k t))).\lambda (H8: (eq C (CHead c0 k0 u2) c2)).eq_ind nat (s k0 i0) (\lambda (n: nat).(eq T v0 v) \to (eq C (CHead c1 k0 u1) (CHead c k t)) \to (eq C (CHead c0 k0 u2) c2) \to (subst0 i0 v0 u1 u2) \to (csubst0 i0 v0 c1 c0) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus n (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus n (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus n (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus n (s k (S n0))) v e1 e2))) (\lambda (H9: (eq T v0 v)).eq_ind T v (\lambda (t0: T).(eq C (CHead c1 k0 u1) (CHead c k t)) \to (eq C (CHead c0 k0 u2) c2) \to (subst0 i0 t0 u1 u2) \to (csubst0 i0 t0 c1 c0) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k0 i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s k0 i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k0 i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s k0 i0) (s k (S n0))) v e1 e2))) (\lambda (H10: (eq C (CHead c1 k0 u1) (CHead c k t))).let H11 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u1 | (CHead _ _ t) \Rightarrow t]) (CHead c1 k0 u1) (CHead c k t) H10 in (let H12 \def f_equal C K (\lambda (e0: C).match e0 return K with [(CSort _) \Rightarrow k0 | (CHead _ k _) \Rightarrow k]) (CHead c1 k0 u1) (CHead c k t) H10 in (let H13 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow c1 | (CHead c _ _) \Rightarrow c]) (CHead c1 k0 u1) (CHead c k t) H10 in eq_ind C c (\lambda (c: C).(eq K k0 k) \to (eq T u1 t) \to (eq C (CHead c0 k0 u2) c2) \to (subst0 i0 v u1 u2) \to (csubst0 i0 v c c0) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k0 i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s k0 i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k0 i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s k0 i0) (s k (S n0))) v e1 e2))) (\lambda (H14: (eq K k0 k)).eq_ind K k (\lambda (k: K).(eq T u1 t) \to (eq C (CHead c0 k u2) c2) \to (subst0 i0 v u1 u2) \to (csubst0 i0 v c c0) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k1: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k1 u)) (\lambda (k1: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k1 w)) (\lambda (k1: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k i0) (s k1 (S n0))) v u w)) (ex3_4 K C C T (\lambda (k1: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k1 u)) (\lambda (k1: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 k1 u)) (\lambda (k1: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s k i0) (s k1 (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k1: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k1 u)) (\lambda (k1: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k1 w)) (\lambda (k1: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k i0) (s k1 (S n0))) v u w) (\lambda (k1: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s k i0) (s k1 (S n0))) v e1 e2))) (\lambda (H15: (eq T u1 t)).eq_ind T t (\lambda (t: T).(eq C (CHead c0 k u2) c2) \to (subst0 i0 v t u2) \to (csubst0 i0 v c c0) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k1: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k i0) (s k1 (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 k u)) (\lambda (k1: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s k i0) (s k1 (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k1: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k i0) (s k1 (S n0))) v u w) (\lambda (k1: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s k i0) (s k1 (S n0))) v e1 e2))) (\lambda (H16: (eq C (CHead c0 k u2) c2)).eq_ind C (CHead c0 k u2) (\lambda (c2: C).(subst0 i0 v t u2) \to (csubst0 i0 v c c0) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k1: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k i0) (s k1 (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 k u)) (\lambda (k1: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s k i0) (s k1 (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k1: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k i0) (s k1 (S n0))) v u w) (\lambda (k1: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s k i0) (s k1 (S n0))) v e1 e2))) (\lambda (_: (subst0 i0 v t u2)).\lambda (H18: (csubst0 i0 v c c0)).let H1 \def eq_ind K k0 (\lambda (k: K).eq nat (s k i0) i) H5 k H14 in let H19 \def eq_ind_r nat i (\lambda (n: nat).\forall (c2: C).\forall (v: T).(csubst0 n v c c2) \to \forall (e: C).(drop (S n0) O c e) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus n (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus n (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus n (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus n (s k (S n0))) v e1 e2))) H0 (s k i0) H1 in let H20 \def eq_ind_r nat i (\lambda (n: nat).lt (S n0) n) H (s k i0) H1 in K_ind (\lambda (k: K).(drop (r k n0) O c e) \to ((\forall (c2: C).\forall (v: T).(csubst0 (s k i0) v c c2) \to \forall (e: C).(drop (S n0) O c e) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k0: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k i0) (s k0 (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 k u)) (\lambda (k0: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s k i0) (s k0 (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k0: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k i0) (s k0 (S n0))) v u w) (\lambda (k0: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s k i0) (s k0 (S n0))) v e1 e2)))) \to (lt (S n0) (s k i0)) \to or4 (drop (S n0) O (CHead c0 k u2) e) (ex3_4 K C T T (\lambda (k1: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k1 u)) (\lambda (k1: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 k u2) (CHead e0 k1 w)) (\lambda (k1: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k i0) (s k1 (S n0))) v u w)) (ex3_4 K C C T (\lambda (k1: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k1 u)) (\lambda (k1: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O (CHead c0 k u2) (CHead e2 k1 u)) (\lambda (k1: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s k i0) (s k1 (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k1: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k1 u)) (\lambda (k1: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 k u2) (CHead e2 k1 w)) (\lambda (k1: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s k i0) (s k1 (S n0))) v u w) (\lambda (k1: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s k i0) (s k1 (S n0))) v e1 e2))) (\lambda (b: B).\lambda (H2: (drop (r (Bind b) n0) O c e)).\lambda (_: ((\forall (c2: C).\forall (v: T).(csubst0 (s (Bind b) i0) v c c2) \to \forall (e: C).(drop (S n0) O c e) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2))))).\lambda (H: (lt (S n0) (s (Bind b) i0))).let H21 \def IHn i0 (le_S_n (S n0) i0 H) c c0 v H18 e H2 in or4_ind (drop n0 O c0 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop n0 O c0 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (s k n0)) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop n0 O c0 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (s k n0)) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop n0 O c0 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (s k n0)) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (s k n0)) v e1 e2)) (or4 (drop (S n0) O (CHead c0 (Bind b) u2) e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2))) (\lambda (H22: (drop n0 O c0 e)).or4_intro0 (drop (S n0) O (CHead c0 (Bind b) u2) e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (drop_drop (Bind b) n0 c0 e H22 u2)) (\lambda (H22: (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop n0 O c0 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (s k n0)) v u w))).ex3_4_ind K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop n0 O c0 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (s k n0)) v u w) (or4 (drop (S n0) O (CHead c0 (Bind b) u2) e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2))) (\lambda (x0: K).\lambda (x1: C).\lambda (x2: T).\lambda (x3: T).\lambda (H23: (eq C e (CHead x1 x0 x2))).\lambda (H24: (drop n0 O c0 (CHead x1 x0 x3))).\lambda (H25: (subst0 (minus i0 (s x0 n0)) v x2 x3)).eq_ind_r C (CHead x1 x0 x2) (\lambda (c: C).or4 (drop (S n0) O (CHead c0 (Bind b) u2) c) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2))) (or4_intro1 (drop (S n0) O (CHead c0 (Bind b) u2) (CHead x1 x0 x2)) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 x0 x2) (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead x1 x0 x2) (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 x0 x2) (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex3_4_intro K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 x0 x2) (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w) x0 x1 x2 x3 (refl_equal C (CHead x1 x0 x2)) (drop_drop (Bind b) n0 c0 (CHead x1 x0 x3) H24 u2) (eq_ind_r nat (S (s x0 n0)) (\lambda (n: nat).subst0 (minus (s (Bind b) i0) n) v x2 x3) H25 (s x0 (S n0)) (s_S x0 n0)))) e H23) H22) (\lambda (H22: (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop n0 O c0 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (s k n0)) v e1 e2))).ex3_4_ind K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop n0 O c0 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (s k n0)) v e1 e2) (or4 (drop (S n0) O (CHead c0 (Bind b) u2) e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2))) (\lambda (x0: K).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (H23: (eq C e (CHead x1 x0 x3))).\lambda (H24: (drop n0 O c0 (CHead x2 x0 x3))).\lambda (H25: (csubst0 (minus i0 (s x0 n0)) v x1 x2)).eq_ind_r C (CHead x1 x0 x3) (\lambda (c: C).or4 (drop (S n0) O (CHead c0 (Bind b) u2) c) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2))) (or4_intro2 (drop (S n0) O (CHead c0 (Bind b) u2) (CHead x1 x0 x3)) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 x0 x3) (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead x1 x0 x3) (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 x0 x3) (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex3_4_intro K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead x1 x0 x3) (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2) x0 x1 x2 x3 (refl_equal C (CHead x1 x0 x3)) (drop_drop (Bind b) n0 c0 (CHead x2 x0 x3) H24 u2) (eq_ind_r nat (S (s x0 n0)) (\lambda (n: nat).csubst0 (minus (s (Bind b) i0) n) v x1 x2) H25 (s x0 (S n0)) (s_S x0 n0)))) e H23) H22) (\lambda (H22: (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop n0 O c0 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (s k n0)) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (s k n0)) v e1 e2))).ex4_5_ind K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop n0 O c0 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (s k n0)) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (s k n0)) v e1 e2) (or4 (drop (S n0) O (CHead c0 (Bind b) u2) e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2))) (\lambda (x0: K).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (x4: T).\lambda (H23: (eq C e (CHead x1 x0 x3))).\lambda (H24: (drop n0 O c0 (CHead x2 x0 x4))).\lambda (H25: (subst0 (minus i0 (s x0 n0)) v x3 x4)).\lambda (H26: (csubst0 (minus i0 (s x0 n0)) v x1 x2)).eq_ind_r C (CHead x1 x0 x3) (\lambda (c: C).or4 (drop (S n0) O (CHead c0 (Bind b) u2) c) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2))) (or4_intro3 (drop (S n0) O (CHead c0 (Bind b) u2) (CHead x1 x0 x3)) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 x0 x3) (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead x1 x0 x3) (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 x0 x3) (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2)) (ex4_5_intro K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 x0 x3) (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Bind b) u2) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Bind b) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Bind b) i0) (s k (S n0))) v e1 e2) x0 x1 x2 x3 x4 (refl_equal C (CHead x1 x0 x3)) (drop_drop (Bind b) n0 c0 (CHead x2 x0 x4) H24 u2) (eq_ind_r nat (S (s x0 n0)) (\lambda (n: nat).subst0 (minus (s (Bind b) i0) n) v x3 x4) H25 (s x0 (S n0)) (s_S x0 n0)) (eq_ind_r nat (S (s x0 n0)) (\lambda (n: nat).csubst0 (minus (s (Bind b) i0) n) v x1 x2) H26 (s x0 (S n0)) (s_S x0 n0)))) e H23) H22) H21) (\lambda (f: F).\lambda (H2: (drop (r (Flat f) n0) O c e)).\lambda (H0: ((\forall (c2: C).\forall (v: T).(csubst0 (s (Flat f) i0) v c c2) \to \forall (e: C).(drop (S n0) O c e) \to or4 (drop (S n0) O c2 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2))))).\lambda (_: (lt (S n0) (s (Flat f) i0))).let H21 \def H0 c0 v H18 e H2 in or4_ind (drop (S n0) O c0 e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c0 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c0 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c0 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (s k (S n0))) v e1 e2)) (or4 (drop (S n0) O (CHead c0 (Flat f) u2) e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2))) (\lambda (H22: (drop (S n0) O c0 e)).or4_intro0 (drop (S n0) O (CHead c0 (Flat f) u2) e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (drop_drop (Flat f) n0 c0 e H22 u2)) (\lambda (H22: (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c0 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (s k (S n0))) v u w))).ex3_4_ind K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c0 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (s k (S n0))) v u w) (or4 (drop (S n0) O (CHead c0 (Flat f) u2) e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2))) (\lambda (x0: K).\lambda (x1: C).\lambda (x2: T).\lambda (x3: T).\lambda (H23: (eq C e (CHead x1 x0 x2))).\lambda (H24: (drop (S n0) O c0 (CHead x1 x0 x3))).\lambda (H25: (subst0 (minus i0 (s x0 (S n0))) v x2 x3)).eq_ind_r C (CHead x1 x0 x2) (\lambda (c: C).or4 (drop (S n0) O (CHead c0 (Flat f) u2) c) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2))) (or4_intro1 (drop (S n0) O (CHead c0 (Flat f) u2) (CHead x1 x0 x2)) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 x0 x2) (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead x1 x0 x2) (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 x0 x2) (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex3_4_intro K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 x0 x2) (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w) x0 x1 x2 x3 (refl_equal C (CHead x1 x0 x2)) (drop_drop (Flat f) n0 c0 (CHead x1 x0 x3) H24 u2) H25)) e H23) H22) (\lambda (H22: (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c0 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (s k (S n0))) v e1 e2))).ex3_4_ind K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c0 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (s k (S n0))) v e1 e2) (or4 (drop (S n0) O (CHead c0 (Flat f) u2) e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2))) (\lambda (x0: K).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (H23: (eq C e (CHead x1 x0 x3))).\lambda (H24: (drop (S n0) O c0 (CHead x2 x0 x3))).\lambda (H25: (csubst0 (minus i0 (s x0 (S n0))) v x1 x2)).eq_ind_r C (CHead x1 x0 x3) (\lambda (c: C).or4 (drop (S n0) O (CHead c0 (Flat f) u2) c) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2))) (or4_intro2 (drop (S n0) O (CHead c0 (Flat f) u2) (CHead x1 x0 x3)) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 x0 x3) (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead x1 x0 x3) (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 x0 x3) (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex3_4_intro K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead x1 x0 x3) (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2) x0 x1 x2 x3 (refl_equal C (CHead x1 x0 x3)) (drop_drop (Flat f) n0 c0 (CHead x2 x0 x3) H24 u2) H25)) e H23) H22) (\lambda (H22: (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c0 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (s k (S n0))) v e1 e2))).ex4_5_ind K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c0 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (s k (S n0))) v e1 e2) (or4 (drop (S n0) O (CHead c0 (Flat f) u2) e) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2))) (\lambda (x0: K).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (x4: T).\lambda (H23: (eq C e (CHead x1 x0 x3))).\lambda (H24: (drop (S n0) O c0 (CHead x2 x0 x4))).\lambda (H25: (subst0 (minus i0 (s x0 (S n0))) v x3 x4)).\lambda (H26: (csubst0 (minus i0 (s x0 (S n0))) v x1 x2)).eq_ind_r C (CHead x1 x0 x3) (\lambda (c: C).or4 (drop (S n0) O (CHead c0 (Flat f) u2) c) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2))) (or4_intro3 (drop (S n0) O (CHead c0 (Flat f) u2) (CHead x1 x0 x3)) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 x0 x3) (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead x1 x0 x3) (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 x0 x3) (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2)) (ex4_5_intro K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 x0 x3) (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O (CHead c0 (Flat f) u2) (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus (s (Flat f) i0) (s k (S n0))) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus (s (Flat f) i0) (s k (S n0))) v e1 e2) x0 x1 x2 x3 x4 (refl_equal C (CHead x1 x0 x3)) (drop_drop (Flat f) n0 c0 (CHead x2 x0 x4) H24 u2) H25 H26)) e H23) H22) H21) k (drop_gen_drop k c e t n0 H2) H19 H20) c2 H16) u1 (sym_eq T u1 t H15)) k0 (sym_eq K k0 k H14)) c1 (sym_eq C c1 c H13)) H12) H11) v0 (sym_eq T v0 v H9)) i H5 H6 H7 H8 H3 H4)] in H3 (refl_equal nat i) (refl_equal T v) (refl_equal C (CHead c k t)) (refl_equal C c2)) c1) n.
+
+theorem csubst0_drop_eq: \forall (n: nat).\forall (c1: C).\forall (c2: C).\forall (v: T).(csubst0 n v c1 c2) \to \forall (e: C).(drop n O c1 e) \to or4 (drop n O c2 e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop n O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop n O c2 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop n O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) \def \lambda (n: nat).nat_ind (\lambda (n0: nat).\forall (c1: C).\forall (c2: C).\forall (v: T).(csubst0 n0 v c1 c2) \to \forall (e: C).(drop n0 O c1 e) \to or4 (drop n0 O c2 e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop n0 O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop n0 O c2 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop n0 O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (c1: C).\lambda (c2: C).\lambda (v: T).\lambda (H: (csubst0 O v c1 c2)).\lambda (e: C).\lambda (H0: (drop O O c1 e)).eq_ind C c1 (\lambda (c: C).or4 (drop O O c2 c) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop O O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop O O c2 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop O O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (insert_eq nat O (\lambda (n0: nat).csubst0 n0 v c1 c2) (or4 (drop O O c2 c1) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c1 (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop O O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c1 (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop O O c2 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c1 (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop O O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (y: nat).\lambda (H1: (csubst0 y v c1 c2)).csubst0_ind (\lambda (n0: nat).\lambda (t: T).\lambda (c: C).\lambda (c0: C).(eq nat n0 O) \to or4 (drop O O c0 c) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop O O c0 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O t u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop O O c0 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O t e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop O O c0 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O t u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O t e1 e2))) (\lambda (k: K).K_ind (\lambda (k0: K).\forall (i: nat).\forall (v0: T).\forall (u1: T).\forall (u2: T).(subst0 i v0 u1 u2) \to \forall (c: C).(eq nat (s k0 i) O) \to or4 (drop O O (CHead c k0 u2) (CHead c k0 u1)) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead c k0 u1) (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop O O (CHead c k0 u2) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v0 u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead c k0 u1) (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop O O (CHead c k0 u2) (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead c k0 u1) (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop O O (CHead c k0 u2) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v0 u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2))) (\lambda (b: B).\lambda (i: nat).\lambda (v0: T).\lambda (u1: T).\lambda (u2: T).\lambda (_: (subst0 i v0 u1 u2)).\lambda (c: C).\lambda (H3: (eq nat (S i) O)).let H4 \def eq_ind nat (S i) (\lambda (ee: nat).match ee return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H3 in False_ind (or4 (drop O O (CHead c (Bind b) u2) (CHead c (Bind b) u1)) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead c (Bind b) u1) (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop O O (CHead c (Bind b) u2) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v0 u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead c (Bind b) u1) (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop O O (CHead c (Bind b) u2) (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead c (Bind b) u1) (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop O O (CHead c (Bind b) u2) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v0 u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2))) H4) (\lambda (f: F).\lambda (i: nat).\lambda (v0: T).\lambda (u1: T).\lambda (u2: T).\lambda (H2: (subst0 i v0 u1 u2)).\lambda (c: C).\lambda (H3: (eq nat i O)).let H4 \def eq_ind nat i (\lambda (n: nat).subst0 n v0 u1 u2) H2 O H3 in or4_intro1 (drop O O (CHead c (Flat f) u2) (CHead c (Flat f) u1)) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead c (Flat f) u1) (CHead e0 (Flat f0) u)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop O O (CHead c (Flat f) u2) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v0 u w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead c (Flat f) u1) (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop O O (CHead c (Flat f) u2) (CHead e2 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead c (Flat f) u1) (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop O O (CHead c (Flat f) u2) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v0 u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2)) (ex3_4_intro F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead c (Flat f) u1) (CHead e0 (Flat f0) u)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop O O (CHead c (Flat f) u2) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v0 u w) f c u1 u2 (refl_equal C (CHead c (Flat f) u1)) (drop_refl (CHead c (Flat f) u2)) H4)) k) (\lambda (k: K).K_ind (\lambda (k0: K).\forall (i: nat).\forall (c3: C).\forall (c4: C).\forall (v0: T).(csubst0 i v0 c3 c4) \to (((eq nat i O) \to or4 (drop O O c4 c3) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c3 (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop O O c4 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v0 u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c3 (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop O O c4 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c3 (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop O O c4 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v0 u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2)))) \to \forall (u: T).(eq nat (s k0 i) O) \to or4 (drop O O (CHead c4 k0 u) (CHead c3 k0 u)) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C (CHead c3 k0 u) (CHead e0 (Flat f) u0)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop O O (CHead c4 k0 u) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v0 u0 w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C (CHead c3 k0 u) (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop O O (CHead c4 k0 u) (CHead e2 (Flat f) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C (CHead c3 k0 u) (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop O O (CHead c4 k0 u) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v0 u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2))) (\lambda (b: B).\lambda (i: nat).\lambda (c3: C).\lambda (c4: C).\lambda (v0: T).\lambda (_: (csubst0 i v0 c3 c4)).\lambda (_: (((eq nat i O) \to or4 (drop O O c4 c3) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c3 (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop O O c4 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v0 u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c3 (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop O O c4 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c3 (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop O O c4 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v0 u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2))))).\lambda (u: T).\lambda (H4: (eq nat (S i) O)).let H5 \def eq_ind nat (S i) (\lambda (ee: nat).match ee return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H4 in False_ind (or4 (drop O O (CHead c4 (Bind b) u) (CHead c3 (Bind b) u)) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C (CHead c3 (Bind b) u) (CHead e0 (Flat f) u0)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop O O (CHead c4 (Bind b) u) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v0 u0 w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C (CHead c3 (Bind b) u) (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop O O (CHead c4 (Bind b) u) (CHead e2 (Flat f) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C (CHead c3 (Bind b) u) (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop O O (CHead c4 (Bind b) u) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v0 u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2))) H5) (\lambda (f: F).\lambda (i: nat).\lambda (c3: C).\lambda (c4: C).\lambda (v0: T).\lambda (H2: (csubst0 i v0 c3 c4)).\lambda (H3: (((eq nat i O) \to or4 (drop O O c4 c3) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c3 (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop O O c4 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v0 u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c3 (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop O O c4 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c3 (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop O O c4 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v0 u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2))))).\lambda (u: T).\lambda (H4: (eq nat i O)).let H5 \def eq_ind nat i (\lambda (n: nat).(eq nat n O) \to or4 (drop O O c4 c3) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c3 (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop O O c4 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v0 u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c3 (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop O O c4 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c3 (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop O O c4 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v0 u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2))) H3 O H4 in let H6 \def eq_ind nat i (\lambda (n: nat).csubst0 n v0 c3 c4) H2 O H4 in or4_intro2 (drop O O (CHead c4 (Flat f) u) (CHead c3 (Flat f) u)) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C (CHead c3 (Flat f) u) (CHead e0 (Flat f0) u0)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop O O (CHead c4 (Flat f) u) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v0 u0 w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C (CHead c3 (Flat f) u) (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop O O (CHead c4 (Flat f) u) (CHead e2 (Flat f0) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C (CHead c3 (Flat f) u) (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop O O (CHead c4 (Flat f) u) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v0 u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2)) (ex3_4_intro F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C (CHead c3 (Flat f) u) (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop O O (CHead c4 (Flat f) u) (CHead e2 (Flat f0) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2) f c3 c4 u (refl_equal C (CHead c3 (Flat f) u)) (drop_refl (CHead c4 (Flat f) u)) H6)) k) (\lambda (k: K).K_ind (\lambda (k0: K).\forall (i: nat).\forall (v0: T).\forall (u1: T).\forall (u2: T).(subst0 i v0 u1 u2) \to \forall (c3: C).\forall (c4: C).(csubst0 i v0 c3 c4) \to (((eq nat i O) \to or4 (drop O O c4 c3) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c3 (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop O O c4 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v0 u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c3 (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop O O c4 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c3 (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop O O c4 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v0 u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2)))) \to (eq nat (s k0 i) O) \to or4 (drop O O (CHead c4 k0 u2) (CHead c3 k0 u1)) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead c3 k0 u1) (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop O O (CHead c4 k0 u2) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v0 u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead c3 k0 u1) (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop O O (CHead c4 k0 u2) (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead c3 k0 u1) (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop O O (CHead c4 k0 u2) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v0 u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2))) (\lambda (b: B).\lambda (i: nat).\lambda (v0: T).\lambda (u1: T).\lambda (u2: T).\lambda (_: (subst0 i v0 u1 u2)).\lambda (c3: C).\lambda (c4: C).\lambda (_: (csubst0 i v0 c3 c4)).\lambda (_: (((eq nat i O) \to or4 (drop O O c4 c3) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c3 (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop O O c4 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v0 u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c3 (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop O O c4 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c3 (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop O O c4 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v0 u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2))))).\lambda (H5: (eq nat (S i) O)).let H6 \def eq_ind nat (S i) (\lambda (ee: nat).match ee return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H5 in False_ind (or4 (drop O O (CHead c4 (Bind b) u2) (CHead c3 (Bind b) u1)) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead c3 (Bind b) u1) (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop O O (CHead c4 (Bind b) u2) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v0 u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead c3 (Bind b) u1) (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop O O (CHead c4 (Bind b) u2) (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead c3 (Bind b) u1) (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop O O (CHead c4 (Bind b) u2) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v0 u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2))) H6) (\lambda (f: F).\lambda (i: nat).\lambda (v0: T).\lambda (u1: T).\lambda (u2: T).\lambda (H2: (subst0 i v0 u1 u2)).\lambda (c3: C).\lambda (c4: C).\lambda (H3: (csubst0 i v0 c3 c4)).\lambda (H4: (((eq nat i O) \to or4 (drop O O c4 c3) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c3 (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop O O c4 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v0 u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c3 (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop O O c4 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c3 (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop O O c4 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v0 u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2))))).\lambda (H5: (eq nat i O)).let H6 \def eq_ind nat i (\lambda (n: nat).(eq nat n O) \to or4 (drop O O c4 c3) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c3 (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop O O c4 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v0 u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c3 (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop O O c4 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c3 (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop O O c4 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v0 u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2))) H4 O H5 in let H7 \def eq_ind nat i (\lambda (n: nat).csubst0 n v0 c3 c4) H3 O H5 in let H8 \def eq_ind nat i (\lambda (n: nat).subst0 n v0 u1 u2) H2 O H5 in or4_intro3 (drop O O (CHead c4 (Flat f) u2) (CHead c3 (Flat f) u1)) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead c3 (Flat f) u1) (CHead e0 (Flat f0) u)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop O O (CHead c4 (Flat f) u2) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v0 u w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead c3 (Flat f) u1) (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop O O (CHead c4 (Flat f) u2) (CHead e2 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead c3 (Flat f) u1) (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop O O (CHead c4 (Flat f) u2) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v0 u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5_intro F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead c3 (Flat f) u1) (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop O O (CHead c4 (Flat f) u2) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v0 u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2) f c3 c4 u1 u2 (refl_equal C (CHead c3 (Flat f) u1)) (drop_refl (CHead c4 (Flat f) u2)) H8 H7)) k) y v c1 c2 H1) H) e (drop_gen_refl c1 e H0)) (\lambda (n0: nat).\lambda (IHn: ((\forall (c1: C).\forall (c2: C).\forall (v: T).(csubst0 n0 v c1 c2) \to \forall (e: C).(drop n0 O c1 e) \to or4 (drop n0 O c2 e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop n0 O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop n0 O c2 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop n0 O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))))).\lambda (c1: C).C_ind (\lambda (c: C).\forall (c2: C).\forall (v: T).(csubst0 (S n0) v c c2) \to \forall (e: C).(drop (S n0) O c e) \to or4 (drop (S n0) O c2 e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (n1: nat).\lambda (c2: C).\lambda (v: T).\lambda (_: (csubst0 (S n0) v (CSort n1) c2)).\lambda (e: C).\lambda (H0: (drop (S n0) O (CSort n1) e)).and3_ind (eq C e (CSort n1)) (eq nat (S n0) O) (eq nat O O) (or4 (drop (S n0) O c2 e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (H1: (eq C e (CSort n1))).\lambda (H2: (eq nat (S n0) O)).\lambda (_: (eq nat O O)).eq_ind_r C (CSort n1) (\lambda (c: C).or4 (drop (S n0) O c2 c) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (let H4 \def eq_ind nat (S n0) (\lambda (ee: nat).match ee return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H2 in False_ind (or4 (drop (S n0) O c2 (CSort n1)) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CSort n1) (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CSort n1) (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CSort n1) (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) H4) e H1) (drop_gen_sort n1 (S n0) O e H0)) (\lambda (c: C).\lambda (H: ((\forall (c2: C).\forall (v: T).(csubst0 (S n0) v c c2) \to \forall (e: C).(drop (S n0) O c e) \to or4 (drop (S n0) O c2 e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))))).\lambda (k: K).\lambda (t: T).\lambda (c2: C).\lambda (v: T).\lambda (H0: (csubst0 (S n0) v (CHead c k t) c2)).\lambda (e: C).\lambda (H1: (drop (S n0) O (CHead c k t) e)).let H2 \def match H0 return (\lambda (n: nat).\lambda (t0: T).\lambda (c0: C).\lambda (c1: C).(eq nat n (S n0)) \to (eq T t0 v) \to (eq C c0 (CHead c k t)) \to (eq C c1 c2) \to or4 (drop (S n0) O c2 e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c2 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) with [(csubst0_snd k0 i v0 u1 u2 H2 c0) \Rightarrow (\lambda (H3: (eq nat (s k0 i) (S n0))).\lambda (H4: (eq T v0 v)).\lambda (H5: (eq C (CHead c0 k0 u1) (CHead c k t))).\lambda (H6: (eq C (CHead c0 k0 u2) c2)).(let H7 \def f_equal nat nat (\lambda (e0: nat).e0) (s k0 i) (S n0) H3 in eq_ind nat (s k0 i) (\lambda (n: nat).(eq T v0 v) \to (eq C (CHead c0 k0 u1) (CHead c k t)) \to (eq C (CHead c0 k0 u2) c2) \to (subst0 i v0 u1 u2) \to or4 (drop n O c2 e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop n O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop n O c2 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop n O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (H8: (eq T v0 v)).eq_ind T v (\lambda (t0: T).(eq C (CHead c0 k0 u1) (CHead c k t)) \to (eq C (CHead c0 k0 u2) c2) \to (subst0 i t0 u1 u2) \to or4 (drop (s k0 i) O c2 e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s k0 i) O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s k0 i) O c2 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s k0 i) O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (H9: (eq C (CHead c0 k0 u1) (CHead c k t))).let H10 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u1 | (CHead _ _ t) \Rightarrow t]) (CHead c0 k0 u1) (CHead c k t) H9 in (let H11 \def f_equal C K (\lambda (e0: C).match e0 return K with [(CSort _) \Rightarrow k0 | (CHead _ k _) \Rightarrow k]) (CHead c0 k0 u1) (CHead c k t) H9 in (let H12 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow c0 | (CHead c _ _) \Rightarrow c]) (CHead c0 k0 u1) (CHead c k t) H9 in eq_ind C c (\lambda (c: C).(eq K k0 k) \to (eq T u1 t) \to (eq C (CHead c k0 u2) c2) \to (subst0 i v u1 u2) \to or4 (drop (s k0 i) O c2 e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s k0 i) O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s k0 i) O c2 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s k0 i) O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (H13: (eq K k0 k)).eq_ind K k (\lambda (k: K).(eq T u1 t) \to (eq C (CHead c k u2) c2) \to (subst0 i v u1 u2) \to or4 (drop (s k i) O c2 e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s k i) O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s k i) O c2 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s k i) O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (H14: (eq T u1 t)).eq_ind T t (\lambda (t: T).(eq C (CHead c k u2) c2) \to (subst0 i v t u2) \to or4 (drop (s k i) O c2 e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s k i) O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s k i) O c2 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s k i) O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (H15: (eq C (CHead c k u2) c2)).eq_ind C (CHead c k u2) (\lambda (c: C).(subst0 i v t u2) \to or4 (drop (s k i) O c e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s k i) O c (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s k i) O c (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s k i) O c (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (H16: (subst0 i v t u2)).let H0 \def eq_ind K k0 (\lambda (k: K).eq nat (s k i) (S n0)) H7 k H13 in K_ind (\lambda (k: K).(drop (r k n0) O c e) \to (eq nat (s k i) (S n0)) \to or4 (drop (s k i) O (CHead c k u2) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s k i) O (CHead c k u2) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s k i) O (CHead c k u2) (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s k i) O (CHead c k u2) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (b: B).\lambda (H1: (drop (r (Bind b) n0) O c e)).\lambda (H17: (eq nat (s (Bind b) i) (S n0))).let H18 \def f_equal nat nat (\lambda (e0: nat).match e0 return nat with [O \Rightarrow i | (S n) \Rightarrow n]) (S i) (S n0) H17 in let H19 \def eq_ind nat i (\lambda (n: nat).subst0 n v t u2) H16 n0 H18 in eq_ind_r nat n0 (\lambda (n: nat).or4 (drop (s (Bind b) n) O (CHead c (Bind b) u2) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n) O (CHead c (Bind b) u2) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s (Bind b) n) O (CHead c (Bind b) u2) (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n) O (CHead c (Bind b) u2) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (or4_intro0 (drop (s (Bind b) n0) O (CHead c (Bind b) u2) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c (Bind b) u2) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s (Bind b) n0) O (CHead c (Bind b) u2) (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c (Bind b) u2) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (drop_drop (Bind b) n0 c e H1 u2)) i H18) (\lambda (f: F).\lambda (H1: (drop (r (Flat f) n0) O c e)).\lambda (H17: (eq nat (s (Flat f) i) (S n0))).let H18 \def f_equal nat nat (\lambda (e0: nat).e0) i (S n0) H17 in let H19 \def eq_ind nat i (\lambda (n: nat).subst0 n v t u2) H16 (S n0) H18 in eq_ind_r nat (S n0) (\lambda (n: nat).or4 (drop (s (Flat f) n) O (CHead c (Flat f) u2) e) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f0) u)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) n) O (CHead c (Flat f) u2) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s (Flat f) n) O (CHead c (Flat f) u2) (CHead e2 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) n) O (CHead c (Flat f) u2) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (or4_intro0 (drop (s (Flat f) (S n0)) O (CHead c (Flat f) u2) e) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f0) u)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c (Flat f) u2) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s (Flat f) (S n0)) O (CHead c (Flat f) u2) (CHead e2 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c (Flat f) u2) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (drop_drop (Flat f) n0 c e H1 u2)) i H18) k (drop_gen_drop k c e t n0 H1) H0) c2 H15) u1 (sym_eq T u1 t H14)) k0 (sym_eq K k0 k H13)) c0 (sym_eq C c0 c H12)) H11) H10) v0 (sym_eq T v0 v H8)) (S n0) H7) H4 H5 H6 H2) | (csubst0_fst k0 i c1 c0 v0 H2 u) \Rightarrow (\lambda (H3: (eq nat (s k0 i) (S n0))).\lambda (H4: (eq T v0 v)).\lambda (H5: (eq C (CHead c1 k0 u) (CHead c k t))).\lambda (H6: (eq C (CHead c0 k0 u) c2)).(let H7 \def f_equal nat nat (\lambda (e0: nat).e0) (s k0 i) (S n0) H3 in eq_ind nat (s k0 i) (\lambda (n: nat).(eq T v0 v) \to (eq C (CHead c1 k0 u) (CHead c k t)) \to (eq C (CHead c0 k0 u) c2) \to (csubst0 i v0 c1 c0) \to or4 (drop n O c2 e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u0)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop n O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop n O c2 (CHead e2 (Flat f) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop n O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (H8: (eq T v0 v)).eq_ind T v (\lambda (t0: T).(eq C (CHead c1 k0 u) (CHead c k t)) \to (eq C (CHead c0 k0 u) c2) \to (csubst0 i t0 c1 c0) \to or4 (drop (s k0 i) O c2 e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u0)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s k0 i) O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s k0 i) O c2 (CHead e2 (Flat f) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s k0 i) O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (H9: (eq C (CHead c1 k0 u) (CHead c k t))).let H10 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead c1 k0 u) (CHead c k t) H9 in (let H11 \def f_equal C K (\lambda (e0: C).match e0 return K with [(CSort _) \Rightarrow k0 | (CHead _ k _) \Rightarrow k]) (CHead c1 k0 u) (CHead c k t) H9 in (let H12 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow c1 | (CHead c _ _) \Rightarrow c]) (CHead c1 k0 u) (CHead c k t) H9 in eq_ind C c (\lambda (c: C).(eq K k0 k) \to (eq T u t) \to (eq C (CHead c0 k0 u) c2) \to (csubst0 i v c c0) \to or4 (drop (s k0 i) O c2 e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u0)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s k0 i) O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s k0 i) O c2 (CHead e2 (Flat f) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s k0 i) O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (H13: (eq K k0 k)).eq_ind K k (\lambda (k: K).(eq T u t) \to (eq C (CHead c0 k u) c2) \to (csubst0 i v c c0) \to or4 (drop (s k i) O c2 e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u0)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s k i) O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s k i) O c2 (CHead e2 (Flat f) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s k i) O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (H14: (eq T u t)).eq_ind T t (\lambda (t: T).(eq C (CHead c0 k t) c2) \to (csubst0 i v c c0) \to or4 (drop (s k i) O c2 e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u0)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s k i) O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s k i) O c2 (CHead e2 (Flat f) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s k i) O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (H15: (eq C (CHead c0 k t) c2)).eq_ind C (CHead c0 k t) (\lambda (c2: C).(csubst0 i v c c0) \to or4 (drop (s k i) O c2 e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u0)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s k i) O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s k i) O c2 (CHead e2 (Flat f) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s k i) O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (H16: (csubst0 i v c c0)).let H0 \def eq_ind K k0 (\lambda (k: K).eq nat (s k i) (S n0)) H7 k H13 in K_ind (\lambda (k: K).(drop (r k n0) O c e) \to (eq nat (s k i) (S n0)) \to or4 (drop (s k i) O (CHead c0 k t) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u0)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s k i) O (CHead c0 k t) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s k i) O (CHead c0 k t) (CHead e2 (Flat f) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s k i) O (CHead c0 k t) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (b: B).\lambda (H1: (drop (r (Bind b) n0) O c e)).\lambda (H17: (eq nat (s (Bind b) i) (S n0))).let H18 \def f_equal nat nat (\lambda (e0: nat).match e0 return nat with [O \Rightarrow i | (S n) \Rightarrow n]) (S i) (S n0) H17 in let H19 \def eq_ind nat i (\lambda (n: nat).csubst0 n v c c0) H16 n0 H18 in eq_ind_r nat n0 (\lambda (n: nat).or4 (drop (s (Bind b) n) O (CHead c0 (Bind b) t) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u0)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n) O (CHead c0 (Bind b) t) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s (Bind b) n) O (CHead c0 (Bind b) t) (CHead e2 (Flat f) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n) O (CHead c0 (Bind b) t) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (let H \def IHn c c0 v H19 e H1 in or4_ind (drop n0 O c0 e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u0)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop n0 O c0 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop n0 O c0 (CHead e2 (Flat f) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop n0 O c0 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (or4 (drop (s (Bind b) n0) O (CHead c0 (Bind b) t) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u0)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e2 (Flat f) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (H20: (drop n0 O c0 e)).or4_intro0 (drop (s (Bind b) n0) O (CHead c0 (Bind b) t) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u0)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e2 (Flat f) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (drop_drop (Bind b) n0 c0 e H20 t)) (\lambda (H20: (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop n0 O c0 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w))).ex3_4_ind F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u0)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop n0 O c0 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (or4 (drop (s (Bind b) n0) O (CHead c0 (Bind b) t) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u0)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e2 (Flat f) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (x0: F).\lambda (x1: C).\lambda (x2: T).\lambda (x3: T).\lambda (H21: (eq C e (CHead x1 (Flat x0) x2))).\lambda (H22: (drop n0 O c0 (CHead x1 (Flat x0) x3))).\lambda (H23: (subst0 O v x2 x3)).eq_ind_r C (CHead x1 (Flat x0) x2) (\lambda (c: C).or4 (drop (s (Bind b) n0) O (CHead c0 (Bind b) t) c) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C c (CHead e0 (Flat f) u0)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C c (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e2 (Flat f) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C c (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (or4_intro1 (drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead x1 (Flat x0) x2)) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x2) (CHead e0 (Flat f) u0)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C (CHead x1 (Flat x0) x2) (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e2 (Flat f) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x2) (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (ex3_4_intro F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x2) (CHead e0 (Flat f) u0)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) x0 x1 x2 x3 (refl_equal C (CHead x1 (Flat x0) x2)) (drop_drop (Bind b) n0 c0 (CHead x1 (Flat x0) x3) H22 t) H23)) e H21) H20) (\lambda (H20: (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop n0 O c0 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2))).ex3_4_ind F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop n0 O c0 (CHead e2 (Flat f) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2) (or4 (drop (s (Bind b) n0) O (CHead c0 (Bind b) t) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u0)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e2 (Flat f) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (x0: F).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (H21: (eq C e (CHead x1 (Flat x0) x3))).\lambda (H22: (drop n0 O c0 (CHead x2 (Flat x0) x3))).\lambda (H23: (csubst0 O v x1 x2)).eq_ind_r C (CHead x1 (Flat x0) x3) (\lambda (c: C).or4 (drop (s (Bind b) n0) O (CHead c0 (Bind b) t) c) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C c (CHead e0 (Flat f) u0)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C c (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e2 (Flat f) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C c (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (or4_intro2 (drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead x1 (Flat x0) x3)) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x3) (CHead e0 (Flat f) u0)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C (CHead x1 (Flat x0) x3) (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e2 (Flat f) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x3) (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (ex3_4_intro F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C (CHead x1 (Flat x0) x3) (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e2 (Flat f) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2) x0 x1 x2 x3 (refl_equal C (CHead x1 (Flat x0) x3)) (drop_drop (Bind b) n0 c0 (CHead x2 (Flat x0) x3) H22 t) H23)) e H21) H20) (\lambda (H20: (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop n0 O c0 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))).ex4_5_ind F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop n0 O c0 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2) (or4 (drop (s (Bind b) n0) O (CHead c0 (Bind b) t) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u0)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e2 (Flat f) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (x0: F).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (x4: T).\lambda (H21: (eq C e (CHead x1 (Flat x0) x3))).\lambda (H22: (drop n0 O c0 (CHead x2 (Flat x0) x4))).\lambda (H23: (subst0 O v x3 x4)).\lambda (H24: (csubst0 O v x1 x2)).eq_ind_r C (CHead x1 (Flat x0) x3) (\lambda (c: C).or4 (drop (s (Bind b) n0) O (CHead c0 (Bind b) t) c) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C c (CHead e0 (Flat f) u0)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C c (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e2 (Flat f) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C c (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (or4_intro3 (drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead x1 (Flat x0) x3)) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x3) (CHead e0 (Flat f) u0)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C (CHead x1 (Flat x0) x3) (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e2 (Flat f) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x3) (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5_intro F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x3) (CHead e1 (Flat f) u0)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) t) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2) x0 x1 x2 x3 x4 (refl_equal C (CHead x1 (Flat x0) x3)) (drop_drop (Bind b) n0 c0 (CHead x2 (Flat x0) x4) H22 t) H23 H24)) e H21) H20) H) i H18) (\lambda (f: F).\lambda (H1: (drop (r (Flat f) n0) O c e)).\lambda (H17: (eq nat (s (Flat f) i) (S n0))).let H18 \def f_equal nat nat (\lambda (e0: nat).e0) i (S n0) H17 in let H19 \def eq_ind nat i (\lambda (n: nat).csubst0 n v c c0) H16 (S n0) H18 in eq_ind_r nat (S n0) (\lambda (n: nat).or4 (drop (s (Flat f) n) O (CHead c0 (Flat f) t) e) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 (Flat f0) u0)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) n) O (CHead c0 (Flat f) t) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s (Flat f) n) O (CHead c0 (Flat f) t) (CHead e2 (Flat f0) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) n) O (CHead c0 (Flat f) t) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (let H20 \def H c0 v H19 e H1 in or4_ind (drop (S n0) O c0 e) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 (Flat f0) u0)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c0 (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O c0 (CHead e2 (Flat f0) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c0 (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (or4 (drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) e) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 (Flat f0) u0)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e2 (Flat f0) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (H21: (drop (S n0) O c0 e)).or4_intro0 (drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) e) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 (Flat f0) u0)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e2 (Flat f0) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (drop_drop (Flat f) n0 c0 e H21 t)) (\lambda (H21: (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c0 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w))).ex3_4_ind F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 (Flat f0) u0)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c0 (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (or4 (drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) e) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 (Flat f0) u0)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e2 (Flat f0) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (x0: F).\lambda (x1: C).\lambda (x2: T).\lambda (x3: T).\lambda (H22: (eq C e (CHead x1 (Flat x0) x2))).\lambda (H23: (drop (S n0) O c0 (CHead x1 (Flat x0) x3))).\lambda (H24: (subst0 O v x2 x3)).eq_ind_r C (CHead x1 (Flat x0) x2) (\lambda (c: C).or4 (drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) c) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C c (CHead e0 (Flat f0) u0)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C c (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e2 (Flat f0) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C c (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (or4_intro1 (drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead x1 (Flat x0) x2)) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x2) (CHead e0 (Flat f0) u0)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C (CHead x1 (Flat x0) x2) (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e2 (Flat f0) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x2) (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (ex3_4_intro F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x2) (CHead e0 (Flat f0) u0)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) x0 x1 x2 x3 (refl_equal C (CHead x1 (Flat x0) x2)) (drop_drop (Flat f) n0 c0 (CHead x1 (Flat x0) x3) H23 t) H24)) e H22) H21) (\lambda (H21: (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c0 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2))).ex3_4_ind F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (S n0) O c0 (CHead e2 (Flat f0) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2) (or4 (drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) e) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 (Flat f0) u0)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e2 (Flat f0) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (x0: F).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (H22: (eq C e (CHead x1 (Flat x0) x3))).\lambda (H23: (drop (S n0) O c0 (CHead x2 (Flat x0) x3))).\lambda (H24: (csubst0 O v x1 x2)).eq_ind_r C (CHead x1 (Flat x0) x3) (\lambda (c: C).or4 (drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) c) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C c (CHead e0 (Flat f0) u0)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C c (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e2 (Flat f0) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C c (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (or4_intro2 (drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead x1 (Flat x0) x3)) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x3) (CHead e0 (Flat f0) u0)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C (CHead x1 (Flat x0) x3) (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e2 (Flat f0) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x3) (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (ex3_4_intro F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C (CHead x1 (Flat x0) x3) (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e2 (Flat f0) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2) x0 x1 x2 x3 (refl_equal C (CHead x1 (Flat x0) x3)) (drop_drop (Flat f) n0 c0 (CHead x2 (Flat x0) x3) H23 t) H24)) e H22) H21) (\lambda (H21: (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c0 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))).ex4_5_ind F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c0 (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2) (or4 (drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) e) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e0 (Flat f0) u0)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C e (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e2 (Flat f0) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C e (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (x0: F).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (x4: T).\lambda (H22: (eq C e (CHead x1 (Flat x0) x3))).\lambda (H23: (drop (S n0) O c0 (CHead x2 (Flat x0) x4))).\lambda (H24: (subst0 O v x3 x4)).\lambda (H25: (csubst0 O v x1 x2)).eq_ind_r C (CHead x1 (Flat x0) x3) (\lambda (c: C).or4 (drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) c) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C c (CHead e0 (Flat f0) u0)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C c (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e2 (Flat f0) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C c (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (or4_intro3 (drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead x1 (Flat x0) x3)) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x3) (CHead e0 (Flat f0) u0)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C (CHead x1 (Flat x0) x3) (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e2 (Flat f0) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x3) (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5_intro F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x3) (CHead e1 (Flat f0) u0)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) t) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u0: T).\lambda (w: T).subst0 O v u0 w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2) x0 x1 x2 x3 x4 (refl_equal C (CHead x1 (Flat x0) x3)) (drop_drop (Flat f) n0 c0 (CHead x2 (Flat x0) x4) H23 t) H24 H25)) e H22) H21) H20) i H18) k (drop_gen_drop k c e t n0 H1) H0) c2 H15) u (sym_eq T u t H14)) k0 (sym_eq K k0 k H13)) c1 (sym_eq C c1 c H12)) H11) H10) v0 (sym_eq T v0 v H8)) (S n0) H7) H4 H5 H6 H2) | (csubst0_both k0 i v0 u1 u2 H2 c1 c0 H3) \Rightarrow (\lambda (H4: (eq nat (s k0 i) (S n0))).\lambda (H5: (eq T v0 v)).\lambda (H6: (eq C (CHead c1 k0 u1) (CHead c k t))).\lambda (H7: (eq C (CHead c0 k0 u2) c2)).(let H8 \def f_equal nat nat (\lambda (e0: nat).e0) (s k0 i) (S n0) H4 in eq_ind nat (s k0 i) (\lambda (n: nat).(eq T v0 v) \to (eq C (CHead c1 k0 u1) (CHead c k t)) \to (eq C (CHead c0 k0 u2) c2) \to (subst0 i v0 u1 u2) \to (csubst0 i v0 c1 c0) \to or4 (drop n O c2 e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop n O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop n O c2 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop n O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (H9: (eq T v0 v)).eq_ind T v (\lambda (t0: T).(eq C (CHead c1 k0 u1) (CHead c k t)) \to (eq C (CHead c0 k0 u2) c2) \to (subst0 i t0 u1 u2) \to (csubst0 i t0 c1 c0) \to or4 (drop (s k0 i) O c2 e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s k0 i) O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s k0 i) O c2 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s k0 i) O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (H10: (eq C (CHead c1 k0 u1) (CHead c k t))).let H11 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u1 | (CHead _ _ t) \Rightarrow t]) (CHead c1 k0 u1) (CHead c k t) H10 in (let H12 \def f_equal C K (\lambda (e0: C).match e0 return K with [(CSort _) \Rightarrow k0 | (CHead _ k _) \Rightarrow k]) (CHead c1 k0 u1) (CHead c k t) H10 in (let H13 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow c1 | (CHead c _ _) \Rightarrow c]) (CHead c1 k0 u1) (CHead c k t) H10 in eq_ind C c (\lambda (c: C).(eq K k0 k) \to (eq T u1 t) \to (eq C (CHead c0 k0 u2) c2) \to (subst0 i v u1 u2) \to (csubst0 i v c c0) \to or4 (drop (s k0 i) O c2 e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s k0 i) O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s k0 i) O c2 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s k0 i) O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (H14: (eq K k0 k)).eq_ind K k (\lambda (k: K).(eq T u1 t) \to (eq C (CHead c0 k u2) c2) \to (subst0 i v u1 u2) \to (csubst0 i v c c0) \to or4 (drop (s k i) O c2 e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s k i) O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s k i) O c2 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s k i) O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (H15: (eq T u1 t)).eq_ind T t (\lambda (t: T).(eq C (CHead c0 k u2) c2) \to (subst0 i v t u2) \to (csubst0 i v c c0) \to or4 (drop (s k i) O c2 e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s k i) O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s k i) O c2 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s k i) O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (H16: (eq C (CHead c0 k u2) c2)).eq_ind C (CHead c0 k u2) (\lambda (c2: C).(subst0 i v t u2) \to (csubst0 i v c c0) \to or4 (drop (s k i) O c2 e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s k i) O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s k i) O c2 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s k i) O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (H17: (subst0 i v t u2)).\lambda (H18: (csubst0 i v c c0)).let H0 \def eq_ind K k0 (\lambda (k: K).eq nat (s k i) (S n0)) H8 k H14 in K_ind (\lambda (k: K).(drop (r k n0) O c e) \to (eq nat (s k i) (S n0)) \to or4 (drop (s k i) O (CHead c0 k u2) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s k i) O (CHead c0 k u2) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s k i) O (CHead c0 k u2) (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s k i) O (CHead c0 k u2) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (b: B).\lambda (H1: (drop (r (Bind b) n0) O c e)).\lambda (H19: (eq nat (s (Bind b) i) (S n0))).let H20 \def f_equal nat nat (\lambda (e0: nat).match e0 return nat with [O \Rightarrow i | (S n) \Rightarrow n]) (S i) (S n0) H19 in let H21 \def eq_ind nat i (\lambda (n: nat).csubst0 n v c c0) H18 n0 H20 in let H22 \def eq_ind nat i (\lambda (n: nat).subst0 n v t u2) H17 n0 H20 in eq_ind_r nat n0 (\lambda (n: nat).or4 (drop (s (Bind b) n) O (CHead c0 (Bind b) u2) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n) O (CHead c0 (Bind b) u2) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s (Bind b) n) O (CHead c0 (Bind b) u2) (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n) O (CHead c0 (Bind b) u2) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (let H \def IHn c c0 v H21 e H1 in or4_ind (drop n0 O c0 e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop n0 O c0 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop n0 O c0 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop n0 O c0 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (or4 (drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (H23: (drop n0 O c0 e)).or4_intro0 (drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (drop_drop (Bind b) n0 c0 e H23 u2)) (\lambda (H23: (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop n0 O c0 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w))).ex3_4_ind F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop n0 O c0 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (or4 (drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (x0: F).\lambda (x1: C).\lambda (x2: T).\lambda (x3: T).\lambda (H24: (eq C e (CHead x1 (Flat x0) x2))).\lambda (H25: (drop n0 O c0 (CHead x1 (Flat x0) x3))).\lambda (H26: (subst0 O v x2 x3)).eq_ind_r C (CHead x1 (Flat x0) x2) (\lambda (c: C).or4 (drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) c) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (or4_intro1 (drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead x1 (Flat x0) x2)) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x2) (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead x1 (Flat x0) x2) (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x2) (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (ex3_4_intro F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x2) (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) x0 x1 x2 x3 (refl_equal C (CHead x1 (Flat x0) x2)) (drop_drop (Bind b) n0 c0 (CHead x1 (Flat x0) x3) H25 u2) H26)) e H24) H23) (\lambda (H23: (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop n0 O c0 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2))).ex3_4_ind F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop n0 O c0 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2) (or4 (drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (x0: F).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (H24: (eq C e (CHead x1 (Flat x0) x3))).\lambda (H25: (drop n0 O c0 (CHead x2 (Flat x0) x3))).\lambda (H26: (csubst0 O v x1 x2)).eq_ind_r C (CHead x1 (Flat x0) x3) (\lambda (c: C).or4 (drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) c) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (or4_intro2 (drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead x1 (Flat x0) x3)) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x3) (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead x1 (Flat x0) x3) (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x3) (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (ex3_4_intro F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead x1 (Flat x0) x3) (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2) x0 x1 x2 x3 (refl_equal C (CHead x1 (Flat x0) x3)) (drop_drop (Bind b) n0 c0 (CHead x2 (Flat x0) x3) H25 u2) H26)) e H24) H23) (\lambda (H23: (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop n0 O c0 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))).ex4_5_ind F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop n0 O c0 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2) (or4 (drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (x0: F).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (x4: T).\lambda (H24: (eq C e (CHead x1 (Flat x0) x3))).\lambda (H25: (drop n0 O c0 (CHead x2 (Flat x0) x4))).\lambda (H26: (subst0 O v x3 x4)).\lambda (H27: (csubst0 O v x1 x2)).eq_ind_r C (CHead x1 (Flat x0) x3) (\lambda (c: C).or4 (drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) c) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (or4_intro3 (drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead x1 (Flat x0) x3)) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x3) (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead x1 (Flat x0) x3) (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x3) (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5_intro F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x3) (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Bind b) n0) O (CHead c0 (Bind b) u2) (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2) x0 x1 x2 x3 x4 (refl_equal C (CHead x1 (Flat x0) x3)) (drop_drop (Bind b) n0 c0 (CHead x2 (Flat x0) x4) H25 u2) H26 H27)) e H24) H23) H) i H20) (\lambda (f: F).\lambda (H1: (drop (r (Flat f) n0) O c e)).\lambda (H19: (eq nat (s (Flat f) i) (S n0))).let H20 \def f_equal nat nat (\lambda (e0: nat).e0) i (S n0) H19 in let H21 \def eq_ind nat i (\lambda (n: nat).csubst0 n v c c0) H18 (S n0) H20 in let H22 \def eq_ind nat i (\lambda (n: nat).subst0 n v t u2) H17 (S n0) H20 in eq_ind_r nat (S n0) (\lambda (n: nat).or4 (drop (s (Flat f) n) O (CHead c0 (Flat f) u2) e) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f0) u)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) n) O (CHead c0 (Flat f) u2) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s (Flat f) n) O (CHead c0 (Flat f) u2) (CHead e2 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) n) O (CHead c0 (Flat f) u2) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (let H23 \def H c0 v H21 e H1 in or4_ind (drop (S n0) O c0 e) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f0) u)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c0 (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c0 (CHead e2 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c0 (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (or4 (drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) e) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f0) u)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e2 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (H24: (drop (S n0) O c0 e)).or4_intro0 (drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) e) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f0) u)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e2 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (drop_drop (Flat f) n0 c0 e H24 u2)) (\lambda (H24: (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c0 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w))).ex3_4_ind F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f0) u)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c0 (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (or4 (drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) e) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f0) u)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e2 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (x0: F).\lambda (x1: C).\lambda (x2: T).\lambda (x3: T).\lambda (H25: (eq C e (CHead x1 (Flat x0) x2))).\lambda (H26: (drop (S n0) O c0 (CHead x1 (Flat x0) x3))).\lambda (H27: (subst0 O v x2 x3)).eq_ind_r C (CHead x1 (Flat x0) x2) (\lambda (c: C).or4 (drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) c) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e0 (Flat f0) u)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e2 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (or4_intro1 (drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead x1 (Flat x0) x2)) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x2) (CHead e0 (Flat f0) u)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead x1 (Flat x0) x2) (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e2 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x2) (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (ex3_4_intro F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x2) (CHead e0 (Flat f0) u)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) x0 x1 x2 x3 (refl_equal C (CHead x1 (Flat x0) x2)) (drop_drop (Flat f) n0 c0 (CHead x1 (Flat x0) x3) H26 u2) H27)) e H25) H24) (\lambda (H24: (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c0 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2))).ex3_4_ind F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (S n0) O c0 (CHead e2 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2) (or4 (drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) e) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f0) u)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e2 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (x0: F).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (H25: (eq C e (CHead x1 (Flat x0) x3))).\lambda (H26: (drop (S n0) O c0 (CHead x2 (Flat x0) x3))).\lambda (H27: (csubst0 O v x1 x2)).eq_ind_r C (CHead x1 (Flat x0) x3) (\lambda (c: C).or4 (drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) c) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e0 (Flat f0) u)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e2 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (or4_intro2 (drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead x1 (Flat x0) x3)) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x3) (CHead e0 (Flat f0) u)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead x1 (Flat x0) x3) (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e2 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x3) (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (ex3_4_intro F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead x1 (Flat x0) x3) (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e2 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2) x0 x1 x2 x3 (refl_equal C (CHead x1 (Flat x0) x3)) (drop_drop (Flat f) n0 c0 (CHead x2 (Flat x0) x3) H26 u2) H27)) e H25) H24) (\lambda (H24: (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c0 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))).ex4_5_ind F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (S n0) O c0 (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2) (or4 (drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) e) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Flat f0) u)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e2 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (x0: F).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (x4: T).\lambda (H25: (eq C e (CHead x1 (Flat x0) x3))).\lambda (H26: (drop (S n0) O c0 (CHead x2 (Flat x0) x4))).\lambda (H27: (subst0 O v x3 x4)).\lambda (H28: (csubst0 O v x1 x2)).eq_ind_r C (CHead x1 (Flat x0) x3) (\lambda (c: C).or4 (drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) c) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e0 (Flat f0) u)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e2 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (or4_intro3 (drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead x1 (Flat x0) x3)) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x3) (CHead e0 (Flat f0) u)) (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e0 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead x1 (Flat x0) x3) (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e2 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x3) (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5_intro F C C T T (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 (Flat x0) x3) (CHead e1 (Flat f0) u)) (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop (s (Flat f) (S n0)) O (CHead c0 (Flat f) u2) (CHead e2 (Flat f0) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2) x0 x1 x2 x3 x4 (refl_equal C (CHead x1 (Flat x0) x3)) (drop_drop (Flat f) n0 c0 (CHead x2 (Flat x0) x4) H26 u2) H27 H28)) e H25) H24) H23) i H20) k (drop_gen_drop k c e t n0 H1) H0) c2 H16) u1 (sym_eq T u1 t H15)) k0 (sym_eq K k0 k H14)) c1 (sym_eq C c1 c H13)) H12) H11) v0 (sym_eq T v0 v H9)) (S n0) H8) H5 H6 H7 H2 H3)] in H2 (refl_equal nat (S n0)) (refl_equal T v) (refl_equal C (CHead c k t)) (refl_equal C c2)) c1) n.
+
+theorem csubst0_drop_eq_back: \forall (n: nat).\forall (c1: C).\forall (c2: C).\forall (v: T).(csubst0 n v c1 c2) \to \forall (e: C).(drop n O c2 e) \to or4 (drop n O c1 e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop n O c1 (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop n O c1 (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop n O c1 (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) \def \lambda (n: nat).nat_ind (\lambda (n0: nat).\forall (c1: C).\forall (c2: C).\forall (v: T).(csubst0 n0 v c1 c2) \to \forall (e: C).(drop n0 O c2 e) \to or4 (drop n0 O c1 e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop n0 O c1 (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop n0 O c1 (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop n0 O c1 (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (c1: C).\lambda (c2: C).\lambda (v: T).\lambda (H: (csubst0 O v c1 c2)).\lambda (e: C).\lambda (H0: (drop O O c2 e)).eq_ind C c2 (\lambda (c: C).or4 (drop O O c1 c) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C c (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop O O c1 (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C c (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop O O c1 (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C c (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop O O c1 (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (insert_eq nat O (\lambda (n0: nat).csubst0 n0 v c1 c2) (or4 (drop O O c1 c2) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C c2 (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop O O c1 (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C c2 (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop O O c1 (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C c2 (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop O O c1 (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (y: nat).\lambda (H1: (csubst0 y v c1 c2)).csubst0_ind (\lambda (n0: nat).\lambda (t: T).\lambda (c: C).\lambda (c0: C).(eq nat n0 O) \to or4 (drop O O c c0) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C c0 (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop O O c (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O t u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C c0 (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop O O c (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O t e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C c0 (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop O O c (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O t u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O t e1 e2))) (\lambda (k: K).K_ind (\lambda (k0: K).\forall (i: nat).\forall (v0: T).\forall (u1: T).\forall (u2: T).(subst0 i v0 u1 u2) \to \forall (c: C).(eq nat (s k0 i) O) \to or4 (drop O O (CHead c k0 u1) (CHead c k0 u2)) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u4: T).eq C (CHead c k0 u2) (CHead e0 (Flat f) u4)) (\lambda (f: F).\lambda (e0: C).\lambda (u3: T).\lambda (_: T).drop O O (CHead c k0 u1) (CHead e0 (Flat f) u3)) (\lambda (_: F).\lambda (_: C).\lambda (u3: T).\lambda (u4: T).subst0 O v0 u3 u4)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C (CHead c k0 u2) (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop O O (CHead c k0 u1) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u4: T).eq C (CHead c k0 u2) (CHead e2 (Flat f) u4)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u3: T).\lambda (_: T).drop O O (CHead c k0 u1) (CHead e1 (Flat f) u3)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u3: T).\lambda (u4: T).subst0 O v0 u3 u4) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2))) (\lambda (b: B).\lambda (i: nat).\lambda (v0: T).\lambda (u1: T).\lambda (u2: T).\lambda (_: (subst0 i v0 u1 u2)).\lambda (c: C).\lambda (H3: (eq nat (S i) O)).let H4 \def eq_ind nat (S i) (\lambda (ee: nat).match ee return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H3 in False_ind (or4 (drop O O (CHead c (Bind b) u1) (CHead c (Bind b) u2)) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u4: T).eq C (CHead c (Bind b) u2) (CHead e0 (Flat f) u4)) (\lambda (f: F).\lambda (e0: C).\lambda (u3: T).\lambda (_: T).drop O O (CHead c (Bind b) u1) (CHead e0 (Flat f) u3)) (\lambda (_: F).\lambda (_: C).\lambda (u3: T).\lambda (u4: T).subst0 O v0 u3 u4)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C (CHead c (Bind b) u2) (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop O O (CHead c (Bind b) u1) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u4: T).eq C (CHead c (Bind b) u2) (CHead e2 (Flat f) u4)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u3: T).\lambda (_: T).drop O O (CHead c (Bind b) u1) (CHead e1 (Flat f) u3)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u3: T).\lambda (u4: T).subst0 O v0 u3 u4) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2))) H4) (\lambda (f: F).\lambda (i: nat).\lambda (v0: T).\lambda (u1: T).\lambda (u2: T).\lambda (H2: (subst0 i v0 u1 u2)).\lambda (c: C).\lambda (H3: (eq nat i O)).let H4 \def eq_ind nat i (\lambda (n: nat).subst0 n v0 u1 u2) H2 O H3 in or4_intro1 (drop O O (CHead c (Flat f) u1) (CHead c (Flat f) u2)) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u4: T).eq C (CHead c (Flat f) u2) (CHead e0 (Flat f0) u4)) (\lambda (f0: F).\lambda (e0: C).\lambda (u3: T).\lambda (_: T).drop O O (CHead c (Flat f) u1) (CHead e0 (Flat f0) u3)) (\lambda (_: F).\lambda (_: C).\lambda (u3: T).\lambda (u4: T).subst0 O v0 u3 u4)) (ex3_4 F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C (CHead c (Flat f) u2) (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop O O (CHead c (Flat f) u1) (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u4: T).eq C (CHead c (Flat f) u2) (CHead e2 (Flat f0) u4)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u3: T).\lambda (_: T).drop O O (CHead c (Flat f) u1) (CHead e1 (Flat f0) u3)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u3: T).\lambda (u4: T).subst0 O v0 u3 u4) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2)) (ex3_4_intro F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u4: T).eq C (CHead c (Flat f) u2) (CHead e0 (Flat f0) u4)) (\lambda (f0: F).\lambda (e0: C).\lambda (u3: T).\lambda (_: T).drop O O (CHead c (Flat f) u1) (CHead e0 (Flat f0) u3)) (\lambda (_: F).\lambda (_: C).\lambda (u3: T).\lambda (u4: T).subst0 O v0 u3 u4) f c u1 u2 (refl_equal C (CHead c (Flat f) u2)) (drop_refl (CHead c (Flat f) u1)) H4)) k) (\lambda (k: K).K_ind (\lambda (k0: K).\forall (i: nat).\forall (c3: C).\forall (c4: C).\forall (v0: T).(csubst0 i v0 c3 c4) \to (((eq nat i O) \to or4 (drop O O c3 c4) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C c4 (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop O O c3 (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v0 u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C c4 (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop O O c3 (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C c4 (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop O O c3 (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v0 u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2)))) \to \forall (u: T).(eq nat (s k0 i) O) \to or4 (drop O O (CHead c3 k0 u) (CHead c4 k0 u)) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C (CHead c4 k0 u) (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop O O (CHead c3 k0 u) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v0 u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).eq C (CHead c4 k0 u) (CHead e2 (Flat f) u0)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).drop O O (CHead c3 k0 u) (CHead e1 (Flat f) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C (CHead c4 k0 u) (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop O O (CHead c3 k0 u) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v0 u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2))) (\lambda (b: B).\lambda (i: nat).\lambda (c3: C).\lambda (c4: C).\lambda (v0: T).\lambda (_: (csubst0 i v0 c3 c4)).\lambda (_: (((eq nat i O) \to or4 (drop O O c3 c4) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C c4 (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop O O c3 (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v0 u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C c4 (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop O O c3 (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C c4 (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop O O c3 (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v0 u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2))))).\lambda (u: T).\lambda (H4: (eq nat (S i) O)).let H5 \def eq_ind nat (S i) (\lambda (ee: nat).match ee return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H4 in False_ind (or4 (drop O O (CHead c3 (Bind b) u) (CHead c4 (Bind b) u)) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C (CHead c4 (Bind b) u) (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop O O (CHead c3 (Bind b) u) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v0 u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).eq C (CHead c4 (Bind b) u) (CHead e2 (Flat f) u0)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).drop O O (CHead c3 (Bind b) u) (CHead e1 (Flat f) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C (CHead c4 (Bind b) u) (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop O O (CHead c3 (Bind b) u) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v0 u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2))) H5) (\lambda (f: F).\lambda (i: nat).\lambda (c3: C).\lambda (c4: C).\lambda (v0: T).\lambda (H2: (csubst0 i v0 c3 c4)).\lambda (H3: (((eq nat i O) \to or4 (drop O O c3 c4) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C c4 (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop O O c3 (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v0 u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C c4 (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop O O c3 (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C c4 (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop O O c3 (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v0 u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2))))).\lambda (u: T).\lambda (H4: (eq nat i O)).let H5 \def eq_ind nat i (\lambda (n: nat).(eq nat n O) \to or4 (drop O O c3 c4) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C c4 (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop O O c3 (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v0 u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C c4 (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop O O c3 (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C c4 (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop O O c3 (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v0 u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2))) H3 O H4 in let H6 \def eq_ind nat i (\lambda (n: nat).csubst0 n v0 c3 c4) H2 O H4 in or4_intro2 (drop O O (CHead c3 (Flat f) u) (CHead c4 (Flat f) u)) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C (CHead c4 (Flat f) u) (CHead e0 (Flat f0) u2)) (\lambda (f0: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop O O (CHead c3 (Flat f) u) (CHead e0 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v0 u1 u2)) (ex3_4 F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).eq C (CHead c4 (Flat f) u) (CHead e2 (Flat f0) u0)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).drop O O (CHead c3 (Flat f) u) (CHead e1 (Flat f0) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C (CHead c4 (Flat f) u) (CHead e2 (Flat f0) u2)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop O O (CHead c3 (Flat f) u) (CHead e1 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v0 u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2)) (ex3_4_intro F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u0: T).eq C (CHead c4 (Flat f) u) (CHead e2 (Flat f0) u0)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).drop O O (CHead c3 (Flat f) u) (CHead e1 (Flat f0) u0)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2) f c3 c4 u (refl_equal C (CHead c4 (Flat f) u)) (drop_refl (CHead c3 (Flat f) u)) H6)) k) (\lambda (k: K).K_ind (\lambda (k0: K).\forall (i: nat).\forall (v0: T).\forall (u1: T).\forall (u2: T).(subst0 i v0 u1 u2) \to \forall (c3: C).\forall (c4: C).(csubst0 i v0 c3 c4) \to (((eq nat i O) \to or4 (drop O O c3 c4) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C c4 (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop O O c3 (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v0 u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C c4 (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop O O c3 (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C c4 (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop O O c3 (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v0 u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2)))) \to (eq nat (s k0 i) O) \to or4 (drop O O (CHead c3 k0 u1) (CHead c4 k0 u2)) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u4: T).eq C (CHead c4 k0 u2) (CHead e0 (Flat f) u4)) (\lambda (f: F).\lambda (e0: C).\lambda (u3: T).\lambda (_: T).drop O O (CHead c3 k0 u1) (CHead e0 (Flat f) u3)) (\lambda (_: F).\lambda (_: C).\lambda (u3: T).\lambda (u4: T).subst0 O v0 u3 u4)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C (CHead c4 k0 u2) (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop O O (CHead c3 k0 u1) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u4: T).eq C (CHead c4 k0 u2) (CHead e2 (Flat f) u4)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u3: T).\lambda (_: T).drop O O (CHead c3 k0 u1) (CHead e1 (Flat f) u3)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u3: T).\lambda (u4: T).subst0 O v0 u3 u4) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2))) (\lambda (b: B).\lambda (i: nat).\lambda (v0: T).\lambda (u1: T).\lambda (u2: T).\lambda (_: (subst0 i v0 u1 u2)).\lambda (c3: C).\lambda (c4: C).\lambda (_: (csubst0 i v0 c3 c4)).\lambda (_: (((eq nat i O) \to or4 (drop O O c3 c4) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C c4 (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop O O c3 (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v0 u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C c4 (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop O O c3 (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C c4 (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop O O c3 (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v0 u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2))))).\lambda (H5: (eq nat (S i) O)).let H6 \def eq_ind nat (S i) (\lambda (ee: nat).match ee return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H5 in False_ind (or4 (drop O O (CHead c3 (Bind b) u1) (CHead c4 (Bind b) u2)) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u4: T).eq C (CHead c4 (Bind b) u2) (CHead e0 (Flat f) u4)) (\lambda (f: F).\lambda (e0: C).\lambda (u3: T).\lambda (_: T).drop O O (CHead c3 (Bind b) u1) (CHead e0 (Flat f) u3)) (\lambda (_: F).\lambda (_: C).\lambda (u3: T).\lambda (u4: T).subst0 O v0 u3 u4)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C (CHead c4 (Bind b) u2) (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop O O (CHead c3 (Bind b) u1) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u4: T).eq C (CHead c4 (Bind b) u2) (CHead e2 (Flat f) u4)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u3: T).\lambda (_: T).drop O O (CHead c3 (Bind b) u1) (CHead e1 (Flat f) u3)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u3: T).\lambda (u4: T).subst0 O v0 u3 u4) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2))) H6) (\lambda (f: F).\lambda (i: nat).\lambda (v0: T).\lambda (u1: T).\lambda (u2: T).\lambda (H2: (subst0 i v0 u1 u2)).\lambda (c3: C).\lambda (c4: C).\lambda (H3: (csubst0 i v0 c3 c4)).\lambda (H4: (((eq nat i O) \to or4 (drop O O c3 c4) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C c4 (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop O O c3 (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v0 u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C c4 (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop O O c3 (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C c4 (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop O O c3 (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v0 u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2))))).\lambda (H5: (eq nat i O)).let H6 \def eq_ind nat i (\lambda (n: nat).(eq nat n O) \to or4 (drop O O c3 c4) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C c4 (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop O O c3 (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v0 u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C c4 (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop O O c3 (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C c4 (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop O O c3 (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v0 u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2))) H4 O H5 in let H7 \def eq_ind nat i (\lambda (n: nat).csubst0 n v0 c3 c4) H3 O H5 in let H8 \def eq_ind nat i (\lambda (n: nat).subst0 n v0 u1 u2) H2 O H5 in or4_intro3 (drop O O (CHead c3 (Flat f) u1) (CHead c4 (Flat f) u2)) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u4: T).eq C (CHead c4 (Flat f) u2) (CHead e0 (Flat f0) u4)) (\lambda (f0: F).\lambda (e0: C).\lambda (u3: T).\lambda (_: T).drop O O (CHead c3 (Flat f) u1) (CHead e0 (Flat f0) u3)) (\lambda (_: F).\lambda (_: C).\lambda (u3: T).\lambda (u4: T).subst0 O v0 u3 u4)) (ex3_4 F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C (CHead c4 (Flat f) u2) (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop O O (CHead c3 (Flat f) u1) (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u4: T).eq C (CHead c4 (Flat f) u2) (CHead e2 (Flat f0) u4)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u3: T).\lambda (_: T).drop O O (CHead c3 (Flat f) u1) (CHead e1 (Flat f0) u3)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u3: T).\lambda (u4: T).subst0 O v0 u3 u4) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2)) (ex4_5_intro F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u4: T).eq C (CHead c4 (Flat f) u2) (CHead e2 (Flat f0) u4)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u3: T).\lambda (_: T).drop O O (CHead c3 (Flat f) u1) (CHead e1 (Flat f0) u3)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u3: T).\lambda (u4: T).subst0 O v0 u3 u4) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v0 e1 e2) f c3 c4 u1 u2 (refl_equal C (CHead c4 (Flat f) u2)) (drop_refl (CHead c3 (Flat f) u1)) H8 H7)) k) y v c1 c2 H1) H) e (drop_gen_refl c2 e H0)) (\lambda (n0: nat).\lambda (IHn: ((\forall (c1: C).\forall (c2: C).\forall (v: T).(csubst0 n0 v c1 c2) \to \forall (e: C).(drop n0 O c2 e) \to or4 (drop n0 O c1 e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop n0 O c1 (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop n0 O c1 (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop n0 O c1 (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))))).\lambda (c1: C).C_ind (\lambda (c: C).\forall (c2: C).\forall (v: T).(csubst0 (S n0) v c c2) \to \forall (e: C).(drop (S n0) O c2 e) \to or4 (drop (S n0) O c e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O c (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O c (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O c (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (n1: nat).\lambda (c2: C).\lambda (v: T).\lambda (H: (csubst0 (S n0) v (CSort n1) c2)).\lambda (e: C).\lambda (_: (drop (S n0) O c2 e)).csubst0_gen_sort c2 v (S n0) n1 H (or4 (drop (S n0) O (CSort n1) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CSort n1) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CSort n1) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CSort n1) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)))) (\lambda (c: C).\lambda (H: ((\forall (c2: C).\forall (v: T).(csubst0 (S n0) v c c2) \to \forall (e: C).(drop (S n0) O c2 e) \to or4 (drop (S n0) O c e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O c (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O c (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O c (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))))).\lambda (k: K).\lambda (t: T).\lambda (c2: C).\lambda (v: T).\lambda (H0: (csubst0 (S n0) v (CHead c k t) c2)).\lambda (e: C).\lambda (H1: (drop (S n0) O c2 e)).or3_ind (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat (S n0) (s k j)) (\lambda (u2: T).\lambda (_: nat).eq C c2 (CHead c k u2)) (\lambda (u2: T).\lambda (j: nat).subst0 j v t u2)) (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat (S n0) (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k t)) (\lambda (c3: C).\lambda (j: nat).csubst0 j v c c3)) (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat (S n0) (s k j)) (\lambda (u2: T).\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).\lambda (j: nat).subst0 j v t u2) (\lambda (_: T).\lambda (c3: C).\lambda (j: nat).csubst0 j v c c3)) (or4 (drop (S n0) O (CHead c k t) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c k t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c k t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c k t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (H2: (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat (S n0) (s k j)) (\lambda (u2: T).\lambda (_: nat).eq C c2 (CHead c k u2)) (\lambda (u2: T).\lambda (j: nat).subst0 j v t u2))).ex3_2_ind T nat (\lambda (_: T).\lambda (j: nat).eq nat (S n0) (s k j)) (\lambda (u2: T).\lambda (_: nat).eq C c2 (CHead c k u2)) (\lambda (u2: T).\lambda (j: nat).subst0 j v t u2) (or4 (drop (S n0) O (CHead c k t) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c k t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c k t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c k t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (x0: T).\lambda (x1: nat).\lambda (H3: (eq nat (S n0) (s k x1))).\lambda (H4: (eq C c2 (CHead c k x0))).\lambda (H5: (subst0 x1 v t x0)).let H6 \def eq_ind C c2 (\lambda (c: C).drop (S n0) O c e) H1 (CHead c k x0) H4 in (match k return (\lambda (k0: K).(eq nat (S n0) (s k0 x1)) \to (drop (r k0 n0) O c e) \to or4 (drop (S n0) O (CHead c k0 t) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c k0 t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c k0 t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c k0 t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) with [(Bind b) \Rightarrow (\lambda (H7: (eq nat (S n0) (s (Bind b) x1))).\lambda (H8: (drop (r (Bind b) n0) O c e)).let H9 \def f_equal nat nat (\lambda (e0: nat).match e0 return nat with [O \Rightarrow n0 | (S n) \Rightarrow n]) (S n0) (S x1) H7 in let H10 \def eq_ind_r nat x1 (\lambda (n: nat).subst0 n v t x0) H5 n0 H9 in or4_intro0 (drop (S n0) O (CHead c (Bind b) t) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (drop_drop (Bind b) n0 c e H8 t)) | (Flat f) \Rightarrow (\lambda (H7: (eq nat (S n0) (s (Flat f) x1))).\lambda (H8: (drop (r (Flat f) n0) O c e)).let H9 \def f_equal nat nat (\lambda (e0: nat).e0) (S n0) x1 H7 in let H10 \def eq_ind_r nat x1 (\lambda (n: nat).subst0 n v t x0) H5 (S n0) H9 in or4_intro0 (drop (S n0) O (CHead c (Flat f) t) e) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f0) u2)) (\lambda (f0: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e0 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f0) u2)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (drop_drop (Flat f) n0 c e H8 t))]) H3 (drop_gen_drop k c e x0 n0 H6)) H2) (\lambda (H2: (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat (S n0) (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k t)) (\lambda (c2: C).\lambda (j: nat).csubst0 j v c c2))).ex3_2_ind C nat (\lambda (_: C).\lambda (j: nat).eq nat (S n0) (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k t)) (\lambda (c3: C).\lambda (j: nat).csubst0 j v c c3) (or4 (drop (S n0) O (CHead c k t) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c k t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c k t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c k t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (x0: C).\lambda (x1: nat).\lambda (H3: (eq nat (S n0) (s k x1))).\lambda (H4: (eq C c2 (CHead x0 k t))).\lambda (H5: (csubst0 x1 v c x0)).let H6 \def eq_ind C c2 (\lambda (c: C).drop (S n0) O c e) H1 (CHead x0 k t) H4 in (match k return (\lambda (k0: K).(eq nat (S n0) (s k0 x1)) \to (drop (r k0 n0) O x0 e) \to or4 (drop (S n0) O (CHead c k0 t) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c k0 t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c k0 t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c k0 t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) with [(Bind b) \Rightarrow (\lambda (H7: (eq nat (S n0) (s (Bind b) x1))).\lambda (H8: (drop (r (Bind b) n0) O x0 e)).let H9 \def f_equal nat nat (\lambda (e0: nat).match e0 return nat with [O \Rightarrow n0 | (S n) \Rightarrow n]) (S n0) (S x1) H7 in let H10 \def eq_ind_r nat x1 (\lambda (n: nat).csubst0 n v c x0) H5 n0 H9 in let H11 \def IHn c x0 v H10 e H8 in or4_ind (drop n0 O c e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop n0 O c (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop n0 O c (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop n0 O c (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (or4 (drop (S n0) O (CHead c (Bind b) t) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (H12: (drop n0 O c e)).or4_intro0 (drop (S n0) O (CHead c (Bind b) t) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (drop_drop (Bind b) n0 c e H12 t)) (\lambda (H12: (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop n0 O c (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2))).ex3_4_ind F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop n0 O c (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (or4 (drop (S n0) O (CHead c (Bind b) t) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (x2: F).\lambda (x3: C).\lambda (x4: T).\lambda (x5: T).\lambda (H13: (eq C e (CHead x3 (Flat x2) x5))).\lambda (H14: (drop n0 O c (CHead x3 (Flat x2) x4))).\lambda (H15: (subst0 O v x4 x5)).eq_ind_r C (CHead x3 (Flat x2) x5) (\lambda (c0: C).or4 (drop (S n0) O (CHead c (Bind b) t) c0) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C c0 (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C c0 (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C c0 (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (or4_intro1 (drop (S n0) O (CHead c (Bind b) t) (CHead x3 (Flat x2) x5)) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x3 (Flat x2) x5) (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C (CHead x3 (Flat x2) x5) (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x3 (Flat x2) x5) (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (ex3_4_intro F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x3 (Flat x2) x5) (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) x2 x3 x4 x5 (refl_equal C (CHead x3 (Flat x2) x5)) (drop_drop (Bind b) n0 c (CHead x3 (Flat x2) x4) H14 t) H15)) e H13) H12) (\lambda (H12: (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop n0 O c (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2))).ex3_4_ind F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop n0 O c (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2) (or4 (drop (S n0) O (CHead c (Bind b) t) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (x2: F).\lambda (x3: C).\lambda (x4: C).\lambda (x5: T).\lambda (H13: (eq C e (CHead x4 (Flat x2) x5))).\lambda (H14: (drop n0 O c (CHead x3 (Flat x2) x5))).\lambda (H15: (csubst0 O v x3 x4)).eq_ind_r C (CHead x4 (Flat x2) x5) (\lambda (c0: C).or4 (drop (S n0) O (CHead c (Bind b) t) c0) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C c0 (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C c0 (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C c0 (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (or4_intro2 (drop (S n0) O (CHead c (Bind b) t) (CHead x4 (Flat x2) x5)) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x4 (Flat x2) x5) (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C (CHead x4 (Flat x2) x5) (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x4 (Flat x2) x5) (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (ex3_4_intro F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C (CHead x4 (Flat x2) x5) (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2) x2 x3 x4 x5 (refl_equal C (CHead x4 (Flat x2) x5)) (drop_drop (Bind b) n0 c (CHead x3 (Flat x2) x5) H14 t) H15)) e H13) H12) (\lambda (H12: (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop n0 O c (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))).ex4_5_ind F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop n0 O c (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2) (or4 (drop (S n0) O (CHead c (Bind b) t) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (x2: F).\lambda (x3: C).\lambda (x4: C).\lambda (x5: T).\lambda (x6: T).\lambda (H13: (eq C e (CHead x4 (Flat x2) x6))).\lambda (H14: (drop n0 O c (CHead x3 (Flat x2) x5))).\lambda (H15: (subst0 O v x5 x6)).\lambda (H16: (csubst0 O v x3 x4)).eq_ind_r C (CHead x4 (Flat x2) x6) (\lambda (c0: C).or4 (drop (S n0) O (CHead c (Bind b) t) c0) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C c0 (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C c0 (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C c0 (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (or4_intro3 (drop (S n0) O (CHead c (Bind b) t) (CHead x4 (Flat x2) x6)) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x4 (Flat x2) x6) (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C (CHead x4 (Flat x2) x6) (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x4 (Flat x2) x6) (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5_intro F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x4 (Flat x2) x6) (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2) x2 x3 x4 x5 x6 (refl_equal C (CHead x4 (Flat x2) x6)) (drop_drop (Bind b) n0 c (CHead x3 (Flat x2) x5) H14 t) H15 H16)) e H13) H12) H11) | (Flat f) \Rightarrow (\lambda (H7: (eq nat (S n0) (s (Flat f) x1))).\lambda (H8: (drop (r (Flat f) n0) O x0 e)).let H9 \def f_equal nat nat (\lambda (e0: nat).e0) (S n0) x1 H7 in let H10 \def eq_ind_r nat x1 (\lambda (n: nat).csubst0 n v c x0) H5 (S n0) H9 in let H11 \def H x0 v H10 e H8 in or4_ind (drop (S n0) O c e) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f0) u2)) (\lambda (f0: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O c (CHead e0 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O c (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f0) u2)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O c (CHead e1 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (or4 (drop (S n0) O (CHead c (Flat f) t) e) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f0) u2)) (\lambda (f0: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e0 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f0) u2)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (H12: (drop (S n0) O c e)).or4_intro0 (drop (S n0) O (CHead c (Flat f) t) e) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f0) u2)) (\lambda (f0: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e0 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f0) u2)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (drop_drop (Flat f) n0 c e H12 t)) (\lambda (H12: (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O c (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2))).ex3_4_ind F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f0) u2)) (\lambda (f0: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O c (CHead e0 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (or4 (drop (S n0) O (CHead c (Flat f) t) e) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f0) u2)) (\lambda (f0: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e0 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f0) u2)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (x2: F).\lambda (x3: C).\lambda (x4: T).\lambda (x5: T).\lambda (H13: (eq C e (CHead x3 (Flat x2) x5))).\lambda (H14: (drop (S n0) O c (CHead x3 (Flat x2) x4))).\lambda (H15: (subst0 O v x4 x5)).eq_ind_r C (CHead x3 (Flat x2) x5) (\lambda (c0: C).or4 (drop (S n0) O (CHead c (Flat f) t) c0) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C c0 (CHead e0 (Flat f0) u2)) (\lambda (f0: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e0 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C c0 (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C c0 (CHead e2 (Flat f0) u2)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (or4_intro1 (drop (S n0) O (CHead c (Flat f) t) (CHead x3 (Flat x2) x5)) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x3 (Flat x2) x5) (CHead e0 (Flat f0) u2)) (\lambda (f0: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e0 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C (CHead x3 (Flat x2) x5) (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x3 (Flat x2) x5) (CHead e2 (Flat f0) u2)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (ex3_4_intro F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x3 (Flat x2) x5) (CHead e0 (Flat f0) u2)) (\lambda (f0: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e0 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) x2 x3 x4 x5 (refl_equal C (CHead x3 (Flat x2) x5)) (drop_drop (Flat f) n0 c (CHead x3 (Flat x2) x4) H14 t) H15)) e H13) H12) (\lambda (H12: (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O c (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2))).ex3_4_ind F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O c (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2) (or4 (drop (S n0) O (CHead c (Flat f) t) e) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f0) u2)) (\lambda (f0: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e0 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f0) u2)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (x2: F).\lambda (x3: C).\lambda (x4: C).\lambda (x5: T).\lambda (H13: (eq C e (CHead x4 (Flat x2) x5))).\lambda (H14: (drop (S n0) O c (CHead x3 (Flat x2) x5))).\lambda (H15: (csubst0 O v x3 x4)).eq_ind_r C (CHead x4 (Flat x2) x5) (\lambda (c0: C).or4 (drop (S n0) O (CHead c (Flat f) t) c0) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C c0 (CHead e0 (Flat f0) u2)) (\lambda (f0: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e0 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C c0 (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C c0 (CHead e2 (Flat f0) u2)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (or4_intro2 (drop (S n0) O (CHead c (Flat f) t) (CHead x4 (Flat x2) x5)) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x4 (Flat x2) x5) (CHead e0 (Flat f0) u2)) (\lambda (f0: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e0 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C (CHead x4 (Flat x2) x5) (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x4 (Flat x2) x5) (CHead e2 (Flat f0) u2)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (ex3_4_intro F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C (CHead x4 (Flat x2) x5) (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2) x2 x3 x4 x5 (refl_equal C (CHead x4 (Flat x2) x5)) (drop_drop (Flat f) n0 c (CHead x3 (Flat x2) x5) H14 t) H15)) e H13) H12) (\lambda (H12: (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O c (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))).ex4_5_ind F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f0) u2)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O c (CHead e1 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2) (or4 (drop (S n0) O (CHead c (Flat f) t) e) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f0) u2)) (\lambda (f0: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e0 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f0) u2)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (x2: F).\lambda (x3: C).\lambda (x4: C).\lambda (x5: T).\lambda (x6: T).\lambda (H13: (eq C e (CHead x4 (Flat x2) x6))).\lambda (H14: (drop (S n0) O c (CHead x3 (Flat x2) x5))).\lambda (H15: (subst0 O v x5 x6)).\lambda (H16: (csubst0 O v x3 x4)).eq_ind_r C (CHead x4 (Flat x2) x6) (\lambda (c0: C).or4 (drop (S n0) O (CHead c (Flat f) t) c0) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C c0 (CHead e0 (Flat f0) u2)) (\lambda (f0: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e0 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C c0 (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C c0 (CHead e2 (Flat f0) u2)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (or4_intro3 (drop (S n0) O (CHead c (Flat f) t) (CHead x4 (Flat x2) x6)) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x4 (Flat x2) x6) (CHead e0 (Flat f0) u2)) (\lambda (f0: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e0 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C (CHead x4 (Flat x2) x6) (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x4 (Flat x2) x6) (CHead e2 (Flat f0) u2)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5_intro F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x4 (Flat x2) x6) (CHead e2 (Flat f0) u2)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2) x2 x3 x4 x5 x6 (refl_equal C (CHead x4 (Flat x2) x6)) (drop_drop (Flat f) n0 c (CHead x3 (Flat x2) x5) H14 t) H15 H16)) e H13) H12) H11)]) H3 (drop_gen_drop k x0 e t n0 H6)) H2) (\lambda (H2: (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat (S n0) (s k j)) (\lambda (u2: T).\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).\lambda (j: nat).subst0 j v t u2) (\lambda (_: T).\lambda (c2: C).\lambda (j: nat).csubst0 j v c c2))).ex4_3_ind T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat (S n0) (s k j)) (\lambda (u2: T).\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).\lambda (j: nat).subst0 j v t u2) (\lambda (_: T).\lambda (c3: C).\lambda (j: nat).csubst0 j v c c3) (or4 (drop (S n0) O (CHead c k t) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c k t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c k t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c k t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (x0: T).\lambda (x1: C).\lambda (x2: nat).\lambda (H3: (eq nat (S n0) (s k x2))).\lambda (H4: (eq C c2 (CHead x1 k x0))).\lambda (H5: (subst0 x2 v t x0)).\lambda (H6: (csubst0 x2 v c x1)).let H7 \def eq_ind C c2 (\lambda (c: C).drop (S n0) O c e) H1 (CHead x1 k x0) H4 in (match k return (\lambda (k0: K).(eq nat (S n0) (s k0 x2)) \to (drop (r k0 n0) O x1 e) \to or4 (drop (S n0) O (CHead c k0 t) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c k0 t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c k0 t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c k0 t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) with [(Bind b) \Rightarrow (\lambda (H8: (eq nat (S n0) (s (Bind b) x2))).\lambda (H9: (drop (r (Bind b) n0) O x1 e)).let H10 \def f_equal nat nat (\lambda (e0: nat).match e0 return nat with [O \Rightarrow n0 | (S n) \Rightarrow n]) (S n0) (S x2) H8 in let H11 \def eq_ind_r nat x2 (\lambda (n: nat).csubst0 n v c x1) H6 n0 H10 in let H12 \def eq_ind_r nat x2 (\lambda (n: nat).subst0 n v t x0) H5 n0 H10 in let H13 \def IHn c x1 v H11 e H9 in or4_ind (drop n0 O c e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop n0 O c (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop n0 O c (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop n0 O c (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (or4 (drop (S n0) O (CHead c (Bind b) t) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (H14: (drop n0 O c e)).or4_intro0 (drop (S n0) O (CHead c (Bind b) t) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (drop_drop (Bind b) n0 c e H14 t)) (\lambda (H14: (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop n0 O c (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2))).ex3_4_ind F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop n0 O c (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (or4 (drop (S n0) O (CHead c (Bind b) t) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (x3: F).\lambda (x4: C).\lambda (x5: T).\lambda (x6: T).\lambda (H15: (eq C e (CHead x4 (Flat x3) x6))).\lambda (H16: (drop n0 O c (CHead x4 (Flat x3) x5))).\lambda (H17: (subst0 O v x5 x6)).eq_ind_r C (CHead x4 (Flat x3) x6) (\lambda (c0: C).or4 (drop (S n0) O (CHead c (Bind b) t) c0) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C c0 (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C c0 (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C c0 (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (or4_intro1 (drop (S n0) O (CHead c (Bind b) t) (CHead x4 (Flat x3) x6)) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x4 (Flat x3) x6) (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C (CHead x4 (Flat x3) x6) (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x4 (Flat x3) x6) (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (ex3_4_intro F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x4 (Flat x3) x6) (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) x3 x4 x5 x6 (refl_equal C (CHead x4 (Flat x3) x6)) (drop_drop (Bind b) n0 c (CHead x4 (Flat x3) x5) H16 t) H17)) e H15) H14) (\lambda (H14: (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop n0 O c (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2))).ex3_4_ind F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop n0 O c (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2) (or4 (drop (S n0) O (CHead c (Bind b) t) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (x3: F).\lambda (x4: C).\lambda (x5: C).\lambda (x6: T).\lambda (H15: (eq C e (CHead x5 (Flat x3) x6))).\lambda (H16: (drop n0 O c (CHead x4 (Flat x3) x6))).\lambda (H17: (csubst0 O v x4 x5)).eq_ind_r C (CHead x5 (Flat x3) x6) (\lambda (c0: C).or4 (drop (S n0) O (CHead c (Bind b) t) c0) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C c0 (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C c0 (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C c0 (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (or4_intro2 (drop (S n0) O (CHead c (Bind b) t) (CHead x5 (Flat x3) x6)) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x5 (Flat x3) x6) (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C (CHead x5 (Flat x3) x6) (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x5 (Flat x3) x6) (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (ex3_4_intro F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C (CHead x5 (Flat x3) x6) (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2) x3 x4 x5 x6 (refl_equal C (CHead x5 (Flat x3) x6)) (drop_drop (Bind b) n0 c (CHead x4 (Flat x3) x6) H16 t) H17)) e H15) H14) (\lambda (H14: (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop n0 O c (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))).ex4_5_ind F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop n0 O c (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2) (or4 (drop (S n0) O (CHead c (Bind b) t) e) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (x3: F).\lambda (x4: C).\lambda (x5: C).\lambda (x6: T).\lambda (x7: T).\lambda (H15: (eq C e (CHead x5 (Flat x3) x7))).\lambda (H16: (drop n0 O c (CHead x4 (Flat x3) x6))).\lambda (H17: (subst0 O v x6 x7)).\lambda (H18: (csubst0 O v x4 x5)).eq_ind_r C (CHead x5 (Flat x3) x7) (\lambda (c0: C).or4 (drop (S n0) O (CHead c (Bind b) t) c0) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C c0 (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C c0 (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C c0 (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (or4_intro3 (drop (S n0) O (CHead c (Bind b) t) (CHead x5 (Flat x3) x7)) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x5 (Flat x3) x7) (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C (CHead x5 (Flat x3) x7) (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x5 (Flat x3) x7) (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5_intro F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x5 (Flat x3) x7) (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Bind b) t) (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2) x3 x4 x5 x6 x7 (refl_equal C (CHead x5 (Flat x3) x7)) (drop_drop (Bind b) n0 c (CHead x4 (Flat x3) x6) H16 t) H17 H18)) e H15) H14) H13) | (Flat f) \Rightarrow (\lambda (H8: (eq nat (S n0) (s (Flat f) x2))).\lambda (H9: (drop (r (Flat f) n0) O x1 e)).let H10 \def f_equal nat nat (\lambda (e0: nat).e0) (S n0) x2 H8 in let H11 \def eq_ind_r nat x2 (\lambda (n: nat).csubst0 n v c x1) H6 (S n0) H10 in let H12 \def eq_ind_r nat x2 (\lambda (n: nat).subst0 n v t x0) H5 (S n0) H10 in let H13 \def H x1 v H11 e H9 in or4_ind (drop (S n0) O c e) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f0) u2)) (\lambda (f0: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O c (CHead e0 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O c (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f0) u2)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O c (CHead e1 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (or4 (drop (S n0) O (CHead c (Flat f) t) e) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f0) u2)) (\lambda (f0: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e0 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f0) u2)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (H14: (drop (S n0) O c e)).or4_intro0 (drop (S n0) O (CHead c (Flat f) t) e) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f0) u2)) (\lambda (f0: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e0 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f0) u2)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (drop_drop (Flat f) n0 c e H14 t)) (\lambda (H14: (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O c (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2))).ex3_4_ind F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f0) u2)) (\lambda (f0: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O c (CHead e0 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (or4 (drop (S n0) O (CHead c (Flat f) t) e) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f0) u2)) (\lambda (f0: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e0 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f0) u2)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (x3: F).\lambda (x4: C).\lambda (x5: T).\lambda (x6: T).\lambda (H15: (eq C e (CHead x4 (Flat x3) x6))).\lambda (H16: (drop (S n0) O c (CHead x4 (Flat x3) x5))).\lambda (H17: (subst0 O v x5 x6)).eq_ind_r C (CHead x4 (Flat x3) x6) (\lambda (c0: C).or4 (drop (S n0) O (CHead c (Flat f) t) c0) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C c0 (CHead e0 (Flat f0) u2)) (\lambda (f0: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e0 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C c0 (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C c0 (CHead e2 (Flat f0) u2)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (or4_intro1 (drop (S n0) O (CHead c (Flat f) t) (CHead x4 (Flat x3) x6)) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x4 (Flat x3) x6) (CHead e0 (Flat f0) u2)) (\lambda (f0: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e0 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C (CHead x4 (Flat x3) x6) (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x4 (Flat x3) x6) (CHead e2 (Flat f0) u2)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (ex3_4_intro F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x4 (Flat x3) x6) (CHead e0 (Flat f0) u2)) (\lambda (f0: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e0 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) x3 x4 x5 x6 (refl_equal C (CHead x4 (Flat x3) x6)) (drop_drop (Flat f) n0 c (CHead x4 (Flat x3) x5) H16 t) H17)) e H15) H14) (\lambda (H14: (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O c (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2))).ex3_4_ind F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O c (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2) (or4 (drop (S n0) O (CHead c (Flat f) t) e) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f0) u2)) (\lambda (f0: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e0 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f0) u2)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (x3: F).\lambda (x4: C).\lambda (x5: C).\lambda (x6: T).\lambda (H15: (eq C e (CHead x5 (Flat x3) x6))).\lambda (H16: (drop (S n0) O c (CHead x4 (Flat x3) x6))).\lambda (H17: (csubst0 O v x4 x5)).eq_ind_r C (CHead x5 (Flat x3) x6) (\lambda (c0: C).or4 (drop (S n0) O (CHead c (Flat f) t) c0) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C c0 (CHead e0 (Flat f0) u2)) (\lambda (f0: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e0 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C c0 (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C c0 (CHead e2 (Flat f0) u2)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (or4_intro2 (drop (S n0) O (CHead c (Flat f) t) (CHead x5 (Flat x3) x6)) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x5 (Flat x3) x6) (CHead e0 (Flat f0) u2)) (\lambda (f0: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e0 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C (CHead x5 (Flat x3) x6) (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x5 (Flat x3) x6) (CHead e2 (Flat f0) u2)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (ex3_4_intro F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C (CHead x5 (Flat x3) x6) (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2) x3 x4 x5 x6 (refl_equal C (CHead x5 (Flat x3) x6)) (drop_drop (Flat f) n0 c (CHead x4 (Flat x3) x6) H16 t) H17)) e H15) H14) (\lambda (H14: (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O c (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))).ex4_5_ind F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f0) u2)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O c (CHead e1 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2) (or4 (drop (S n0) O (CHead c (Flat f) t) e) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e0 (Flat f0) u2)) (\lambda (f0: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e0 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C e (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C e (CHead e2 (Flat f0) u2)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (\lambda (x3: F).\lambda (x4: C).\lambda (x5: C).\lambda (x6: T).\lambda (x7: T).\lambda (H15: (eq C e (CHead x5 (Flat x3) x7))).\lambda (H16: (drop (S n0) O c (CHead x4 (Flat x3) x6))).\lambda (H17: (subst0 O v x6 x7)).\lambda (H18: (csubst0 O v x4 x5)).eq_ind_r C (CHead x5 (Flat x3) x7) (\lambda (c0: C).or4 (drop (S n0) O (CHead c (Flat f) t) c0) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C c0 (CHead e0 (Flat f0) u2)) (\lambda (f0: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e0 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C c0 (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C c0 (CHead e2 (Flat f0) u2)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))) (or4_intro3 (drop (S n0) O (CHead c (Flat f) t) (CHead x5 (Flat x3) x7)) (ex3_4 F C T T (\lambda (f0: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x5 (Flat x3) x7) (CHead e0 (Flat f0) u2)) (\lambda (f0: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e0 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C (CHead x5 (Flat x3) x7) (CHead e2 (Flat f0) u)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x5 (Flat x3) x7) (CHead e2 (Flat f0) u2)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5_intro F C C T T (\lambda (f0: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C (CHead x5 (Flat x3) x7) (CHead e2 (Flat f0) u2)) (\lambda (f0: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop (S n0) O (CHead c (Flat f) t) (CHead e1 (Flat f0) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2) x3 x4 x5 x6 x7 (refl_equal C (CHead x5 (Flat x3) x7)) (drop_drop (Flat f) n0 c (CHead x4 (Flat x3) x6) H16 t) H17 H18)) e H15) H14) H13)]) H3 (drop_gen_drop k x1 e x0 n0 H7)) H2) (csubst0_gen_head k c c2 t v (S n0) H0)) c1) n.
+
+theorem csubst0_clear_O: \forall (c1: C).\forall (c2: C).\forall (v: T).(csubst0 O v c1 c2) \to \forall (c: C).(clear c1 c) \to clear c2 c \def \lambda (c1: C).C_ind (\lambda (c: C).\forall (c2: C).\forall (v: T).(csubst0 O v c c2) \to \forall (c0: C).(clear c c0) \to clear c2 c0) (\lambda (n: nat).\lambda (c2: C).\lambda (v: T).\lambda (H: (csubst0 O v (CSort n) c2)).\lambda (c: C).\lambda (_: (clear (CSort n) c)).csubst0_gen_sort c2 v O n H (clear c2 c)) (\lambda (c: C).\lambda (H: ((\forall (c2: C).\forall (v: T).(csubst0 O v c c2) \to \forall (c0: C).(clear c c0) \to clear c2 c0))).\lambda (k: K).\lambda (t: T).\lambda (c2: C).\lambda (v: T).\lambda (H0: (csubst0 O v (CHead c k t) c2)).\lambda (c0: C).\lambda (H1: (clear (CHead c k t) c0)).or3_ind (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat O (s k j)) (\lambda (u2: T).\lambda (_: nat).eq C c2 (CHead c k u2)) (\lambda (u2: T).\lambda (j: nat).subst0 j v t u2)) (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat O (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k t)) (\lambda (c3: C).\lambda (j: nat).csubst0 j v c c3)) (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat O (s k j)) (\lambda (u2: T).\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).\lambda (j: nat).subst0 j v t u2) (\lambda (_: T).\lambda (c3: C).\lambda (j: nat).csubst0 j v c c3)) (clear c2 c0) (\lambda (H2: (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat O (s k j)) (\lambda (u2: T).\lambda (_: nat).eq C c2 (CHead c k u2)) (\lambda (u2: T).\lambda (j: nat).subst0 j v t u2))).ex3_2_ind T nat (\lambda (_: T).\lambda (j: nat).eq nat O (s k j)) (\lambda (u2: T).\lambda (_: nat).eq C c2 (CHead c k u2)) (\lambda (u2: T).\lambda (j: nat).subst0 j v t u2) (clear c2 c0) (\lambda (x0: T).\lambda (x1: nat).\lambda (H3: (eq nat O (s k x1))).\lambda (H4: (eq C c2 (CHead c k x0))).\lambda (H5: (subst0 x1 v t x0)).eq_ind_r C (CHead c k x0) (\lambda (c3: C).clear c3 c0) ((match k return (\lambda (k0: K).(clear (CHead c k0 t) c0) \to (eq nat O (s k0 x1)) \to clear (CHead c k0 x0) c0) with [(Bind b) \Rightarrow (\lambda (_: (clear (CHead c (Bind b) t) c0)).\lambda (H7: (eq nat O (s (Bind b) x1))).let H8 \def eq_ind nat O (\lambda (ee: nat).match ee return (Prop) with [O \Rightarrow True | (S _) \Rightarrow False]) I (S x1) H7 in False_ind (clear (CHead c (Bind b) x0) c0) H8) | (Flat f) \Rightarrow (\lambda (H6: (clear (CHead c (Flat f) t) c0)).\lambda (H7: (eq nat O (s (Flat f) x1))).let H8 \def eq_ind_r nat x1 (\lambda (n: nat).subst0 n v t x0) H5 O H7 in clear_flat c c0 (clear_gen_flat f c c0 t H6) f x0)]) H1 H3) c2 H4) H2) (\lambda (H2: (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat O (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k t)) (\lambda (c2: C).\lambda (j: nat).csubst0 j v c c2))).ex3_2_ind C nat (\lambda (_: C).\lambda (j: nat).eq nat O (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k t)) (\lambda (c3: C).\lambda (j: nat).csubst0 j v c c3) (clear c2 c0) (\lambda (x0: C).\lambda (x1: nat).\lambda (H3: (eq nat O (s k x1))).\lambda (H4: (eq C c2 (CHead x0 k t))).\lambda (H5: (csubst0 x1 v c x0)).eq_ind_r C (CHead x0 k t) (\lambda (c3: C).clear c3 c0) ((match k return (\lambda (k0: K).(clear (CHead c k0 t) c0) \to (eq nat O (s k0 x1)) \to clear (CHead x0 k0 t) c0) with [(Bind b) \Rightarrow (\lambda (_: (clear (CHead c (Bind b) t) c0)).\lambda (H7: (eq nat O (s (Bind b) x1))).let H8 \def eq_ind nat O (\lambda (ee: nat).match ee return (Prop) with [O \Rightarrow True | (S _) \Rightarrow False]) I (S x1) H7 in False_ind (clear (CHead x0 (Bind b) t) c0) H8) | (Flat f) \Rightarrow (\lambda (H6: (clear (CHead c (Flat f) t) c0)).\lambda (H7: (eq nat O (s (Flat f) x1))).let H8 \def eq_ind_r nat x1 (\lambda (n: nat).csubst0 n v c x0) H5 O H7 in clear_flat x0 c0 (H x0 v H8 c0 (clear_gen_flat f c c0 t H6)) f t)]) H1 H3) c2 H4) H2) (\lambda (H2: (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat O (s k j)) (\lambda (u2: T).\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).\lambda (j: nat).subst0 j v t u2) (\lambda (_: T).\lambda (c2: C).\lambda (j: nat).csubst0 j v c c2))).ex4_3_ind T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat O (s k j)) (\lambda (u2: T).\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).\lambda (j: nat).subst0 j v t u2) (\lambda (_: T).\lambda (c3: C).\lambda (j: nat).csubst0 j v c c3) (clear c2 c0) (\lambda (x0: T).\lambda (x1: C).\lambda (x2: nat).\lambda (H3: (eq nat O (s k x2))).\lambda (H4: (eq C c2 (CHead x1 k x0))).\lambda (H5: (subst0 x2 v t x0)).\lambda (H6: (csubst0 x2 v c x1)).eq_ind_r C (CHead x1 k x0) (\lambda (c3: C).clear c3 c0) ((match k return (\lambda (k0: K).(clear (CHead c k0 t) c0) \to (eq nat O (s k0 x2)) \to clear (CHead x1 k0 x0) c0) with [(Bind b) \Rightarrow (\lambda (_: (clear (CHead c (Bind b) t) c0)).\lambda (H8: (eq nat O (s (Bind b) x2))).let H9 \def eq_ind nat O (\lambda (ee: nat).match ee return (Prop) with [O \Rightarrow True | (S _) \Rightarrow False]) I (S x2) H8 in False_ind (clear (CHead x1 (Bind b) x0) c0) H9) | (Flat f) \Rightarrow (\lambda (H7: (clear (CHead c (Flat f) t) c0)).\lambda (H8: (eq nat O (s (Flat f) x2))).let H9 \def eq_ind_r nat x2 (\lambda (n: nat).csubst0 n v c x1) H6 O H8 in let H10 \def eq_ind_r nat x2 (\lambda (n: nat).subst0 n v t x0) H5 O H8 in clear_flat x1 c0 (H x1 v H9 c0 (clear_gen_flat f c c0 t H7)) f x0)]) H1 H3) c2 H4) H2) (csubst0_gen_head k c c2 t v O H0)) c1.
+
+theorem csubst0_clear_O_back: \forall (c1: C).\forall (c2: C).\forall (v: T).(csubst0 O v c1 c2) \to \forall (c: C).(clear c2 c) \to clear c1 c \def \lambda (c1: C).C_ind (\lambda (c: C).\forall (c2: C).\forall (v: T).(csubst0 O v c c2) \to \forall (c0: C).(clear c2 c0) \to clear c c0) (\lambda (n: nat).\lambda (c2: C).\lambda (v: T).\lambda (H: (csubst0 O v (CSort n) c2)).\lambda (c: C).\lambda (_: (clear c2 c)).csubst0_gen_sort c2 v O n H (clear (CSort n) c)) (\lambda (c: C).\lambda (H: ((\forall (c2: C).\forall (v: T).(csubst0 O v c c2) \to \forall (c0: C).(clear c2 c0) \to clear c c0))).\lambda (k: K).\lambda (t: T).\lambda (c2: C).\lambda (v: T).\lambda (H0: (csubst0 O v (CHead c k t) c2)).\lambda (c0: C).\lambda (H1: (clear c2 c0)).or3_ind (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat O (s k j)) (\lambda (u2: T).\lambda (_: nat).eq C c2 (CHead c k u2)) (\lambda (u2: T).\lambda (j: nat).subst0 j v t u2)) (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat O (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k t)) (\lambda (c3: C).\lambda (j: nat).csubst0 j v c c3)) (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat O (s k j)) (\lambda (u2: T).\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).\lambda (j: nat).subst0 j v t u2) (\lambda (_: T).\lambda (c3: C).\lambda (j: nat).csubst0 j v c c3)) (clear (CHead c k t) c0) (\lambda (H2: (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat O (s k j)) (\lambda (u2: T).\lambda (_: nat).eq C c2 (CHead c k u2)) (\lambda (u2: T).\lambda (j: nat).subst0 j v t u2))).ex3_2_ind T nat (\lambda (_: T).\lambda (j: nat).eq nat O (s k j)) (\lambda (u2: T).\lambda (_: nat).eq C c2 (CHead c k u2)) (\lambda (u2: T).\lambda (j: nat).subst0 j v t u2) (clear (CHead c k t) c0) (\lambda (x0: T).\lambda (x1: nat).\lambda (H3: (eq nat O (s k x1))).\lambda (H4: (eq C c2 (CHead c k x0))).\lambda (H5: (subst0 x1 v t x0)).let H6 \def eq_ind C c2 (\lambda (c: C).clear c c0) H1 (CHead c k x0) H4 in (match k return (\lambda (k0: K).(eq nat O (s k0 x1)) \to (clear (CHead c k0 x0) c0) \to clear (CHead c k0 t) c0) with [(Bind b) \Rightarrow (\lambda (H7: (eq nat O (s (Bind b) x1))).\lambda (_: (clear (CHead c (Bind b) x0) c0)).let H9 \def eq_ind nat O (\lambda (ee: nat).match ee return (Prop) with [O \Rightarrow True | (S _) \Rightarrow False]) I (S x1) H7 in False_ind (clear (CHead c (Bind b) t) c0) H9) | (Flat f) \Rightarrow (\lambda (H7: (eq nat O (s (Flat f) x1))).\lambda (H8: (clear (CHead c (Flat f) x0) c0)).let H9 \def eq_ind_r nat x1 (\lambda (n: nat).subst0 n v t x0) H5 O H7 in clear_flat c c0 (clear_gen_flat f c c0 x0 H8) f t)]) H3 H6) H2) (\lambda (H2: (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat O (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k t)) (\lambda (c2: C).\lambda (j: nat).csubst0 j v c c2))).ex3_2_ind C nat (\lambda (_: C).\lambda (j: nat).eq nat O (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k t)) (\lambda (c3: C).\lambda (j: nat).csubst0 j v c c3) (clear (CHead c k t) c0) (\lambda (x0: C).\lambda (x1: nat).\lambda (H3: (eq nat O (s k x1))).\lambda (H4: (eq C c2 (CHead x0 k t))).\lambda (H5: (csubst0 x1 v c x0)).let H6 \def eq_ind C c2 (\lambda (c: C).clear c c0) H1 (CHead x0 k t) H4 in (match k return (\lambda (k0: K).(eq nat O (s k0 x1)) \to (clear (CHead x0 k0 t) c0) \to clear (CHead c k0 t) c0) with [(Bind b) \Rightarrow (\lambda (H7: (eq nat O (s (Bind b) x1))).\lambda (_: (clear (CHead x0 (Bind b) t) c0)).let H9 \def eq_ind nat O (\lambda (ee: nat).match ee return (Prop) with [O \Rightarrow True | (S _) \Rightarrow False]) I (S x1) H7 in False_ind (clear (CHead c (Bind b) t) c0) H9) | (Flat f) \Rightarrow (\lambda (H7: (eq nat O (s (Flat f) x1))).\lambda (H8: (clear (CHead x0 (Flat f) t) c0)).let H9 \def eq_ind_r nat x1 (\lambda (n: nat).csubst0 n v c x0) H5 O H7 in clear_flat c c0 (H x0 v H9 c0 (clear_gen_flat f x0 c0 t H8)) f t)]) H3 H6) H2) (\lambda (H2: (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat O (s k j)) (\lambda (u2: T).\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).\lambda (j: nat).subst0 j v t u2) (\lambda (_: T).\lambda (c2: C).\lambda (j: nat).csubst0 j v c c2))).ex4_3_ind T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat O (s k j)) (\lambda (u2: T).\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).\lambda (j: nat).subst0 j v t u2) (\lambda (_: T).\lambda (c3: C).\lambda (j: nat).csubst0 j v c c3) (clear (CHead c k t) c0) (\lambda (x0: T).\lambda (x1: C).\lambda (x2: nat).\lambda (H3: (eq nat O (s k x2))).\lambda (H4: (eq C c2 (CHead x1 k x0))).\lambda (H5: (subst0 x2 v t x0)).\lambda (H6: (csubst0 x2 v c x1)).let H7 \def eq_ind C c2 (\lambda (c: C).clear c c0) H1 (CHead x1 k x0) H4 in (match k return (\lambda (k0: K).(eq nat O (s k0 x2)) \to (clear (CHead x1 k0 x0) c0) \to clear (CHead c k0 t) c0) with [(Bind b) \Rightarrow (\lambda (H8: (eq nat O (s (Bind b) x2))).\lambda (_: (clear (CHead x1 (Bind b) x0) c0)).let H10 \def eq_ind nat O (\lambda (ee: nat).match ee return (Prop) with [O \Rightarrow True | (S _) \Rightarrow False]) I (S x2) H8 in False_ind (clear (CHead c (Bind b) t) c0) H10) | (Flat f) \Rightarrow (\lambda (H8: (eq nat O (s (Flat f) x2))).\lambda (H9: (clear (CHead x1 (Flat f) x0) c0)).let H10 \def eq_ind_r nat x2 (\lambda (n: nat).csubst0 n v c x1) H6 O H8 in let H11 \def eq_ind_r nat x2 (\lambda (n: nat).subst0 n v t x0) H5 O H8 in clear_flat c c0 (H x1 v H10 c0 (clear_gen_flat f x1 c0 x0 H9)) f t)]) H3 H7) H2) (csubst0_gen_head k c c2 t v O H0)) c1.
+
+theorem csubst0_clear_S: \forall (c1: C).\forall (c2: C).\forall (v: T).\forall (i: nat).(csubst0 (S i) v c1 c2) \to \forall (c: C).(clear c1 c) \to or4 (clear c2 c) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear c2 (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear c2 (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2)) \def \lambda (c1: C).C_ind (\lambda (c: C).\forall (c2: C).\forall (v: T).\forall (i: nat).(csubst0 (S i) v c c2) \to \forall (c0: C).(clear c c0) \to or4 (clear c2 c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear c2 (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear c2 (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2))) (\lambda (n: nat).\lambda (c2: C).\lambda (v: T).\lambda (i: nat).\lambda (H: (csubst0 (S i) v (CSort n) c2)).\lambda (c: C).\lambda (_: (clear (CSort n) c)).csubst0_gen_sort c2 v (S i) n H (or4 (clear c2 c) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear c2 (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear c2 (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2)))) (\lambda (c: C).\lambda (H: ((\forall (c2: C).\forall (v: T).\forall (i: nat).(csubst0 (S i) v c c2) \to \forall (c0: C).(clear c c0) \to or4 (clear c2 c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear c2 (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear c2 (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2))))).\lambda (k: K).\lambda (t: T).\lambda (c2: C).\lambda (v: T).\lambda (i: nat).\lambda (H0: (csubst0 (S i) v (CHead c k t) c2)).\lambda (c0: C).\lambda (H1: (clear (CHead c k t) c0)).or3_ind (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat (S i) (s k j)) (\lambda (u2: T).\lambda (_: nat).eq C c2 (CHead c k u2)) (\lambda (u2: T).\lambda (j: nat).subst0 j v t u2)) (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat (S i) (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k t)) (\lambda (c3: C).\lambda (j: nat).csubst0 j v c c3)) (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat (S i) (s k j)) (\lambda (u2: T).\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).\lambda (j: nat).subst0 j v t u2) (\lambda (_: T).\lambda (c3: C).\lambda (j: nat).csubst0 j v c c3)) (or4 (clear c2 c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear c2 (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear c2 (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2))) (\lambda (H2: (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat (S i) (s k j)) (\lambda (u2: T).\lambda (_: nat).eq C c2 (CHead c k u2)) (\lambda (u2: T).\lambda (j: nat).subst0 j v t u2))).ex3_2_ind T nat (\lambda (_: T).\lambda (j: nat).eq nat (S i) (s k j)) (\lambda (u2: T).\lambda (_: nat).eq C c2 (CHead c k u2)) (\lambda (u2: T).\lambda (j: nat).subst0 j v t u2) (or4 (clear c2 c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear c2 (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear c2 (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2))) (\lambda (x0: T).\lambda (x1: nat).\lambda (H3: (eq nat (S i) (s k x1))).\lambda (H4: (eq C c2 (CHead c k x0))).\lambda (H5: (subst0 x1 v t x0)).eq_ind_r C (CHead c k x0) (\lambda (c3: C).or4 (clear c3 c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear c3 (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear c3 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear c3 (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2))) ((match k return (\lambda (k0: K).(clear (CHead c k0 t) c0) \to (eq nat (S i) (s k0 x1)) \to or4 (clear (CHead c k0 x0) c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear (CHead c k0 x0) (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear (CHead c k0 x0) (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear (CHead c k0 x0) (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2))) with [(Bind b) \Rightarrow (\lambda (H6: (clear (CHead c (Bind b) t) c0)).\lambda (H7: (eq nat (S i) (s (Bind b) x1))).let H8 \def f_equal nat nat (\lambda (e: nat).match e return nat with [O \Rightarrow i | (S n) \Rightarrow n]) (S i) (S x1) H7 in let H9 \def eq_ind_r nat x1 (\lambda (n: nat).subst0 n v t x0) H5 i H8 in eq_ind_r C (CHead c (Bind b) t) (\lambda (c3: C).or4 (clear (CHead c (Bind b) x0) c3) (ex3_4 B C T T (\lambda (b0: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c3 (CHead e (Bind b0) u1)) (\lambda (b0: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear (CHead c (Bind b) x0) (CHead e (Bind b0) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b0: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c3 (CHead e1 (Bind b0) u)) (\lambda (b0: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear (CHead c (Bind b) x0) (CHead e2 (Bind b0) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b0: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c3 (CHead e1 (Bind b0) u1)) (\lambda (b0: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear (CHead c (Bind b) x0) (CHead e2 (Bind b0) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2))) (or4_intro1 (clear (CHead c (Bind b) x0) (CHead c (Bind b) t)) (ex3_4 B C T T (\lambda (b0: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C (CHead c (Bind b) t) (CHead e (Bind b0) u1)) (\lambda (b0: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear (CHead c (Bind b) x0) (CHead e (Bind b0) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b0: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead c (Bind b) t) (CHead e1 (Bind b0) u)) (\lambda (b0: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear (CHead c (Bind b) x0) (CHead e2 (Bind b0) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b0: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C (CHead c (Bind b) t) (CHead e1 (Bind b0) u1)) (\lambda (b0: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear (CHead c (Bind b) x0) (CHead e2 (Bind b0) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2)) (ex3_4_intro B C T T (\lambda (b0: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C (CHead c (Bind b) t) (CHead e (Bind b0) u1)) (\lambda (b0: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear (CHead c (Bind b) x0) (CHead e (Bind b0) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) b c t x0 (refl_equal C (CHead c (Bind b) t)) (clear_bind b c x0) H9)) c0 (clear_gen_bind b c c0 t H6)) | (Flat f) \Rightarrow (\lambda (H6: (clear (CHead c (Flat f) t) c0)).\lambda (H7: (eq nat (S i) (s (Flat f) x1))).let H8 \def f_equal nat nat (\lambda (e: nat).e) (S i) (s (Flat f) x1) H7 in let H9 \def eq_ind_r nat x1 (\lambda (n: nat).subst0 n v t x0) H5 (S i) H8 in or4_intro0 (clear (CHead c (Flat f) x0) c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear (CHead c (Flat f) x0) (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear (CHead c (Flat f) x0) (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear (CHead c (Flat f) x0) (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2)) (clear_flat c c0 (clear_gen_flat f c c0 t H6) f x0))]) H1 H3) c2 H4) H2) (\lambda (H2: (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat (S i) (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k t)) (\lambda (c2: C).\lambda (j: nat).csubst0 j v c c2))).ex3_2_ind C nat (\lambda (_: C).\lambda (j: nat).eq nat (S i) (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k t)) (\lambda (c3: C).\lambda (j: nat).csubst0 j v c c3) (or4 (clear c2 c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear c2 (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear c2 (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2))) (\lambda (x0: C).\lambda (x1: nat).\lambda (H3: (eq nat (S i) (s k x1))).\lambda (H4: (eq C c2 (CHead x0 k t))).\lambda (H5: (csubst0 x1 v c x0)).eq_ind_r C (CHead x0 k t) (\lambda (c3: C).or4 (clear c3 c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear c3 (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear c3 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear c3 (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2))) ((match k return (\lambda (k0: K).(clear (CHead c k0 t) c0) \to (eq nat (S i) (s k0 x1)) \to or4 (clear (CHead x0 k0 t) c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear (CHead x0 k0 t) (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear (CHead x0 k0 t) (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear (CHead x0 k0 t) (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2))) with [(Bind b) \Rightarrow (\lambda (H6: (clear (CHead c (Bind b) t) c0)).\lambda (H7: (eq nat (S i) (s (Bind b) x1))).let H8 \def f_equal nat nat (\lambda (e: nat).match e return nat with [O \Rightarrow i | (S n) \Rightarrow n]) (S i) (S x1) H7 in let H9 \def eq_ind_r nat x1 (\lambda (n: nat).csubst0 n v c x0) H5 i H8 in eq_ind_r C (CHead c (Bind b) t) (\lambda (c3: C).or4 (clear (CHead x0 (Bind b) t) c3) (ex3_4 B C T T (\lambda (b0: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c3 (CHead e (Bind b0) u1)) (\lambda (b0: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear (CHead x0 (Bind b) t) (CHead e (Bind b0) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b0: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c3 (CHead e1 (Bind b0) u)) (\lambda (b0: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear (CHead x0 (Bind b) t) (CHead e2 (Bind b0) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b0: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c3 (CHead e1 (Bind b0) u1)) (\lambda (b0: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear (CHead x0 (Bind b) t) (CHead e2 (Bind b0) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2))) (or4_intro2 (clear (CHead x0 (Bind b) t) (CHead c (Bind b) t)) (ex3_4 B C T T (\lambda (b0: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C (CHead c (Bind b) t) (CHead e (Bind b0) u1)) (\lambda (b0: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear (CHead x0 (Bind b) t) (CHead e (Bind b0) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b0: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead c (Bind b) t) (CHead e1 (Bind b0) u)) (\lambda (b0: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear (CHead x0 (Bind b) t) (CHead e2 (Bind b0) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b0: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C (CHead c (Bind b) t) (CHead e1 (Bind b0) u1)) (\lambda (b0: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear (CHead x0 (Bind b) t) (CHead e2 (Bind b0) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2)) (ex3_4_intro B C C T (\lambda (b0: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead c (Bind b) t) (CHead e1 (Bind b0) u)) (\lambda (b0: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear (CHead x0 (Bind b) t) (CHead e2 (Bind b0) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2) b c x0 t (refl_equal C (CHead c (Bind b) t)) (clear_bind b x0 t) H9)) c0 (clear_gen_bind b c c0 t H6)) | (Flat f) \Rightarrow (\lambda (H6: (clear (CHead c (Flat f) t) c0)).\lambda (H7: (eq nat (S i) (s (Flat f) x1))).let H8 \def f_equal nat nat (\lambda (e: nat).e) (S i) (s (Flat f) x1) H7 in let H9 \def eq_ind_r nat x1 (\lambda (n: nat).csubst0 n v c x0) H5 (S i) H8 in let H10 \def H x0 v i H9 c0 (clear_gen_flat f c c0 t H6) in or4_ind (clear x0 c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear x0 (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear x0 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear x0 (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2)) (or4 (clear (CHead x0 (Flat f) t) c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear (CHead x0 (Flat f) t) (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear (CHead x0 (Flat f) t) (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear (CHead x0 (Flat f) t) (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2))) (\lambda (H11: (clear x0 c0)).or4_intro0 (clear (CHead x0 (Flat f) t) c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear (CHead x0 (Flat f) t) (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear (CHead x0 (Flat f) t) (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear (CHead x0 (Flat f) t) (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2)) (clear_flat x0 c0 H11 f t)) (\lambda (H11: (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear x0 (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2))).ex3_4_ind B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear x0 (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (or4 (clear (CHead x0 (Flat f) t) c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear (CHead x0 (Flat f) t) (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear (CHead x0 (Flat f) t) (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear (CHead x0 (Flat f) t) (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2))) (\lambda (x2: B).\lambda (x3: C).\lambda (x4: T).\lambda (x5: T).\lambda (H12: (eq C c0 (CHead x3 (Bind x2) x4))).\lambda (H13: (clear x0 (CHead x3 (Bind x2) x5))).\lambda (H14: (subst0 i v x4 x5)).or4_intro1 (clear (CHead x0 (Flat f) t) c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear (CHead x0 (Flat f) t) (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear (CHead x0 (Flat f) t) (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear (CHead x0 (Flat f) t) (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2)) (ex3_4_intro B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear (CHead x0 (Flat f) t) (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) x2 x3 x4 x5 H12 (clear_flat x0 (CHead x3 (Bind x2) x5) H13 f t) H14)) H11) (\lambda (H11: (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear x0 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2))).ex3_4_ind B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear x0 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2) (or4 (clear (CHead x0 (Flat f) t) c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear (CHead x0 (Flat f) t) (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear (CHead x0 (Flat f) t) (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear (CHead x0 (Flat f) t) (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2))) (\lambda (x2: B).\lambda (x3: C).\lambda (x4: C).\lambda (x5: T).\lambda (H12: (eq C c0 (CHead x3 (Bind x2) x5))).\lambda (H13: (clear x0 (CHead x4 (Bind x2) x5))).\lambda (H14: (csubst0 i v x3 x4)).or4_intro2 (clear (CHead x0 (Flat f) t) c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear (CHead x0 (Flat f) t) (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear (CHead x0 (Flat f) t) (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear (CHead x0 (Flat f) t) (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2)) (ex3_4_intro B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear (CHead x0 (Flat f) t) (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2) x2 x3 x4 x5 H12 (clear_flat x0 (CHead x4 (Bind x2) x5) H13 f t) H14)) H11) (\lambda (H11: (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear x0 (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2))).ex4_5_ind B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear x0 (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2) (or4 (clear (CHead x0 (Flat f) t) c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear (CHead x0 (Flat f) t) (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear (CHead x0 (Flat f) t) (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear (CHead x0 (Flat f) t) (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2))) (\lambda (x2: B).\lambda (x3: C).\lambda (x4: C).\lambda (x5: T).\lambda (x6: T).\lambda (H12: (eq C c0 (CHead x3 (Bind x2) x5))).\lambda (H13: (clear x0 (CHead x4 (Bind x2) x6))).\lambda (H14: (subst0 i v x5 x6)).\lambda (H15: (csubst0 i v x3 x4)).or4_intro3 (clear (CHead x0 (Flat f) t) c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear (CHead x0 (Flat f) t) (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear (CHead x0 (Flat f) t) (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear (CHead x0 (Flat f) t) (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5_intro B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear (CHead x0 (Flat f) t) (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2) x2 x3 x4 x5 x6 H12 (clear_flat x0 (CHead x4 (Bind x2) x6) H13 f t) H14 H15)) H11) H10)]) H1 H3) c2 H4) H2) (\lambda (H2: (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat (S i) (s k j)) (\lambda (u2: T).\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).\lambda (j: nat).subst0 j v t u2) (\lambda (_: T).\lambda (c2: C).\lambda (j: nat).csubst0 j v c c2))).ex4_3_ind T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat (S i) (s k j)) (\lambda (u2: T).\lambda (c3: C).\lambda (_: nat).eq C c2 (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).\lambda (j: nat).subst0 j v t u2) (\lambda (_: T).\lambda (c3: C).\lambda (j: nat).csubst0 j v c c3) (or4 (clear c2 c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear c2 (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear c2 (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2))) (\lambda (x0: T).\lambda (x1: C).\lambda (x2: nat).\lambda (H3: (eq nat (S i) (s k x2))).\lambda (H4: (eq C c2 (CHead x1 k x0))).\lambda (H5: (subst0 x2 v t x0)).\lambda (H6: (csubst0 x2 v c x1)).eq_ind_r C (CHead x1 k x0) (\lambda (c3: C).or4 (clear c3 c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear c3 (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear c3 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear c3 (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2))) ((match k return (\lambda (k0: K).(clear (CHead c k0 t) c0) \to (eq nat (S i) (s k0 x2)) \to or4 (clear (CHead x1 k0 x0) c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear (CHead x1 k0 x0) (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear (CHead x1 k0 x0) (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear (CHead x1 k0 x0) (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2))) with [(Bind b) \Rightarrow (\lambda (H7: (clear (CHead c (Bind b) t) c0)).\lambda (H8: (eq nat (S i) (s (Bind b) x2))).let H9 \def f_equal nat nat (\lambda (e: nat).match e return nat with [O \Rightarrow i | (S n) \Rightarrow n]) (S i) (S x2) H8 in let H10 \def eq_ind_r nat x2 (\lambda (n: nat).csubst0 n v c x1) H6 i H9 in let H11 \def eq_ind_r nat x2 (\lambda (n: nat).subst0 n v t x0) H5 i H9 in eq_ind_r C (CHead c (Bind b) t) (\lambda (c3: C).or4 (clear (CHead x1 (Bind b) x0) c3) (ex3_4 B C T T (\lambda (b0: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c3 (CHead e (Bind b0) u1)) (\lambda (b0: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear (CHead x1 (Bind b) x0) (CHead e (Bind b0) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b0: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c3 (CHead e1 (Bind b0) u)) (\lambda (b0: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear (CHead x1 (Bind b) x0) (CHead e2 (Bind b0) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b0: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c3 (CHead e1 (Bind b0) u1)) (\lambda (b0: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear (CHead x1 (Bind b) x0) (CHead e2 (Bind b0) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2))) (or4_intro3 (clear (CHead x1 (Bind b) x0) (CHead c (Bind b) t)) (ex3_4 B C T T (\lambda (b0: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C (CHead c (Bind b) t) (CHead e (Bind b0) u1)) (\lambda (b0: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear (CHead x1 (Bind b) x0) (CHead e (Bind b0) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b0: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead c (Bind b) t) (CHead e1 (Bind b0) u)) (\lambda (b0: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear (CHead x1 (Bind b) x0) (CHead e2 (Bind b0) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b0: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C (CHead c (Bind b) t) (CHead e1 (Bind b0) u1)) (\lambda (b0: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear (CHead x1 (Bind b) x0) (CHead e2 (Bind b0) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5_intro B C C T T (\lambda (b0: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C (CHead c (Bind b) t) (CHead e1 (Bind b0) u1)) (\lambda (b0: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear (CHead x1 (Bind b) x0) (CHead e2 (Bind b0) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2) b c x1 t x0 (refl_equal C (CHead c (Bind b) t)) (clear_bind b x1 x0) H11 H10)) c0 (clear_gen_bind b c c0 t H7)) | (Flat f) \Rightarrow (\lambda (H7: (clear (CHead c (Flat f) t) c0)).\lambda (H8: (eq nat (S i) (s (Flat f) x2))).let H9 \def f_equal nat nat (\lambda (e: nat).e) (S i) (s (Flat f) x2) H8 in let H10 \def eq_ind_r nat x2 (\lambda (n: nat).csubst0 n v c x1) H6 (S i) H9 in let H11 \def eq_ind_r nat x2 (\lambda (n: nat).subst0 n v t x0) H5 (S i) H9 in let H12 \def H x1 v i H10 c0 (clear_gen_flat f c c0 t H7) in or4_ind (clear x1 c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear x1 (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear x1 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear x1 (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2)) (or4 (clear (CHead x1 (Flat f) x0) c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear (CHead x1 (Flat f) x0) (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear (CHead x1 (Flat f) x0) (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear (CHead x1 (Flat f) x0) (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2))) (\lambda (H13: (clear x1 c0)).or4_intro0 (clear (CHead x1 (Flat f) x0) c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear (CHead x1 (Flat f) x0) (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear (CHead x1 (Flat f) x0) (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear (CHead x1 (Flat f) x0) (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2)) (clear_flat x1 c0 H13 f x0)) (\lambda (H13: (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear x1 (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2))).ex3_4_ind B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear x1 (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (or4 (clear (CHead x1 (Flat f) x0) c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear (CHead x1 (Flat f) x0) (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear (CHead x1 (Flat f) x0) (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear (CHead x1 (Flat f) x0) (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2))) (\lambda (x3: B).\lambda (x4: C).\lambda (x5: T).\lambda (x6: T).\lambda (H14: (eq C c0 (CHead x4 (Bind x3) x5))).\lambda (H15: (clear x1 (CHead x4 (Bind x3) x6))).\lambda (H16: (subst0 i v x5 x6)).or4_intro1 (clear (CHead x1 (Flat f) x0) c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear (CHead x1 (Flat f) x0) (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear (CHead x1 (Flat f) x0) (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear (CHead x1 (Flat f) x0) (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2)) (ex3_4_intro B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear (CHead x1 (Flat f) x0) (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) x3 x4 x5 x6 H14 (clear_flat x1 (CHead x4 (Bind x3) x6) H15 f x0) H16)) H13) (\lambda (H13: (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear x1 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2))).ex3_4_ind B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear x1 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2) (or4 (clear (CHead x1 (Flat f) x0) c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear (CHead x1 (Flat f) x0) (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear (CHead x1 (Flat f) x0) (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear (CHead x1 (Flat f) x0) (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2))) (\lambda (x3: B).\lambda (x4: C).\lambda (x5: C).\lambda (x6: T).\lambda (H14: (eq C c0 (CHead x4 (Bind x3) x6))).\lambda (H15: (clear x1 (CHead x5 (Bind x3) x6))).\lambda (H16: (csubst0 i v x4 x5)).or4_intro2 (clear (CHead x1 (Flat f) x0) c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear (CHead x1 (Flat f) x0) (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear (CHead x1 (Flat f) x0) (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear (CHead x1 (Flat f) x0) (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2)) (ex3_4_intro B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear (CHead x1 (Flat f) x0) (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2) x3 x4 x5 x6 H14 (clear_flat x1 (CHead x5 (Bind x3) x6) H15 f x0) H16)) H13) (\lambda (H13: (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear x1 (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2))).ex4_5_ind B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear x1 (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2) (or4 (clear (CHead x1 (Flat f) x0) c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear (CHead x1 (Flat f) x0) (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear (CHead x1 (Flat f) x0) (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear (CHead x1 (Flat f) x0) (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2))) (\lambda (x3: B).\lambda (x4: C).\lambda (x5: C).\lambda (x6: T).\lambda (x7: T).\lambda (H14: (eq C c0 (CHead x4 (Bind x3) x6))).\lambda (H15: (clear x1 (CHead x5 (Bind x3) x7))).\lambda (H16: (subst0 i v x6 x7)).\lambda (H17: (csubst0 i v x4 x5)).or4_intro3 (clear (CHead x1 (Flat f) x0) c0) (ex3_4 B C T T (\lambda (b: B).\lambda (e: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear (CHead x1 (Flat f) x0) (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c0 (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear (CHead x1 (Flat f) x0) (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear (CHead x1 (Flat f) x0) (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2)) (ex4_5_intro B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C c0 (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear (CHead x1 (Flat f) x0) (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 i v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 i v e1 e2) x3 x4 x5 x6 x7 H14 (clear_flat x1 (CHead x5 (Bind x3) x7) H15 f x0) H16 H17)) H13) H12)]) H1 H3) c2 H4) H2) (csubst0_gen_head k c c2 t v (S i) H0)) c1.
+
+theorem csubst0_getl_ge: \forall (i: nat).\forall (n: nat).(le i n) \to \forall (c1: C).\forall (c2: C).\forall (v: T).(csubst0 i v c1 c2) \to \forall (e: C).(getl n c1 e) \to getl n c2 e \def \lambda (i: nat).\lambda (n: nat).\lambda (H: (le i n)).\lambda (c1: C).\lambda (c2: C).\lambda (v: T).\lambda (H0: (csubst0 i v c1 c2)).\lambda (e: C).\lambda (H1: (getl n c1 e)).let H2 \def getl_gen_all c1 e n H1 in ex2_ind C (\lambda (e0: C).drop n O c1 e0) (\lambda (e0: C).clear e0 e) (getl n c2 e) (\lambda (x: C).\lambda (H3: (drop n O c1 x)).\lambda (H4: (clear x e)).lt_eq_gt_e i n (getl n c2 e) (\lambda (H5: (lt i n)).getl_intro n c2 e x (csubst0_drop_gt n i H5 c1 c2 v H0 x H3) H4) (\lambda (H5: (eq nat i n)).let H6 \def eq_ind_r nat n (\lambda (n: nat).drop n O c1 x) H3 i H5 in let H7 \def eq_ind_r nat n (\lambda (n: nat).le i n) H i H5 in eq_ind nat i (\lambda (n0: nat).getl n0 c2 e) (let H8 \def csubst0_drop_eq i c1 c2 v H0 x H6 in or4_ind (drop i O c2 x) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C x (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop i O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w)) (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C x (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop i O c2 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C x (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop i O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (getl i c2 e) (\lambda (H9: (drop i O c2 x)).getl_intro i c2 e x H9 H4) (\lambda (H9: (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C x (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop i O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w))).ex3_4_ind F C T T (\lambda (f: F).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C x (CHead e0 (Flat f) u)) (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop i O c2 (CHead e0 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (getl i c2 e) (\lambda (x0: F).\lambda (x1: C).\lambda (x2: T).\lambda (x3: T).\lambda (H10: (eq C x (CHead x1 (Flat x0) x2))).\lambda (H11: (drop i O c2 (CHead x1 (Flat x0) x3))).\lambda (_: (subst0 O v x2 x3)).let H13 \def eq_ind C x (\lambda (c: C).clear c e) H4 (CHead x1 (Flat x0) x2) H10 in getl_intro i c2 e (CHead x1 (Flat x0) x3) H11 (clear_flat x1 e (clear_gen_flat x0 x1 e x2 H13) x0 x3)) H9) (\lambda (H9: (ex3_4 F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C x (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop i O c2 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2))).ex3_4_ind F C C T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C x (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop i O c2 (CHead e2 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2) (getl i c2 e) (\lambda (x0: F).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (H10: (eq C x (CHead x1 (Flat x0) x3))).\lambda (H11: (drop i O c2 (CHead x2 (Flat x0) x3))).\lambda (H12: (csubst0 O v x1 x2)).let H13 \def eq_ind C x (\lambda (c: C).clear c e) H4 (CHead x1 (Flat x0) x3) H10 in getl_intro i c2 e (CHead x2 (Flat x0) x3) H11 (clear_flat x2 e (csubst0_clear_O x1 x2 v H12 e (clear_gen_flat x0 x1 e x3 H13)) x0 x3)) H9) (\lambda (H9: (ex4_5 F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C x (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop i O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))).ex4_5_ind F C C T T (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C x (CHead e1 (Flat f) u)) (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop i O c2 (CHead e2 (Flat f) w)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 O v u w) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2) (getl i c2 e) (\lambda (x0: F).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (x4: T).\lambda (H10: (eq C x (CHead x1 (Flat x0) x3))).\lambda (H11: (drop i O c2 (CHead x2 (Flat x0) x4))).\lambda (_: (subst0 O v x3 x4)).\lambda (H13: (csubst0 O v x1 x2)).let H14 \def eq_ind C x (\lambda (c: C).clear c e) H4 (CHead x1 (Flat x0) x3) H10 in getl_intro i c2 e (CHead x2 (Flat x0) x4) H11 (clear_flat x2 e (csubst0_clear_O x1 x2 v H13 e (clear_gen_flat x0 x1 e x3 H14)) x0 x4)) H9) H8) n H5) (\lambda (H5: (lt n i)).le_lt_false i n H H5 (getl n c2 e))) H2.
+
+theorem csubst0_getl_lt: \forall (i: nat).\forall (n: nat).(lt n i) \to \forall (c1: C).\forall (c2: C).\forall (v: T).(csubst0 i v c1 c2) \to \forall (e: C).(getl n c1 e) \to or4 (getl n c2 e) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) \def \lambda (i: nat).\lambda (n: nat).\lambda (H: (lt n i)).\lambda (c1: C).\lambda (c2: C).\lambda (v: T).\lambda (H0: (csubst0 i v c1 c2)).\lambda (e: C).\lambda (H1: (getl n c1 e)).let H2 \def getl_gen_all c1 e n H1 in ex2_ind C (\lambda (e0: C).drop n O c1 e0) (\lambda (e0: C).clear e0 e) (or4 (getl n c2 e) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))) (\lambda (x: C).\lambda (H3: (drop n O c1 x)).\lambda (H4: (clear x e)).let H5 \def csubst0_drop_lt n i H c1 c2 v H0 x H3 in or4_ind (drop n O c2 x) (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C x (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop n O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (s k n)) v u w)) (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C x (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop n O c2 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (s k n)) v e1 e2)) (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C x (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop n O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (s k n)) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (s k n)) v e1 e2)) (or4 (getl n c2 e) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))) (\lambda (H6: (drop n O c2 x)).or4_intro0 (getl n c2 e) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (getl_intro n c2 e x H6 H4)) (\lambda (H6: (ex3_4 K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C x (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop n O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (s k n)) v u w))).ex3_4_ind K C T T (\lambda (k: K).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C x (CHead e0 k u)) (\lambda (k: K).\lambda (e0: C).\lambda (_: T).\lambda (w: T).drop n O c2 (CHead e0 k w)) (\lambda (k: K).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (s k n)) v u w) (or4 (getl n c2 e) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))) (\lambda (x0: K).\lambda (x1: C).\lambda (x2: T).\lambda (x3: T).\lambda (H7: (eq C x (CHead x1 x0 x2))).\lambda (H8: (drop n O c2 (CHead x1 x0 x3))).\lambda (H9: (subst0 (minus i (s x0 n)) v x2 x3)).let H10 \def eq_ind C x (\lambda (c: C).clear c e) H4 (CHead x1 x0 x2) H7 in (match x0 return (\lambda (k: K).(drop n O c2 (CHead x1 k x3)) \to (subst0 (minus i (s k n)) v x2 x3) \to (clear (CHead x1 k x2) e) \to or4 (getl n c2 e) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))) with [(Bind b) \Rightarrow (\lambda (H11: (drop n O c2 (CHead x1 (Bind b) x3))).\lambda (H12: (subst0 (minus i (s (Bind b) n)) v x2 x3)).\lambda (H13: (clear (CHead x1 (Bind b) x2) e)).eq_ind_r C (CHead x1 (Bind b) x2) (\lambda (c: C).or4 (getl n c2 c) (ex3_4 B C T T (\lambda (b0: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e0 (Bind b0) u)) (\lambda (b0: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b0) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b0: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c (CHead e1 (Bind b0) u)) (\lambda (b0: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b0) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b0: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e1 (Bind b0) u)) (\lambda (b0: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b0) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))) (or4_intro1 (getl n c2 (CHead x1 (Bind b) x2)) (ex3_4 B C T T (\lambda (b0: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 (Bind b) x2) (CHead e0 (Bind b0) u)) (\lambda (b0: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b0) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b0: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead x1 (Bind b) x2) (CHead e1 (Bind b0) u)) (\lambda (b0: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b0) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b0: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 (Bind b) x2) (CHead e1 (Bind b0) u)) (\lambda (b0: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b0) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex3_4_intro B C T T (\lambda (b0: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 (Bind b) x2) (CHead e0 (Bind b0) u)) (\lambda (b0: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b0) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) b x1 x2 x3 (refl_equal C (CHead x1 (Bind b) x2)) (getl_intro n c2 (CHead x1 (Bind b) x3) (CHead x1 (Bind b) x3) H11 (clear_bind b x1 x3)) H12)) e (clear_gen_bind b x1 e x2 H13)) | (Flat f) \Rightarrow (\lambda (H11: (drop n O c2 (CHead x1 (Flat f) x3))).\lambda (_: (subst0 (minus i (s (Flat f) n)) v x2 x3)).\lambda (H13: (clear (CHead x1 (Flat f) x2) e)).or4_intro0 (getl n c2 e) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (getl_intro n c2 e (CHead x1 (Flat f) x3) H11 (clear_flat x1 e (clear_gen_flat f x1 e x2 H13) f x3)))]) H8 H9 H10) H6) (\lambda (H6: (ex3_4 K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C x (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop n O c2 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (s k n)) v e1 e2))).ex3_4_ind K C C T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C x (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (u: T).drop n O c2 (CHead e2 k u)) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (s k n)) v e1 e2) (or4 (getl n c2 e) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))) (\lambda (x0: K).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (H7: (eq C x (CHead x1 x0 x3))).\lambda (H8: (drop n O c2 (CHead x2 x0 x3))).\lambda (H9: (csubst0 (minus i (s x0 n)) v x1 x2)).let H10 \def eq_ind C x (\lambda (c: C).clear c e) H4 (CHead x1 x0 x3) H7 in (match x0 return (\lambda (k: K).(drop n O c2 (CHead x2 k x3)) \to (csubst0 (minus i (s k n)) v x1 x2) \to (clear (CHead x1 k x3) e) \to or4 (getl n c2 e) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))) with [(Bind b) \Rightarrow (\lambda (H11: (drop n O c2 (CHead x2 (Bind b) x3))).\lambda (H12: (csubst0 (minus i (s (Bind b) n)) v x1 x2)).\lambda (H13: (clear (CHead x1 (Bind b) x3) e)).eq_ind_r C (CHead x1 (Bind b) x3) (\lambda (c: C).or4 (getl n c2 c) (ex3_4 B C T T (\lambda (b0: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e0 (Bind b0) u)) (\lambda (b0: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b0) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b0: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c (CHead e1 (Bind b0) u)) (\lambda (b0: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b0) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b0: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e1 (Bind b0) u)) (\lambda (b0: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b0) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))) (or4_intro2 (getl n c2 (CHead x1 (Bind b) x3)) (ex3_4 B C T T (\lambda (b0: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 (Bind b) x3) (CHead e0 (Bind b0) u)) (\lambda (b0: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b0) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b0: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead x1 (Bind b) x3) (CHead e1 (Bind b0) u)) (\lambda (b0: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b0) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b0: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 (Bind b) x3) (CHead e1 (Bind b0) u)) (\lambda (b0: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b0) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex3_4_intro B C C T (\lambda (b0: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead x1 (Bind b) x3) (CHead e1 (Bind b0) u)) (\lambda (b0: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b0) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2) b x1 x2 x3 (refl_equal C (CHead x1 (Bind b) x3)) (getl_intro n c2 (CHead x2 (Bind b) x3) (CHead x2 (Bind b) x3) H11 (clear_bind b x2 x3)) H12)) e (clear_gen_bind b x1 e x3 H13)) | (Flat f) \Rightarrow (\lambda (H11: (drop n O c2 (CHead x2 (Flat f) x3))).\lambda (H12: (csubst0 (minus i (s (Flat f) n)) v x1 x2)).\lambda (H13: (clear (CHead x1 (Flat f) x3) e)).let H14 \def eq_ind nat (minus i n) (\lambda (n: nat).csubst0 n v x1 x2) H12 (S (minus i (S n))) (minus_x_Sy i n H) in let H15 \def csubst0_clear_S x1 x2 v (minus i (S n)) H14 e (clear_gen_flat f x1 e x3 H13) in or4_ind (clear x2 e) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).eq C e (CHead e0 (Bind b) u1)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).clear x2 (CHead e0 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 (minus i (S n)) v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear x2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C e (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear x2 (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 (minus i (S n)) v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (or4 (getl n c2 e) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))) (\lambda (H16: (clear x2 e)).or4_intro0 (getl n c2 e) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (getl_intro n c2 e (CHead x2 (Flat f) x3) H11 (clear_flat x2 e H16 f x3))) (\lambda (H16: (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).eq C e (CHead e0 (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear x2 (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 (minus i (S n)) v u1 u2))).ex3_4_ind B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).eq C e (CHead e0 (Bind b) u1)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).clear x2 (CHead e0 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 (minus i (S n)) v u1 u2) (or4 (getl n c2 e) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))) (\lambda (x4: B).\lambda (x5: C).\lambda (x6: T).\lambda (x7: T).\lambda (H17: (eq C e (CHead x5 (Bind x4) x6))).\lambda (H18: (clear x2 (CHead x5 (Bind x4) x7))).\lambda (H19: (subst0 (minus i (S n)) v x6 x7)).eq_ind_r C (CHead x5 (Bind x4) x6) (\lambda (c: C).or4 (getl n c2 c) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))) (or4_intro1 (getl n c2 (CHead x5 (Bind x4) x6)) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead x5 (Bind x4) x6) (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead x5 (Bind x4) x6) (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead x5 (Bind x4) x6) (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex3_4_intro B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead x5 (Bind x4) x6) (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) x4 x5 x6 x7 (refl_equal C (CHead x5 (Bind x4) x6)) (getl_intro n c2 (CHead x5 (Bind x4) x7) (CHead x2 (Flat f) x3) H11 (clear_flat x2 (CHead x5 (Bind x4) x7) H18 f x3)) H19)) e H17) H16) (\lambda (H16: (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear x2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))).ex3_4_ind B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear x2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2) (or4 (getl n c2 e) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))) (\lambda (x4: B).\lambda (x5: C).\lambda (x6: C).\lambda (x7: T).\lambda (H17: (eq C e (CHead x5 (Bind x4) x7))).\lambda (H18: (clear x2 (CHead x6 (Bind x4) x7))).\lambda (H19: (csubst0 (minus i (S n)) v x5 x6)).eq_ind_r C (CHead x5 (Bind x4) x7) (\lambda (c: C).or4 (getl n c2 c) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))) (or4_intro2 (getl n c2 (CHead x5 (Bind x4) x7)) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead x5 (Bind x4) x7) (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead x5 (Bind x4) x7) (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead x5 (Bind x4) x7) (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex3_4_intro B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead x5 (Bind x4) x7) (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2) x4 x5 x6 x7 (refl_equal C (CHead x5 (Bind x4) x7)) (getl_intro n c2 (CHead x6 (Bind x4) x7) (CHead x2 (Flat f) x3) H11 (clear_flat x2 (CHead x6 (Bind x4) x7) H18 f x3)) H19)) e H17) H16) (\lambda (H16: (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C e (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear x2 (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 (minus i (S n)) v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))).ex4_5_ind B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C e (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear x2 (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 (minus i (S n)) v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2) (or4 (getl n c2 e) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))) (\lambda (x4: B).\lambda (x5: C).\lambda (x6: C).\lambda (x7: T).\lambda (x8: T).\lambda (H17: (eq C e (CHead x5 (Bind x4) x7))).\lambda (H18: (clear x2 (CHead x6 (Bind x4) x8))).\lambda (H19: (subst0 (minus i (S n)) v x7 x8)).\lambda (H20: (csubst0 (minus i (S n)) v x5 x6)).eq_ind_r C (CHead x5 (Bind x4) x7) (\lambda (c: C).or4 (getl n c2 c) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))) (or4_intro3 (getl n c2 (CHead x5 (Bind x4) x7)) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead x5 (Bind x4) x7) (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead x5 (Bind x4) x7) (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead x5 (Bind x4) x7) (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5_intro B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead x5 (Bind x4) x7) (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2) x4 x5 x6 x7 x8 (refl_equal C (CHead x5 (Bind x4) x7)) (getl_intro n c2 (CHead x6 (Bind x4) x8) (CHead x2 (Flat f) x3) H11 (clear_flat x2 (CHead x6 (Bind x4) x8) H18 f x3)) H19 H20)) e H17) H16) H15)]) H8 H9 H10) H6) (\lambda (H6: (ex4_5 K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C x (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop n O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (s k n)) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (s k n)) v e1 e2))).ex4_5_ind K C C T T (\lambda (k: K).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C x (CHead e1 k u)) (\lambda (k: K).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).drop n O c2 (CHead e2 k w)) (\lambda (k: K).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (s k n)) v u w) (\lambda (k: K).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (s k n)) v e1 e2) (or4 (getl n c2 e) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))) (\lambda (x0: K).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (x4: T).\lambda (H7: (eq C x (CHead x1 x0 x3))).\lambda (H8: (drop n O c2 (CHead x2 x0 x4))).\lambda (H9: (subst0 (minus i (s x0 n)) v x3 x4)).\lambda (H10: (csubst0 (minus i (s x0 n)) v x1 x2)).let H11 \def eq_ind C x (\lambda (c: C).clear c e) H4 (CHead x1 x0 x3) H7 in (match x0 return (\lambda (k: K).(drop n O c2 (CHead x2 k x4)) \to (subst0 (minus i (s k n)) v x3 x4) \to (csubst0 (minus i (s k n)) v x1 x2) \to (clear (CHead x1 k x3) e) \to or4 (getl n c2 e) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))) with [(Bind b) \Rightarrow (\lambda (H12: (drop n O c2 (CHead x2 (Bind b) x4))).\lambda (H13: (subst0 (minus i (s (Bind b) n)) v x3 x4)).\lambda (H14: (csubst0 (minus i (s (Bind b) n)) v x1 x2)).\lambda (H15: (clear (CHead x1 (Bind b) x3) e)).eq_ind_r C (CHead x1 (Bind b) x3) (\lambda (c: C).or4 (getl n c2 c) (ex3_4 B C T T (\lambda (b0: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e0 (Bind b0) u)) (\lambda (b0: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b0) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b0: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c (CHead e1 (Bind b0) u)) (\lambda (b0: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b0) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b0: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e1 (Bind b0) u)) (\lambda (b0: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b0) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))) (or4_intro3 (getl n c2 (CHead x1 (Bind b) x3)) (ex3_4 B C T T (\lambda (b0: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 (Bind b) x3) (CHead e0 (Bind b0) u)) (\lambda (b0: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b0) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b0: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead x1 (Bind b) x3) (CHead e1 (Bind b0) u)) (\lambda (b0: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b0) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b0: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 (Bind b) x3) (CHead e1 (Bind b0) u)) (\lambda (b0: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b0) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5_intro B C C T T (\lambda (b0: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead x1 (Bind b) x3) (CHead e1 (Bind b0) u)) (\lambda (b0: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b0) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2) b x1 x2 x3 x4 (refl_equal C (CHead x1 (Bind b) x3)) (getl_intro n c2 (CHead x2 (Bind b) x4) (CHead x2 (Bind b) x4) H12 (clear_bind b x2 x4)) H13 H14)) e (clear_gen_bind b x1 e x3 H15)) | (Flat f) \Rightarrow (\lambda (H12: (drop n O c2 (CHead x2 (Flat f) x4))).\lambda (_: (subst0 (minus i (s (Flat f) n)) v x3 x4)).\lambda (H14: (csubst0 (minus i (s (Flat f) n)) v x1 x2)).\lambda (H15: (clear (CHead x1 (Flat f) x3) e)).let H16 \def eq_ind nat (minus i n) (\lambda (n: nat).csubst0 n v x1 x2) H14 (S (minus i (S n))) (minus_x_Sy i n H) in let H17 \def csubst0_clear_S x1 x2 v (minus i (S n)) H16 e (clear_gen_flat f x1 e x3 H15) in or4_ind (clear x2 e) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).eq C e (CHead e0 (Bind b) u1)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).clear x2 (CHead e0 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 (minus i (S n)) v u1 u2)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear x2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C e (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear x2 (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 (minus i (S n)) v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (or4 (getl n c2 e) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))) (\lambda (H18: (clear x2 e)).or4_intro0 (getl n c2 e) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (getl_intro n c2 e (CHead x2 (Flat f) x4) H12 (clear_flat x2 e H18 f x4))) (\lambda (H18: (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).eq C e (CHead e0 (Bind b) u1)) (\lambda (b: B).\lambda (e: C).\lambda (_: T).\lambda (u2: T).clear x2 (CHead e (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 (minus i (S n)) v u1 u2))).ex3_4_ind B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).eq C e (CHead e0 (Bind b) u1)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).clear x2 (CHead e0 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 (minus i (S n)) v u1 u2) (or4 (getl n c2 e) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))) (\lambda (x5: B).\lambda (x6: C).\lambda (x7: T).\lambda (x8: T).\lambda (H19: (eq C e (CHead x6 (Bind x5) x7))).\lambda (H20: (clear x2 (CHead x6 (Bind x5) x8))).\lambda (H21: (subst0 (minus i (S n)) v x7 x8)).eq_ind_r C (CHead x6 (Bind x5) x7) (\lambda (c: C).or4 (getl n c2 c) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))) (or4_intro1 (getl n c2 (CHead x6 (Bind x5) x7)) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead x6 (Bind x5) x7) (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead x6 (Bind x5) x7) (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead x6 (Bind x5) x7) (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex3_4_intro B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead x6 (Bind x5) x7) (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) x5 x6 x7 x8 (refl_equal C (CHead x6 (Bind x5) x7)) (getl_intro n c2 (CHead x6 (Bind x5) x8) (CHead x2 (Flat f) x4) H12 (clear_flat x2 (CHead x6 (Bind x5) x8) H20 f x4)) H21)) e H19) H18) (\lambda (H18: (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear x2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))).ex3_4_ind B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).clear x2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2) (or4 (getl n c2 e) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))) (\lambda (x5: B).\lambda (x6: C).\lambda (x7: C).\lambda (x8: T).\lambda (H19: (eq C e (CHead x6 (Bind x5) x8))).\lambda (H20: (clear x2 (CHead x7 (Bind x5) x8))).\lambda (H21: (csubst0 (minus i (S n)) v x6 x7)).eq_ind_r C (CHead x6 (Bind x5) x8) (\lambda (c: C).or4 (getl n c2 c) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))) (or4_intro2 (getl n c2 (CHead x6 (Bind x5) x8)) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead x6 (Bind x5) x8) (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead x6 (Bind x5) x8) (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead x6 (Bind x5) x8) (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex3_4_intro B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead x6 (Bind x5) x8) (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2) x5 x6 x7 x8 (refl_equal C (CHead x6 (Bind x5) x8)) (getl_intro n c2 (CHead x7 (Bind x5) x8) (CHead x2 (Flat f) x4) H12 (clear_flat x2 (CHead x7 (Bind x5) x8) H20 f x4)) H21)) e H19) H18) (\lambda (H18: (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C e (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear x2 (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 (minus i (S n)) v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))).ex4_5_ind B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C e (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).clear x2 (CHead e2 (Bind b) u2)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 (minus i (S n)) v u1 u2) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2) (or4 (getl n c2 e) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))) (\lambda (x5: B).\lambda (x6: C).\lambda (x7: C).\lambda (x8: T).\lambda (x9: T).\lambda (H19: (eq C e (CHead x6 (Bind x5) x8))).\lambda (H20: (clear x2 (CHead x7 (Bind x5) x9))).\lambda (H21: (subst0 (minus i (S n)) v x8 x9)).\lambda (H22: (csubst0 (minus i (S n)) v x6 x7)).eq_ind_r C (CHead x6 (Bind x5) x8) (\lambda (c: C).or4 (getl n c2 c) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C c (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C c (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))) (or4_intro3 (getl n c2 (CHead x6 (Bind x5) x8)) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C (CHead x6 (Bind x5) x8) (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).eq C (CHead x6 (Bind x5) x8) (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead x6 (Bind x5) x8) (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2)) (ex4_5_intro B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C (CHead x6 (Bind x5) x8) (CHead e1 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2) x5 x6 x7 x8 x9 (refl_equal C (CHead x6 (Bind x5) x8)) (getl_intro n c2 (CHead x7 (Bind x5) x9) (CHead x2 (Flat f) x4) H12 (clear_flat x2 (CHead x7 (Bind x5) x9) H20 f x4)) H21 H22)) e H19) H18) H17)]) H8 H9 H10 H11) H6) H5) H2.
+
+theorem csubst0_getl_ge_back: \forall (i: nat).\forall (n: nat).(le i n) \to \forall (c1: C).\forall (c2: C).\forall (v: T).(csubst0 i v c1 c2) \to \forall (e: C).(getl n c2 e) \to getl n c1 e \def \lambda (i: nat).\lambda (n: nat).\lambda (H: (le i n)).\lambda (c1: C).\lambda (c2: C).\lambda (v: T).\lambda (H0: (csubst0 i v c1 c2)).\lambda (e: C).\lambda (H1: (getl n c2 e)).let H2 \def getl_gen_all c2 e n H1 in ex2_ind C (\lambda (e0: C).drop n O c2 e0) (\lambda (e0: C).clear e0 e) (getl n c1 e) (\lambda (x: C).\lambda (H3: (drop n O c2 x)).\lambda (H4: (clear x e)).lt_eq_gt_e i n (getl n c1 e) (\lambda (H5: (lt i n)).getl_intro n c1 e x (csubst0_drop_gt_back n i H5 c1 c2 v H0 x H3) H4) (\lambda (H5: (eq nat i n)).let H6 \def eq_ind_r nat n (\lambda (n: nat).drop n O c2 x) H3 i H5 in let H7 \def eq_ind_r nat n (\lambda (n: nat).le i n) H i H5 in eq_ind nat i (\lambda (n0: nat).getl n0 c1 e) (let H8 \def csubst0_drop_eq_back i c1 c2 v H0 x H6 in or4_ind (drop i O c1 x) (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C x (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop i O c1 (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2)) (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C x (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop i O c1 (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2)) (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C x (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop i O c1 (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2)) (getl i c1 e) (\lambda (H9: (drop i O c1 x)).getl_intro i c1 e x H9 H4) (\lambda (H9: (ex3_4 F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C x (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop i O c1 (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2))).ex3_4_ind F C T T (\lambda (f: F).\lambda (e0: C).\lambda (_: T).\lambda (u2: T).eq C x (CHead e0 (Flat f) u2)) (\lambda (f: F).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).drop i O c1 (CHead e0 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (getl i c1 e) (\lambda (x0: F).\lambda (x1: C).\lambda (x2: T).\lambda (x3: T).\lambda (H10: (eq C x (CHead x1 (Flat x0) x3))).\lambda (H11: (drop i O c1 (CHead x1 (Flat x0) x2))).\lambda (_: (subst0 O v x2 x3)).let H13 \def eq_ind C x (\lambda (c: C).clear c e) H4 (CHead x1 (Flat x0) x3) H10 in getl_intro i c1 e (CHead x1 (Flat x0) x2) H11 (clear_flat x1 e (clear_gen_flat x0 x1 e x3 H13) x0 x2)) H9) (\lambda (H9: (ex3_4 F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C x (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop i O c1 (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2))).ex3_4_ind F C C T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (u: T).eq C x (CHead e2 (Flat f) u)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u: T).drop i O c1 (CHead e1 (Flat f) u)) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 O v e1 e2) (getl i c1 e) (\lambda (x0: F).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (H10: (eq C x (CHead x2 (Flat x0) x3))).\lambda (H11: (drop i O c1 (CHead x1 (Flat x0) x3))).\lambda (H12: (csubst0 O v x1 x2)).let H13 \def eq_ind C x (\lambda (c: C).clear c e) H4 (CHead x2 (Flat x0) x3) H10 in getl_intro i c1 e (CHead x1 (Flat x0) x3) H11 (clear_flat x1 e (csubst0_clear_O_back x1 x2 v H12 e (clear_gen_flat x0 x2 e x3 H13)) x0 x3)) H9) (\lambda (H9: (ex4_5 F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C x (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop i O c1 (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2))).ex4_5_ind F C C T T (\lambda (f: F).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (u2: T).eq C x (CHead e2 (Flat f) u2)) (\lambda (f: F).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).drop i O c1 (CHead e1 (Flat f) u1)) (\lambda (_: F).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (u2: T).subst0 O v u1 u2) (\lambda (_: F).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 O v e1 e2) (getl i c1 e) (\lambda (x0: F).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (x4: T).\lambda (H10: (eq C x (CHead x2 (Flat x0) x4))).\lambda (H11: (drop i O c1 (CHead x1 (Flat x0) x3))).\lambda (_: (subst0 O v x3 x4)).\lambda (H13: (csubst0 O v x1 x2)).let H14 \def eq_ind C x (\lambda (c: C).clear c e) H4 (CHead x2 (Flat x0) x4) H10 in getl_intro i c1 e (CHead x1 (Flat x0) x3) H11 (clear_flat x1 e (csubst0_clear_O_back x1 x2 v H13 e (clear_gen_flat x0 x2 e x4 H14)) x0 x3)) H9) H8) n H5) (\lambda (H5: (lt n i)).le_lt_false i n H H5 (getl n c1 e))) H2.
+
+inductive csubst1 (i:nat) (v:T) (c1:C): C \to Prop \def
+| csubst1_refl: csubst1 i v c1 c1
+| csubst1_sing: \forall (c2: C).(csubst0 i v c1 c2) \to csubst1 i v c1 c2.
+
+theorem csubst1_head: \forall (k: K).\forall (i: nat).\forall (v: T).\forall (u1: T).\forall (u2: T).(subst1 i v u1 u2) \to \forall (c1: C).\forall (c2: C).(csubst1 i v c1 c2) \to csubst1 (s k i) v (CHead c1 k u1) (CHead c2 k u2) \def \lambda (k: K).\lambda (i: nat).\lambda (v: T).\lambda (u1: T).\lambda (u2: T).\lambda (H: (subst1 i v u1 u2)).subst1_ind i v u1 (\lambda (t: T).\forall (c1: C).\forall (c2: C).(csubst1 i v c1 c2) \to csubst1 (s k i) v (CHead c1 k u1) (CHead c2 k t)) (\lambda (c1: C).\lambda (c2: C).\lambda (H0: (csubst1 i v c1 c2)).csubst1_ind i v c1 (\lambda (c: C).csubst1 (s k i) v (CHead c1 k u1) (CHead c k u1)) (csubst1_refl (s k i) v (CHead c1 k u1)) (\lambda (c3: C).\lambda (H1: (csubst0 i v c1 c3)).csubst1_sing (s k i) v (CHead c1 k u1) (CHead c3 k u1) (csubst0_fst k i c1 c3 v H1 u1)) c2 H0) (\lambda (t2: T).\lambda (H0: (subst0 i v u1 t2)).\lambda (c1: C).\lambda (c2: C).\lambda (H1: (csubst1 i v c1 c2)).csubst1_ind i v c1 (\lambda (c: C).csubst1 (s k i) v (CHead c1 k u1) (CHead c k t2)) (csubst1_sing (s k i) v (CHead c1 k u1) (CHead c1 k t2) (csubst0_snd k i v u1 t2 H0 c1)) (\lambda (c3: C).\lambda (H2: (csubst0 i v c1 c3)).csubst1_sing (s k i) v (CHead c1 k u1) (CHead c3 k t2) (csubst0_both k i v u1 t2 H0 c1 c3 H2)) c2 H1) u2 H.
+
+theorem csubst1_bind: \forall (b: B).\forall (i: nat).\forall (v: T).\forall (u1: T).\forall (u2: T).(subst1 i v u1 u2) \to \forall (c1: C).\forall (c2: C).(csubst1 i v c1 c2) \to csubst1 (S i) v (CHead c1 (Bind b) u1) (CHead c2 (Bind b) u2) \def \lambda (b: B).\lambda (i: nat).\lambda (v: T).\lambda (u1: T).\lambda (u2: T).\lambda (H: (subst1 i v u1 u2)).\lambda (c1: C).\lambda (c2: C).\lambda (H0: (csubst1 i v c1 c2)).eq_ind nat (s (Bind b) i) (\lambda (n: nat).csubst1 n v (CHead c1 (Bind b) u1) (CHead c2 (Bind b) u2)) (csubst1_head (Bind b) i v u1 u2 H c1 c2 H0) (S i) (refl_equal nat (S i)).
+
+theorem csubst1_flat: \forall (f: F).\forall (i: nat).\forall (v: T).\forall (u1: T).\forall (u2: T).(subst1 i v u1 u2) \to \forall (c1: C).\forall (c2: C).(csubst1 i v c1 c2) \to csubst1 i v (CHead c1 (Flat f) u1) (CHead c2 (Flat f) u2) \def \lambda (f: F).\lambda (i: nat).\lambda (v: T).\lambda (u1: T).\lambda (u2: T).\lambda (H: (subst1 i v u1 u2)).\lambda (c1: C).\lambda (c2: C).\lambda (H0: (csubst1 i v c1 c2)).eq_ind nat (s (Flat f) i) (\lambda (n: nat).csubst1 n v (CHead c1 (Flat f) u1) (CHead c2 (Flat f) u2)) (csubst1_head (Flat f) i v u1 u2 H c1 c2 H0) i (refl_equal nat i).
+
+theorem csubst1_gen_head: \forall (k: K).\forall (c1: C).\forall (x: C).\forall (u1: T).\forall (v: T).\forall (i: nat).(csubst1 (s k i) v (CHead c1 k u1) x) \to ex3_2 T C (\lambda (u2: T).\lambda (c2: C).eq C x (CHead c2 k u2)) (\lambda (u2: T).\lambda (_: C).subst1 i v u1 u2) (\lambda (_: T).\lambda (c2: C).csubst1 i v c1 c2) \def \lambda (k: K).\lambda (c1: C).\lambda (x: C).\lambda (u1: T).\lambda (v: T).\lambda (i: nat).\lambda (H: (csubst1 (s k i) v (CHead c1 k u1) x)).let H0 \def match H return (\lambda (c: C).(eq C c x) \to ex3_2 T C (\lambda (u2: T).\lambda (c2: C).eq C x (CHead c2 k u2)) (\lambda (u2: T).\lambda (_: C).subst1 i v u1 u2) (\lambda (_: T).\lambda (c2: C).csubst1 i v c1 c2)) with [csubst1_refl \Rightarrow (\lambda (H0: (eq C (CHead c1 k u1) x)).eq_ind C (CHead c1 k u1) (\lambda (c: C).ex3_2 T C (\lambda (u2: T).\lambda (c2: C).eq C c (CHead c2 k u2)) (\lambda (u2: T).\lambda (_: C).subst1 i v u1 u2) (\lambda (_: T).\lambda (c2: C).csubst1 i v c1 c2)) (ex3_2_intro T C (\lambda (u2: T).\lambda (c2: C).eq C (CHead c1 k u1) (CHead c2 k u2)) (\lambda (u2: T).\lambda (_: C).subst1 i v u1 u2) (\lambda (_: T).\lambda (c2: C).csubst1 i v c1 c2) u1 c1 (refl_equal C (CHead c1 k u1)) (subst1_refl i v u1) (csubst1_refl i v c1)) x H0) | (csubst1_sing c2 H0) \Rightarrow (\lambda (H1: (eq C c2 x)).eq_ind C x (\lambda (c: C).(csubst0 (s k i) v (CHead c1 k u1) c) \to ex3_2 T C (\lambda (u2: T).\lambda (c3: C).eq C x (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).subst1 i v u1 u2) (\lambda (_: T).\lambda (c3: C).csubst1 i v c1 c3)) (\lambda (H2: (csubst0 (s k i) v (CHead c1 k u1) x)).or3_ind (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat (s k i) (s k j)) (\lambda (u2: T).\lambda (_: nat).eq C x (CHead c1 k u2)) (\lambda (u2: T).\lambda (j: nat).subst0 j v u1 u2)) (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat (s k i) (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C x (CHead c3 k u1)) (\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3)) (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat (s k i) (s k j)) (\lambda (u2: T).\lambda (c3: C).\lambda (_: nat).eq C x (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).\lambda (j: nat).subst0 j v u1 u2) (\lambda (_: T).\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3)) (ex3_2 T C (\lambda (u2: T).\lambda (c3: C).eq C x (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).subst1 i v u1 u2) (\lambda (_: T).\lambda (c3: C).csubst1 i v c1 c3)) (\lambda (H3: (ex3_2 T nat (\lambda (_: T).\lambda (j: nat).eq nat (s k i) (s k j)) (\lambda (u2: T).\lambda (_: nat).eq C x (CHead c1 k u2)) (\lambda (u2: T).\lambda (j: nat).subst0 j v u1 u2))).ex3_2_ind T nat (\lambda (_: T).\lambda (j: nat).eq nat (s k i) (s k j)) (\lambda (u2: T).\lambda (_: nat).eq C x (CHead c1 k u2)) (\lambda (u2: T).\lambda (j: nat).subst0 j v u1 u2) (ex3_2 T C (\lambda (u2: T).\lambda (c3: C).eq C x (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).subst1 i v u1 u2) (\lambda (_: T).\lambda (c3: C).csubst1 i v c1 c3)) (\lambda (x0: T).\lambda (x1: nat).\lambda (H: (eq nat (s k i) (s k x1))).\lambda (H4: (eq C x (CHead c1 k x0))).\lambda (H5: (subst0 x1 v u1 x0)).eq_ind_r C (CHead c1 k x0) (\lambda (c: C).ex3_2 T C (\lambda (u2: T).\lambda (c3: C).eq C c (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).subst1 i v u1 u2) (\lambda (_: T).\lambda (c3: C).csubst1 i v c1 c3)) (let H6 \def eq_ind_r nat x1 (\lambda (n: nat).subst0 n v u1 x0) H5 i (s_inj k i x1 H) in ex3_2_intro T C (\lambda (u2: T).\lambda (c3: C).eq C (CHead c1 k x0) (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).subst1 i v u1 u2) (\lambda (_: T).\lambda (c3: C).csubst1 i v c1 c3) x0 c1 (refl_equal C (CHead c1 k x0)) (subst1_single i v u1 x0 H6) (csubst1_refl i v c1)) x H4) H3) (\lambda (H3: (ex3_2 C nat (\lambda (_: C).\lambda (j: nat).eq nat (s k i) (s k j)) (\lambda (c2: C).\lambda (_: nat).eq C x (CHead c2 k u1)) (\lambda (c2: C).\lambda (j: nat).csubst0 j v c1 c2))).ex3_2_ind C nat (\lambda (_: C).\lambda (j: nat).eq nat (s k i) (s k j)) (\lambda (c3: C).\lambda (_: nat).eq C x (CHead c3 k u1)) (\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3) (ex3_2 T C (\lambda (u2: T).\lambda (c3: C).eq C x (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).subst1 i v u1 u2) (\lambda (_: T).\lambda (c3: C).csubst1 i v c1 c3)) (\lambda (x0: C).\lambda (x1: nat).\lambda (H: (eq nat (s k i) (s k x1))).\lambda (H4: (eq C x (CHead x0 k u1))).\lambda (H5: (csubst0 x1 v c1 x0)).eq_ind_r C (CHead x0 k u1) (\lambda (c: C).ex3_2 T C (\lambda (u2: T).\lambda (c3: C).eq C c (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).subst1 i v u1 u2) (\lambda (_: T).\lambda (c3: C).csubst1 i v c1 c3)) (let H6 \def eq_ind_r nat x1 (\lambda (n: nat).csubst0 n v c1 x0) H5 i (s_inj k i x1 H) in ex3_2_intro T C (\lambda (u2: T).\lambda (c3: C).eq C (CHead x0 k u1) (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).subst1 i v u1 u2) (\lambda (_: T).\lambda (c3: C).csubst1 i v c1 c3) u1 x0 (refl_equal C (CHead x0 k u1)) (subst1_refl i v u1) (csubst1_sing i v c1 x0 H6)) x H4) H3) (\lambda (H3: (ex4_3 T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat (s k i) (s k j)) (\lambda (u2: T).\lambda (c2: C).\lambda (_: nat).eq C x (CHead c2 k u2)) (\lambda (u2: T).\lambda (_: C).\lambda (j: nat).subst0 j v u1 u2) (\lambda (_: T).\lambda (c2: C).\lambda (j: nat).csubst0 j v c1 c2))).ex4_3_ind T C nat (\lambda (_: T).\lambda (_: C).\lambda (j: nat).eq nat (s k i) (s k j)) (\lambda (u2: T).\lambda (c3: C).\lambda (_: nat).eq C x (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).\lambda (j: nat).subst0 j v u1 u2) (\lambda (_: T).\lambda (c3: C).\lambda (j: nat).csubst0 j v c1 c3) (ex3_2 T C (\lambda (u2: T).\lambda (c3: C).eq C x (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).subst1 i v u1 u2) (\lambda (_: T).\lambda (c3: C).csubst1 i v c1 c3)) (\lambda (x0: T).\lambda (x1: C).\lambda (x2: nat).\lambda (H: (eq nat (s k i) (s k x2))).\lambda (H4: (eq C x (CHead x1 k x0))).\lambda (H5: (subst0 x2 v u1 x0)).\lambda (H6: (csubst0 x2 v c1 x1)).eq_ind_r C (CHead x1 k x0) (\lambda (c: C).ex3_2 T C (\lambda (u2: T).\lambda (c3: C).eq C c (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).subst1 i v u1 u2) (\lambda (_: T).\lambda (c3: C).csubst1 i v c1 c3)) (let H7 \def eq_ind_r nat x2 (\lambda (n: nat).csubst0 n v c1 x1) H6 i (s_inj k i x2 H) in let H8 \def eq_ind_r nat x2 (\lambda (n: nat).subst0 n v u1 x0) H5 i (s_inj k i x2 H) in ex3_2_intro T C (\lambda (u2: T).\lambda (c3: C).eq C (CHead x1 k x0) (CHead c3 k u2)) (\lambda (u2: T).\lambda (_: C).subst1 i v u1 u2) (\lambda (_: T).\lambda (c3: C).csubst1 i v c1 c3) x0 x1 (refl_equal C (CHead x1 k x0)) (subst1_single i v u1 x0 H8) (csubst1_sing i v c1 x1 H7)) x H4) H3) (csubst0_gen_head k c1 x u1 v (s k i) H2)) c2 (sym_eq C c2 x H1) H0)] in H0 (refl_equal C x).
+
+theorem csubst1_getl_ge: \forall (i: nat).\forall (n: nat).(le i n) \to \forall (c1: C).\forall (c2: C).\forall (v: T).(csubst1 i v c1 c2) \to \forall (e: C).(getl n c1 e) \to getl n c2 e \def \lambda (i: nat).\lambda (n: nat).\lambda (H: (le i n)).\lambda (c1: C).\lambda (c2: C).\lambda (v: T).\lambda (H0: (csubst1 i v c1 c2)).csubst1_ind i v c1 (\lambda (c: C).\forall (e: C).(getl n c1 e) \to getl n c e) (\lambda (e: C).\lambda (H1: (getl n c1 e)).H1) (\lambda (c3: C).\lambda (H1: (csubst0 i v c1 c3)).\lambda (e: C).\lambda (H2: (getl n c1 e)).csubst0_getl_ge i n H c1 c3 v H1 e H2) c2 H0.
+
+theorem csubst1_getl_lt: \forall (i: nat).\forall (n: nat).(lt n i) \to \forall (c1: C).\forall (c2: C).\forall (v: T).(csubst1 i v c1 c2) \to \forall (e1: C).(getl n c1 e1) \to ex2 C (\lambda (e2: C).csubst1 (minus i n) v e1 e2) (\lambda (e2: C).getl n c2 e2) \def \lambda (i: nat).\lambda (n: nat).\lambda (H: (lt n i)).\lambda (c1: C).\lambda (c2: C).\lambda (v: T).\lambda (H0: (csubst1 i v c1 c2)).csubst1_ind i v c1 (\lambda (c: C).\forall (e1: C).(getl n c1 e1) \to ex2 C (\lambda (e2: C).csubst1 (minus i n) v e1 e2) (\lambda (e2: C).getl n c e2)) (\lambda (e1: C).\lambda (H1: (getl n c1 e1)).eq_ind_r nat (S (minus i (S n))) (\lambda (n0: nat).ex2 C (\lambda (e2: C).csubst1 n0 v e1 e2) (\lambda (e2: C).getl n c1 e2)) (ex_intro2 C (\lambda (e2: C).csubst1 (S (minus i (S n))) v e1 e2) (\lambda (e2: C).getl n c1 e2) e1 (csubst1_refl (S (minus i (S n))) v e1) H1) (minus i n) (minus_x_Sy i n H)) (\lambda (c3: C).\lambda (H1: (csubst0 i v c1 c3)).\lambda (e1: C).\lambda (H2: (getl n c1 e1)).eq_ind_r nat (S (minus i (S n))) (\lambda (n0: nat).ex2 C (\lambda (e2: C).csubst1 n0 v e1 e2) (\lambda (e2: C).getl n c3 e2)) (let H3 \def csubst0_getl_lt i n H c1 c3 v H1 e1 H2 in or4_ind (getl n c3 e1) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e1 (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c3 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e2: C).\lambda (_: C).\lambda (u: T).eq C e1 (CHead e2 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e3: C).\lambda (u: T).getl n c3 (CHead e3 (Bind b) u)) (\lambda (_: B).\lambda (e2: C).\lambda (e3: C).\lambda (_: T).csubst0 (minus i (S n)) v e2 e3)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e2: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e1 (CHead e2 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e3: C).\lambda (_: T).\lambda (w: T).getl n c3 (CHead e3 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e2: C).\lambda (e3: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e2 e3)) (ex2 C (\lambda (e2: C).csubst1 (S (minus i (S n))) v e1 e2) (\lambda (e2: C).getl n c3 e2)) (\lambda (H4: (getl n c3 e1)).ex_intro2 C (\lambda (e2: C).csubst1 (S (minus i (S n))) v e1 e2) (\lambda (e2: C).getl n c3 e2) e1 (csubst1_refl (S (minus i (S n))) v e1) H4) (\lambda (H4: (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e1 (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c3 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w))).ex3_4_ind B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u: T).\lambda (_: T).eq C e1 (CHead e0 (Bind b) u)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c3 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (ex2 C (\lambda (e2: C).csubst1 (S (minus i (S n))) v e1 e2) (\lambda (e2: C).getl n c3 e2)) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: T).\lambda (x3: T).\lambda (H5: (eq C e1 (CHead x1 (Bind x0) x2))).\lambda (H6: (getl n c3 (CHead x1 (Bind x0) x3))).\lambda (H7: (subst0 (minus i (S n)) v x2 x3)).eq_ind_r C (CHead x1 (Bind x0) x2) (\lambda (c: C).ex2 C (\lambda (e2: C).csubst1 (S (minus i (S n))) v c e2) (\lambda (e2: C).getl n c3 e2)) (ex_intro2 C (\lambda (e2: C).csubst1 (S (minus i (S n))) v (CHead x1 (Bind x0) x2) e2) (\lambda (e2: C).getl n c3 e2) (CHead x1 (Bind x0) x3) (csubst1_sing (S (minus i (S n))) v (CHead x1 (Bind x0) x2) (CHead x1 (Bind x0) x3) (csubst0_snd_bind x0 (minus i (S n)) v x2 x3 H7 x1)) H6) e1 H5) H4) (\lambda (H4: (ex3_4 B C C T (\lambda (b: B).\lambda (e2: C).\lambda (_: C).\lambda (u: T).eq C e1 (CHead e2 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c3 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))).ex3_4_ind B C C T (\lambda (b: B).\lambda (e2: C).\lambda (_: C).\lambda (u: T).eq C e1 (CHead e2 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e3: C).\lambda (u: T).getl n c3 (CHead e3 (Bind b) u)) (\lambda (_: B).\lambda (e2: C).\lambda (e3: C).\lambda (_: T).csubst0 (minus i (S n)) v e2 e3) (ex2 C (\lambda (e2: C).csubst1 (S (minus i (S n))) v e1 e2) (\lambda (e2: C).getl n c3 e2)) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (H5: (eq C e1 (CHead x1 (Bind x0) x3))).\lambda (H6: (getl n c3 (CHead x2 (Bind x0) x3))).\lambda (H7: (csubst0 (minus i (S n)) v x1 x2)).eq_ind_r C (CHead x1 (Bind x0) x3) (\lambda (c: C).ex2 C (\lambda (e2: C).csubst1 (S (minus i (S n))) v c e2) (\lambda (e2: C).getl n c3 e2)) (ex_intro2 C (\lambda (e2: C).csubst1 (S (minus i (S n))) v (CHead x1 (Bind x0) x3) e2) (\lambda (e2: C).getl n c3 e2) (CHead x2 (Bind x0) x3) (csubst1_sing (S (minus i (S n))) v (CHead x1 (Bind x0) x3) (CHead x2 (Bind x0) x3) (csubst0_fst_bind x0 (minus i (S n)) x1 x2 v H7 x3)) H6) e1 H5) H4) (\lambda (H4: (ex4_5 B C C T T (\lambda (b: B).\lambda (e2: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e1 (CHead e2 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c3 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e1 e2))).ex4_5_ind B C C T T (\lambda (b: B).\lambda (e2: C).\lambda (_: C).\lambda (u: T).\lambda (_: T).eq C e1 (CHead e2 (Bind b) u)) (\lambda (b: B).\lambda (_: C).\lambda (e3: C).\lambda (_: T).\lambda (w: T).getl n c3 (CHead e3 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) v u w) (\lambda (_: B).\lambda (e2: C).\lambda (e3: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) v e2 e3) (ex2 C (\lambda (e2: C).csubst1 (S (minus i (S n))) v e1 e2) (\lambda (e2: C).getl n c3 e2)) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (x4: T).\lambda (H5: (eq C e1 (CHead x1 (Bind x0) x3))).\lambda (H6: (getl n c3 (CHead x2 (Bind x0) x4))).\lambda (H7: (subst0 (minus i (S n)) v x3 x4)).\lambda (H8: (csubst0 (minus i (S n)) v x1 x2)).eq_ind_r C (CHead x1 (Bind x0) x3) (\lambda (c: C).ex2 C (\lambda (e2: C).csubst1 (S (minus i (S n))) v c e2) (\lambda (e2: C).getl n c3 e2)) (ex_intro2 C (\lambda (e2: C).csubst1 (S (minus i (S n))) v (CHead x1 (Bind x0) x3) e2) (\lambda (e2: C).getl n c3 e2) (CHead x2 (Bind x0) x4) (csubst1_sing (S (minus i (S n))) v (CHead x1 (Bind x0) x3) (CHead x2 (Bind x0) x4) (csubst0_both_bind x0 (minus i (S n)) v x3 x4 H7 x1 x2 H8)) H6) e1 H5) H4) H3) (minus i n) (minus_x_Sy i n H)) c2 H0.
+
+theorem csubst1_getl_ge_back: \forall (i: nat).\forall (n: nat).(le i n) \to \forall (c1: C).\forall (c2: C).\forall (v: T).(csubst1 i v c1 c2) \to \forall (e: C).(getl n c2 e) \to getl n c1 e \def \lambda (i: nat).\lambda (n: nat).\lambda (H: (le i n)).\lambda (c1: C).\lambda (c2: C).\lambda (v: T).\lambda (H0: (csubst1 i v c1 c2)).csubst1_ind i v c1 (\lambda (c: C).\forall (e: C).(getl n c e) \to getl n c1 e) (\lambda (e: C).\lambda (H1: (getl n c1 e)).H1) (\lambda (c3: C).\lambda (H1: (csubst0 i v c1 c3)).\lambda (e: C).\lambda (H2: (getl n c3 e)).csubst0_getl_ge_back i n H c1 c3 v H1 e H2) c2 H0.
+
+theorem getl_csubst1: \forall (d: nat).\forall (c: C).\forall (e: C).\forall (u: T).(getl d c (CHead e (Bind Abbr) u)) \to ex2_2 C C (\lambda (a0: C).\lambda (_: C).csubst1 d u c a0) (\lambda (a0: C).\lambda (a: C).drop (S O) d a0 a) \def \lambda (d: nat).nat_ind (\lambda (n: nat).\forall (c: C).\forall (e: C).\forall (u: T).(getl n c (CHead e (Bind Abbr) u)) \to ex2_2 C C (\lambda (a0: C).\lambda (_: C).csubst1 n u c a0) (\lambda (a0: C).\lambda (a: C).drop (S O) n a0 a)) (\lambda (c: C).C_ind (\lambda (c0: C).\forall (e: C).\forall (u: T).(getl O c0 (CHead e (Bind Abbr) u)) \to ex2_2 C C (\lambda (a0: C).\lambda (_: C).csubst1 O u c0 a0) (\lambda (a0: C).\lambda (a: C).drop (S O) O a0 a)) (\lambda (n: nat).\lambda (e: C).\lambda (u: T).\lambda (H: (getl O (CSort n) (CHead e (Bind Abbr) u))).getl_gen_sort n O (CHead e (Bind Abbr) u) H (ex2_2 C C (\lambda (a0: C).\lambda (_: C).csubst1 O u (CSort n) a0) (\lambda (a0: C).\lambda (a: C).drop (S O) O a0 a))) (\lambda (c0: C).\lambda (H: ((\forall (e: C).\forall (u: T).(getl O c0 (CHead e (Bind Abbr) u)) \to ex2_2 C C (\lambda (a0: C).\lambda (_: C).csubst1 O u c0 a0) (\lambda (a0: C).\lambda (a: C).drop (S O) O a0 a)))).\lambda (k: K).match k return (\lambda (k0: K).\forall (t: T).\forall (e: C).\forall (u: T).(getl O (CHead c0 k0 t) (CHead e (Bind Abbr) u)) \to ex2_2 C C (\lambda (a0: C).\lambda (_: C).csubst1 O u (CHead c0 k0 t) a0) (\lambda (a0: C).\lambda (a: C).drop (S O) O a0 a)) with [(Bind b) \Rightarrow (\lambda (t: T).\lambda (e: C).\lambda (u: T).\lambda (H0: (getl O (CHead c0 (Bind b) t) (CHead e (Bind Abbr) u))).let H1 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow e | (CHead c _ _) \Rightarrow c]) (CHead e (Bind Abbr) u) (CHead c0 (Bind b) t) (clear_gen_bind b c0 (CHead e (Bind Abbr) u) t (getl_gen_O (CHead c0 (Bind b) t) (CHead e (Bind Abbr) u) H0)) in (let H2 \def f_equal C B (\lambda (e0: C).match e0 return B with [(CSort _) \Rightarrow Abbr | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (CHead e (Bind Abbr) u) (CHead c0 (Bind b) t) (clear_gen_bind b c0 (CHead e (Bind Abbr) u) t (getl_gen_O (CHead c0 (Bind b) t) (CHead e (Bind Abbr) u) H0)) in (let H3 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead e (Bind Abbr) u) (CHead c0 (Bind b) t) (clear_gen_bind b c0 (CHead e (Bind Abbr) u) t (getl_gen_O (CHead c0 (Bind b) t) (CHead e (Bind Abbr) u) H0)) in \lambda (H4: (eq B Abbr b)).\lambda (_: (eq C e c0)).eq_ind_r T t (\lambda (t0: T).ex2_2 C C (\lambda (a0: C).\lambda (_: C).csubst1 O t0 (CHead c0 (Bind b) t) a0) (\lambda (a0: C).\lambda (a: C).drop (S O) O a0 a)) (eq_ind B Abbr (\lambda (b0: B).ex2_2 C C (\lambda (a0: C).\lambda (_: C).csubst1 O t (CHead c0 (Bind b0) t) a0) (\lambda (a0: C).\lambda (a: C).drop (S O) O a0 a)) (ex2_2_intro C C (\lambda (a0: C).\lambda (_: C).csubst1 O t (CHead c0 (Bind Abbr) t) a0) (\lambda (a0: C).\lambda (a: C).drop (S O) O a0 a) (CHead c0 (Bind Abbr) t) c0 (csubst1_refl O t (CHead c0 (Bind Abbr) t)) (drop_drop (Bind Abbr) O c0 c0 (drop_refl c0) t)) b H4) u H3) H2) H1) | (Flat f) \Rightarrow (\lambda (t: T).\lambda (e: C).\lambda (u: T).\lambda (H0: (getl O (CHead c0 (Flat f) t) (CHead e (Bind Abbr) u))).let H_x \def subst1_ex u t O in let H1 \def H_x in ex_ind T (\lambda (t2: T).subst1 O u t (lift (S O) O t2)) (ex2_2 C C (\lambda (a0: C).\lambda (_: C).csubst1 O u (CHead c0 (Flat f) t) a0) (\lambda (a0: C).\lambda (a: C).drop (S O) O a0 a)) (\lambda (x: T).\lambda (H2: (subst1 O u t (lift (S O) O x))).let H3 \def H e u (getl_intro O c0 (CHead e (Bind Abbr) u) c0 (drop_refl c0) (clear_gen_flat f c0 (CHead e (Bind Abbr) u) t (getl_gen_O (CHead c0 (Flat f) t) (CHead e (Bind Abbr) u) H0))) in ex2_2_ind C C (\lambda (a0: C).\lambda (_: C).csubst1 O u c0 a0) (\lambda (a0: C).\lambda (a: C).drop (S O) O a0 a) (ex2_2 C C (\lambda (a0: C).\lambda (_: C).csubst1 O u (CHead c0 (Flat f) t) a0) (\lambda (a0: C).\lambda (a: C).drop (S O) O a0 a)) (\lambda (x0: C).\lambda (x1: C).\lambda (H4: (csubst1 O u c0 x0)).\lambda (H5: (drop (S O) O x0 x1)).ex2_2_intro C C (\lambda (a0: C).\lambda (_: C).csubst1 O u (CHead c0 (Flat f) t) a0) (\lambda (a0: C).\lambda (a: C).drop (S O) O a0 a) (CHead x0 (Flat f) (lift (S O) O x)) x1 (csubst1_flat f O u t (lift (S O) O x) H2 c0 x0 H4) (drop_drop (Flat f) O x0 x1 H5 (lift (S O) O x))) H3) H1)]) c) (\lambda (n: nat).\lambda (H: ((\forall (c: C).\forall (e: C).\forall (u: T).(getl n c (CHead e (Bind Abbr) u)) \to ex2_2 C C (\lambda (a0: C).\lambda (_: C).csubst1 n u c a0) (\lambda (a0: C).\lambda (a: C).drop (S O) n a0 a)))).\lambda (c: C).C_ind (\lambda (c0: C).\forall (e: C).\forall (u: T).(getl (S n) c0 (CHead e (Bind Abbr) u)) \to ex2_2 C C (\lambda (a0: C).\lambda (_: C).csubst1 (S n) u c0 a0) (\lambda (a0: C).\lambda (a: C).drop (S O) (S n) a0 a)) (\lambda (n0: nat).\lambda (e: C).\lambda (u: T).\lambda (H0: (getl (S n) (CSort n0) (CHead e (Bind Abbr) u))).getl_gen_sort n0 (S n) (CHead e (Bind Abbr) u) H0 (ex2_2 C C (\lambda (a0: C).\lambda (_: C).csubst1 (S n) u (CSort n0) a0) (\lambda (a0: C).\lambda (a: C).drop (S O) (S n) a0 a))) (\lambda (c0: C).\lambda (H0: ((\forall (e: C).\forall (u: T).(getl (S n) c0 (CHead e (Bind Abbr) u)) \to ex2_2 C C (\lambda (a0: C).\lambda (_: C).csubst1 (S n) u c0 a0) (\lambda (a0: C).\lambda (a: C).drop (S O) (S n) a0 a)))).\lambda (k: K).match k return (\lambda (k0: K).\forall (t: T).\forall (e: C).\forall (u: T).(getl (S n) (CHead c0 k0 t) (CHead e (Bind Abbr) u)) \to ex2_2 C C (\lambda (a0: C).\lambda (_: C).csubst1 (S n) u (CHead c0 k0 t) a0) (\lambda (a0: C).\lambda (a: C).drop (S O) (S n) a0 a)) with [(Bind b) \Rightarrow (\lambda (t: T).\lambda (e: C).\lambda (u: T).\lambda (H1: (getl (S n) (CHead c0 (Bind b) t) (CHead e (Bind Abbr) u))).let H_x \def subst1_ex u t n in let H2 \def H_x in ex_ind T (\lambda (t2: T).subst1 n u t (lift (S O) n t2)) (ex2_2 C C (\lambda (a0: C).\lambda (_: C).csubst1 (S n) u (CHead c0 (Bind b) t) a0) (\lambda (a0: C).\lambda (a: C).drop (S O) (S n) a0 a)) (\lambda (x: T).\lambda (H3: (subst1 n u t (lift (S O) n x))).let H4 \def H c0 e u (getl_gen_S (Bind b) c0 (CHead e (Bind Abbr) u) t n H1) in ex2_2_ind C C (\lambda (a0: C).\lambda (_: C).csubst1 n u c0 a0) (\lambda (a0: C).\lambda (a: C).drop (S O) n a0 a) (ex2_2 C C (\lambda (a0: C).\lambda (_: C).csubst1 (S n) u (CHead c0 (Bind b) t) a0) (\lambda (a0: C).\lambda (a: C).drop (S O) (S n) a0 a)) (\lambda (x0: C).\lambda (x1: C).\lambda (H5: (csubst1 n u c0 x0)).\lambda (H6: (drop (S O) n x0 x1)).ex2_2_intro C C (\lambda (a0: C).\lambda (_: C).csubst1 (S n) u (CHead c0 (Bind b) t) a0) (\lambda (a0: C).\lambda (a: C).drop (S O) (S n) a0 a) (CHead x0 (Bind b) (lift (S O) n x)) (CHead x1 (Bind b) x) (csubst1_bind b n u t (lift (S O) n x) H3 c0 x0 H5) (drop_skip_bind (S O) n x0 x1 H6 b x)) H4) H2) | (Flat f) \Rightarrow (\lambda (t: T).\lambda (e: C).\lambda (u: T).\lambda (H1: (getl (S n) (CHead c0 (Flat f) t) (CHead e (Bind Abbr) u))).let H_x \def subst1_ex u t (S n) in let H2 \def H_x in ex_ind T (\lambda (t2: T).subst1 (S n) u t (lift (S O) (S n) t2)) (ex2_2 C C (\lambda (a0: C).\lambda (_: C).csubst1 (S n) u (CHead c0 (Flat f) t) a0) (\lambda (a0: C).\lambda (a: C).drop (S O) (S n) a0 a)) (\lambda (x: T).\lambda (H3: (subst1 (S n) u t (lift (S O) (S n) x))).let H4 \def H0 e u (getl_gen_S (Flat f) c0 (CHead e (Bind Abbr) u) t n H1) in ex2_2_ind C C (\lambda (a0: C).\lambda (_: C).csubst1 (S n) u c0 a0) (\lambda (a0: C).\lambda (a: C).drop (S O) (S n) a0 a) (ex2_2 C C (\lambda (a0: C).\lambda (_: C).csubst1 (S n) u (CHead c0 (Flat f) t) a0) (\lambda (a0: C).\lambda (a: C).drop (S O) (S n) a0 a)) (\lambda (x0: C).\lambda (x1: C).\lambda (H5: (csubst1 (S n) u c0 x0)).\lambda (H6: (drop (S O) (S n) x0 x1)).ex2_2_intro C C (\lambda (a0: C).\lambda (_: C).csubst1 (S n) u (CHead c0 (Flat f) t) a0) (\lambda (a0: C).\lambda (a: C).drop (S O) (S n) a0 a) (CHead x0 (Flat f) (lift (S O) (S n) x)) (CHead x1 (Flat f) x) (csubst1_flat f (S n) u t (lift (S O) (S n) x) H3 c0 x0 H5) (drop_skip_flat (S O) n x0 x1 H6 f x)) H4) H2)]) c) d.
+
+inductive fsubst0 (i:nat) (v:T) (c1:C) (t1:T): C \to T \to Prop \def
+| fsubst0_snd: \forall (t2: T).(subst0 i v t1 t2) \to fsubst0 i v c1 t1 c1 t2
+| fsubst0_fst: \forall (c2: C).(csubst0 i v c1 c2) \to fsubst0 i v c1 t1 c2 t1
+| fsubst0_both: \forall (t2: T).(subst0 i v t1 t2) \to \forall (c2: C).(csubst0 i v c1 c2) \to fsubst0 i v c1 t1 c2 t2.
+
+theorem fsubst0_gen_base: \forall (c1: C).\forall (c2: C).\forall (t1: T).\forall (t2: T).\forall (v: T).\forall (i: nat).(fsubst0 i v c1 t1 c2 t2) \to or3 (and (eq C c1 c2) (subst0 i v t1 t2)) (and (eq T t1 t2) (csubst0 i v c1 c2)) (and (subst0 i v t1 t2) (csubst0 i v c1 c2)) \def \lambda (c1: C).\lambda (c2: C).\lambda (t1: T).\lambda (t2: T).\lambda (v: T).\lambda (i: nat).\lambda (H: (fsubst0 i v c1 t1 c2 t2)).let H0 \def match H return (\lambda (c: C).\lambda (t: T).(eq C c c2) \to (eq T t t2) \to or3 (and (eq C c1 c2) (subst0 i v t1 t2)) (and (eq T t1 t2) (csubst0 i v c1 c2)) (and (subst0 i v t1 t2) (csubst0 i v c1 c2))) with [(fsubst0_snd t0 H0) \Rightarrow (\lambda (H1: (eq C c1 c2)).\lambda (H2: (eq T t0 t2)).eq_ind C c2 (\lambda (c: C).(eq T t0 t2) \to (subst0 i v t1 t0) \to or3 (and (eq C c c2) (subst0 i v t1 t2)) (and (eq T t1 t2) (csubst0 i v c c2)) (and (subst0 i v t1 t2) (csubst0 i v c c2))) (\lambda (H3: (eq T t0 t2)).eq_ind T t2 (\lambda (t: T).(subst0 i v t1 t) \to or3 (and (eq C c2 c2) (subst0 i v t1 t2)) (and (eq T t1 t2) (csubst0 i v c2 c2)) (and (subst0 i v t1 t2) (csubst0 i v c2 c2))) (\lambda (H4: (subst0 i v t1 t2)).or3_intro0 (and (eq C c2 c2) (subst0 i v t1 t2)) (and (eq T t1 t2) (csubst0 i v c2 c2)) (and (subst0 i v t1 t2) (csubst0 i v c2 c2)) (conj (eq C c2 c2) (subst0 i v t1 t2) (refl_equal C c2) H4)) t0 (sym_eq T t0 t2 H3)) c1 (sym_eq C c1 c2 H1) H2 H0) | (fsubst0_fst c0 H0) \Rightarrow (\lambda (H1: (eq C c0 c2)).\lambda (H2: (eq T t1 t2)).eq_ind C c2 (\lambda (c: C).(eq T t1 t2) \to (csubst0 i v c1 c) \to or3 (and (eq C c1 c2) (subst0 i v t1 t2)) (and (eq T t1 t2) (csubst0 i v c1 c2)) (and (subst0 i v t1 t2) (csubst0 i v c1 c2))) (\lambda (H3: (eq T t1 t2)).eq_ind T t2 (\lambda (t: T).(csubst0 i v c1 c2) \to or3 (and (eq C c1 c2) (subst0 i v t t2)) (and (eq T t t2) (csubst0 i v c1 c2)) (and (subst0 i v t t2) (csubst0 i v c1 c2))) (\lambda (H4: (csubst0 i v c1 c2)).or3_intro1 (and (eq C c1 c2) (subst0 i v t2 t2)) (and (eq T t2 t2) (csubst0 i v c1 c2)) (and (subst0 i v t2 t2) (csubst0 i v c1 c2)) (conj (eq T t2 t2) (csubst0 i v c1 c2) (refl_equal T t2) H4)) t1 (sym_eq T t1 t2 H3)) c0 (sym_eq C c0 c2 H1) H2 H0) | (fsubst0_both t0 H0 c0 H1) \Rightarrow (\lambda (H2: (eq C c0 c2)).\lambda (H3: (eq T t0 t2)).eq_ind C c2 (\lambda (c: C).(eq T t0 t2) \to (subst0 i v t1 t0) \to (csubst0 i v c1 c) \to or3 (and (eq C c1 c2) (subst0 i v t1 t2)) (and (eq T t1 t2) (csubst0 i v c1 c2)) (and (subst0 i v t1 t2) (csubst0 i v c1 c2))) (\lambda (H4: (eq T t0 t2)).eq_ind T t2 (\lambda (t: T).(subst0 i v t1 t) \to (csubst0 i v c1 c2) \to or3 (and (eq C c1 c2) (subst0 i v t1 t2)) (and (eq T t1 t2) (csubst0 i v c1 c2)) (and (subst0 i v t1 t2) (csubst0 i v c1 c2))) (\lambda (H5: (subst0 i v t1 t2)).\lambda (H6: (csubst0 i v c1 c2)).or3_intro2 (and (eq C c1 c2) (subst0 i v t1 t2)) (and (eq T t1 t2) (csubst0 i v c1 c2)) (and (subst0 i v t1 t2) (csubst0 i v c1 c2)) (conj (subst0 i v t1 t2) (csubst0 i v c1 c2) H5 H6)) t0 (sym_eq T t0 t2 H4)) c0 (sym_eq C c0 c2 H2) H3 H0 H1)] in H0 (refl_equal C c2) (refl_equal T t2).
+
+inductive G: Set \def
+| Build_G: \forall (next: ((nat \to nat))).((\forall (n: nat).lt n (next n))) \to G.
+
+theorem next_plus: G \to nat \to nat \to nat \def let rec (next_plus: (\forall (g: G).\forall (n: nat).\forall (i: nat).nat)) = (\lambda (g: G).\lambda (n: nat).\lambda (i: nat).match i with [O \Rightarrow n | (S i0) \Rightarrow (next g (next_plus g n i0))]) in next_plus.
+
+theorem next_plus_assoc: \forall (g: G).\forall (n: nat).\forall (h1: nat).\forall (h2: nat).eq nat (next_plus g (next_plus g n h1) h2) (next_plus g n (plus h1 h2)) \def \lambda (g: G).\lambda (n: nat).\lambda (h1: nat).nat_ind (\lambda (n0: nat).\forall (h2: nat).eq nat (next_plus g (next_plus g n n0) h2) (next_plus g n (plus n0 h2))) (\lambda (h2: nat).refl_equal nat (next_plus g n h2)) (\lambda (n0: nat).\lambda (_: ((\forall (h2: nat).eq nat (next_plus g (next_plus g n n0) h2) (next_plus g n (plus n0 h2))))).\lambda (h2: nat).nat_ind (\lambda (n1: nat).eq nat (next_plus g (next g (next_plus g n n0)) n1) (next g (next_plus g n (plus n0 n1)))) (eq_ind nat n0 (\lambda (n1: nat).eq nat (next g (next_plus g n n0)) (next g (next_plus g n n1))) (refl_equal nat (next g (next_plus g n n0))) (plus n0 O) (plus_n_O n0)) (\lambda (n1: nat).\lambda (H0: (eq nat (next_plus g (next g (next_plus g n n0)) n1) (next g (next_plus g n (plus n0 n1))))).eq_ind nat (S (plus n0 n1)) (\lambda (n2: nat).eq nat (next g (next_plus g (next g (next_plus g n n0)) n1)) (next g (next_plus g n n2))) (f_equal nat nat (next g) (next_plus g (next g (next_plus g n n0)) n1) (next g (next_plus g n (plus n0 n1))) H0) (plus n0 (S n1)) (plus_n_Sm n0 n1)) h2) h1.
+
+theorem next_plus_next: \forall (g: G).\forall (n: nat).\forall (h: nat).eq nat (next_plus g (next g n) h) (next g (next_plus g n h)) \def \lambda (g: G).\lambda (n: nat).\lambda (h: nat).eq_ind_r nat (next_plus g n (plus (S O) h)) (\lambda (n0: nat).eq nat n0 (next g (next_plus g n h))) (refl_equal nat (next g (next_plus g n h))) (next_plus g (next_plus g n (S O)) h) (next_plus_assoc g n (S O) h).
+
+theorem next_plus_lt: \forall (g: G).\forall (h: nat).\forall (n: nat).lt n (next_plus g (next g n) h) \def \lambda (g: G).\lambda (h: nat).nat_ind (\lambda (n: nat).\forall (n0: nat).lt n0 (next_plus g (next g n0) n)) (\lambda (n: nat).le_S_n (S n) (next g n) (lt_le_S (S n) (S (next g n)) (lt_n_S n (next g n) (next_lt g n)))) (\lambda (n: nat).\lambda (H: ((\forall (n0: nat).lt n0 (next_plus g (next g n0) n)))).\lambda (n0: nat).eq_ind nat (next_plus g (next g (next g n0)) n) (\lambda (n1: nat).lt n0 n1) (lt_trans n0 (next g n0) (next_plus g (next g (next g n0)) n) (next_lt g n0) (H (next g n0))) (next g (next_plus g (next g n0) n)) (next_plus_next g (next g n0) n)) h.
+
+inductive tau0 (g:G): C \to T \to T \to Prop \def
+| tau0_sort: \forall (c: C).\forall (n: nat).tau0 g c (TSort n) (TSort (next g n))
+| tau0_abbr: \forall (c: C).\forall (d: C).\forall (v: T).\forall (i: nat).(getl i c (CHead d (Bind Abbr) v)) \to \forall (w: T).(tau0 g d v w) \to tau0 g c (TLRef i) (lift (S i) O w)
+| tau0_abst: \forall (c: C).\forall (d: C).\forall (v: T).\forall (i: nat).(getl i c (CHead d (Bind Abst) v)) \to \forall (w: T).(tau0 g d v w) \to tau0 g c (TLRef i) (lift (S i) O v)
+| tau0_bind: \forall (b: B).\forall (c: C).\forall (v: T).\forall (t1: T).\forall (t2: T).(tau0 g (CHead c (Bind b) v) t1 t2) \to tau0 g c (THead (Bind b) v t1) (THead (Bind b) v t2)
+| tau0_appl: \forall (c: C).\forall (v: T).\forall (t1: T).\forall (t2: T).(tau0 g c t1 t2) \to tau0 g c (THead (Flat Appl) v t1) (THead (Flat Appl) v t2)
+| tau0_cast: \forall (c: C).\forall (v1: T).\forall (v2: T).(tau0 g c v1 v2) \to \forall (t1: T).\forall (t2: T).(tau0 g c t1 t2) \to tau0 g c (THead (Flat Cast) v1 t1) (THead (Flat Cast) v2 t2).
+
+theorem tau0_lift: \forall (g: G).\forall (e: C).\forall (t1: T).\forall (t2: T).(tau0 g e t1 t2) \to \forall (c: C).\forall (h: nat).\forall (d: nat).(drop h d c e) \to tau0 g c (lift h d t1) (lift h d t2) \def \lambda (g: G).\lambda (e: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (tau0 g e t1 t2)).tau0_ind g (\lambda (c: C).\lambda (t: T).\lambda (t0: T).\forall (c0: C).\forall (h: nat).\forall (d: nat).(drop h d c0 c) \to tau0 g c0 (lift h d t) (lift h d t0)) (\lambda (c: C).\lambda (n: nat).\lambda (c0: C).\lambda (h: nat).\lambda (d: nat).\lambda (_: (drop h d c0 c)).eq_ind_r T (TSort n) (\lambda (t: T).tau0 g c0 t (lift h d (TSort (next g n)))) (eq_ind_r T (TSort (next g n)) (\lambda (t: T).tau0 g c0 (TSort n) t) (tau0_sort g c0 n) (lift h d (TSort (next g n))) (lift_sort (next g n) h d)) (lift h d (TSort n)) (lift_sort n h d)) (\lambda (c: C).\lambda (d: C).\lambda (v: T).\lambda (i: nat).\lambda (H0: (getl i c (CHead d (Bind Abbr) v))).\lambda (w: T).\lambda (H1: (tau0 g d v w)).\lambda (H2: ((\forall (c: C).\forall (h: nat).\forall (d0: nat).(drop h d0 c d) \to tau0 g c (lift h d0 v) (lift h d0 w)))).\lambda (c0: C).\lambda (h: nat).\lambda (d0: nat).\lambda (H3: (drop h d0 c0 c)).lt_le_e i d0 (tau0 g c0 (lift h d0 (TLRef i)) (lift h d0 (lift (S i) O w))) (\lambda (H4: (lt i d0)).let H5 \def drop_getl_trans_le i d0 (le_S_n i d0 (le_S (S i) d0 H4)) c0 c h H3 (CHead d (Bind Abbr) v) H0 in ex3_2_ind C C (\lambda (e0: C).\lambda (_: C).drop i O c0 e0) (\lambda (e0: C).\lambda (e1: C).drop h (minus d0 i) e0 e1) (\lambda (_: C).\lambda (e1: C).clear e1 (CHead d (Bind Abbr) v)) (tau0 g c0 (lift h d0 (TLRef i)) (lift h d0 (lift (S i) O w))) (\lambda (x0: C).\lambda (x1: C).\lambda (H6: (drop i O c0 x0)).\lambda (H7: (drop h (minus d0 i) x0 x1)).\lambda (H8: (clear x1 (CHead d (Bind Abbr) v))).let H9 \def eq_ind nat (minus d0 i) (\lambda (n: nat).drop h n x0 x1) H7 (S (minus d0 (S i))) (minus_x_Sy d0 i H4) in let H10 \def drop_clear_S x1 x0 h (minus d0 (S i)) H9 Abbr d v H8 in ex2_ind C (\lambda (c1: C).clear x0 (CHead c1 (Bind Abbr) (lift h (minus d0 (S i)) v))) (\lambda (c1: C).drop h (minus d0 (S i)) c1 d) (tau0 g c0 (lift h d0 (TLRef i)) (lift h d0 (lift (S i) O w))) (\lambda (x: C).\lambda (H11: (clear x0 (CHead x (Bind Abbr) (lift h (minus d0 (S i)) v)))).\lambda (H12: (drop h (minus d0 (S i)) x d)).eq_ind_r T (TLRef i) (\lambda (t: T).tau0 g c0 t (lift h d0 (lift (S i) O w))) (eq_ind nat (plus (S i) (minus d0 (S i))) (\lambda (n: nat).tau0 g c0 (TLRef i) (lift h n (lift (S i) O w))) (eq_ind_r T (lift (S i) O (lift h (minus d0 (S i)) w)) (\lambda (t: T).tau0 g c0 (TLRef i) t) (eq_ind nat d0 (\lambda (_: nat).tau0 g c0 (TLRef i) (lift (S i) O (lift h (minus d0 (S i)) w))) (tau0_abbr g c0 x (lift h (minus d0 (S i)) v) i (getl_intro i c0 (CHead x (Bind Abbr) (lift h (minus d0 (S i)) v)) x0 H6 H11) (lift h (minus d0 (S i)) w) (H2 x h (minus d0 (S i)) H12)) (plus (S i) (minus d0 (S i))) (le_plus_minus (S i) d0 H4)) (lift h (plus (S i) (minus d0 (S i))) (lift (S i) O w)) (lift_d w h (S i) (minus d0 (S i)) O (le_O_n (minus d0 (S i))))) d0 (le_plus_minus_r (S i) d0 H4)) (lift h d0 (TLRef i)) (lift_lref_lt i h d0 H4)) H10) H5) (\lambda (H4: (le d0 i)).eq_ind_r T (TLRef (plus i h)) (\lambda (t: T).tau0 g c0 t (lift h d0 (lift (S i) O w))) (eq_ind nat (S i) (\lambda (_: nat).tau0 g c0 (TLRef (plus i h)) (lift h d0 (lift (S i) O w))) (eq_ind_r T (lift (plus h (S i)) O w) (\lambda (t: T).tau0 g c0 (TLRef (plus i h)) t) (eq_ind_r nat (plus (S i) h) (\lambda (n: nat).tau0 g c0 (TLRef (plus i h)) (lift n O w)) (tau0_abbr g c0 d v (plus i h) (drop_getl_trans_ge i c0 c d0 h H3 (CHead d (Bind Abbr) v) H0 H4) w H1) (plus h (S i)) (plus_sym h (S i))) (lift h d0 (lift (S i) O w)) (lift_free w (S i) h O d0 (le_S d0 i H4) (le_O_n d0))) (plus i (S O)) (eq_ind_r nat (plus (S O) i) (\lambda (n: nat).eq nat (S i) n) (refl_equal nat (plus (S O) i)) (plus i (S O)) (plus_sym i (S O)))) (lift h d0 (TLRef i)) (lift_lref_ge i h d0 H4))) (\lambda (c: C).\lambda (d: C).\lambda (v: T).\lambda (i: nat).\lambda (H0: (getl i c (CHead d (Bind Abst) v))).\lambda (w: T).\lambda (H1: (tau0 g d v w)).\lambda (H2: ((\forall (c: C).\forall (h: nat).\forall (d0: nat).(drop h d0 c d) \to tau0 g c (lift h d0 v) (lift h d0 w)))).\lambda (c0: C).\lambda (h: nat).\lambda (d0: nat).\lambda (H3: (drop h d0 c0 c)).lt_le_e i d0 (tau0 g c0 (lift h d0 (TLRef i)) (lift h d0 (lift (S i) O v))) (\lambda (H4: (lt i d0)).let H5 \def drop_getl_trans_le i d0 (le_S_n i d0 (le_S (S i) d0 H4)) c0 c h H3 (CHead d (Bind Abst) v) H0 in ex3_2_ind C C (\lambda (e0: C).\lambda (_: C).drop i O c0 e0) (\lambda (e0: C).\lambda (e1: C).drop h (minus d0 i) e0 e1) (\lambda (_: C).\lambda (e1: C).clear e1 (CHead d (Bind Abst) v)) (tau0 g c0 (lift h d0 (TLRef i)) (lift h d0 (lift (S i) O v))) (\lambda (x0: C).\lambda (x1: C).\lambda (H6: (drop i O c0 x0)).\lambda (H7: (drop h (minus d0 i) x0 x1)).\lambda (H8: (clear x1 (CHead d (Bind Abst) v))).let H9 \def eq_ind nat (minus d0 i) (\lambda (n: nat).drop h n x0 x1) H7 (S (minus d0 (S i))) (minus_x_Sy d0 i H4) in let H10 \def drop_clear_S x1 x0 h (minus d0 (S i)) H9 Abst d v H8 in ex2_ind C (\lambda (c1: C).clear x0 (CHead c1 (Bind Abst) (lift h (minus d0 (S i)) v))) (\lambda (c1: C).drop h (minus d0 (S i)) c1 d) (tau0 g c0 (lift h d0 (TLRef i)) (lift h d0 (lift (S i) O v))) (\lambda (x: C).\lambda (H11: (clear x0 (CHead x (Bind Abst) (lift h (minus d0 (S i)) v)))).\lambda (H12: (drop h (minus d0 (S i)) x d)).eq_ind_r T (TLRef i) (\lambda (t: T).tau0 g c0 t (lift h d0 (lift (S i) O v))) (eq_ind nat (plus (S i) (minus d0 (S i))) (\lambda (n: nat).tau0 g c0 (TLRef i) (lift h n (lift (S i) O v))) (eq_ind_r T (lift (S i) O (lift h (minus d0 (S i)) v)) (\lambda (t: T).tau0 g c0 (TLRef i) t) (eq_ind nat d0 (\lambda (_: nat).tau0 g c0 (TLRef i) (lift (S i) O (lift h (minus d0 (S i)) v))) (tau0_abst g c0 x (lift h (minus d0 (S i)) v) i (getl_intro i c0 (CHead x (Bind Abst) (lift h (minus d0 (S i)) v)) x0 H6 H11) (lift h (minus d0 (S i)) w) (H2 x h (minus d0 (S i)) H12)) (plus (S i) (minus d0 (S i))) (le_plus_minus (S i) d0 H4)) (lift h (plus (S i) (minus d0 (S i))) (lift (S i) O v)) (lift_d v h (S i) (minus d0 (S i)) O (le_O_n (minus d0 (S i))))) d0 (le_plus_minus_r (S i) d0 H4)) (lift h d0 (TLRef i)) (lift_lref_lt i h d0 H4)) H10) H5) (\lambda (H4: (le d0 i)).eq_ind_r T (TLRef (plus i h)) (\lambda (t: T).tau0 g c0 t (lift h d0 (lift (S i) O v))) (eq_ind nat (S i) (\lambda (_: nat).tau0 g c0 (TLRef (plus i h)) (lift h d0 (lift (S i) O v))) (eq_ind_r T (lift (plus h (S i)) O v) (\lambda (t: T).tau0 g c0 (TLRef (plus i h)) t) (eq_ind_r nat (plus (S i) h) (\lambda (n: nat).tau0 g c0 (TLRef (plus i h)) (lift n O v)) (tau0_abst g c0 d v (plus i h) (drop_getl_trans_ge i c0 c d0 h H3 (CHead d (Bind Abst) v) H0 H4) w H1) (plus h (S i)) (plus_sym h (S i))) (lift h d0 (lift (S i) O v)) (lift_free v (S i) h O d0 (le_S d0 i H4) (le_O_n d0))) (plus i (S O)) (eq_ind_r nat (plus (S O) i) (\lambda (n: nat).eq nat (S i) n) (refl_equal nat (plus (S O) i)) (plus i (S O)) (plus_sym i (S O)))) (lift h d0 (TLRef i)) (lift_lref_ge i h d0 H4))) (\lambda (b: B).\lambda (c: C).\lambda (v: T).\lambda (t3: T).\lambda (t4: T).\lambda (_: (tau0 g (CHead c (Bind b) v) t3 t4)).\lambda (H1: ((\forall (c0: C).\forall (h: nat).\forall (d: nat).(drop h d c0 (CHead c (Bind b) v)) \to tau0 g c0 (lift h d t3) (lift h d t4)))).\lambda (c0: C).\lambda (h: nat).\lambda (d: nat).\lambda (H2: (drop h d c0 c)).eq_ind_r T (THead (Bind b) (lift h d v) (lift h (s (Bind b) d) t3)) (\lambda (t: T).tau0 g c0 t (lift h d (THead (Bind b) v t4))) (eq_ind_r T (THead (Bind b) (lift h d v) (lift h (s (Bind b) d) t4)) (\lambda (t: T).tau0 g c0 (THead (Bind b) (lift h d v) (lift h (s (Bind b) d) t3)) t) (tau0_bind g b c0 (lift h d v) (lift h (S d) t3) (lift h (S d) t4) (H1 (CHead c0 (Bind b) (lift h d v)) h (S d) (drop_skip_bind h d c0 c H2 b v))) (lift h d (THead (Bind b) v t4)) (lift_head (Bind b) v t4 h d)) (lift h d (THead (Bind b) v t3)) (lift_head (Bind b) v t3 h d)) (\lambda (c: C).\lambda (v: T).\lambda (t3: T).\lambda (t4: T).\lambda (_: (tau0 g c t3 t4)).\lambda (H1: ((\forall (c0: C).\forall (h: nat).\forall (d: nat).(drop h d c0 c) \to tau0 g c0 (lift h d t3) (lift h d t4)))).\lambda (c0: C).\lambda (h: nat).\lambda (d: nat).\lambda (H2: (drop h d c0 c)).eq_ind_r T (THead (Flat Appl) (lift h d v) (lift h (s (Flat Appl) d) t3)) (\lambda (t: T).tau0 g c0 t (lift h d (THead (Flat Appl) v t4))) (eq_ind_r T (THead (Flat Appl) (lift h d v) (lift h (s (Flat Appl) d) t4)) (\lambda (t: T).tau0 g c0 (THead (Flat Appl) (lift h d v) (lift h (s (Flat Appl) d) t3)) t) (tau0_appl g c0 (lift h d v) (lift h (s (Flat Appl) d) t3) (lift h (s (Flat Appl) d) t4) (H1 c0 h (s (Flat Appl) d) H2)) (lift h d (THead (Flat Appl) v t4)) (lift_head (Flat Appl) v t4 h d)) (lift h d (THead (Flat Appl) v t3)) (lift_head (Flat Appl) v t3 h d)) (\lambda (c: C).\lambda (v1: T).\lambda (v2: T).\lambda (_: (tau0 g c v1 v2)).\lambda (H1: ((\forall (c0: C).\forall (h: nat).\forall (d: nat).(drop h d c0 c) \to tau0 g c0 (lift h d v1) (lift h d v2)))).\lambda (t3: T).\lambda (t4: T).\lambda (_: (tau0 g c t3 t4)).\lambda (H3: ((\forall (c0: C).\forall (h: nat).\forall (d: nat).(drop h d c0 c) \to tau0 g c0 (lift h d t3) (lift h d t4)))).\lambda (c0: C).\lambda (h: nat).\lambda (d: nat).\lambda (H4: (drop h d c0 c)).eq_ind_r T (THead (Flat Cast) (lift h d v1) (lift h (s (Flat Cast) d) t3)) (\lambda (t: T).tau0 g c0 t (lift h d (THead (Flat Cast) v2 t4))) (eq_ind_r T (THead (Flat Cast) (lift h d v2) (lift h (s (Flat Cast) d) t4)) (\lambda (t: T).tau0 g c0 (THead (Flat Cast) (lift h d v1) (lift h (s (Flat Cast) d) t3)) t) (tau0_cast g c0 (lift h d v1) (lift h d v2) (H1 c0 h d H4) (lift h (s (Flat Cast) d) t3) (lift h (s (Flat Cast) d) t4) (H3 c0 h (s (Flat Cast) d) H4)) (lift h d (THead (Flat Cast) v2 t4)) (lift_head (Flat Cast) v2 t4 h d)) (lift h d (THead (Flat Cast) v1 t3)) (lift_head (Flat Cast) v1 t3 h d)) e t1 t2 H.
+
+theorem tau0_correct: \forall (g: G).\forall (c: C).\forall (t1: T).\forall (t: T).(tau0 g c t1 t) \to ex T (\lambda (t2: T).tau0 g c t t2) \def \lambda (g: G).\lambda (c: C).\lambda (t1: T).\lambda (t: T).\lambda (H: (tau0 g c t1 t)).tau0_ind g (\lambda (c0: C).\lambda (_: T).\lambda (t2: T).ex T (\lambda (t3: T).tau0 g c0 t2 t3)) (\lambda (c0: C).\lambda (n: nat).ex_intro T (\lambda (t2: T).tau0 g c0 (TSort (next g n)) t2) (TSort (next g (next g n))) (tau0_sort g c0 (next g n))) (\lambda (c0: C).\lambda (d: C).\lambda (v: T).\lambda (i: nat).\lambda (H0: (getl i c0 (CHead d (Bind Abbr) v))).\lambda (w: T).\lambda (_: (tau0 g d v w)).\lambda (H2: (ex T (\lambda (t2: T).tau0 g d w t2))).let H3 \def H2 in ex_ind T (\lambda (t2: T).tau0 g d w t2) (ex T (\lambda (t2: T).tau0 g c0 (lift (S i) O w) t2)) (\lambda (x: T).\lambda (H4: (tau0 g d w x)).ex_intro T (\lambda (t2: T).tau0 g c0 (lift (S i) O w) t2) (lift (S i) O x) (tau0_lift g d w x H4 c0 (S i) O (getl_drop Abbr c0 d v i H0))) H3) (\lambda (c0: C).\lambda (d: C).\lambda (v: T).\lambda (i: nat).\lambda (H0: (getl i c0 (CHead d (Bind Abst) v))).\lambda (w: T).\lambda (H1: (tau0 g d v w)).\lambda (H2: (ex T (\lambda (t2: T).tau0 g d w t2))).let H3 \def H2 in ex_ind T (\lambda (t2: T).tau0 g d w t2) (ex T (\lambda (t2: T).tau0 g c0 (lift (S i) O v) t2)) (\lambda (x: T).\lambda (_: (tau0 g d w x)).ex_intro T (\lambda (t2: T).tau0 g c0 (lift (S i) O v) t2) (lift (S i) O w) (tau0_lift g d v w H1 c0 (S i) O (getl_drop Abst c0 d v i H0))) H3) (\lambda (b: B).\lambda (c0: C).\lambda (v: T).\lambda (t2: T).\lambda (t3: T).\lambda (_: (tau0 g (CHead c0 (Bind b) v) t2 t3)).\lambda (H1: (ex T (\lambda (t2: T).tau0 g (CHead c0 (Bind b) v) t3 t2))).let H2 \def H1 in ex_ind T (\lambda (t4: T).tau0 g (CHead c0 (Bind b) v) t3 t4) (ex T (\lambda (t4: T).tau0 g c0 (THead (Bind b) v t3) t4)) (\lambda (x: T).\lambda (H3: (tau0 g (CHead c0 (Bind b) v) t3 x)).ex_intro T (\lambda (t4: T).tau0 g c0 (THead (Bind b) v t3) t4) (THead (Bind b) v x) (tau0_bind g b c0 v t3 x H3)) H2) (\lambda (c0: C).\lambda (v: T).\lambda (t2: T).\lambda (t3: T).\lambda (_: (tau0 g c0 t2 t3)).\lambda (H1: (ex T (\lambda (t2: T).tau0 g c0 t3 t2))).let H2 \def H1 in ex_ind T (\lambda (t4: T).tau0 g c0 t3 t4) (ex T (\lambda (t4: T).tau0 g c0 (THead (Flat Appl) v t3) t4)) (\lambda (x: T).\lambda (H3: (tau0 g c0 t3 x)).ex_intro T (\lambda (t4: T).tau0 g c0 (THead (Flat Appl) v t3) t4) (THead (Flat Appl) v x) (tau0_appl g c0 v t3 x H3)) H2) (\lambda (c0: C).\lambda (v1: T).\lambda (v2: T).\lambda (_: (tau0 g c0 v1 v2)).\lambda (H1: (ex T (\lambda (t2: T).tau0 g c0 v2 t2))).\lambda (t2: T).\lambda (t3: T).\lambda (_: (tau0 g c0 t2 t3)).\lambda (H3: (ex T (\lambda (t2: T).tau0 g c0 t3 t2))).let H4 \def H1 in ex_ind T (\lambda (t4: T).tau0 g c0 v2 t4) (ex T (\lambda (t4: T).tau0 g c0 (THead (Flat Cast) v2 t3) t4)) (\lambda (x: T).\lambda (H5: (tau0 g c0 v2 x)).let H6 \def H3 in ex_ind T (\lambda (t4: T).tau0 g c0 t3 t4) (ex T (\lambda (t4: T).tau0 g c0 (THead (Flat Cast) v2 t3) t4)) (\lambda (x0: T).\lambda (H7: (tau0 g c0 t3 x0)).ex_intro T (\lambda (t4: T).tau0 g c0 (THead (Flat Cast) v2 t3) t4) (THead (Flat Cast) x x0) (tau0_cast g c0 v2 x H5 t3 x0 H7)) H6) H4) c t1 t H.
+
+inductive tau1 (g:G) (c:C) (t1:T): T \to Prop \def
+| tau1_tau0: \forall (t2: T).(tau0 g c t1 t2) \to tau1 g c t1 t2
+| tau1_sing: \forall (t: T).(tau1 g c t1 t) \to \forall (t2: T).(tau0 g c t t2) \to tau1 g c t1 t2.
+
+theorem tau1_trans: \forall (g: G).\forall (c: C).\forall (t1: T).\forall (t: T).(tau1 g c t1 t) \to \forall (t2: T).(tau1 g c t t2) \to tau1 g c t1 t2 \def \lambda (g: G).\lambda (c: C).\lambda (t1: T).\lambda (t: T).\lambda (H: (tau1 g c t1 t)).\lambda (t2: T).\lambda (H0: (tau1 g c t t2)).tau1_ind g c t (\lambda (t0: T).tau1 g c t1 t0) (\lambda (t3: T).\lambda (H1: (tau0 g c t t3)).tau1_sing g c t1 t H t3 H1) (\lambda (t0: T).\lambda (_: (tau1 g c t t0)).\lambda (H2: (tau1 g c t1 t0)).\lambda (t3: T).\lambda (H3: (tau0 g c t0 t3)).tau1_sing g c t1 t0 H2 t3 H3) t2 H0.
+
+theorem tau1_bind: \forall (g: G).\forall (b: B).\forall (c: C).\forall (v: T).\forall (t1: T).\forall (t2: T).(tau1 g (CHead c (Bind b) v) t1 t2) \to tau1 g c (THead (Bind b) v t1) (THead (Bind b) v t2) \def \lambda (g: G).\lambda (b: B).\lambda (c: C).\lambda (v: T).\lambda (t1: T).\lambda (t2: T).\lambda (H: (tau1 g (CHead c (Bind b) v) t1 t2)).tau1_ind g (CHead c (Bind b) v) t1 (\lambda (t: T).tau1 g c (THead (Bind b) v t1) (THead (Bind b) v t)) (\lambda (t3: T).\lambda (H0: (tau0 g (CHead c (Bind b) v) t1 t3)).tau1_tau0 g c (THead (Bind b) v t1) (THead (Bind b) v t3) (tau0_bind g b c v t1 t3 H0)) (\lambda (t: T).\lambda (_: (tau1 g (CHead c (Bind b) v) t1 t)).\lambda (H1: (tau1 g c (THead (Bind b) v t1) (THead (Bind b) v t))).\lambda (t3: T).\lambda (H2: (tau0 g (CHead c (Bind b) v) t t3)).tau1_sing g c (THead (Bind b) v t1) (THead (Bind b) v t) H1 (THead (Bind b) v t3) (tau0_bind g b c v t t3 H2)) t2 H.
+
+theorem tau1_appl: \forall (g: G).\forall (c: C).\forall (v: T).\forall (t1: T).\forall (t2: T).(tau1 g c t1 t2) \to tau1 g c (THead (Flat Appl) v t1) (THead (Flat Appl) v t2) \def \lambda (g: G).\lambda (c: C).\lambda (v: T).\lambda (t1: T).\lambda (t2: T).\lambda (H: (tau1 g c t1 t2)).tau1_ind g c t1 (\lambda (t: T).tau1 g c (THead (Flat Appl) v t1) (THead (Flat Appl) v t)) (\lambda (t3: T).\lambda (H0: (tau0 g c t1 t3)).tau1_tau0 g c (THead (Flat Appl) v t1) (THead (Flat Appl) v t3) (tau0_appl g c v t1 t3 H0)) (\lambda (t: T).\lambda (_: (tau1 g c t1 t)).\lambda (H1: (tau1 g c (THead (Flat Appl) v t1) (THead (Flat Appl) v t))).\lambda (t3: T).\lambda (H2: (tau0 g c t t3)).tau1_sing g c (THead (Flat Appl) v t1) (THead (Flat Appl) v t) H1 (THead (Flat Appl) v t3) (tau0_appl g c v t t3 H2)) t2 H.
+
+theorem tau1_lift: \forall (g: G).\forall (e: C).\forall (t1: T).\forall (t2: T).(tau1 g e t1 t2) \to \forall (c: C).\forall (h: nat).\forall (d: nat).(drop h d c e) \to tau1 g c (lift h d t1) (lift h d t2) \def \lambda (g: G).\lambda (e: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (tau1 g e t1 t2)).tau1_ind g e t1 (\lambda (t: T).\forall (c: C).\forall (h: nat).\forall (d: nat).(drop h d c e) \to tau1 g c (lift h d t1) (lift h d t)) (\lambda (t3: T).\lambda (H0: (tau0 g e t1 t3)).\lambda (c: C).\lambda (h: nat).\lambda (d: nat).\lambda (H1: (drop h d c e)).tau1_tau0 g c (lift h d t1) (lift h d t3) (tau0_lift g e t1 t3 H0 c h d H1)) (\lambda (t: T).\lambda (_: (tau1 g e t1 t)).\lambda (H1: ((\forall (c: C).\forall (h: nat).\forall (d: nat).(drop h d c e) \to tau1 g c (lift h d t1) (lift h d t)))).\lambda (t3: T).\lambda (H2: (tau0 g e t t3)).\lambda (c: C).\lambda (h: nat).\lambda (d: nat).\lambda (H3: (drop h d c e)).tau1_sing g c (lift h d t1) (lift h d t) (H1 c h d H3) (lift h d t3) (tau0_lift g e t t3 H2 c h d H3)) t2 H.
+
+theorem tau1_correct: \forall (g: G).\forall (c: C).\forall (t1: T).\forall (t: T).(tau1 g c t1 t) \to ex T (\lambda (t2: T).tau0 g c t t2) \def \lambda (g: G).\lambda (c: C).\lambda (t1: T).\lambda (t: T).\lambda (H: (tau1 g c t1 t)).tau1_ind g c t1 (\lambda (t0: T).ex T (\lambda (t2: T).tau0 g c t0 t2)) (\lambda (t2: T).\lambda (H0: (tau0 g c t1 t2)).tau0_correct g c t1 t2 H0) (\lambda (t0: T).\lambda (_: (tau1 g c t1 t0)).\lambda (_: (ex T (\lambda (t2: T).tau0 g c t0 t2))).\lambda (t2: T).\lambda (H2: (tau0 g c t0 t2)).tau0_correct g c t0 t2 H2) t H.
+
+theorem tau1_abbr: \forall (g: G).\forall (c: C).\forall (d: C).\forall (v: T).\forall (i: nat).(getl i c (CHead d (Bind Abbr) v)) \to \forall (w: T).(tau1 g d v w) \to tau1 g c (TLRef i) (lift (S i) O w) \def \lambda (g: G).\lambda (c: C).\lambda (d: C).\lambda (v: T).\lambda (i: nat).\lambda (H: (getl i c (CHead d (Bind Abbr) v))).\lambda (w: T).\lambda (H0: (tau1 g d v w)).tau1_ind g d v (\lambda (t: T).tau1 g c (TLRef i) (lift (S i) O t)) (\lambda (t2: T).\lambda (H1: (tau0 g d v t2)).tau1_tau0 g c (TLRef i) (lift (S i) O t2) (tau0_abbr g c d v i H t2 H1)) (\lambda (t: T).\lambda (_: (tau1 g d v t)).\lambda (H2: (tau1 g c (TLRef i) (lift (S i) O t))).\lambda (t2: T).\lambda (H3: (tau0 g d t t2)).tau1_sing g c (TLRef i) (lift (S i) O t) H2 (lift (S i) O t2) (tau0_lift g d t t2 H3 c (S i) O (getl_drop Abbr c d v i H))) w H0.
+
+theorem tau1_cast2: \forall (g: G).\forall (c: C).\forall (t1: T).\forall (t2: T).(tau1 g c t1 t2) \to \forall (v1: T).\forall (v2: T).(tau0 g c v1 v2) \to ex2 T (\lambda (v3: T).tau1 g c v1 v3) (\lambda (v3: T).tau1 g c (THead (Flat Cast) v1 t1) (THead (Flat Cast) v3 t2)) \def \lambda (g: G).\lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (tau1 g c t1 t2)).tau1_ind g c t1 (\lambda (t: T).\forall (v1: T).\forall (v2: T).(tau0 g c v1 v2) \to ex2 T (\lambda (v3: T).tau1 g c v1 v3) (\lambda (v3: T).tau1 g c (THead (Flat Cast) v1 t1) (THead (Flat Cast) v3 t))) (\lambda (t3: T).\lambda (H0: (tau0 g c t1 t3)).\lambda (v1: T).\lambda (v2: T).\lambda (H1: (tau0 g c v1 v2)).ex_intro2 T (\lambda (v3: T).tau1 g c v1 v3) (\lambda (v3: T).tau1 g c (THead (Flat Cast) v1 t1) (THead (Flat Cast) v3 t3)) v2 (tau1_tau0 g c v1 v2 H1) (tau1_tau0 g c (THead (Flat Cast) v1 t1) (THead (Flat Cast) v2 t3) (tau0_cast g c v1 v2 H1 t1 t3 H0))) (\lambda (t: T).\lambda (_: (tau1 g c t1 t)).\lambda (H1: ((\forall (v1: T).\forall (v2: T).(tau0 g c v1 v2) \to ex2 T (\lambda (v3: T).tau1 g c v1 v3) (\lambda (v3: T).tau1 g c (THead (Flat Cast) v1 t1) (THead (Flat Cast) v3 t))))).\lambda (t3: T).\lambda (H2: (tau0 g c t t3)).\lambda (v1: T).\lambda (v2: T).\lambda (H3: (tau0 g c v1 v2)).let H_x \def H1 v1 v2 H3 in let H4 \def H_x in ex2_ind T (\lambda (v3: T).tau1 g c v1 v3) (\lambda (v3: T).tau1 g c (THead (Flat Cast) v1 t1) (THead (Flat Cast) v3 t)) (ex2 T (\lambda (v3: T).tau1 g c v1 v3) (\lambda (v3: T).tau1 g c (THead (Flat Cast) v1 t1) (THead (Flat Cast) v3 t3))) (\lambda (x: T).\lambda (H5: (tau1 g c v1 x)).\lambda (H6: (tau1 g c (THead (Flat Cast) v1 t1) (THead (Flat Cast) x t))).let H_x0 \def tau1_correct g c v1 x H5 in let H7 \def H_x0 in ex_ind T (\lambda (t4: T).tau0 g c x t4) (ex2 T (\lambda (v3: T).tau1 g c v1 v3) (\lambda (v3: T).tau1 g c (THead (Flat Cast) v1 t1) (THead (Flat Cast) v3 t3))) (\lambda (x0: T).\lambda (H8: (tau0 g c x x0)).ex_intro2 T (\lambda (v3: T).tau1 g c v1 v3) (\lambda (v3: T).tau1 g c (THead (Flat Cast) v1 t1) (THead (Flat Cast) v3 t3)) x0 (tau1_sing g c v1 x H5 x0 H8) (tau1_sing g c (THead (Flat Cast) v1 t1) (THead (Flat Cast) x t) H6 (THead (Flat Cast) x0 t3) (tau0_cast g c x x0 H8 t t3 H2))) H7) H4) t2 H.
+
+theorem tau1_cnt: \forall (g: G).\forall (c: C).\forall (t1: T).\forall (t: T).(tau0 g c t1 t) \to ex2 T (\lambda (t2: T).tau1 g c t1 t2) (\lambda (t2: T).cnt t2) \def \lambda (g: G).\lambda (c: C).\lambda (t1: T).\lambda (t: T).\lambda (H: (tau0 g c t1 t)).tau0_ind g (\lambda (c0: C).\lambda (t0: T).\lambda (_: T).ex2 T (\lambda (t3: T).tau1 g c0 t0 t3) (\lambda (t3: T).cnt t3)) (\lambda (c0: C).\lambda (n: nat).ex_intro2 T (\lambda (t2: T).tau1 g c0 (TSort n) t2) (\lambda (t2: T).cnt t2) (TSort (next g n)) (tau1_tau0 g c0 (TSort n) (TSort (next g n)) (tau0_sort g c0 n)) (cnt_sort (next g n))) (\lambda (c0: C).\lambda (d: C).\lambda (v: T).\lambda (i: nat).\lambda (H0: (getl i c0 (CHead d (Bind Abbr) v))).\lambda (w: T).\lambda (_: (tau0 g d v w)).\lambda (H2: (ex2 T (\lambda (t2: T).tau1 g d v t2) (\lambda (t2: T).cnt t2))).let H3 \def H2 in ex2_ind T (\lambda (t2: T).tau1 g d v t2) (\lambda (t2: T).cnt t2) (ex2 T (\lambda (t2: T).tau1 g c0 (TLRef i) t2) (\lambda (t2: T).cnt t2)) (\lambda (x: T).\lambda (H4: (tau1 g d v x)).\lambda (H5: (cnt x)).ex_intro2 T (\lambda (t2: T).tau1 g c0 (TLRef i) t2) (\lambda (t2: T).cnt t2) (lift (S i) O x) (tau1_abbr g c0 d v i H0 x H4) (cnt_lift x H5 (S i) O)) H3) (\lambda (c0: C).\lambda (d: C).\lambda (v: T).\lambda (i: nat).\lambda (H0: (getl i c0 (CHead d (Bind Abst) v))).\lambda (w: T).\lambda (H1: (tau0 g d v w)).\lambda (H2: (ex2 T (\lambda (t2: T).tau1 g d v t2) (\lambda (t2: T).cnt t2))).let H3 \def H2 in ex2_ind T (\lambda (t2: T).tau1 g d v t2) (\lambda (t2: T).cnt t2) (ex2 T (\lambda (t2: T).tau1 g c0 (TLRef i) t2) (\lambda (t2: T).cnt t2)) (\lambda (x: T).\lambda (H4: (tau1 g d v x)).\lambda (H5: (cnt x)).ex_intro2 T (\lambda (t2: T).tau1 g c0 (TLRef i) t2) (\lambda (t2: T).cnt t2) (lift (S i) O x) (tau1_trans g c0 (TLRef i) (lift (S i) O v) (tau1_tau0 g c0 (TLRef i) (lift (S i) O v) (tau0_abst g c0 d v i H0 w H1)) (lift (S i) O x) (tau1_lift g d v x H4 c0 (S i) O (getl_drop Abst c0 d v i H0))) (cnt_lift x H5 (S i) O)) H3) (\lambda (b: B).\lambda (c0: C).\lambda (v: T).\lambda (t2: T).\lambda (t3: T).\lambda (_: (tau0 g (CHead c0 (Bind b) v) t2 t3)).\lambda (H1: (ex2 T (\lambda (t3: T).tau1 g (CHead c0 (Bind b) v) t2 t3) (\lambda (t2: T).cnt t2))).let H2 \def H1 in ex2_ind T (\lambda (t4: T).tau1 g (CHead c0 (Bind b) v) t2 t4) (\lambda (t4: T).cnt t4) (ex2 T (\lambda (t4: T).tau1 g c0 (THead (Bind b) v t2) t4) (\lambda (t4: T).cnt t4)) (\lambda (x: T).\lambda (H3: (tau1 g (CHead c0 (Bind b) v) t2 x)).\lambda (H4: (cnt x)).ex_intro2 T (\lambda (t4: T).tau1 g c0 (THead (Bind b) v t2) t4) (\lambda (t4: T).cnt t4) (THead (Bind b) v x) (tau1_bind g b c0 v t2 x H3) (cnt_head x H4 (Bind b) v)) H2) (\lambda (c0: C).\lambda (v: T).\lambda (t2: T).\lambda (t3: T).\lambda (_: (tau0 g c0 t2 t3)).\lambda (H1: (ex2 T (\lambda (t3: T).tau1 g c0 t2 t3) (\lambda (t2: T).cnt t2))).let H2 \def H1 in ex2_ind T (\lambda (t4: T).tau1 g c0 t2 t4) (\lambda (t4: T).cnt t4) (ex2 T (\lambda (t4: T).tau1 g c0 (THead (Flat Appl) v t2) t4) (\lambda (t4: T).cnt t4)) (\lambda (x: T).\lambda (H3: (tau1 g c0 t2 x)).\lambda (H4: (cnt x)).ex_intro2 T (\lambda (t4: T).tau1 g c0 (THead (Flat Appl) v t2) t4) (\lambda (t4: T).cnt t4) (THead (Flat Appl) v x) (tau1_appl g c0 v t2 x H3) (cnt_head x H4 (Flat Appl) v)) H2) (\lambda (c0: C).\lambda (v1: T).\lambda (v2: T).\lambda (H0: (tau0 g c0 v1 v2)).\lambda (_: (ex2 T (\lambda (t2: T).tau1 g c0 v1 t2) (\lambda (t2: T).cnt t2))).\lambda (t2: T).\lambda (t3: T).\lambda (_: (tau0 g c0 t2 t3)).\lambda (H3: (ex2 T (\lambda (t3: T).tau1 g c0 t2 t3) (\lambda (t2: T).cnt t2))).let H4 \def H3 in ex2_ind T (\lambda (t4: T).tau1 g c0 t2 t4) (\lambda (t4: T).cnt t4) (ex2 T (\lambda (t4: T).tau1 g c0 (THead (Flat Cast) v1 t2) t4) (\lambda (t4: T).cnt t4)) (\lambda (x: T).\lambda (H5: (tau1 g c0 t2 x)).\lambda (H6: (cnt x)).let H_x \def tau1_cast2 g c0 t2 x H5 v1 v2 H0 in let H7 \def H_x in ex2_ind T (\lambda (v3: T).tau1 g c0 v1 v3) (\lambda (v3: T).tau1 g c0 (THead (Flat Cast) v1 t2) (THead (Flat Cast) v3 x)) (ex2 T (\lambda (t4: T).tau1 g c0 (THead (Flat Cast) v1 t2) t4) (\lambda (t4: T).cnt t4)) (\lambda (x0: T).\lambda (_: (tau1 g c0 v1 x0)).\lambda (H9: (tau1 g c0 (THead (Flat Cast) v1 t2) (THead (Flat Cast) x0 x))).ex_intro2 T (\lambda (t4: T).tau1 g c0 (THead (Flat Cast) v1 t2) t4) (\lambda (t4: T).cnt t4) (THead (Flat Cast) x0 x) H9 (cnt_head x H6 (Flat Cast) x0)) H7) H4) c t1 t H.
+
+inductive A: Set \def
+| ASort: nat \to nat \to A
+| AHead: A \to A \to A.
+
+theorem asucc: G \to A \to A \def let rec (asucc: (\forall (g: G).\forall (l: A).A)) = (\lambda (g: G).\lambda (l: A).match l with [(ASort n0 n) \Rightarrow (match n0 with [O \Rightarrow (ASort O (next g n)) | (S h) \Rightarrow (ASort h n)]) | (AHead a1 a2) \Rightarrow (AHead a1 (asucc g a2))]) in asucc.
+
+theorem aplus: G \to A \to nat \to A \def let rec (aplus: (\forall (g: G).\forall (a: A).\forall (n: nat).A)) = (\lambda (g: G).\lambda (a: A).\lambda (n: nat).match n with [O \Rightarrow a | (S n0) \Rightarrow (asucc g (aplus g a n0))]) in aplus.
+
+inductive leq (g:G): A \to A \to Prop \def
+| leq_sort: \forall (h1: nat).\forall (h2: nat).\forall (n1: nat).\forall (n2: nat).\forall (k: nat).(eq A (aplus g (ASort h1 n1) k) (aplus g (ASort h2 n2) k)) \to leq g (ASort h1 n1) (ASort h2 n2)
+| leq_head: \forall (a1: A).\forall (a2: A).(leq g a1 a2) \to \forall (a3: A).\forall (a4: A).(leq g a3 a4) \to leq g (AHead a1 a3) (AHead a2 a4).
+
+theorem leq_gen_sort: \forall (g: G).\forall (h1: nat).\forall (n1: nat).\forall (a2: A).(leq g (ASort h1 n1) a2) \to ex2_3 nat nat nat (\lambda (n2: nat).\lambda (h2: nat).\lambda (_: nat).eq A a2 (ASort h2 n2)) (\lambda (n2: nat).\lambda (h2: nat).\lambda (k: nat).eq A (aplus g (ASort h1 n1) k) (aplus g (ASort h2 n2) k)) \def \lambda (g: G).\lambda (h1: nat).\lambda (n1: nat).\lambda (a2: A).\lambda (H: (leq g (ASort h1 n1) a2)).let H0 \def match H return (\lambda (a: A).\lambda (a0: A).(eq A a (ASort h1 n1)) \to (eq A a0 a2) \to ex2_3 nat nat nat (\lambda (n2: nat).\lambda (h2: nat).\lambda (_: nat).eq A a2 (ASort h2 n2)) (\lambda (n2: nat).\lambda (h2: nat).\lambda (k: nat).eq A (aplus g (ASort h1 n1) k) (aplus g (ASort h2 n2) k))) with [(leq_sort h0 h2 n0 n2 k H0) \Rightarrow (\lambda (H1: (eq A (ASort h0 n0) (ASort h1 n1))).\lambda (H2: (eq A (ASort h2 n2) a2)).(let H3 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort _ n) \Rightarrow n | (AHead _ _) \Rightarrow n0]) (ASort h0 n0) (ASort h1 n1) H1 in (let H4 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort n _) \Rightarrow n | (AHead _ _) \Rightarrow h0]) (ASort h0 n0) (ASort h1 n1) H1 in eq_ind nat h1 (\lambda (n: nat).(eq nat n0 n1) \to (eq A (ASort h2 n2) a2) \to (eq A (aplus g (ASort n n0) k) (aplus g (ASort h2 n2) k)) \to ex2_3 nat nat nat (\lambda (n3: nat).\lambda (h3: nat).\lambda (_: nat).eq A a2 (ASort h3 n3)) (\lambda (n3: nat).\lambda (h3: nat).\lambda (k0: nat).eq A (aplus g (ASort h1 n1) k0) (aplus g (ASort h3 n3) k0))) (\lambda (H5: (eq nat n0 n1)).eq_ind nat n1 (\lambda (n: nat).(eq A (ASort h2 n2) a2) \to (eq A (aplus g (ASort h1 n) k) (aplus g (ASort h2 n2) k)) \to ex2_3 nat nat nat (\lambda (n3: nat).\lambda (h3: nat).\lambda (_: nat).eq A a2 (ASort h3 n3)) (\lambda (n3: nat).\lambda (h3: nat).\lambda (k0: nat).eq A (aplus g (ASort h1 n1) k0) (aplus g (ASort h3 n3) k0))) (\lambda (H6: (eq A (ASort h2 n2) a2)).eq_ind A (ASort h2 n2) (\lambda (a: A).(eq A (aplus g (ASort h1 n1) k) (aplus g (ASort h2 n2) k)) \to ex2_3 nat nat nat (\lambda (n3: nat).\lambda (h3: nat).\lambda (_: nat).eq A a (ASort h3 n3)) (\lambda (n3: nat).\lambda (h3: nat).\lambda (k0: nat).eq A (aplus g (ASort h1 n1) k0) (aplus g (ASort h3 n3) k0))) (\lambda (H7: (eq A (aplus g (ASort h1 n1) k) (aplus g (ASort h2 n2) k))).ex2_3_intro nat nat nat (\lambda (n3: nat).\lambda (h3: nat).\lambda (_: nat).eq A (ASort h2 n2) (ASort h3 n3)) (\lambda (n3: nat).\lambda (h3: nat).\lambda (k0: nat).eq A (aplus g (ASort h1 n1) k0) (aplus g (ASort h3 n3) k0)) n2 h2 k (refl_equal A (ASort h2 n2)) H7) a2 H6) n0 (sym_eq nat n0 n1 H5)) h0 (sym_eq nat h0 h1 H4)) H3) H2 H0) | (leq_head a1 a0 H0 a3 a4 H1) \Rightarrow (\lambda (H2: (eq A (AHead a1 a3) (ASort h1 n1))).\lambda (H3: (eq A (AHead a0 a4) a2)).(let H4 \def eq_ind A (AHead a1 a3) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow False | (AHead _ _) \Rightarrow True]) I (ASort h1 n1) H2 in False_ind ((eq A (AHead a0 a4) a2) \to (leq g a1 a0) \to (leq g a3 a4) \to ex2_3 nat nat nat (\lambda (n2: nat).\lambda (h2: nat).\lambda (_: nat).eq A a2 (ASort h2 n2)) (\lambda (n2: nat).\lambda (h2: nat).\lambda (k: nat).eq A (aplus g (ASort h1 n1) k) (aplus g (ASort h2 n2) k))) H4) H3 H0 H1)] in H0 (refl_equal A (ASort h1 n1)) (refl_equal A a2).
+
+theorem leq_gen_head: \forall (g: G).\forall (a1: A).\forall (a2: A).\forall (a: A).(leq g (AHead a1 a2) a) \to ex3_2 A A (\lambda (a3: A).\lambda (a4: A).eq A a (AHead a3 a4)) (\lambda (a3: A).\lambda (_: A).leq g a1 a3) (\lambda (_: A).\lambda (a4: A).leq g a2 a4) \def \lambda (g: G).\lambda (a1: A).\lambda (a2: A).\lambda (a: A).\lambda (H: (leq g (AHead a1 a2) a)).let H0 \def match H return (\lambda (a0: A).\lambda (a3: A).(eq A a0 (AHead a1 a2)) \to (eq A a3 a) \to ex3_2 A A (\lambda (a4: A).\lambda (a5: A).eq A a (AHead a4 a5)) (\lambda (a4: A).\lambda (_: A).leq g a1 a4) (\lambda (_: A).\lambda (a5: A).leq g a2 a5)) with [(leq_sort h1 h2 n1 n2 k H0) \Rightarrow (\lambda (H1: (eq A (ASort h1 n1) (AHead a1 a2))).\lambda (H2: (eq A (ASort h2 n2) a)).(let H3 \def eq_ind A (ASort h1 n1) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow True | (AHead _ _) \Rightarrow False]) I (AHead a1 a2) H1 in False_ind ((eq A (ASort h2 n2) a) \to (eq A (aplus g (ASort h1 n1) k) (aplus g (ASort h2 n2) k)) \to ex3_2 A A (\lambda (a3: A).\lambda (a4: A).eq A a (AHead a3 a4)) (\lambda (a3: A).\lambda (_: A).leq g a1 a3) (\lambda (_: A).\lambda (a4: A).leq g a2 a4)) H3) H2 H0) | (leq_head a0 a3 H0 a4 a5 H1) \Rightarrow (\lambda (H2: (eq A (AHead a0 a4) (AHead a1 a2))).\lambda (H3: (eq A (AHead a3 a5) a)).(let H4 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a4 | (AHead _ a) \Rightarrow a]) (AHead a0 a4) (AHead a1 a2) H2 in (let H5 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a0 | (AHead a _) \Rightarrow a]) (AHead a0 a4) (AHead a1 a2) H2 in eq_ind A a1 (\lambda (a6: A).(eq A a4 a2) \to (eq A (AHead a3 a5) a) \to (leq g a6 a3) \to (leq g a4 a5) \to ex3_2 A A (\lambda (a7: A).\lambda (a8: A).eq A a (AHead a7 a8)) (\lambda (a7: A).\lambda (_: A).leq g a1 a7) (\lambda (_: A).\lambda (a8: A).leq g a2 a8)) (\lambda (H6: (eq A a4 a2)).eq_ind A a2 (\lambda (a6: A).(eq A (AHead a3 a5) a) \to (leq g a1 a3) \to (leq g a6 a5) \to ex3_2 A A (\lambda (a7: A).\lambda (a8: A).eq A a (AHead a7 a8)) (\lambda (a7: A).\lambda (_: A).leq g a1 a7) (\lambda (_: A).\lambda (a8: A).leq g a2 a8)) (\lambda (H7: (eq A (AHead a3 a5) a)).eq_ind A (AHead a3 a5) (\lambda (a: A).(leq g a1 a3) \to (leq g a2 a5) \to ex3_2 A A (\lambda (a6: A).\lambda (a7: A).eq A a (AHead a6 a7)) (\lambda (a6: A).\lambda (_: A).leq g a1 a6) (\lambda (_: A).\lambda (a7: A).leq g a2 a7)) (\lambda (H8: (leq g a1 a3)).\lambda (H9: (leq g a2 a5)).ex3_2_intro A A (\lambda (a6: A).\lambda (a7: A).eq A (AHead a3 a5) (AHead a6 a7)) (\lambda (a6: A).\lambda (_: A).leq g a1 a6) (\lambda (_: A).\lambda (a7: A).leq g a2 a7) a3 a5 (refl_equal A (AHead a3 a5)) H8 H9) a H7) a4 (sym_eq A a4 a2 H6)) a0 (sym_eq A a0 a1 H5)) H4) H3 H0 H1)] in H0 (refl_equal A (AHead a1 a2)) (refl_equal A a).
+
+theorem asucc_gen_sort: \forall (g: G).\forall (h: nat).\forall (n: nat).\forall (a: A).(eq A (ASort h n) (asucc g a)) \to ex_2 nat nat (\lambda (h0: nat).\lambda (n0: nat).eq A a (ASort h0 n0)) \def \lambda (g: G).\lambda (h: nat).\lambda (n: nat).\lambda (a: A).A_ind (\lambda (a0: A).(eq A (ASort h n) (asucc g a0)) \to ex_2 nat nat (\lambda (h0: nat).\lambda (n0: nat).eq A a0 (ASort h0 n0))) (\lambda (n0: nat).\lambda (n1: nat).\lambda (H: (eq A (ASort h n) (asucc g (ASort n0 n1)))).let H0 \def f_equal A A (\lambda (e: A).e) (ASort h n) (match n0 with [O \Rightarrow (ASort O (next g n1)) | (S h) \Rightarrow (ASort h n1)]) H in ex_2_intro nat nat (\lambda (h0: nat).\lambda (n2: nat).eq A (ASort n0 n1) (ASort h0 n2)) n0 n1 (refl_equal A (ASort n0 n1))) (\lambda (a0: A).\lambda (_: (((eq A (ASort h n) (asucc g a0)) \to ex_2 nat nat (\lambda (h0: nat).\lambda (n0: nat).eq A a0 (ASort h0 n0))))).\lambda (a1: A).\lambda (_: (((eq A (ASort h n) (asucc g a1)) \to ex_2 nat nat (\lambda (h0: nat).\lambda (n0: nat).eq A a1 (ASort h0 n0))))).\lambda (H1: (eq A (ASort h n) (asucc g (AHead a0 a1)))).let H2 \def eq_ind A (ASort h n) (\lambda (ee: A).match ee return (Prop) with [(ASort _ _) \Rightarrow True | (AHead _ _) \Rightarrow False]) I (asucc g (AHead a0 a1)) H1 in False_ind (ex_2 nat nat (\lambda (h0: nat).\lambda (n0: nat).eq A (AHead a0 a1) (ASort h0 n0))) H2) a.
+
+theorem asucc_gen_head: \forall (g: G).\forall (a1: A).\forall (a2: A).\forall (a: A).(eq A (AHead a1 a2) (asucc g a)) \to ex2 A (\lambda (a0: A).eq A a (AHead a1 a0)) (\lambda (a0: A).eq A a2 (asucc g a0)) \def \lambda (g: G).\lambda (a1: A).\lambda (a2: A).\lambda (a: A).A_ind (\lambda (a0: A).(eq A (AHead a1 a2) (asucc g a0)) \to ex2 A (\lambda (a3: A).eq A a0 (AHead a1 a3)) (\lambda (a3: A).eq A a2 (asucc g a3))) (\lambda (n: nat).\lambda (n0: nat).\lambda (H: (eq A (AHead a1 a2) (asucc g (ASort n n0)))).nat_ind (\lambda (n1: nat).(eq A (AHead a1 a2) (asucc g (ASort n1 n0))) \to ex2 A (\lambda (a0: A).eq A (ASort n1 n0) (AHead a1 a0)) (\lambda (a0: A).eq A a2 (asucc g a0))) (\lambda (H0: (eq A (AHead a1 a2) (asucc g (ASort O n0)))).let H1 \def eq_ind A (AHead a1 a2) (\lambda (ee: A).match ee return (Prop) with [(ASort _ _) \Rightarrow False | (AHead _ _) \Rightarrow True]) I (ASort O (next g n0)) H0 in False_ind (ex2 A (\lambda (a0: A).eq A (ASort O n0) (AHead a1 a0)) (\lambda (a0: A).eq A a2 (asucc g a0))) H1) (\lambda (n1: nat).\lambda (_: (((eq A (AHead a1 a2) (asucc g (ASort n1 n0))) \to ex2 A (\lambda (a0: A).eq A (ASort n1 n0) (AHead a1 a0)) (\lambda (a0: A).eq A a2 (asucc g a0))))).\lambda (H0: (eq A (AHead a1 a2) (asucc g (ASort (S n1) n0)))).let H1 \def eq_ind A (AHead a1 a2) (\lambda (ee: A).match ee return (Prop) with [(ASort _ _) \Rightarrow False | (AHead _ _) \Rightarrow True]) I (ASort n1 n0) H0 in False_ind (ex2 A (\lambda (a0: A).eq A (ASort (S n1) n0) (AHead a1 a0)) (\lambda (a0: A).eq A a2 (asucc g a0))) H1) n H) (\lambda (a0: A).\lambda (H: (((eq A (AHead a1 a2) (asucc g a0)) \to ex2 A (\lambda (a2: A).eq A a0 (AHead a1 a2)) (\lambda (a0: A).eq A a2 (asucc g a0))))).\lambda (a3: A).\lambda (H0: (((eq A (AHead a1 a2) (asucc g a3)) \to ex2 A (\lambda (a0: A).eq A a3 (AHead a1 a0)) (\lambda (a0: A).eq A a2 (asucc g a0))))).\lambda (H1: (eq A (AHead a1 a2) (asucc g (AHead a0 a3)))).let H2 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a1 | (AHead a _) \Rightarrow a]) (AHead a1 a2) (AHead a0 (asucc g a3)) H1 in (let H3 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a2 | (AHead _ a) \Rightarrow a]) (AHead a1 a2) (AHead a0 (asucc g a3)) H1 in \lambda (H4: (eq A a1 a0)).let H5 \def eq_ind_r A a0 (\lambda (a: A).(eq A (AHead a1 a2) (asucc g a)) \to ex2 A (\lambda (a0: A).eq A a (AHead a1 a0)) (\lambda (a0: A).eq A a2 (asucc g a0))) H a1 H4 in eq_ind A a1 (\lambda (a4: A).ex2 A (\lambda (a5: A).eq A (AHead a4 a3) (AHead a1 a5)) (\lambda (a5: A).eq A a2 (asucc g a5))) (let H6 \def eq_ind A a2 (\lambda (a: A).(eq A (AHead a1 a) (asucc g a3)) \to ex2 A (\lambda (a0: A).eq A a3 (AHead a1 a0)) (\lambda (a0: A).eq A a (asucc g a0))) H0 (asucc g a3) H3 in let H7 \def eq_ind A a2 (\lambda (a: A).(eq A (AHead a1 a) (asucc g a1)) \to ex2 A (\lambda (a0: A).eq A a1 (AHead a1 a0)) (\lambda (a0: A).eq A a (asucc g a0))) H5 (asucc g a3) H3 in eq_ind_r A (asucc g a3) (\lambda (a4: A).ex2 A (\lambda (a5: A).eq A (AHead a1 a3) (AHead a1 a5)) (\lambda (a5: A).eq A a4 (asucc g a5))) (ex_intro2 A (\lambda (a4: A).eq A (AHead a1 a3) (AHead a1 a4)) (\lambda (a4: A).eq A (asucc g a3) (asucc g a4)) a3 (refl_equal A (AHead a1 a3)) (refl_equal A (asucc g a3))) a2 H3) a0 H4) H2) a.
+
+theorem aplus_reg_r: \forall (g: G).\forall (a1: A).\forall (a2: A).\forall (h1: nat).\forall (h2: nat).(eq A (aplus g a1 h1) (aplus g a2 h2)) \to \forall (h: nat).eq A (aplus g a1 (plus h h1)) (aplus g a2 (plus h h2)) \def \lambda (g: G).\lambda (a1: A).\lambda (a2: A).\lambda (h1: nat).\lambda (h2: nat).\lambda (H: (eq A (aplus g a1 h1) (aplus g a2 h2))).\lambda (h: nat).nat_ind (\lambda (n: nat).eq A (aplus g a1 (plus n h1)) (aplus g a2 (plus n h2))) H (\lambda (n: nat).\lambda (H0: (eq A (aplus g a1 (plus n h1)) (aplus g a2 (plus n h2)))).sym_equal A (asucc g (aplus g a2 (plus n h2))) (asucc g (aplus g a1 (plus n h1))) (sym_equal A (asucc g (aplus g a1 (plus n h1))) (asucc g (aplus g a2 (plus n h2))) (sym_equal A (asucc g (aplus g a2 (plus n h2))) (asucc g (aplus g a1 (plus n h1))) (f_equal2 G A A asucc g g (aplus g a2 (plus n h2)) (aplus g a1 (plus n h1)) (refl_equal G g) (sym_eq A (aplus g a1 (plus n h1)) (aplus g a2 (plus n h2)) H0))))) h.
+
+theorem aplus_assoc: \forall (g: G).\forall (a: A).\forall (h1: nat).\forall (h2: nat).eq A (aplus g (aplus g a h1) h2) (aplus g a (plus h1 h2)) \def \lambda (g: G).\lambda (a: A).\lambda (h1: nat).nat_ind (\lambda (n: nat).\forall (h2: nat).eq A (aplus g (aplus g a n) h2) (aplus g a (plus n h2))) (\lambda (h2: nat).refl_equal A (aplus g a h2)) (\lambda (n: nat).\lambda (_: ((\forall (h2: nat).eq A (aplus g (aplus g a n) h2) (aplus g a (plus n h2))))).\lambda (h2: nat).nat_ind (\lambda (n0: nat).eq A (aplus g (asucc g (aplus g a n)) n0) (asucc g (aplus g a (plus n n0)))) (eq_ind nat n (\lambda (n0: nat).eq A (asucc g (aplus g a n)) (asucc g (aplus g a n0))) (refl_equal A (asucc g (aplus g a n))) (plus n O) (plus_n_O n)) (\lambda (n0: nat).\lambda (H0: (eq A (aplus g (asucc g (aplus g a n)) n0) (asucc g (aplus g a (plus n n0))))).eq_ind nat (S (plus n n0)) (\lambda (n1: nat).eq A (asucc g (aplus g (asucc g (aplus g a n)) n0)) (asucc g (aplus g a n1))) (sym_equal A (asucc g (asucc g (aplus g a (plus n n0)))) (asucc g (aplus g (asucc g (aplus g a n)) n0)) (sym_equal A (asucc g (aplus g (asucc g (aplus g a n)) n0)) (asucc g (asucc g (aplus g a (plus n n0)))) (sym_equal A (asucc g (asucc g (aplus g a (plus n n0)))) (asucc g (aplus g (asucc g (aplus g a n)) n0)) (f_equal2 G A A asucc g g (asucc g (aplus g a (plus n n0))) (aplus g (asucc g (aplus g a n)) n0) (refl_equal G g) (sym_eq A (aplus g (asucc g (aplus g a n)) n0) (asucc g (aplus g a (plus n n0))) H0))))) (plus n (S n0)) (plus_n_Sm n n0)) h2) h1.
+
+theorem aplus_asucc: \forall (g: G).\forall (h: nat).\forall (a: A).eq A (aplus g (asucc g a) h) (asucc g (aplus g a h)) \def \lambda (g: G).\lambda (h: nat).\lambda (a: A).eq_ind_r A (aplus g a (plus (S O) h)) (\lambda (a0: A).eq A a0 (asucc g (aplus g a h))) (refl_equal A (asucc g (aplus g a h))) (aplus g (aplus g a (S O)) h) (aplus_assoc g a (S O) h).
+
+theorem aplus_sort_O_S_simpl: \forall (g: G).\forall (n: nat).\forall (k: nat).eq A (aplus g (ASort O n) (S k)) (aplus g (ASort O (next g n)) k) \def \lambda (g: G).\lambda (n: nat).\lambda (k: nat).eq_ind A (aplus g (asucc g (ASort O n)) k) (\lambda (a: A).eq A a (aplus g (ASort O (next g n)) k)) (refl_equal A (aplus g (ASort O (next g n)) k)) (asucc g (aplus g (ASort O n) k)) (aplus_asucc g k (ASort O n)).
+
+theorem aplus_sort_S_S_simpl: \forall (g: G).\forall (n: nat).\forall (h: nat).\forall (k: nat).eq A (aplus g (ASort (S h) n) (S k)) (aplus g (ASort h n) k) \def \lambda (g: G).\lambda (n: nat).\lambda (h: nat).\lambda (k: nat).eq_ind A (aplus g (asucc g (ASort (S h) n)) k) (\lambda (a: A).eq A a (aplus g (ASort h n) k)) (refl_equal A (aplus g (ASort h n) k)) (asucc g (aplus g (ASort (S h) n) k)) (aplus_asucc g k (ASort (S h) n)).
+
+theorem asucc_repl: \forall (g: G).\forall (a1: A).\forall (a2: A).(leq g a1 a2) \to leq g (asucc g a1) (asucc g a2) \def \lambda (g: G).\lambda (a1: A).\lambda (a2: A).\lambda (H: (leq g a1 a2)).leq_ind g (\lambda (a: A).\lambda (a0: A).leq g (asucc g a) (asucc g a0)) (\lambda (h1: nat).\lambda (h2: nat).\lambda (n1: nat).\lambda (n2: nat).\lambda (k: nat).\lambda (H0: (eq A (aplus g (ASort h1 n1) k) (aplus g (ASort h2 n2) k))).(match h1 return (\lambda (n: nat).(eq A (aplus g (ASort n n1) k) (aplus g (ASort h2 n2) k)) \to leq g (match n with [O \Rightarrow (ASort O (next g n1)) | (S h) \Rightarrow (ASort h n1)]) (match h2 with [O \Rightarrow (ASort O (next g n2)) | (S h) \Rightarrow (ASort h n2)])) with [O \Rightarrow (\lambda (H1: (eq A (aplus g (ASort O n1) k) (aplus g (ASort h2 n2) k))).(match h2 return (\lambda (n: nat).(eq A (aplus g (ASort O n1) k) (aplus g (ASort n n2) k)) \to leq g (ASort O (next g n1)) (match n with [O \Rightarrow (ASort O (next g n2)) | (S h) \Rightarrow (ASort h n2)])) with [O \Rightarrow (\lambda (H2: (eq A (aplus g (ASort O n1) k) (aplus g (ASort O n2) k))).leq_sort g O O (next g n1) (next g n2) k (eq_ind A (aplus g (ASort O n1) (S k)) (\lambda (a: A).eq A a (aplus g (ASort O (next g n2)) k)) (eq_ind A (aplus g (ASort O n2) (S k)) (\lambda (a: A).eq A (aplus g (ASort O n1) (S k)) a) (eq_ind_r A (aplus g (ASort O n2) k) (\lambda (a: A).eq A (asucc g a) (asucc g (aplus g (ASort O n2) k))) (refl_equal A (asucc g (aplus g (ASort O n2) k))) (aplus g (ASort O n1) k) H2) (aplus g (ASort O (next g n2)) k) (aplus_sort_O_S_simpl g n2 k)) (aplus g (ASort O (next g n1)) k) (aplus_sort_O_S_simpl g n1 k))) | (S n) \Rightarrow (\lambda (H2: (eq A (aplus g (ASort O n1) k) (aplus g (ASort (S n) n2) k))).leq_sort g O n (next g n1) n2 k (eq_ind A (aplus g (ASort O n1) (S k)) (\lambda (a: A).eq A a (aplus g (ASort n n2) k)) (eq_ind A (aplus g (ASort (S n) n2) (S k)) (\lambda (a: A).eq A (aplus g (ASort O n1) (S k)) a) (eq_ind_r A (aplus g (ASort (S n) n2) k) (\lambda (a: A).eq A (asucc g a) (asucc g (aplus g (ASort (S n) n2) k))) (refl_equal A (asucc g (aplus g (ASort (S n) n2) k))) (aplus g (ASort O n1) k) H2) (aplus g (ASort n n2) k) (aplus_sort_S_S_simpl g n2 n k)) (aplus g (ASort O (next g n1)) k) (aplus_sort_O_S_simpl g n1 k)))]) H1) | (S n) \Rightarrow (\lambda (H1: (eq A (aplus g (ASort (S n) n1) k) (aplus g (ASort h2 n2) k))).(match h2 return (\lambda (n0: nat).(eq A (aplus g (ASort (S n) n1) k) (aplus g (ASort n0 n2) k)) \to leq g (ASort n n1) (match n0 with [O \Rightarrow (ASort O (next g n2)) | (S h) \Rightarrow (ASort h n2)])) with [O \Rightarrow (\lambda (H2: (eq A (aplus g (ASort (S n) n1) k) (aplus g (ASort O n2) k))).leq_sort g n O n1 (next g n2) k (eq_ind A (aplus g (ASort O n2) (S k)) (\lambda (a: A).eq A (aplus g (ASort n n1) k) a) (eq_ind A (aplus g (ASort (S n) n1) (S k)) (\lambda (a: A).eq A a (aplus g (ASort O n2) (S k))) (eq_ind_r A (aplus g (ASort O n2) k) (\lambda (a: A).eq A (asucc g a) (asucc g (aplus g (ASort O n2) k))) (refl_equal A (asucc g (aplus g (ASort O n2) k))) (aplus g (ASort (S n) n1) k) H2) (aplus g (ASort n n1) k) (aplus_sort_S_S_simpl g n1 n k)) (aplus g (ASort O (next g n2)) k) (aplus_sort_O_S_simpl g n2 k))) | (S n0) \Rightarrow (\lambda (H2: (eq A (aplus g (ASort (S n) n1) k) (aplus g (ASort (S n0) n2) k))).leq_sort g n n0 n1 n2 k (eq_ind A (aplus g (ASort (S n) n1) (S k)) (\lambda (a: A).eq A a (aplus g (ASort n0 n2) k)) (eq_ind A (aplus g (ASort (S n0) n2) (S k)) (\lambda (a: A).eq A (aplus g (ASort (S n) n1) (S k)) a) (eq_ind_r A (aplus g (ASort (S n0) n2) k) (\lambda (a: A).eq A (asucc g a) (asucc g (aplus g (ASort (S n0) n2) k))) (refl_equal A (asucc g (aplus g (ASort (S n0) n2) k))) (aplus g (ASort (S n) n1) k) H2) (aplus g (ASort n0 n2) k) (aplus_sort_S_S_simpl g n2 n0 k)) (aplus g (ASort n n1) k) (aplus_sort_S_S_simpl g n1 n k)))]) H1)]) H0) (\lambda (a3: A).\lambda (a4: A).\lambda (H0: (leq g a3 a4)).\lambda (_: (leq g (asucc g a3) (asucc g a4))).\lambda (a5: A).\lambda (a6: A).\lambda (_: (leq g a5 a6)).\lambda (H3: (leq g (asucc g a5) (asucc g a6))).leq_head g a3 a4 H0 (asucc g a5) (asucc g a6) H3) a1 a2 H.
+
+theorem asucc_inj: \forall (g: G).\forall (a1: A).\forall (a2: A).(leq g (asucc g a1) (asucc g a2)) \to leq g a1 a2 \def \lambda (g: G).\lambda (a1: A).A_ind (\lambda (a: A).\forall (a2: A).(leq g (asucc g a) (asucc g a2)) \to leq g a a2) (\lambda (n: nat).\lambda (n0: nat).\lambda (a2: A).A_ind (\lambda (a: A).(leq g (asucc g (ASort n n0)) (asucc g a)) \to leq g (ASort n n0) a) (\lambda (n1: nat).\lambda (n2: nat).\lambda (H: (leq g (asucc g (ASort n n0)) (asucc g (ASort n1 n2)))).(match n return (\lambda (n3: nat).(leq g (asucc g (ASort n3 n0)) (asucc g (ASort n1 n2))) \to leq g (ASort n3 n0) (ASort n1 n2)) with [O \Rightarrow (\lambda (H0: (leq g (asucc g (ASort O n0)) (asucc g (ASort n1 n2)))).(match n1 return (\lambda (n3: nat).(leq g (asucc g (ASort O n0)) (asucc g (ASort n3 n2))) \to leq g (ASort O n0) (ASort n3 n2)) with [O \Rightarrow (\lambda (H1: (leq g (asucc g (ASort O n0)) (asucc g (ASort O n2)))).let H2 \def match H1 return (\lambda (a: A).\lambda (a0: A).(eq A a (ASort O (next g n0))) \to (eq A a0 (ASort O (next g n2))) \to leq g (ASort O n0) (ASort O n2)) with [(leq_sort h1 h2 n1 n3 k H0) \Rightarrow (\lambda (H1: (eq A (ASort h1 n1) (ASort O (next g n0)))).\lambda (H2: (eq A (ASort h2 n3) (ASort O (next g n2)))).(let H3 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort _ n) \Rightarrow n | (AHead _ _) \Rightarrow n1]) (ASort h1 n1) (ASort O (next g n0)) H1 in (let H4 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort n _) \Rightarrow n | (AHead _ _) \Rightarrow h1]) (ASort h1 n1) (ASort O (next g n0)) H1 in eq_ind nat O (\lambda (n: nat).(eq nat n1 (next g n0)) \to (eq A (ASort h2 n3) (ASort O (next g n2))) \to (eq A (aplus g (ASort n n1) k) (aplus g (ASort h2 n3) k)) \to leq g (ASort O n0) (ASort O n2)) (\lambda (H5: (eq nat n1 (next g n0))).eq_ind nat (next g n0) (\lambda (n: nat).(eq A (ASort h2 n3) (ASort O (next g n2))) \to (eq A (aplus g (ASort O n) k) (aplus g (ASort h2 n3) k)) \to leq g (ASort O n0) (ASort O n2)) (\lambda (H6: (eq A (ASort h2 n3) (ASort O (next g n2)))).let H7 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort _ n) \Rightarrow n | (AHead _ _) \Rightarrow n3]) (ASort h2 n3) (ASort O (next g n2)) H6 in (let H8 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort n _) \Rightarrow n | (AHead _ _) \Rightarrow h2]) (ASort h2 n3) (ASort O (next g n2)) H6 in eq_ind nat O (\lambda (n: nat).(eq nat n3 (next g n2)) \to (eq A (aplus g (ASort O (next g n0)) k) (aplus g (ASort n n3) k)) \to leq g (ASort O n0) (ASort O n2)) (\lambda (H9: (eq nat n3 (next g n2))).eq_ind nat (next g n2) (\lambda (n: nat).(eq A (aplus g (ASort O (next g n0)) k) (aplus g (ASort O n) k)) \to leq g (ASort O n0) (ASort O n2)) (\lambda (H10: (eq A (aplus g (ASort O (next g n0)) k) (aplus g (ASort O (next g n2)) k))).let H \def eq_ind_r A (aplus g (ASort O (next g n0)) k) (\lambda (a: A).eq A a (aplus g (ASort O (next g n2)) k)) H10 (aplus g (ASort O n0) (S k)) (aplus_sort_O_S_simpl g n0 k) in let H11 \def eq_ind_r A (aplus g (ASort O (next g n2)) k) (\lambda (a: A).eq A (aplus g (ASort O n0) (S k)) a) H (aplus g (ASort O n2) (S k)) (aplus_sort_O_S_simpl g n2 k) in leq_sort g O O n0 n2 (S k) H11) n3 (sym_eq nat n3 (next g n2) H9)) h2 (sym_eq nat h2 O H8)) H7) n1 (sym_eq nat n1 (next g n0) H5)) h1 (sym_eq nat h1 O H4)) H3) H2 H0) | (leq_head a1 a2 H0 a3 a4 H1) \Rightarrow (\lambda (H2: (eq A (AHead a1 a3) (ASort O (next g n0)))).\lambda (H3: (eq A (AHead a2 a4) (ASort O (next g n2)))).(let H4 \def eq_ind A (AHead a1 a3) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow False | (AHead _ _) \Rightarrow True]) I (ASort O (next g n0)) H2 in False_ind ((eq A (AHead a2 a4) (ASort O (next g n2))) \to (leq g a1 a2) \to (leq g a3 a4) \to leq g (ASort O n0) (ASort O n2)) H4) H3 H0 H1)] in H2 (refl_equal A (ASort O (next g n0))) (refl_equal A (ASort O (next g n2)))) | (S n3) \Rightarrow (\lambda (H1: (leq g (asucc g (ASort O n0)) (asucc g (ASort (S n3) n2)))).let H2 \def match H1 return (\lambda (a: A).\lambda (a0: A).(eq A a (ASort O (next g n0))) \to (eq A a0 (ASort n3 n2)) \to leq g (ASort O n0) (ASort (S n3) n2)) with [(leq_sort h1 h2 n1 n3 k H0) \Rightarrow (\lambda (H1: (eq A (ASort h1 n1) (ASort O (next g n0)))).\lambda (H2: (eq A (ASort h2 n3) (ASort n3 n2))).(let H3 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort _ n) \Rightarrow n | (AHead _ _) \Rightarrow n1]) (ASort h1 n1) (ASort O (next g n0)) H1 in (let H4 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort n _) \Rightarrow n | (AHead _ _) \Rightarrow h1]) (ASort h1 n1) (ASort O (next g n0)) H1 in eq_ind nat O (\lambda (n: nat).(eq nat n1 (next g n0)) \to (eq A (ASort h2 n3) (ASort n3 n2)) \to (eq A (aplus g (ASort n n1) k) (aplus g (ASort h2 n3) k)) \to leq g (ASort O n0) (ASort (S n3) n2)) (\lambda (H5: (eq nat n1 (next g n0))).eq_ind nat (next g n0) (\lambda (n: nat).(eq A (ASort h2 n3) (ASort n3 n2)) \to (eq A (aplus g (ASort O n) k) (aplus g (ASort h2 n3) k)) \to leq g (ASort O n0) (ASort (S n3) n2)) (\lambda (H6: (eq A (ASort h2 n3) (ASort n3 n2))).let H7 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort _ n) \Rightarrow n | (AHead _ _) \Rightarrow n3]) (ASort h2 n3) (ASort n3 n2) H6 in (let H8 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort n _) \Rightarrow n | (AHead _ _) \Rightarrow h2]) (ASort h2 n3) (ASort n3 n2) H6 in eq_ind nat n3 (\lambda (n: nat).(eq nat n3 n2) \to (eq A (aplus g (ASort O (next g n0)) k) (aplus g (ASort n n3) k)) \to leq g (ASort O n0) (ASort (S n3) n2)) (\lambda (H9: (eq nat n3 n2)).eq_ind nat n2 (\lambda (n: nat).(eq A (aplus g (ASort O (next g n0)) k) (aplus g (ASort n3 n) k)) \to leq g (ASort O n0) (ASort (S n3) n2)) (\lambda (H10: (eq A (aplus g (ASort O (next g n0)) k) (aplus g (ASort n3 n2) k))).let H \def eq_ind_r A (aplus g (ASort O (next g n0)) k) (\lambda (a: A).eq A a (aplus g (ASort n3 n2) k)) H10 (aplus g (ASort O n0) (S k)) (aplus_sort_O_S_simpl g n0 k) in let H11 \def eq_ind_r A (aplus g (ASort n3 n2) k) (\lambda (a: A).eq A (aplus g (ASort O n0) (S k)) a) H (aplus g (ASort (S n3) n2) (S k)) (aplus_sort_S_S_simpl g n2 n3 k) in leq_sort g O (S n3) n0 n2 (S k) H11) n3 (sym_eq nat n3 n2 H9)) h2 (sym_eq nat h2 n3 H8)) H7) n1 (sym_eq nat n1 (next g n0) H5)) h1 (sym_eq nat h1 O H4)) H3) H2 H0) | (leq_head a1 a2 H0 a3 a4 H1) \Rightarrow (\lambda (H2: (eq A (AHead a1 a3) (ASort O (next g n0)))).\lambda (H3: (eq A (AHead a2 a4) (ASort n3 n2))).(let H4 \def eq_ind A (AHead a1 a3) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow False | (AHead _ _) \Rightarrow True]) I (ASort O (next g n0)) H2 in False_ind ((eq A (AHead a2 a4) (ASort n3 n2)) \to (leq g a1 a2) \to (leq g a3 a4) \to leq g (ASort O n0) (ASort (S n3) n2)) H4) H3 H0 H1)] in H2 (refl_equal A (ASort O (next g n0))) (refl_equal A (ASort n3 n2)))]) H0) | (S n3) \Rightarrow (\lambda (H0: (leq g (asucc g (ASort (S n3) n0)) (asucc g (ASort n1 n2)))).(match n1 return (\lambda (n4: nat).(leq g (asucc g (ASort (S n3) n0)) (asucc g (ASort n4 n2))) \to leq g (ASort (S n3) n0) (ASort n4 n2)) with [O \Rightarrow (\lambda (H1: (leq g (asucc g (ASort (S n3) n0)) (asucc g (ASort O n2)))).let H2 \def match H1 return (\lambda (a: A).\lambda (a0: A).(eq A a (ASort n3 n0)) \to (eq A a0 (ASort O (next g n2))) \to leq g (ASort (S n3) n0) (ASort O n2)) with [(leq_sort h1 h2 n1 n3 k H0) \Rightarrow (\lambda (H1: (eq A (ASort h1 n1) (ASort n3 n0))).\lambda (H2: (eq A (ASort h2 n3) (ASort O (next g n2)))).(let H3 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort _ n) \Rightarrow n | (AHead _ _) \Rightarrow n1]) (ASort h1 n1) (ASort n3 n0) H1 in (let H4 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort n _) \Rightarrow n | (AHead _ _) \Rightarrow h1]) (ASort h1 n1) (ASort n3 n0) H1 in eq_ind nat n3 (\lambda (n: nat).(eq nat n1 n0) \to (eq A (ASort h2 n3) (ASort O (next g n2))) \to (eq A (aplus g (ASort n n1) k) (aplus g (ASort h2 n3) k)) \to leq g (ASort (S n3) n0) (ASort O n2)) (\lambda (H5: (eq nat n1 n0)).eq_ind nat n0 (\lambda (n: nat).(eq A (ASort h2 n3) (ASort O (next g n2))) \to (eq A (aplus g (ASort n3 n) k) (aplus g (ASort h2 n3) k)) \to leq g (ASort (S n3) n0) (ASort O n2)) (\lambda (H6: (eq A (ASort h2 n3) (ASort O (next g n2)))).let H7 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort _ n) \Rightarrow n | (AHead _ _) \Rightarrow n3]) (ASort h2 n3) (ASort O (next g n2)) H6 in (let H8 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort n _) \Rightarrow n | (AHead _ _) \Rightarrow h2]) (ASort h2 n3) (ASort O (next g n2)) H6 in eq_ind nat O (\lambda (n: nat).(eq nat n3 (next g n2)) \to (eq A (aplus g (ASort n3 n0) k) (aplus g (ASort n n3) k)) \to leq g (ASort (S n3) n0) (ASort O n2)) (\lambda (H9: (eq nat n3 (next g n2))).eq_ind nat (next g n2) (\lambda (n: nat).(eq A (aplus g (ASort n3 n0) k) (aplus g (ASort O n) k)) \to leq g (ASort (S n3) n0) (ASort O n2)) (\lambda (H10: (eq A (aplus g (ASort n3 n0) k) (aplus g (ASort O (next g n2)) k))).let H \def eq_ind_r A (aplus g (ASort n3 n0) k) (\lambda (a: A).eq A a (aplus g (ASort O (next g n2)) k)) H10 (aplus g (ASort (S n3) n0) (S k)) (aplus_sort_S_S_simpl g n0 n3 k) in let H11 \def eq_ind_r A (aplus g (ASort O (next g n2)) k) (\lambda (a: A).eq A (aplus g (ASort (S n3) n0) (S k)) a) H (aplus g (ASort O n2) (S k)) (aplus_sort_O_S_simpl g n2 k) in leq_sort g (S n3) O n0 n2 (S k) H11) n3 (sym_eq nat n3 (next g n2) H9)) h2 (sym_eq nat h2 O H8)) H7) n1 (sym_eq nat n1 n0 H5)) h1 (sym_eq nat h1 n3 H4)) H3) H2 H0) | (leq_head a1 a2 H0 a3 a4 H1) \Rightarrow (\lambda (H2: (eq A (AHead a1 a3) (ASort n3 n0))).\lambda (H3: (eq A (AHead a2 a4) (ASort O (next g n2)))).(let H4 \def eq_ind A (AHead a1 a3) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow False | (AHead _ _) \Rightarrow True]) I (ASort n3 n0) H2 in False_ind ((eq A (AHead a2 a4) (ASort O (next g n2))) \to (leq g a1 a2) \to (leq g a3 a4) \to leq g (ASort (S n3) n0) (ASort O n2)) H4) H3 H0 H1)] in H2 (refl_equal A (ASort n3 n0)) (refl_equal A (ASort O (next g n2)))) | (S n4) \Rightarrow (\lambda (H1: (leq g (asucc g (ASort (S n3) n0)) (asucc g (ASort (S n4) n2)))).let H2 \def match H1 return (\lambda (a: A).\lambda (a0: A).(eq A a (ASort n3 n0)) \to (eq A a0 (ASort n4 n2)) \to leq g (ASort (S n3) n0) (ASort (S n4) n2)) with [(leq_sort h1 h2 n3 n4 k H0) \Rightarrow (\lambda (H1: (eq A (ASort h1 n3) (ASort n3 n0))).\lambda (H2: (eq A (ASort h2 n4) (ASort n4 n2))).(let H3 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort _ n) \Rightarrow n | (AHead _ _) \Rightarrow n3]) (ASort h1 n3) (ASort n3 n0) H1 in (let H4 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort n _) \Rightarrow n | (AHead _ _) \Rightarrow h1]) (ASort h1 n3) (ASort n3 n0) H1 in eq_ind nat n3 (\lambda (n: nat).(eq nat n3 n0) \to (eq A (ASort h2 n4) (ASort n4 n2)) \to (eq A (aplus g (ASort n n3) k) (aplus g (ASort h2 n4) k)) \to leq g (ASort (S n3) n0) (ASort (S n4) n2)) (\lambda (H5: (eq nat n3 n0)).eq_ind nat n0 (\lambda (n: nat).(eq A (ASort h2 n4) (ASort n4 n2)) \to (eq A (aplus g (ASort n3 n) k) (aplus g (ASort h2 n4) k)) \to leq g (ASort (S n3) n0) (ASort (S n4) n2)) (\lambda (H6: (eq A (ASort h2 n4) (ASort n4 n2))).let H7 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort _ n) \Rightarrow n | (AHead _ _) \Rightarrow n4]) (ASort h2 n4) (ASort n4 n2) H6 in (let H8 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort n _) \Rightarrow n | (AHead _ _) \Rightarrow h2]) (ASort h2 n4) (ASort n4 n2) H6 in eq_ind nat n4 (\lambda (n: nat).(eq nat n4 n2) \to (eq A (aplus g (ASort n3 n0) k) (aplus g (ASort n n4) k)) \to leq g (ASort (S n3) n0) (ASort (S n4) n2)) (\lambda (H9: (eq nat n4 n2)).eq_ind nat n2 (\lambda (n: nat).(eq A (aplus g (ASort n3 n0) k) (aplus g (ASort n4 n) k)) \to leq g (ASort (S n3) n0) (ASort (S n4) n2)) (\lambda (H10: (eq A (aplus g (ASort n3 n0) k) (aplus g (ASort n4 n2) k))).let H \def eq_ind_r A (aplus g (ASort n3 n0) k) (\lambda (a: A).eq A a (aplus g (ASort n4 n2) k)) H10 (aplus g (ASort (S n3) n0) (S k)) (aplus_sort_S_S_simpl g n0 n3 k) in let H11 \def eq_ind_r A (aplus g (ASort n4 n2) k) (\lambda (a: A).eq A (aplus g (ASort (S n3) n0) (S k)) a) H (aplus g (ASort (S n4) n2) (S k)) (aplus_sort_S_S_simpl g n2 n4 k) in leq_sort g (S n3) (S n4) n0 n2 (S k) H11) n4 (sym_eq nat n4 n2 H9)) h2 (sym_eq nat h2 n4 H8)) H7) n3 (sym_eq nat n3 n0 H5)) h1 (sym_eq nat h1 n3 H4)) H3) H2 H0) | (leq_head a1 a2 H0 a3 a4 H1) \Rightarrow (\lambda (H2: (eq A (AHead a1 a3) (ASort n3 n0))).\lambda (H3: (eq A (AHead a2 a4) (ASort n4 n2))).(let H4 \def eq_ind A (AHead a1 a3) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow False | (AHead _ _) \Rightarrow True]) I (ASort n3 n0) H2 in False_ind ((eq A (AHead a2 a4) (ASort n4 n2)) \to (leq g a1 a2) \to (leq g a3 a4) \to leq g (ASort (S n3) n0) (ASort (S n4) n2)) H4) H3 H0 H1)] in H2 (refl_equal A (ASort n3 n0)) (refl_equal A (ASort n4 n2)))]) H0)]) H) (\lambda (a: A).\lambda (H: (((leq g (asucc g (ASort n n0)) (asucc g a)) \to leq g (ASort n n0) a))).\lambda (a0: A).\lambda (H0: (((leq g (asucc g (ASort n n0)) (asucc g a0)) \to leq g (ASort n n0) a0))).\lambda (H1: (leq g (asucc g (ASort n n0)) (asucc g (AHead a a0)))).(match n return (\lambda (n1: nat).(((leq g (asucc g (ASort n1 n0)) (asucc g a)) \to leq g (ASort n1 n0) a)) \to (((leq g (asucc g (ASort n1 n0)) (asucc g a0)) \to leq g (ASort n1 n0) a0)) \to (leq g (asucc g (ASort n1 n0)) (asucc g (AHead a a0))) \to leq g (ASort n1 n0) (AHead a a0)) with [O \Rightarrow (\lambda (_: (((leq g (asucc g (ASort O n0)) (asucc g a)) \to leq g (ASort O n0) a))).\lambda (_: (((leq g (asucc g (ASort O n0)) (asucc g a0)) \to leq g (ASort O n0) a0))).\lambda (H4: (leq g (asucc g (ASort O n0)) (asucc g (AHead a a0)))).let H5 \def match H4 return (\lambda (a1: A).\lambda (a2: A).(eq A a1 (ASort O (next g n0))) \to (eq A a2 (AHead a (asucc g a0))) \to leq g (ASort O n0) (AHead a a0)) with [(leq_sort h1 h2 n1 n2 k H2) \Rightarrow (\lambda (H3: (eq A (ASort h1 n1) (ASort O (next g n0)))).\lambda (H4: (eq A (ASort h2 n2) (AHead a (asucc g a0)))).(let H5 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort _ n) \Rightarrow n | (AHead _ _) \Rightarrow n1]) (ASort h1 n1) (ASort O (next g n0)) H3 in (let H6 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort n _) \Rightarrow n | (AHead _ _) \Rightarrow h1]) (ASort h1 n1) (ASort O (next g n0)) H3 in eq_ind nat O (\lambda (n: nat).(eq nat n1 (next g n0)) \to (eq A (ASort h2 n2) (AHead a (asucc g a0))) \to (eq A (aplus g (ASort n n1) k) (aplus g (ASort h2 n2) k)) \to leq g (ASort O n0) (AHead a a0)) (\lambda (H7: (eq nat n1 (next g n0))).eq_ind nat (next g n0) (\lambda (n: nat).(eq A (ASort h2 n2) (AHead a (asucc g a0))) \to (eq A (aplus g (ASort O n) k) (aplus g (ASort h2 n2) k)) \to leq g (ASort O n0) (AHead a a0)) (\lambda (H8: (eq A (ASort h2 n2) (AHead a (asucc g a0)))).let H9 \def eq_ind A (ASort h2 n2) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow True | (AHead _ _) \Rightarrow False]) I (AHead a (asucc g a0)) H8 in False_ind ((eq A (aplus g (ASort O (next g n0)) k) (aplus g (ASort h2 n2) k)) \to leq g (ASort O n0) (AHead a a0)) H9) n1 (sym_eq nat n1 (next g n0) H7)) h1 (sym_eq nat h1 O H6)) H5) H4 H2) | (leq_head a1 a2 H2 a3 a4 H3) \Rightarrow (\lambda (H4: (eq A (AHead a1 a3) (ASort O (next g n0)))).\lambda (H5: (eq A (AHead a2 a4) (AHead a (asucc g a0)))).(let H6 \def eq_ind A (AHead a1 a3) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow False | (AHead _ _) \Rightarrow True]) I (ASort O (next g n0)) H4 in False_ind ((eq A (AHead a2 a4) (AHead a (asucc g a0))) \to (leq g a1 a2) \to (leq g a3 a4) \to leq g (ASort O n0) (AHead a a0)) H6) H5 H2 H3)] in H5 (refl_equal A (ASort O (next g n0))) (refl_equal A (AHead a (asucc g a0)))) | (S n1) \Rightarrow (\lambda (_: (((leq g (asucc g (ASort (S n1) n0)) (asucc g a)) \to leq g (ASort (S n1) n0) a))).\lambda (_: (((leq g (asucc g (ASort (S n1) n0)) (asucc g a0)) \to leq g (ASort (S n1) n0) a0))).\lambda (H4: (leq g (asucc g (ASort (S n1) n0)) (asucc g (AHead a a0)))).let H5 \def match H4 return (\lambda (a1: A).\lambda (a2: A).(eq A a1 (ASort n1 n0)) \to (eq A a2 (AHead a (asucc g a0))) \to leq g (ASort (S n1) n0) (AHead a a0)) with [(leq_sort h1 h2 n1 n2 k H2) \Rightarrow (\lambda (H3: (eq A (ASort h1 n1) (ASort n1 n0))).\lambda (H4: (eq A (ASort h2 n2) (AHead a (asucc g a0)))).(let H5 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort _ n) \Rightarrow n | (AHead _ _) \Rightarrow n1]) (ASort h1 n1) (ASort n1 n0) H3 in (let H6 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort n _) \Rightarrow n | (AHead _ _) \Rightarrow h1]) (ASort h1 n1) (ASort n1 n0) H3 in eq_ind nat n1 (\lambda (n: nat).(eq nat n1 n0) \to (eq A (ASort h2 n2) (AHead a (asucc g a0))) \to (eq A (aplus g (ASort n n1) k) (aplus g (ASort h2 n2) k)) \to leq g (ASort (S n1) n0) (AHead a a0)) (\lambda (H7: (eq nat n1 n0)).eq_ind nat n0 (\lambda (n: nat).(eq A (ASort h2 n2) (AHead a (asucc g a0))) \to (eq A (aplus g (ASort n1 n) k) (aplus g (ASort h2 n2) k)) \to leq g (ASort (S n1) n0) (AHead a a0)) (\lambda (H8: (eq A (ASort h2 n2) (AHead a (asucc g a0)))).let H9 \def eq_ind A (ASort h2 n2) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow True | (AHead _ _) \Rightarrow False]) I (AHead a (asucc g a0)) H8 in False_ind ((eq A (aplus g (ASort n1 n0) k) (aplus g (ASort h2 n2) k)) \to leq g (ASort (S n1) n0) (AHead a a0)) H9) n1 (sym_eq nat n1 n0 H7)) h1 (sym_eq nat h1 n1 H6)) H5) H4 H2) | (leq_head a1 a2 H2 a3 a4 H3) \Rightarrow (\lambda (H4: (eq A (AHead a1 a3) (ASort n1 n0))).\lambda (H5: (eq A (AHead a2 a4) (AHead a (asucc g a0)))).(let H6 \def eq_ind A (AHead a1 a3) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow False | (AHead _ _) \Rightarrow True]) I (ASort n1 n0) H4 in False_ind ((eq A (AHead a2 a4) (AHead a (asucc g a0))) \to (leq g a1 a2) \to (leq g a3 a4) \to leq g (ASort (S n1) n0) (AHead a a0)) H6) H5 H2 H3)] in H5 (refl_equal A (ASort n1 n0)) (refl_equal A (AHead a (asucc g a0))))]) H H0 H1) a2) (\lambda (a: A).\lambda (_: ((\forall (a2: A).(leq g (asucc g a) (asucc g a2)) \to leq g a a2))).\lambda (a0: A).\lambda (H0: ((\forall (a2: A).(leq g (asucc g a0) (asucc g a2)) \to leq g a0 a2))).\lambda (a2: A).A_ind (\lambda (a3: A).(leq g (asucc g (AHead a a0)) (asucc g a3)) \to leq g (AHead a a0) a3) (\lambda (n: nat).\lambda (n0: nat).\lambda (H1: (leq g (asucc g (AHead a a0)) (asucc g (ASort n n0)))).(match n return (\lambda (n1: nat).(leq g (asucc g (AHead a a0)) (asucc g (ASort n1 n0))) \to leq g (AHead a a0) (ASort n1 n0)) with [O \Rightarrow (\lambda (H2: (leq g (asucc g (AHead a a0)) (asucc g (ASort O n0)))).let H3 \def match H2 return (\lambda (a1: A).\lambda (a2: A).(eq A a1 (AHead a (asucc g a0))) \to (eq A a2 (ASort O (next g n0))) \to leq g (AHead a a0) (ASort O n0)) with [(leq_sort h1 h2 n1 n2 k H2) \Rightarrow (\lambda (H3: (eq A (ASort h1 n1) (AHead a (asucc g a0)))).\lambda (H4: (eq A (ASort h2 n2) (ASort O (next g n0)))).(let H5 \def eq_ind A (ASort h1 n1) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow True | (AHead _ _) \Rightarrow False]) I (AHead a (asucc g a0)) H3 in False_ind ((eq A (ASort h2 n2) (ASort O (next g n0))) \to (eq A (aplus g (ASort h1 n1) k) (aplus g (ASort h2 n2) k)) \to leq g (AHead a a0) (ASort O n0)) H5) H4 H2) | (leq_head a1 a2 H2 a3 a4 H3) \Rightarrow (\lambda (H4: (eq A (AHead a1 a3) (AHead a (asucc g a0)))).\lambda (H5: (eq A (AHead a2 a4) (ASort O (next g n0)))).(let H6 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a3 | (AHead _ a) \Rightarrow a]) (AHead a1 a3) (AHead a (asucc g a0)) H4 in (let H7 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a1 | (AHead a _) \Rightarrow a]) (AHead a1 a3) (AHead a (asucc g a0)) H4 in eq_ind A a (\lambda (a5: A).(eq A a3 (asucc g a0)) \to (eq A (AHead a2 a4) (ASort O (next g n0))) \to (leq g a5 a2) \to (leq g a3 a4) \to leq g (AHead a a0) (ASort O n0)) (\lambda (H8: (eq A a3 (asucc g a0))).eq_ind A (asucc g a0) (\lambda (a5: A).(eq A (AHead a2 a4) (ASort O (next g n0))) \to (leq g a a2) \to (leq g a5 a4) \to leq g (AHead a a0) (ASort O n0)) (\lambda (H9: (eq A (AHead a2 a4) (ASort O (next g n0)))).let H10 \def eq_ind A (AHead a2 a4) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow False | (AHead _ _) \Rightarrow True]) I (ASort O (next g n0)) H9 in False_ind ((leq g a a2) \to (leq g (asucc g a0) a4) \to leq g (AHead a a0) (ASort O n0)) H10) a3 (sym_eq A a3 (asucc g a0) H8)) a1 (sym_eq A a1 a H7)) H6) H5 H2 H3)] in H3 (refl_equal A (AHead a (asucc g a0))) (refl_equal A (ASort O (next g n0)))) | (S n1) \Rightarrow (\lambda (H2: (leq g (asucc g (AHead a a0)) (asucc g (ASort (S n1) n0)))).let H3 \def match H2 return (\lambda (a1: A).\lambda (a2: A).(eq A a1 (AHead a (asucc g a0))) \to (eq A a2 (ASort n1 n0)) \to leq g (AHead a a0) (ASort (S n1) n0)) with [(leq_sort h1 h2 n1 n2 k H2) \Rightarrow (\lambda (H3: (eq A (ASort h1 n1) (AHead a (asucc g a0)))).\lambda (H4: (eq A (ASort h2 n2) (ASort n1 n0))).(let H5 \def eq_ind A (ASort h1 n1) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow True | (AHead _ _) \Rightarrow False]) I (AHead a (asucc g a0)) H3 in False_ind ((eq A (ASort h2 n2) (ASort n1 n0)) \to (eq A (aplus g (ASort h1 n1) k) (aplus g (ASort h2 n2) k)) \to leq g (AHead a a0) (ASort (S n1) n0)) H5) H4 H2) | (leq_head a1 a2 H2 a3 a4 H3) \Rightarrow (\lambda (H4: (eq A (AHead a1 a3) (AHead a (asucc g a0)))).\lambda (H5: (eq A (AHead a2 a4) (ASort n1 n0))).(let H6 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a3 | (AHead _ a) \Rightarrow a]) (AHead a1 a3) (AHead a (asucc g a0)) H4 in (let H7 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a1 | (AHead a _) \Rightarrow a]) (AHead a1 a3) (AHead a (asucc g a0)) H4 in eq_ind A a (\lambda (a5: A).(eq A a3 (asucc g a0)) \to (eq A (AHead a2 a4) (ASort n1 n0)) \to (leq g a5 a2) \to (leq g a3 a4) \to leq g (AHead a a0) (ASort (S n1) n0)) (\lambda (H8: (eq A a3 (asucc g a0))).eq_ind A (asucc g a0) (\lambda (a5: A).(eq A (AHead a2 a4) (ASort n1 n0)) \to (leq g a a2) \to (leq g a5 a4) \to leq g (AHead a a0) (ASort (S n1) n0)) (\lambda (H9: (eq A (AHead a2 a4) (ASort n1 n0))).let H10 \def eq_ind A (AHead a2 a4) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow False | (AHead _ _) \Rightarrow True]) I (ASort n1 n0) H9 in False_ind ((leq g a a2) \to (leq g (asucc g a0) a4) \to leq g (AHead a a0) (ASort (S n1) n0)) H10) a3 (sym_eq A a3 (asucc g a0) H8)) a1 (sym_eq A a1 a H7)) H6) H5 H2 H3)] in H3 (refl_equal A (AHead a (asucc g a0))) (refl_equal A (ASort n1 n0)))]) H1) (\lambda (a3: A).\lambda (_: (((leq g (asucc g (AHead a a0)) (asucc g a3)) \to leq g (AHead a a0) a3))).\lambda (a4: A).\lambda (_: (((leq g (asucc g (AHead a a0)) (asucc g a4)) \to leq g (AHead a a0) a4))).\lambda (H3: (leq g (asucc g (AHead a a0)) (asucc g (AHead a3 a4)))).let H4 \def match H3 return (\lambda (a1: A).\lambda (a2: A).(eq A a1 (AHead a (asucc g a0))) \to (eq A a2 (AHead a3 (asucc g a4))) \to leq g (AHead a a0) (AHead a3 a4)) with [(leq_sort h1 h2 n1 n2 k H4) \Rightarrow (\lambda (H5: (eq A (ASort h1 n1) (AHead a (asucc g a0)))).\lambda (H6: (eq A (ASort h2 n2) (AHead a3 (asucc g a4)))).(let H7 \def eq_ind A (ASort h1 n1) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow True | (AHead _ _) \Rightarrow False]) I (AHead a (asucc g a0)) H5 in False_ind ((eq A (ASort h2 n2) (AHead a3 (asucc g a4))) \to (eq A (aplus g (ASort h1 n1) k) (aplus g (ASort h2 n2) k)) \to leq g (AHead a a0) (AHead a3 a4)) H7) H6 H4) | (leq_head a3 a4 H4 a5 a6 H5) \Rightarrow (\lambda (H6: (eq A (AHead a3 a5) (AHead a (asucc g a0)))).\lambda (H7: (eq A (AHead a4 a6) (AHead a3 (asucc g a4)))).(let H8 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a5 | (AHead _ a) \Rightarrow a]) (AHead a3 a5) (AHead a (asucc g a0)) H6 in (let H9 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a3 | (AHead a _) \Rightarrow a]) (AHead a3 a5) (AHead a (asucc g a0)) H6 in eq_ind A a (\lambda (a1: A).(eq A a5 (asucc g a0)) \to (eq A (AHead a4 a6) (AHead a3 (asucc g a4))) \to (leq g a1 a4) \to (leq g a5 a6) \to leq g (AHead a a0) (AHead a3 a4)) (\lambda (H10: (eq A a5 (asucc g a0))).eq_ind A (asucc g a0) (\lambda (a1: A).(eq A (AHead a4 a6) (AHead a3 (asucc g a4))) \to (leq g a a4) \to (leq g a1 a6) \to leq g (AHead a a0) (AHead a3 a4)) (\lambda (H11: (eq A (AHead a4 a6) (AHead a3 (asucc g a4)))).let H12 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a6 | (AHead _ a) \Rightarrow a]) (AHead a4 a6) (AHead a3 (asucc g a4)) H11 in (let H13 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a4 | (AHead a _) \Rightarrow a]) (AHead a4 a6) (AHead a3 (asucc g a4)) H11 in eq_ind A a3 (\lambda (a1: A).(eq A a6 (asucc g a4)) \to (leq g a a1) \to (leq g (asucc g a0) a6) \to leq g (AHead a a0) (AHead a3 a4)) (\lambda (H14: (eq A a6 (asucc g a4))).eq_ind A (asucc g a4) (\lambda (a1: A).(leq g a a3) \to (leq g (asucc g a0) a1) \to leq g (AHead a a0) (AHead a3 a4)) (\lambda (H15: (leq g a a3)).\lambda (H16: (leq g (asucc g a0) (asucc g a4))).leq_head g a a3 H15 a0 a4 (H0 a4 H16)) a6 (sym_eq A a6 (asucc g a4) H14)) a4 (sym_eq A a4 a3 H13)) H12) a5 (sym_eq A a5 (asucc g a0) H10)) a3 (sym_eq A a3 a H9)) H8) H7 H4 H5)] in H4 (refl_equal A (AHead a (asucc g a0))) (refl_equal A (AHead a3 (asucc g a4)))) a2) a1.
+
+theorem aplus_asort_O_simpl: \forall (g: G).\forall (h: nat).\forall (n: nat).eq A (aplus g (ASort O n) h) (ASort O (next_plus g n h)) \def \lambda (g: G).\lambda (h: nat).nat_ind (\lambda (n: nat).\forall (n0: nat).eq A (aplus g (ASort O n0) n) (ASort O (next_plus g n0 n))) (\lambda (n: nat).refl_equal A (ASort O n)) (\lambda (n: nat).\lambda (H: ((\forall (n0: nat).eq A (aplus g (ASort O n0) n) (ASort O (next_plus g n0 n))))).\lambda (n0: nat).eq_ind A (aplus g (asucc g (ASort O n0)) n) (\lambda (a: A).eq A a (ASort O (next g (next_plus g n0 n)))) (eq_ind nat (next_plus g (next g n0) n) (\lambda (n1: nat).eq A (aplus g (ASort O (next g n0)) n) (ASort O n1)) (H (next g n0)) (next g (next_plus g n0 n)) (next_plus_next g n0 n)) (asucc g (aplus g (ASort O n0) n)) (aplus_asucc g n (ASort O n0))) h.
+
+theorem aplus_asort_le_simpl: \forall (g: G).\forall (h: nat).\forall (k: nat).\forall (n: nat).(le h k) \to eq A (aplus g (ASort k n) h) (ASort (minus k h) n) \def \lambda (g: G).\lambda (h: nat).nat_ind (\lambda (n: nat).\forall (k: nat).\forall (n0: nat).(le n k) \to eq A (aplus g (ASort k n0) n) (ASort (minus k n) n0)) (\lambda (k: nat).\lambda (n: nat).\lambda (_: (le O k)).eq_ind nat k (\lambda (n0: nat).eq A (ASort k n) (ASort n0 n)) (refl_equal A (ASort k n)) (minus k O) (minus_n_O k)) (\lambda (h0: nat).\lambda (H: ((\forall (k: nat).\forall (n: nat).(le h0 k) \to eq A (aplus g (ASort k n) h0) (ASort (minus k h0) n)))).\lambda (k: nat).nat_ind (\lambda (n: nat).\forall (n0: nat).(le (S h0) n) \to eq A (asucc g (aplus g (ASort n n0) h0)) (ASort (minus n (S h0)) n0)) (\lambda (n: nat).\lambda (H0: (le (S h0) O)).ex2_ind nat (\lambda (n0: nat).eq nat O (S n0)) (\lambda (n0: nat).le h0 n0) (eq A (asucc g (aplus g (ASort O n) h0)) (ASort (minus O (S h0)) n)) (\lambda (x: nat).\lambda (H1: (eq nat O (S x))).\lambda (_: (le h0 x)).let H3 \def eq_ind nat O (\lambda (ee: nat).match ee return (Prop) with [O \Rightarrow True | (S _) \Rightarrow False]) I (S x) H1 in False_ind (eq A (asucc g (aplus g (ASort O n) h0)) (ASort (minus O (S h0)) n)) H3) (le_gen_S h0 O H0)) (\lambda (n: nat).\lambda (_: ((\forall (n0: nat).(le (S h0) n) \to eq A (asucc g (aplus g (ASort n n0) h0)) (ASort (minus n (S h0)) n0)))).\lambda (n0: nat).\lambda (H1: (le (S h0) (S n))).eq_ind A (aplus g (asucc g (ASort (S n) n0)) h0) (\lambda (a: A).eq A a (ASort (minus (S n) (S h0)) n0)) (H n n0 (le_S_n h0 n H1)) (asucc g (aplus g (ASort (S n) n0) h0)) (aplus_asucc g h0 (ASort (S n) n0))) k) h.
+
+theorem aplus_asort_simpl: \forall (g: G).\forall (h: nat).\forall (k: nat).\forall (n: nat).eq A (aplus g (ASort k n) h) (ASort (minus k h) (next_plus g n (minus h k))) \def \lambda (g: G).\lambda (h: nat).\lambda (k: nat).\lambda (n: nat).lt_le_e k h (eq A (aplus g (ASort k n) h) (ASort (minus k h) (next_plus g n (minus h k)))) (\lambda (H: (lt k h)).eq_ind_r nat (plus k (minus h k)) (\lambda (n0: nat).eq A (aplus g (ASort k n) n0) (ASort (minus k h) (next_plus g n (minus h k)))) (eq_ind A (aplus g (aplus g (ASort k n) k) (minus h k)) (\lambda (a: A).eq A a (ASort (minus k h) (next_plus g n (minus h k)))) (eq_ind_r A (ASort (minus k k) n) (\lambda (a: A).eq A (aplus g a (minus h k)) (ASort (minus k h) (next_plus g n (minus h k)))) (eq_ind nat O (\lambda (n0: nat).eq A (aplus g (ASort n0 n) (minus h k)) (ASort (minus k h) (next_plus g n (minus h k)))) (eq_ind_r nat O (\lambda (n0: nat).eq A (aplus g (ASort O n) (minus h k)) (ASort n0 (next_plus g n (minus h k)))) (aplus_asort_O_simpl g (minus h k) n) (minus k h) (O_minus k h (le_S_n k h (le_S (S k) h H)))) (minus k k) (minus_n_n k)) (aplus g (ASort k n) k) (aplus_asort_le_simpl g k k n (le_n k))) (aplus g (ASort k n) (plus k (minus h k))) (aplus_assoc g (ASort k n) k (minus h k))) h (le_plus_minus k h (le_S_n k h (le_S (S k) h H)))) (\lambda (H: (le h k)).eq_ind_r A (ASort (minus k h) n) (\lambda (a: A).eq A a (ASort (minus k h) (next_plus g n (minus h k)))) (eq_ind_r nat O (\lambda (n0: nat).eq A (ASort (minus k h) n) (ASort (minus k h) (next_plus g n n0))) (refl_equal A (ASort (minus k h) (next_plus g n O))) (minus h k) (O_minus h k H)) (aplus g (ASort k n) h) (aplus_asort_le_simpl g h k n H)).
+
+theorem aplus_ahead_simpl: \forall (g: G).\forall (h: nat).\forall (a1: A).\forall (a2: A).eq A (aplus g (AHead a1 a2) h) (AHead a1 (aplus g a2 h)) \def \lambda (g: G).\lambda (h: nat).nat_ind (\lambda (n: nat).\forall (a1: A).\forall (a2: A).eq A (aplus g (AHead a1 a2) n) (AHead a1 (aplus g a2 n))) (\lambda (a1: A).\lambda (a2: A).refl_equal A (AHead a1 a2)) (\lambda (n: nat).\lambda (H: ((\forall (a1: A).\forall (a2: A).eq A (aplus g (AHead a1 a2) n) (AHead a1 (aplus g a2 n))))).\lambda (a1: A).\lambda (a2: A).eq_ind A (aplus g (asucc g (AHead a1 a2)) n) (\lambda (a: A).eq A a (AHead a1 (asucc g (aplus g a2 n)))) (eq_ind A (aplus g (asucc g a2) n) (\lambda (a: A).eq A (aplus g (asucc g (AHead a1 a2)) n) (AHead a1 a)) (H a1 (asucc g a2)) (asucc g (aplus g a2 n)) (aplus_asucc g n a2)) (asucc g (aplus g (AHead a1 a2) n)) (aplus_asucc g n (AHead a1 a2))) h.
+
+theorem aplus_asucc_false: \forall (g: G).\forall (a: A).\forall (h: nat).(eq A (aplus g (asucc g a) h) a) \to \forall (P: (Prop)).P \def \lambda (g: G).\lambda (a: A).A_ind (\lambda (a0: A).\forall (h: nat).(eq A (aplus g (asucc g a0) h) a0) \to \forall (P: (Prop)).P) (\lambda (n: nat).\lambda (n0: nat).\lambda (h: nat).\lambda (H: (eq A (aplus g (match n with [O \Rightarrow (ASort O (next g n0)) | (S h) \Rightarrow (ASort h n0)]) h) (ASort n n0))).\lambda (P: (Prop)).(match n return (\lambda (n1: nat).(eq A (aplus g (match n1 with [O \Rightarrow (ASort O (next g n0)) | (S h) \Rightarrow (ASort h n0)]) h) (ASort n1 n0)) \to P) with [O \Rightarrow (\lambda (H0: (eq A (aplus g (ASort O (next g n0)) h) (ASort O n0))).let H1 \def eq_ind A (aplus g (ASort O (next g n0)) h) (\lambda (a: A).eq A a (ASort O n0)) H0 (ASort (minus O h) (next_plus g (next g n0) (minus h O))) (aplus_asort_simpl g h O (next g n0)) in let H2 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort _ n) \Rightarrow n | (AHead _ _) \Rightarrow ((let rec (next_plus: (\forall (g: G).\forall (n: nat).\forall (i: nat).nat)) = (\lambda (g: G).\lambda (n: nat).\lambda (i: nat).match i with [O \Rightarrow n | (S i0) \Rightarrow (next g (next_plus g n i0))]) in next_plus) g (next g n0) (minus h O))]) (ASort (minus O h) (next_plus g (next g n0) (minus h O))) (ASort O n0) H1 in let H3 \def eq_ind_r nat (minus h O) (\lambda (n: nat).eq nat (next_plus g (next g n0) n) n0) H2 h (minus_n_O h) in le_lt_false (next_plus g (next g n0) h) n0 (eq_ind nat (next_plus g (next g n0) h) (\lambda (n1: nat).le (next_plus g (next g n0) h) n1) (le_n (next_plus g (next g n0) h)) n0 H3) (next_plus_lt g h n0) P) | (S n1) \Rightarrow (\lambda (H0: (eq A (aplus g (ASort n1 n0) h) (ASort (S n1) n0))).let H1 \def eq_ind A (aplus g (ASort n1 n0) h) (\lambda (a: A).eq A a (ASort (S n1) n0)) H0 (ASort (minus n1 h) (next_plus g n0 (minus h n1))) (aplus_asort_simpl g h n1 n0) in let H2 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort n _) \Rightarrow n | (AHead _ _) \Rightarrow ((let rec (minus: (\forall (n: nat).nat \to nat)) = (\lambda (n: nat).\lambda (m: nat).match n with [O \Rightarrow O | (S k) \Rightarrow (match m with [O \Rightarrow (S k) | (S l) \Rightarrow (minus k l)])]) in minus) n1 h)]) (ASort (minus n1 h) (next_plus g n0 (minus h n1))) (ASort (S n1) n0) H1 in (let H3 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort _ n) \Rightarrow n | (AHead _ _) \Rightarrow ((let rec (next_plus: (\forall (g: G).\forall (n: nat).\forall (i: nat).nat)) = (\lambda (g: G).\lambda (n: nat).\lambda (i: nat).match i with [O \Rightarrow n | (S i0) \Rightarrow (next g (next_plus g n i0))]) in next_plus) g n0 (minus h n1))]) (ASort (minus n1 h) (next_plus g n0 (minus h n1))) (ASort (S n1) n0) H1 in \lambda (H4: (eq nat (minus n1 h) (S n1))).le_Sx_x n1 (eq_ind nat (minus n1 h) (\lambda (n2: nat).le n2 n1) (minus_le n1 h) (S n1) H4) P) H2)]) H) (\lambda (a0: A).\lambda (_: ((\forall (h: nat).(eq A (aplus g (asucc g a0) h) a0) \to \forall (P: (Prop)).P))).\lambda (a1: A).\lambda (H0: ((\forall (h: nat).(eq A (aplus g (asucc g a1) h) a1) \to \forall (P: (Prop)).P))).\lambda (h: nat).\lambda (H1: (eq A (aplus g (AHead a0 (asucc g a1)) h) (AHead a0 a1))).\lambda (P: (Prop)).let H2 \def eq_ind A (aplus g (AHead a0 (asucc g a1)) h) (\lambda (a: A).eq A a (AHead a0 a1)) H1 (AHead a0 (aplus g (asucc g a1) h)) (aplus_ahead_simpl g h a0 (asucc g a1)) in let H3 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow ((let rec (aplus: (\forall (g: G).\forall (a: A).\forall (n: nat).A)) = (\lambda (g: G).\lambda (a: A).\lambda (n: nat).match n with [O \Rightarrow a | (S n0) \Rightarrow (asucc g (aplus g a n0))]) in aplus) g (asucc g a1) h) | (AHead _ a) \Rightarrow a]) (AHead a0 (aplus g (asucc g a1) h)) (AHead a0 a1) H2 in H0 h H3 P) a.
+
+theorem aplus_inj: \forall (g: G).\forall (h1: nat).\forall (h2: nat).\forall (a: A).(eq A (aplus g a h1) (aplus g a h2)) \to eq nat h1 h2 \def \lambda (g: G).\lambda (h1: nat).nat_ind (\lambda (n: nat).\forall (h2: nat).\forall (a: A).(eq A (aplus g a n) (aplus g a h2)) \to eq nat n h2) (\lambda (h2: nat).nat_ind (\lambda (n: nat).\forall (a: A).(eq A (aplus g a O) (aplus g a n)) \to eq nat O n) (\lambda (a: A).\lambda (_: (eq A a a)).refl_equal nat O) (\lambda (n: nat).\lambda (_: ((\forall (a: A).(eq A a (aplus g a n)) \to eq nat O n))).\lambda (a: A).\lambda (H0: (eq A a (asucc g (aplus g a n)))).let H1 \def eq_ind_r A (asucc g (aplus g a n)) (\lambda (a0: A).eq A a a0) H0 (aplus g (asucc g a) n) (aplus_asucc g n a) in aplus_asucc_false g a n (sym_eq A a (aplus g (asucc g a) n) H1) (eq nat O (S n))) h2) (\lambda (n: nat).\lambda (H: ((\forall (h2: nat).\forall (a: A).(eq A (aplus g a n) (aplus g a h2)) \to eq nat n h2))).\lambda (h2: nat).nat_ind (\lambda (n0: nat).\forall (a: A).(eq A (aplus g a (S n)) (aplus g a n0)) \to eq nat (S n) n0) (\lambda (a: A).\lambda (H0: (eq A (asucc g (aplus g a n)) a)).let H1 \def eq_ind_r A (asucc g (aplus g a n)) (\lambda (a0: A).eq A a0 a) H0 (aplus g (asucc g a) n) (aplus_asucc g n a) in aplus_asucc_false g a n H1 (eq nat (S n) O)) (\lambda (n0: nat).\lambda (_: ((\forall (a: A).(eq A (asucc g (aplus g a n)) (aplus g a n0)) \to eq nat (S n) n0))).\lambda (a: A).\lambda (H1: (eq A (asucc g (aplus g a n)) (asucc g (aplus g a n0)))).let H2 \def eq_ind_r A (asucc g (aplus g a n)) (\lambda (a0: A).eq A a0 (asucc g (aplus g a n0))) H1 (aplus g (asucc g a) n) (aplus_asucc g n a) in let H3 \def eq_ind_r A (asucc g (aplus g a n0)) (\lambda (a0: A).eq A (aplus g (asucc g a) n) a0) H2 (aplus g (asucc g a) n0) (aplus_asucc g n0 a) in f_equal nat nat S n n0 (H n0 (asucc g a) H3)) h2) h1.
+
+theorem ahead_inj_snd: \forall (g: G).\forall (a1: A).\forall (a2: A).\forall (a3: A).\forall (a4: A).(leq g (AHead a1 a2) (AHead a3 a4)) \to leq g a2 a4 \def \lambda (g: G).\lambda (a1: A).\lambda (a2: A).\lambda (a3: A).\lambda (a4: A).\lambda (H: (leq g (AHead a1 a2) (AHead a3 a4))).let H0 \def match H return (\lambda (a: A).\lambda (a0: A).(eq A a (AHead a1 a2)) \to (eq A a0 (AHead a3 a4)) \to leq g a2 a4) with [(leq_sort h1 h2 n1 n2 k H0) \Rightarrow (\lambda (H1: (eq A (ASort h1 n1) (AHead a1 a2))).\lambda (H2: (eq A (ASort h2 n2) (AHead a3 a4))).(let H3 \def eq_ind A (ASort h1 n1) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow True | (AHead _ _) \Rightarrow False]) I (AHead a1 a2) H1 in False_ind ((eq A (ASort h2 n2) (AHead a3 a4)) \to (eq A (aplus g (ASort h1 n1) k) (aplus g (ASort h2 n2) k)) \to leq g a2 a4) H3) H2 H0) | (leq_head a0 a5 H0 a6 a7 H1) \Rightarrow (\lambda (H2: (eq A (AHead a0 a6) (AHead a1 a2))).\lambda (H3: (eq A (AHead a5 a7) (AHead a3 a4))).(let H4 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a6 | (AHead _ a) \Rightarrow a]) (AHead a0 a6) (AHead a1 a2) H2 in (let H5 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a0 | (AHead a _) \Rightarrow a]) (AHead a0 a6) (AHead a1 a2) H2 in eq_ind A a1 (\lambda (a: A).(eq A a6 a2) \to (eq A (AHead a5 a7) (AHead a3 a4)) \to (leq g a a5) \to (leq g a6 a7) \to leq g a2 a4) (\lambda (H6: (eq A a6 a2)).eq_ind A a2 (\lambda (a: A).(eq A (AHead a5 a7) (AHead a3 a4)) \to (leq g a1 a5) \to (leq g a a7) \to leq g a2 a4) (\lambda (H7: (eq A (AHead a5 a7) (AHead a3 a4))).let H8 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a7 | (AHead _ a) \Rightarrow a]) (AHead a5 a7) (AHead a3 a4) H7 in (let H9 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a5 | (AHead a _) \Rightarrow a]) (AHead a5 a7) (AHead a3 a4) H7 in eq_ind A a3 (\lambda (a: A).(eq A a7 a4) \to (leq g a1 a) \to (leq g a2 a7) \to leq g a2 a4) (\lambda (H10: (eq A a7 a4)).eq_ind A a4 (\lambda (a: A).(leq g a1 a3) \to (leq g a2 a) \to leq g a2 a4) (\lambda (_: (leq g a1 a3)).\lambda (H12: (leq g a2 a4)).H12) a7 (sym_eq A a7 a4 H10)) a5 (sym_eq A a5 a3 H9)) H8) a6 (sym_eq A a6 a2 H6)) a0 (sym_eq A a0 a1 H5)) H4) H3 H0 H1)] in H0 (refl_equal A (AHead a1 a2)) (refl_equal A (AHead a3 a4)).
+
+theorem leq_refl: \forall (g: G).\forall (a: A).leq g a a \def \lambda (g: G).\lambda (a: A).A_ind (\lambda (a0: A).leq g a0 a0) (\lambda (n: nat).\lambda (n0: nat).leq_sort g n n n0 n0 O (refl_equal A (aplus g (ASort n n0) O))) (\lambda (a0: A).\lambda (H: (leq g a0 a0)).\lambda (a1: A).\lambda (H0: (leq g a1 a1)).leq_head g a0 a0 H a1 a1 H0) a.
+
+theorem leq_eq: \forall (g: G).\forall (a1: A).\forall (a2: A).(eq A a1 a2) \to leq g a1 a2 \def \lambda (g: G).\lambda (a1: A).\lambda (a2: A).\lambda (H: (eq A a1 a2)).eq_ind_r A a2 (\lambda (a: A).leq g a a2) (leq_refl g a2) a1 H.
+
+theorem leq_asucc: \forall (g: G).\forall (a: A).ex A (\lambda (a0: A).leq g a (asucc g a0)) \def \lambda (g: G).\lambda (a: A).A_ind (\lambda (a0: A).ex A (\lambda (a1: A).leq g a0 (asucc g a1))) (\lambda (n: nat).\lambda (n0: nat).ex_intro A (\lambda (a0: A).leq g (ASort n n0) (asucc g a0)) (ASort (S n) n0) (leq_refl g (ASort n n0))) (\lambda (a0: A).\lambda (_: (ex A (\lambda (a1: A).leq g a0 (asucc g a1)))).\lambda (a1: A).\lambda (H0: (ex A (\lambda (a0: A).leq g a1 (asucc g a0)))).let H1 \def H0 in ex_ind A (\lambda (a2: A).leq g a1 (asucc g a2)) (ex A (\lambda (a2: A).leq g (AHead a0 a1) (asucc g a2))) (\lambda (x: A).\lambda (H2: (leq g a1 (asucc g x))).ex_intro A (\lambda (a2: A).leq g (AHead a0 a1) (asucc g a2)) (AHead a0 x) (leq_head g a0 a0 (leq_refl g a0) a1 (asucc g x) H2)) H1) a.
+
+theorem leq_sym: \forall (g: G).\forall (a1: A).\forall (a2: A).(leq g a1 a2) \to leq g a2 a1 \def \lambda (g: G).\lambda (a1: A).\lambda (a2: A).\lambda (H: (leq g a1 a2)).leq_ind g (\lambda (a: A).\lambda (a0: A).leq g a0 a) (\lambda (h1: nat).\lambda (h2: nat).\lambda (n1: nat).\lambda (n2: nat).\lambda (k: nat).\lambda (H0: (eq A (aplus g (ASort h1 n1) k) (aplus g (ASort h2 n2) k))).leq_sort g h2 h1 n2 n1 k (sym_eq A (aplus g (ASort h1 n1) k) (aplus g (ASort h2 n2) k) H0)) (\lambda (a3: A).\lambda (a4: A).\lambda (_: (leq g a3 a4)).\lambda (H1: (leq g a4 a3)).\lambda (a5: A).\lambda (a6: A).\lambda (_: (leq g a5 a6)).\lambda (H3: (leq g a6 a5)).leq_head g a4 a3 H1 a6 a5 H3) a1 a2 H.
+
+theorem leq_trans: \forall (g: G).\forall (a1: A).\forall (a2: A).(leq g a1 a2) \to \forall (a3: A).(leq g a2 a3) \to leq g a1 a3 \def \lambda (g: G).\lambda (a1: A).\lambda (a2: A).\lambda (H: (leq g a1 a2)).leq_ind g (\lambda (a: A).\lambda (a0: A).\forall (a3: A).(leq g a0 a3) \to leq g a a3) (\lambda (h1: nat).\lambda (h2: nat).\lambda (n1: nat).\lambda (n2: nat).\lambda (k: nat).\lambda (H0: (eq A (aplus g (ASort h1 n1) k) (aplus g (ASort h2 n2) k))).\lambda (a3: A).\lambda (H1: (leq g (ASort h2 n2) a3)).let H2 \def match H1 return (\lambda (a: A).\lambda (a0: A).(eq A a (ASort h2 n2)) \to (eq A a0 a3) \to leq g (ASort h1 n1) a3) with [(leq_sort h0 h3 n0 n3 k0 H1) \Rightarrow (\lambda (H2: (eq A (ASort h0 n0) (ASort h2 n2))).\lambda (H3: (eq A (ASort h3 n3) a3)).(let H4 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort _ n) \Rightarrow n | (AHead _ _) \Rightarrow n0]) (ASort h0 n0) (ASort h2 n2) H2 in (let H5 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort n _) \Rightarrow n | (AHead _ _) \Rightarrow h0]) (ASort h0 n0) (ASort h2 n2) H2 in eq_ind nat h2 (\lambda (n: nat).(eq nat n0 n2) \to (eq A (ASort h3 n3) a3) \to (eq A (aplus g (ASort n n0) k0) (aplus g (ASort h3 n3) k0)) \to leq g (ASort h1 n1) a3) (\lambda (H6: (eq nat n0 n2)).eq_ind nat n2 (\lambda (n: nat).(eq A (ASort h3 n3) a3) \to (eq A (aplus g (ASort h2 n) k0) (aplus g (ASort h3 n3) k0)) \to leq g (ASort h1 n1) a3) (\lambda (H7: (eq A (ASort h3 n3) a3)).eq_ind A (ASort h3 n3) (\lambda (a: A).(eq A (aplus g (ASort h2 n2) k0) (aplus g (ASort h3 n3) k0)) \to leq g (ASort h1 n1) a) (\lambda (H8: (eq A (aplus g (ASort h2 n2) k0) (aplus g (ASort h3 n3) k0))).lt_le_e k k0 (leq g (ASort h1 n1) (ASort h3 n3)) (\lambda (H9: (lt k k0)).let H_y \def aplus_reg_r g (ASort h1 n1) (ASort h2 n2) k k H0 (minus k0 k) in let H10 \def eq_ind_r nat (plus (minus k0 k) k) (\lambda (n: nat).eq A (aplus g (ASort h1 n1) n) (aplus g (ASort h2 n2) n)) H_y k0 (le_plus_minus_sym k k0 (le_S_n k k0 (le_S (S k) k0 H9))) in leq_sort g h1 h3 n1 n3 k0 (trans_eq A (aplus g (ASort h1 n1) k0) (aplus g (ASort h2 n2) k0) (aplus g (ASort h3 n3) k0) H10 H8)) (\lambda (H9: (le k0 k)).let H_y \def aplus_reg_r g (ASort h2 n2) (ASort h3 n3) k0 k0 H8 (minus k k0) in let H10 \def eq_ind_r nat (plus (minus k k0) k0) (\lambda (n: nat).eq A (aplus g (ASort h2 n2) n) (aplus g (ASort h3 n3) n)) H_y k (le_plus_minus_sym k0 k H9) in leq_sort g h1 h3 n1 n3 k (trans_eq A (aplus g (ASort h1 n1) k) (aplus g (ASort h2 n2) k) (aplus g (ASort h3 n3) k) H0 H10))) a3 H7) n0 (sym_eq nat n0 n2 H6)) h0 (sym_eq nat h0 h2 H5)) H4) H3 H1) | (leq_head a1 a2 H1 a0 a4 H2) \Rightarrow (\lambda (H3: (eq A (AHead a1 a0) (ASort h2 n2))).\lambda (H4: (eq A (AHead a2 a4) a3)).(let H5 \def eq_ind A (AHead a1 a0) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow False | (AHead _ _) \Rightarrow True]) I (ASort h2 n2) H3 in False_ind ((eq A (AHead a2 a4) a3) \to (leq g a1 a2) \to (leq g a0 a4) \to leq g (ASort h1 n1) a3) H5) H4 H1 H2)] in H2 (refl_equal A (ASort h2 n2)) (refl_equal A a3)) (\lambda (a3: A).\lambda (a4: A).\lambda (_: (leq g a3 a4)).\lambda (H1: ((\forall (a5: A).(leq g a4 a5) \to leq g a3 a5))).\lambda (a5: A).\lambda (a6: A).\lambda (_: (leq g a5 a6)).\lambda (H3: ((\forall (a3: A).(leq g a6 a3) \to leq g a5 a3))).\lambda (a0: A).\lambda (H4: (leq g (AHead a4 a6) a0)).let H5 \def match H4 return (\lambda (a: A).\lambda (a1: A).(eq A a (AHead a4 a6)) \to (eq A a1 a0) \to leq g (AHead a3 a5) a0) with [(leq_sort h1 h2 n1 n2 k H4) \Rightarrow (\lambda (H5: (eq A (ASort h1 n1) (AHead a4 a6))).\lambda (H6: (eq A (ASort h2 n2) a0)).(let H7 \def eq_ind A (ASort h1 n1) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow True | (AHead _ _) \Rightarrow False]) I (AHead a4 a6) H5 in False_ind ((eq A (ASort h2 n2) a0) \to (eq A (aplus g (ASort h1 n1) k) (aplus g (ASort h2 n2) k)) \to leq g (AHead a3 a5) a0) H7) H6 H4) | (leq_head a5 a6 H4 a7 a8 H5) \Rightarrow (\lambda (H6: (eq A (AHead a5 a7) (AHead a4 a6))).\lambda (H7: (eq A (AHead a6 a8) a0)).(let H8 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a7 | (AHead _ a) \Rightarrow a]) (AHead a5 a7) (AHead a4 a6) H6 in (let H9 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a5 | (AHead a _) \Rightarrow a]) (AHead a5 a7) (AHead a4 a6) H6 in eq_ind A a4 (\lambda (a: A).(eq A a7 a6) \to (eq A (AHead a6 a8) a0) \to (leq g a a6) \to (leq g a7 a8) \to leq g (AHead a3 a5) a0) (\lambda (H10: (eq A a7 a6)).eq_ind A a6 (\lambda (a: A).(eq A (AHead a6 a8) a0) \to (leq g a4 a6) \to (leq g a a8) \to leq g (AHead a3 a5) a0) (\lambda (H11: (eq A (AHead a6 a8) a0)).eq_ind A (AHead a6 a8) (\lambda (a: A).(leq g a4 a6) \to (leq g a6 a8) \to leq g (AHead a3 a5) a) (\lambda (H12: (leq g a4 a6)).\lambda (H13: (leq g a6 a8)).leq_head g a3 a6 (H1 a6 H12) a5 a8 (H3 a8 H13)) a0 H11) a7 (sym_eq A a7 a6 H10)) a5 (sym_eq A a5 a4 H9)) H8) H7 H4 H5)] in H5 (refl_equal A (AHead a4 a6)) (refl_equal A a0)) a1 a2 H.
+
+theorem leq_ahead_false: \forall (g: G).\forall (a1: A).\forall (a2: A).(leq g (AHead a1 a2) a1) \to \forall (P: (Prop)).P \def \lambda (g: G).\lambda (a1: A).A_ind (\lambda (a: A).\forall (a2: A).(leq g (AHead a a2) a) \to \forall (P: (Prop)).P) (\lambda (n: nat).\lambda (n0: nat).\lambda (a2: A).\lambda (H: (leq g (AHead (ASort n n0) a2) (ASort n n0))).\lambda (P: (Prop)).(match n return (\lambda (n1: nat).(leq g (AHead (ASort n1 n0) a2) (ASort n1 n0)) \to P) with [O \Rightarrow (\lambda (H0: (leq g (AHead (ASort O n0) a2) (ASort O n0))).let H1 \def match H0 return (\lambda (a: A).\lambda (a0: A).(eq A a (AHead (ASort O n0) a2)) \to (eq A a0 (ASort O n0)) \to P) with [(leq_sort h1 h2 n1 n2 k H0) \Rightarrow (\lambda (H1: (eq A (ASort h1 n1) (AHead (ASort O n0) a2))).\lambda (H2: (eq A (ASort h2 n2) (ASort O n0))).(let H3 \def eq_ind A (ASort h1 n1) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow True | (AHead _ _) \Rightarrow False]) I (AHead (ASort O n0) a2) H1 in False_ind ((eq A (ASort h2 n2) (ASort O n0)) \to (eq A (aplus g (ASort h1 n1) k) (aplus g (ASort h2 n2) k)) \to P) H3) H2 H0) | (leq_head a1 a0 H0 a3 a4 H1) \Rightarrow (\lambda (H2: (eq A (AHead a1 a3) (AHead (ASort O n0) a2))).\lambda (H3: (eq A (AHead a0 a4) (ASort O n0))).(let H4 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a3 | (AHead _ a) \Rightarrow a]) (AHead a1 a3) (AHead (ASort O n0) a2) H2 in (let H5 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a1 | (AHead a _) \Rightarrow a]) (AHead a1 a3) (AHead (ASort O n0) a2) H2 in eq_ind A (ASort O n0) (\lambda (a: A).(eq A a3 a2) \to (eq A (AHead a0 a4) (ASort O n0)) \to (leq g a a0) \to (leq g a3 a4) \to P) (\lambda (H6: (eq A a3 a2)).eq_ind A a2 (\lambda (a: A).(eq A (AHead a0 a4) (ASort O n0)) \to (leq g (ASort O n0) a0) \to (leq g a a4) \to P) (\lambda (H7: (eq A (AHead a0 a4) (ASort O n0))).let H8 \def eq_ind A (AHead a0 a4) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow False | (AHead _ _) \Rightarrow True]) I (ASort O n0) H7 in False_ind ((leq g (ASort O n0) a0) \to (leq g a2 a4) \to P) H8) a3 (sym_eq A a3 a2 H6)) a1 (sym_eq A a1 (ASort O n0) H5)) H4) H3 H0 H1)] in H1 (refl_equal A (AHead (ASort O n0) a2)) (refl_equal A (ASort O n0))) | (S n1) \Rightarrow (\lambda (H0: (leq g (AHead (ASort (S n1) n0) a2) (ASort (S n1) n0))).let H1 \def match H0 return (\lambda (a: A).\lambda (a0: A).(eq A a (AHead (ASort (S n1) n0) a2)) \to (eq A a0 (ASort (S n1) n0)) \to P) with [(leq_sort h1 h2 n1 n2 k H0) \Rightarrow (\lambda (H1: (eq A (ASort h1 n1) (AHead (ASort (S n1) n0) a2))).\lambda (H2: (eq A (ASort h2 n2) (ASort (S n1) n0))).(let H3 \def eq_ind A (ASort h1 n1) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow True | (AHead _ _) \Rightarrow False]) I (AHead (ASort (S n1) n0) a2) H1 in False_ind ((eq A (ASort h2 n2) (ASort (S n1) n0)) \to (eq A (aplus g (ASort h1 n1) k) (aplus g (ASort h2 n2) k)) \to P) H3) H2 H0) | (leq_head a1 a0 H0 a3 a4 H1) \Rightarrow (\lambda (H2: (eq A (AHead a1 a3) (AHead (ASort (S n1) n0) a2))).\lambda (H3: (eq A (AHead a0 a4) (ASort (S n1) n0))).(let H4 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a3 | (AHead _ a) \Rightarrow a]) (AHead a1 a3) (AHead (ASort (S n1) n0) a2) H2 in (let H5 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a1 | (AHead a _) \Rightarrow a]) (AHead a1 a3) (AHead (ASort (S n1) n0) a2) H2 in eq_ind A (ASort (S n1) n0) (\lambda (a: A).(eq A a3 a2) \to (eq A (AHead a0 a4) (ASort (S n1) n0)) \to (leq g a a0) \to (leq g a3 a4) \to P) (\lambda (H6: (eq A a3 a2)).eq_ind A a2 (\lambda (a: A).(eq A (AHead a0 a4) (ASort (S n1) n0)) \to (leq g (ASort (S n1) n0) a0) \to (leq g a a4) \to P) (\lambda (H7: (eq A (AHead a0 a4) (ASort (S n1) n0))).let H8 \def eq_ind A (AHead a0 a4) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow False | (AHead _ _) \Rightarrow True]) I (ASort (S n1) n0) H7 in False_ind ((leq g (ASort (S n1) n0) a0) \to (leq g a2 a4) \to P) H8) a3 (sym_eq A a3 a2 H6)) a1 (sym_eq A a1 (ASort (S n1) n0) H5)) H4) H3 H0 H1)] in H1 (refl_equal A (AHead (ASort (S n1) n0) a2)) (refl_equal A (ASort (S n1) n0)))]) H) (\lambda (a: A).\lambda (H: ((\forall (a2: A).(leq g (AHead a a2) a) \to \forall (P: (Prop)).P))).\lambda (a0: A).\lambda (_: ((\forall (a2: A).(leq g (AHead a0 a2) a0) \to \forall (P: (Prop)).P))).\lambda (a2: A).\lambda (H1: (leq g (AHead (AHead a a0) a2) (AHead a a0))).\lambda (P: (Prop)).let H2 \def match H1 return (\lambda (a1: A).\lambda (a3: A).(eq A a1 (AHead (AHead a a0) a2)) \to (eq A a3 (AHead a a0)) \to P) with [(leq_sort h1 h2 n1 n2 k H2) \Rightarrow (\lambda (H3: (eq A (ASort h1 n1) (AHead (AHead a a0) a2))).\lambda (H4: (eq A (ASort h2 n2) (AHead a a0))).(let H5 \def eq_ind A (ASort h1 n1) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow True | (AHead _ _) \Rightarrow False]) I (AHead (AHead a a0) a2) H3 in False_ind ((eq A (ASort h2 n2) (AHead a a0)) \to (eq A (aplus g (ASort h1 n1) k) (aplus g (ASort h2 n2) k)) \to P) H5) H4 H2) | (leq_head a1 a3 H2 a4 a5 H3) \Rightarrow (\lambda (H4: (eq A (AHead a1 a4) (AHead (AHead a a0) a2))).\lambda (H5: (eq A (AHead a3 a5) (AHead a a0))).(let H6 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a4 | (AHead _ a) \Rightarrow a]) (AHead a1 a4) (AHead (AHead a a0) a2) H4 in (let H7 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a1 | (AHead a _) \Rightarrow a]) (AHead a1 a4) (AHead (AHead a a0) a2) H4 in eq_ind A (AHead a a0) (\lambda (a6: A).(eq A a4 a2) \to (eq A (AHead a3 a5) (AHead a a0)) \to (leq g a6 a3) \to (leq g a4 a5) \to P) (\lambda (H8: (eq A a4 a2)).eq_ind A a2 (\lambda (a2: A).(eq A (AHead a3 a5) (AHead a a0)) \to (leq g (AHead a a0) a3) \to (leq g a2 a5) \to P) (\lambda (H9: (eq A (AHead a3 a5) (AHead a a0))).let H10 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a5 | (AHead _ a) \Rightarrow a]) (AHead a3 a5) (AHead a a0) H9 in (let H11 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a3 | (AHead a _) \Rightarrow a]) (AHead a3 a5) (AHead a a0) H9 in eq_ind A a (\lambda (a6: A).(eq A a5 a0) \to (leq g (AHead a a0) a6) \to (leq g a2 a5) \to P) (\lambda (H12: (eq A a5 a0)).eq_ind A a0 (\lambda (a6: A).(leq g (AHead a a0) a) \to (leq g a2 a6) \to P) (\lambda (H13: (leq g (AHead a a0) a)).\lambda (_: (leq g a2 a0)).H a0 H13 P) a5 (sym_eq A a5 a0 H12)) a3 (sym_eq A a3 a H11)) H10) a4 (sym_eq A a4 a2 H8)) a1 (sym_eq A a1 (AHead a a0) H7)) H6) H5 H2 H3)] in H2 (refl_equal A (AHead (AHead a a0) a2)) (refl_equal A (AHead a a0))) a1.
+
+theorem leq_ahead_asucc_false: \forall (g: G).\forall (a1: A).\forall (a2: A).(leq g (AHead a1 a2) (asucc g a1)) \to \forall (P: (Prop)).P \def \lambda (g: G).\lambda (a1: A).A_ind (\lambda (a: A).\forall (a2: A).(leq g (AHead a a2) (asucc g a)) \to \forall (P: (Prop)).P) (\lambda (n: nat).\lambda (n0: nat).\lambda (a2: A).\lambda (H: (leq g (AHead (ASort n n0) a2) (match n with [O \Rightarrow (ASort O (next g n0)) | (S h) \Rightarrow (ASort h n0)]))).\lambda (P: (Prop)).(match n return (\lambda (n1: nat).(leq g (AHead (ASort n1 n0) a2) (match n1 with [O \Rightarrow (ASort O (next g n0)) | (S h) \Rightarrow (ASort h n0)])) \to P) with [O \Rightarrow (\lambda (H0: (leq g (AHead (ASort O n0) a2) (ASort O (next g n0)))).let H1 \def match H0 return (\lambda (a: A).\lambda (a0: A).(eq A a (AHead (ASort O n0) a2)) \to (eq A a0 (ASort O (next g n0))) \to P) with [(leq_sort h1 h2 n1 n2 k H0) \Rightarrow (\lambda (H1: (eq A (ASort h1 n1) (AHead (ASort O n0) a2))).\lambda (H2: (eq A (ASort h2 n2) (ASort O (next g n0)))).(let H3 \def eq_ind A (ASort h1 n1) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow True | (AHead _ _) \Rightarrow False]) I (AHead (ASort O n0) a2) H1 in False_ind ((eq A (ASort h2 n2) (ASort O (next g n0))) \to (eq A (aplus g (ASort h1 n1) k) (aplus g (ASort h2 n2) k)) \to P) H3) H2 H0) | (leq_head a1 a0 H0 a3 a4 H1) \Rightarrow (\lambda (H2: (eq A (AHead a1 a3) (AHead (ASort O n0) a2))).\lambda (H3: (eq A (AHead a0 a4) (ASort O (next g n0)))).(let H4 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a3 | (AHead _ a) \Rightarrow a]) (AHead a1 a3) (AHead (ASort O n0) a2) H2 in (let H5 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a1 | (AHead a _) \Rightarrow a]) (AHead a1 a3) (AHead (ASort O n0) a2) H2 in eq_ind A (ASort O n0) (\lambda (a: A).(eq A a3 a2) \to (eq A (AHead a0 a4) (ASort O (next g n0))) \to (leq g a a0) \to (leq g a3 a4) \to P) (\lambda (H6: (eq A a3 a2)).eq_ind A a2 (\lambda (a: A).(eq A (AHead a0 a4) (ASort O (next g n0))) \to (leq g (ASort O n0) a0) \to (leq g a a4) \to P) (\lambda (H7: (eq A (AHead a0 a4) (ASort O (next g n0)))).let H8 \def eq_ind A (AHead a0 a4) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow False | (AHead _ _) \Rightarrow True]) I (ASort O (next g n0)) H7 in False_ind ((leq g (ASort O n0) a0) \to (leq g a2 a4) \to P) H8) a3 (sym_eq A a3 a2 H6)) a1 (sym_eq A a1 (ASort O n0) H5)) H4) H3 H0 H1)] in H1 (refl_equal A (AHead (ASort O n0) a2)) (refl_equal A (ASort O (next g n0)))) | (S n1) \Rightarrow (\lambda (H0: (leq g (AHead (ASort (S n1) n0) a2) (ASort n1 n0))).let H1 \def match H0 return (\lambda (a: A).\lambda (a0: A).(eq A a (AHead (ASort (S n1) n0) a2)) \to (eq A a0 (ASort n1 n0)) \to P) with [(leq_sort h1 h2 n1 n2 k H0) \Rightarrow (\lambda (H1: (eq A (ASort h1 n1) (AHead (ASort (S n1) n0) a2))).\lambda (H2: (eq A (ASort h2 n2) (ASort n1 n0))).(let H3 \def eq_ind A (ASort h1 n1) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow True | (AHead _ _) \Rightarrow False]) I (AHead (ASort (S n1) n0) a2) H1 in False_ind ((eq A (ASort h2 n2) (ASort n1 n0)) \to (eq A (aplus g (ASort h1 n1) k) (aplus g (ASort h2 n2) k)) \to P) H3) H2 H0) | (leq_head a1 a0 H0 a3 a4 H1) \Rightarrow (\lambda (H2: (eq A (AHead a1 a3) (AHead (ASort (S n1) n0) a2))).\lambda (H3: (eq A (AHead a0 a4) (ASort n1 n0))).(let H4 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a3 | (AHead _ a) \Rightarrow a]) (AHead a1 a3) (AHead (ASort (S n1) n0) a2) H2 in (let H5 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a1 | (AHead a _) \Rightarrow a]) (AHead a1 a3) (AHead (ASort (S n1) n0) a2) H2 in eq_ind A (ASort (S n1) n0) (\lambda (a: A).(eq A a3 a2) \to (eq A (AHead a0 a4) (ASort n1 n0)) \to (leq g a a0) \to (leq g a3 a4) \to P) (\lambda (H6: (eq A a3 a2)).eq_ind A a2 (\lambda (a: A).(eq A (AHead a0 a4) (ASort n1 n0)) \to (leq g (ASort (S n1) n0) a0) \to (leq g a a4) \to P) (\lambda (H7: (eq A (AHead a0 a4) (ASort n1 n0))).let H8 \def eq_ind A (AHead a0 a4) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow False | (AHead _ _) \Rightarrow True]) I (ASort n1 n0) H7 in False_ind ((leq g (ASort (S n1) n0) a0) \to (leq g a2 a4) \to P) H8) a3 (sym_eq A a3 a2 H6)) a1 (sym_eq A a1 (ASort (S n1) n0) H5)) H4) H3 H0 H1)] in H1 (refl_equal A (AHead (ASort (S n1) n0) a2)) (refl_equal A (ASort n1 n0)))]) H) (\lambda (a: A).\lambda (_: ((\forall (a2: A).(leq g (AHead a a2) (asucc g a)) \to \forall (P: (Prop)).P))).\lambda (a0: A).\lambda (_: ((\forall (a2: A).(leq g (AHead a0 a2) (asucc g a0)) \to \forall (P: (Prop)).P))).\lambda (a2: A).\lambda (H1: (leq g (AHead (AHead a a0) a2) (AHead a (asucc g a0)))).\lambda (P: (Prop)).let H2 \def match H1 return (\lambda (a1: A).\lambda (a3: A).(eq A a1 (AHead (AHead a a0) a2)) \to (eq A a3 (AHead a (asucc g a0))) \to P) with [(leq_sort h1 h2 n1 n2 k H2) \Rightarrow (\lambda (H3: (eq A (ASort h1 n1) (AHead (AHead a a0) a2))).\lambda (H4: (eq A (ASort h2 n2) (AHead a (asucc g a0)))).(let H5 \def eq_ind A (ASort h1 n1) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow True | (AHead _ _) \Rightarrow False]) I (AHead (AHead a a0) a2) H3 in False_ind ((eq A (ASort h2 n2) (AHead a (asucc g a0))) \to (eq A (aplus g (ASort h1 n1) k) (aplus g (ASort h2 n2) k)) \to P) H5) H4 H2) | (leq_head a1 a3 H2 a4 a5 H3) \Rightarrow (\lambda (H4: (eq A (AHead a1 a4) (AHead (AHead a a0) a2))).\lambda (H5: (eq A (AHead a3 a5) (AHead a (asucc g a0)))).(let H6 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a4 | (AHead _ a) \Rightarrow a]) (AHead a1 a4) (AHead (AHead a a0) a2) H4 in (let H7 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a1 | (AHead a _) \Rightarrow a]) (AHead a1 a4) (AHead (AHead a a0) a2) H4 in eq_ind A (AHead a a0) (\lambda (a6: A).(eq A a4 a2) \to (eq A (AHead a3 a5) (AHead a (asucc g a0))) \to (leq g a6 a3) \to (leq g a4 a5) \to P) (\lambda (H8: (eq A a4 a2)).eq_ind A a2 (\lambda (a2: A).(eq A (AHead a3 a5) (AHead a (asucc g a0))) \to (leq g (AHead a a0) a3) \to (leq g a2 a5) \to P) (\lambda (H9: (eq A (AHead a3 a5) (AHead a (asucc g a0)))).let H10 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a5 | (AHead _ a) \Rightarrow a]) (AHead a3 a5) (AHead a (asucc g a0)) H9 in (let H11 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a3 | (AHead a _) \Rightarrow a]) (AHead a3 a5) (AHead a (asucc g a0)) H9 in eq_ind A a (\lambda (a6: A).(eq A a5 (asucc g a0)) \to (leq g (AHead a a0) a6) \to (leq g a2 a5) \to P) (\lambda (H12: (eq A a5 (asucc g a0))).eq_ind A (asucc g a0) (\lambda (a6: A).(leq g (AHead a a0) a) \to (leq g a2 a6) \to P) (\lambda (H13: (leq g (AHead a a0) a)).\lambda (_: (leq g a2 (asucc g a0))).leq_ahead_false g a a0 H13 P) a5 (sym_eq A a5 (asucc g a0) H12)) a3 (sym_eq A a3 a H11)) H10) a4 (sym_eq A a4 a2 H8)) a1 (sym_eq A a1 (AHead a a0) H7)) H6) H5 H2 H3)] in H2 (refl_equal A (AHead (AHead a a0) a2)) (refl_equal A (AHead a (asucc g a0)))) a1.
+
+theorem leq_asucc_false: \forall (g: G).\forall (a: A).(leq g (asucc g a) a) \to \forall (P: (Prop)).P \def \lambda (g: G).\lambda (a: A).A_ind (\lambda (a0: A).(leq g (asucc g a0) a0) \to \forall (P: (Prop)).P) (\lambda (n: nat).\lambda (n0: nat).\lambda (H: (leq g (match n with [O \Rightarrow (ASort O (next g n0)) | (S h) \Rightarrow (ASort h n0)]) (ASort n n0))).\lambda (P: (Prop)).(match n return (\lambda (n1: nat).(leq g (match n1 with [O \Rightarrow (ASort O (next g n0)) | (S h) \Rightarrow (ASort h n0)]) (ASort n1 n0)) \to P) with [O \Rightarrow (\lambda (H0: (leq g (ASort O (next g n0)) (ASort O n0))).let H1 \def match H0 return (\lambda (a: A).\lambda (a0: A).(eq A a (ASort O (next g n0))) \to (eq A a0 (ASort O n0)) \to P) with [(leq_sort h1 h2 n1 n2 k H0) \Rightarrow (\lambda (H1: (eq A (ASort h1 n1) (ASort O (next g n0)))).\lambda (H2: (eq A (ASort h2 n2) (ASort O n0))).(let H3 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort _ n) \Rightarrow n | (AHead _ _) \Rightarrow n1]) (ASort h1 n1) (ASort O (next g n0)) H1 in (let H4 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort n _) \Rightarrow n | (AHead _ _) \Rightarrow h1]) (ASort h1 n1) (ASort O (next g n0)) H1 in eq_ind nat O (\lambda (n: nat).(eq nat n1 (next g n0)) \to (eq A (ASort h2 n2) (ASort O n0)) \to (eq A (aplus g (ASort n n1) k) (aplus g (ASort h2 n2) k)) \to P) (\lambda (H5: (eq nat n1 (next g n0))).eq_ind nat (next g n0) (\lambda (n: nat).(eq A (ASort h2 n2) (ASort O n0)) \to (eq A (aplus g (ASort O n) k) (aplus g (ASort h2 n2) k)) \to P) (\lambda (H6: (eq A (ASort h2 n2) (ASort O n0))).let H7 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort _ n) \Rightarrow n | (AHead _ _) \Rightarrow n2]) (ASort h2 n2) (ASort O n0) H6 in (let H8 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort n _) \Rightarrow n | (AHead _ _) \Rightarrow h2]) (ASort h2 n2) (ASort O n0) H6 in eq_ind nat O (\lambda (n: nat).(eq nat n2 n0) \to (eq A (aplus g (ASort O (next g n0)) k) (aplus g (ASort n n2) k)) \to P) (\lambda (H9: (eq nat n2 n0)).eq_ind nat n0 (\lambda (n: nat).(eq A (aplus g (ASort O (next g n0)) k) (aplus g (ASort O n) k)) \to P) (\lambda (H10: (eq A (aplus g (ASort O (next g n0)) k) (aplus g (ASort O n0) k))).let H \def eq_ind_r A (aplus g (ASort O (next g n0)) k) (\lambda (a: A).eq A a (aplus g (ASort O n0) k)) H10 (aplus g (ASort O n0) (S k)) (aplus_sort_O_S_simpl g n0 k) in let H_y \def aplus_inj g (S k) k (ASort O n0) H in le_Sx_x k (eq_ind_r nat k (\lambda (n: nat).le n k) (le_n k) (S k) H_y) P) n2 (sym_eq nat n2 n0 H9)) h2 (sym_eq nat h2 O H8)) H7) n1 (sym_eq nat n1 (next g n0) H5)) h1 (sym_eq nat h1 O H4)) H3) H2 H0) | (leq_head a1 a2 H0 a3 a4 H1) \Rightarrow (\lambda (H2: (eq A (AHead a1 a3) (ASort O (next g n0)))).\lambda (H3: (eq A (AHead a2 a4) (ASort O n0))).(let H4 \def eq_ind A (AHead a1 a3) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow False | (AHead _ _) \Rightarrow True]) I (ASort O (next g n0)) H2 in False_ind ((eq A (AHead a2 a4) (ASort O n0)) \to (leq g a1 a2) \to (leq g a3 a4) \to P) H4) H3 H0 H1)] in H1 (refl_equal A (ASort O (next g n0))) (refl_equal A (ASort O n0))) | (S n1) \Rightarrow (\lambda (H0: (leq g (ASort n1 n0) (ASort (S n1) n0))).let H1 \def match H0 return (\lambda (a: A).\lambda (a0: A).(eq A a (ASort n1 n0)) \to (eq A a0 (ASort (S n1) n0)) \to P) with [(leq_sort h1 h2 n1 n2 k H0) \Rightarrow (\lambda (H1: (eq A (ASort h1 n1) (ASort n1 n0))).\lambda (H2: (eq A (ASort h2 n2) (ASort (S n1) n0))).(let H3 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort _ n) \Rightarrow n | (AHead _ _) \Rightarrow n1]) (ASort h1 n1) (ASort n1 n0) H1 in (let H4 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort n _) \Rightarrow n | (AHead _ _) \Rightarrow h1]) (ASort h1 n1) (ASort n1 n0) H1 in eq_ind nat n1 (\lambda (n: nat).(eq nat n1 n0) \to (eq A (ASort h2 n2) (ASort (S n1) n0)) \to (eq A (aplus g (ASort n n1) k) (aplus g (ASort h2 n2) k)) \to P) (\lambda (H5: (eq nat n1 n0)).eq_ind nat n0 (\lambda (n: nat).(eq A (ASort h2 n2) (ASort (S n1) n0)) \to (eq A (aplus g (ASort n1 n) k) (aplus g (ASort h2 n2) k)) \to P) (\lambda (H6: (eq A (ASort h2 n2) (ASort (S n1) n0))).let H7 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort _ n) \Rightarrow n | (AHead _ _) \Rightarrow n2]) (ASort h2 n2) (ASort (S n1) n0) H6 in (let H8 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort n _) \Rightarrow n | (AHead _ _) \Rightarrow h2]) (ASort h2 n2) (ASort (S n1) n0) H6 in eq_ind nat (S n1) (\lambda (n: nat).(eq nat n2 n0) \to (eq A (aplus g (ASort n1 n0) k) (aplus g (ASort n n2) k)) \to P) (\lambda (H9: (eq nat n2 n0)).eq_ind nat n0 (\lambda (n: nat).(eq A (aplus g (ASort n1 n0) k) (aplus g (ASort (S n1) n) k)) \to P) (\lambda (H10: (eq A (aplus g (ASort n1 n0) k) (aplus g (ASort (S n1) n0) k))).let H \def eq_ind_r A (aplus g (ASort n1 n0) k) (\lambda (a: A).eq A a (aplus g (ASort (S n1) n0) k)) H10 (aplus g (ASort (S n1) n0) (S k)) (aplus_sort_S_S_simpl g n0 n1 k) in let H_y \def aplus_inj g (S k) k (ASort (S n1) n0) H in le_Sx_x k (eq_ind_r nat k (\lambda (n: nat).le n k) (le_n k) (S k) H_y) P) n2 (sym_eq nat n2 n0 H9)) h2 (sym_eq nat h2 (S n1) H8)) H7) n1 (sym_eq nat n1 n0 H5)) h1 (sym_eq nat h1 n1 H4)) H3) H2 H0) | (leq_head a1 a2 H0 a3 a4 H1) \Rightarrow (\lambda (H2: (eq A (AHead a1 a3) (ASort n1 n0))).\lambda (H3: (eq A (AHead a2 a4) (ASort (S n1) n0))).(let H4 \def eq_ind A (AHead a1 a3) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow False | (AHead _ _) \Rightarrow True]) I (ASort n1 n0) H2 in False_ind ((eq A (AHead a2 a4) (ASort (S n1) n0)) \to (leq g a1 a2) \to (leq g a3 a4) \to P) H4) H3 H0 H1)] in H1 (refl_equal A (ASort n1 n0)) (refl_equal A (ASort (S n1) n0)))]) H) (\lambda (a0: A).\lambda (_: (((leq g (asucc g a0) a0) \to \forall (P: (Prop)).P))).\lambda (a1: A).\lambda (H0: (((leq g (asucc g a1) a1) \to \forall (P: (Prop)).P))).\lambda (H1: (leq g (AHead a0 (asucc g a1)) (AHead a0 a1))).\lambda (P: (Prop)).let H2 \def match H1 return (\lambda (a: A).\lambda (a2: A).(eq A a (AHead a0 (asucc g a1))) \to (eq A a2 (AHead a0 a1)) \to P) with [(leq_sort h1 h2 n1 n2 k H2) \Rightarrow (\lambda (H3: (eq A (ASort h1 n1) (AHead a0 (asucc g a1)))).\lambda (H4: (eq A (ASort h2 n2) (AHead a0 a1))).(let H5 \def eq_ind A (ASort h1 n1) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow True | (AHead _ _) \Rightarrow False]) I (AHead a0 (asucc g a1)) H3 in False_ind ((eq A (ASort h2 n2) (AHead a0 a1)) \to (eq A (aplus g (ASort h1 n1) k) (aplus g (ASort h2 n2) k)) \to P) H5) H4 H2) | (leq_head a1 a2 H2 a3 a4 H3) \Rightarrow (\lambda (H4: (eq A (AHead a1 a3) (AHead a0 (asucc g a1)))).\lambda (H5: (eq A (AHead a2 a4) (AHead a0 a1))).(let H6 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a3 | (AHead _ a) \Rightarrow a]) (AHead a1 a3) (AHead a0 (asucc g a1)) H4 in (let H7 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a1 | (AHead a _) \Rightarrow a]) (AHead a1 a3) (AHead a0 (asucc g a1)) H4 in eq_ind A a0 (\lambda (a: A).(eq A a3 (asucc g a1)) \to (eq A (AHead a2 a4) (AHead a0 a1)) \to (leq g a a2) \to (leq g a3 a4) \to P) (\lambda (H8: (eq A a3 (asucc g a1))).eq_ind A (asucc g a1) (\lambda (a: A).(eq A (AHead a2 a4) (AHead a0 a1)) \to (leq g a0 a2) \to (leq g a a4) \to P) (\lambda (H9: (eq A (AHead a2 a4) (AHead a0 a1))).let H10 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a4 | (AHead _ a) \Rightarrow a]) (AHead a2 a4) (AHead a0 a1) H9 in (let H11 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a2 | (AHead a _) \Rightarrow a]) (AHead a2 a4) (AHead a0 a1) H9 in eq_ind A a0 (\lambda (a: A).(eq A a4 a1) \to (leq g a0 a) \to (leq g (asucc g a1) a4) \to P) (\lambda (H12: (eq A a4 a1)).eq_ind A a1 (\lambda (a: A).(leq g a0 a0) \to (leq g (asucc g a1) a) \to P) (\lambda (_: (leq g a0 a0)).\lambda (H14: (leq g (asucc g a1) a1)).H0 H14 P) a4 (sym_eq A a4 a1 H12)) a2 (sym_eq A a2 a0 H11)) H10) a3 (sym_eq A a3 (asucc g a1) H8)) a1 (sym_eq A a1 a0 H7)) H6) H5 H2 H3)] in H2 (refl_equal A (AHead a0 (asucc g a1))) (refl_equal A (AHead a0 a1))) a.
+
+theorem lweight: A \to nat \def let rec (lweight: (\forall (a: A).nat)) = (\lambda (a: A).match a with [(ASort _ _) \Rightarrow O | (AHead a1 a2) \Rightarrow (S (plus (lweight a1) (lweight a2)))]) in lweight.
+
+theorem llt: A \to A \to Prop \def \lambda (a1: A).\lambda (a2: A).lt (lweight a1) (lweight a2).
+
+theorem lweight_repl: \forall (g: G).\forall (a1: A).\forall (a2: A).(leq g a1 a2) \to eq nat (lweight a1) (lweight a2) \def \lambda (g: G).\lambda (a1: A).\lambda (a2: A).\lambda (H: (leq g a1 a2)).leq_ind g (\lambda (a: A).\lambda (a0: A).eq nat (lweight a) (lweight a0)) (\lambda (h1: nat).\lambda (h2: nat).\lambda (n1: nat).\lambda (n2: nat).\lambda (k: nat).\lambda (_: (eq A (aplus g (ASort h1 n1) k) (aplus g (ASort h2 n2) k))).refl_equal nat O) (\lambda (a0: A).\lambda (a3: A).\lambda (_: (leq g a0 a3)).\lambda (H1: (eq nat (lweight a0) (lweight a3))).\lambda (a4: A).\lambda (a5: A).\lambda (_: (leq g a4 a5)).\lambda (H3: (eq nat (lweight a4) (lweight a5))).f_equal nat nat S (plus (lweight a0) (lweight a4)) (plus (lweight a3) (lweight a5)) (f_equal2 nat nat nat plus (lweight a0) (lweight a3) (lweight a4) (lweight a5) H1 H3)) a1 a2 H.
+
+theorem llt_repl: \forall (g: G).\forall (a1: A).\forall (a2: A).(leq g a1 a2) \to \forall (a3: A).(llt a1 a3) \to llt a2 a3 \def \lambda (g: G).\lambda (a1: A).\lambda (a2: A).\lambda (H: (leq g a1 a2)).\lambda (a3: A).\lambda (H0: (lt (lweight a1) (lweight a3))).let H1 \def eq_ind nat (lweight a1) (\lambda (n: nat).lt n (lweight a3)) H0 (lweight a2) (lweight_repl g a1 a2 H) in H1.
+
+theorem llt_trans: \forall (a1: A).\forall (a2: A).\forall (a3: A).(llt a1 a2) \to (llt a2 a3) \to llt a1 a3 \def \lambda (a1: A).\lambda (a2: A).\lambda (a3: A).\lambda (H: (lt (lweight a1) (lweight a2))).\lambda (H0: (lt (lweight a2) (lweight a3))).lt_trans (lweight a1) (lweight a2) (lweight a3) H H0.
+
+theorem llt_head_sx: \forall (a1: A).\forall (a2: A).llt a1 (AHead a1 a2) \def \lambda (a1: A).\lambda (a2: A).le_S_n (S (lweight a1)) (S (plus (lweight a1) (lweight a2))) (le_n_S (S (lweight a1)) (S (plus (lweight a1) (lweight a2))) (le_n_S (lweight a1) (plus (lweight a1) (lweight a2)) (le_plus_l (lweight a1) (lweight a2)))).
+
+theorem llt_head_dx: \forall (a1: A).\forall (a2: A).llt a2 (AHead a1 a2) \def \lambda (a1: A).\lambda (a2: A).le_S_n (S (lweight a2)) (S (plus (lweight a1) (lweight a2))) (le_n_S (S (lweight a2)) (S (plus (lweight a1) (lweight a2))) (le_n_S (lweight a2) (plus (lweight a1) (lweight a2)) (le_plus_r (lweight a1) (lweight a2)))).
+
+theorem llt_wf.__q_ind: \forall (P: ((A \to Prop))).((\forall (n: nat).(\lambda (P: ((A \to Prop))).\lambda (n0: nat).\forall (a: A).(eq nat (lweight a) n0) \to P a) P n)) \to \forall (a: A).P a \def let Q \def \lambda (P: ((A \to Prop))).\lambda (n: nat).\forall (a: A).(eq nat (lweight a) n) \to P a in \lambda (P: ((A \to Prop))).\lambda (H: ((\forall (n: nat).\forall (a: A).(eq nat (lweight a) n) \to P a))).\lambda (a: A).H (lweight a) a (refl_equal nat (lweight a)).
+
+theorem llt_wf_ind: \forall (P: ((A \to Prop))).((\forall (a2: A).((\forall (a1: A).(llt a1 a2) \to P a1)) \to P a2)) \to \forall (a: A).P a \def let Q \def \lambda (P: ((A \to Prop))).\lambda (n: nat).\forall (a: A).(eq nat (lweight a) n) \to P a in \lambda (P: ((A \to Prop))).\lambda (H: ((\forall (a2: A).((\forall (a1: A).(lt (lweight a1) (lweight a2)) \to P a1)) \to P a2))).\lambda (a: A).llt_wf.__q_ind (\lambda (a0: A).P a0) (\lambda (n: nat).lt_wf_ind n (Q (\lambda (a0: A).P a0)) (\lambda (n0: nat).\lambda (H0: ((\forall (m: nat).(lt m n0) \to Q (\lambda (a: A).P a) m))).\lambda (a0: A).\lambda (H1: (eq nat (lweight a0) n0)).let H2 \def eq_ind_r nat n0 (\lambda (n: nat).\forall (m: nat).(lt m n) \to \forall (a: A).(eq nat (lweight a) m) \to P a) H0 (lweight a0) H1 in H a0 (\lambda (a1: A).\lambda (H3: (lt (lweight a1) (lweight a0))).H2 (lweight a1) H3 a1 (refl_equal nat (lweight a1))))) a.
+
+inductive aprem: nat \to A \to A \to Prop \def
+| aprem_zero: \forall (a1: A).\forall (a2: A).aprem O (AHead a1 a2) a1
+| aprem_succ: \forall (a2: A).\forall (a: A).\forall (i: nat).(aprem i a2 a) \to \forall (a1: A).aprem (S i) (AHead a1 a2) a.
+
+theorem aprem_repl: \forall (g: G).\forall (a1: A).\forall (a2: A).(leq g a1 a2) \to \forall (i: nat).\forall (b2: A).(aprem i a2 b2) \to ex2 A (\lambda (b1: A).leq g b1 b2) (\lambda (b1: A).aprem i a1 b1) \def \lambda (g: G).\lambda (a1: A).\lambda (a2: A).\lambda (H: (leq g a1 a2)).leq_ind g (\lambda (a: A).\lambda (a0: A).\forall (i: nat).\forall (b2: A).(aprem i a0 b2) \to ex2 A (\lambda (b1: A).leq g b1 b2) (\lambda (b1: A).aprem i a b1)) (\lambda (h1: nat).\lambda (h2: nat).\lambda (n1: nat).\lambda (n2: nat).\lambda (k: nat).\lambda (_: (eq A (aplus g (ASort h1 n1) k) (aplus g (ASort h2 n2) k))).\lambda (i: nat).\lambda (b2: A).\lambda (H1: (aprem i (ASort h2 n2) b2)).let H2 \def match H1 return (\lambda (n: nat).\lambda (a: A).\lambda (a0: A).(eq nat n i) \to (eq A a (ASort h2 n2)) \to (eq A a0 b2) \to ex2 A (\lambda (b1: A).leq g b1 b2) (\lambda (b1: A).aprem i (ASort h1 n1) b1)) with [(aprem_zero a0 a3) \Rightarrow (\lambda (H1: (eq nat O i)).\lambda (H2: (eq A (AHead a0 a3) (ASort h2 n2))).\lambda (H3: (eq A a0 b2)).eq_ind nat O (\lambda (n: nat).(eq A (AHead a0 a3) (ASort h2 n2)) \to (eq A a0 b2) \to ex2 A (\lambda (b1: A).leq g b1 b2) (\lambda (b1: A).aprem n (ASort h1 n1) b1)) (\lambda (H4: (eq A (AHead a0 a3) (ASort h2 n2))).let H5 \def eq_ind A (AHead a0 a3) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow False | (AHead _ _) \Rightarrow True]) I (ASort h2 n2) H4 in False_ind ((eq A a0 b2) \to ex2 A (\lambda (b1: A).leq g b1 b2) (\lambda (b1: A).aprem O (ASort h1 n1) b1)) H5) i H1 H2 H3) | (aprem_succ a0 a i0 H1 a3) \Rightarrow (\lambda (H2: (eq nat (S i0) i)).\lambda (H3: (eq A (AHead a3 a0) (ASort h2 n2))).\lambda (H4: (eq A a b2)).eq_ind nat (S i0) (\lambda (n: nat).(eq A (AHead a3 a0) (ASort h2 n2)) \to (eq A a b2) \to (aprem i0 a0 a) \to ex2 A (\lambda (b1: A).leq g b1 b2) (\lambda (b1: A).aprem n (ASort h1 n1) b1)) (\lambda (H5: (eq A (AHead a3 a0) (ASort h2 n2))).let H6 \def eq_ind A (AHead a3 a0) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow False | (AHead _ _) \Rightarrow True]) I (ASort h2 n2) H5 in False_ind ((eq A a b2) \to (aprem i0 a0 a) \to ex2 A (\lambda (b1: A).leq g b1 b2) (\lambda (b1: A).aprem (S i0) (ASort h1 n1) b1)) H6) i H2 H3 H4 H1)] in H2 (refl_equal nat i) (refl_equal A (ASort h2 n2)) (refl_equal A b2)) (\lambda (a0: A).\lambda (a3: A).\lambda (H0: (leq g a0 a3)).\lambda (_: ((\forall (i: nat).\forall (b2: A).(aprem i a3 b2) \to ex2 A (\lambda (b1: A).leq g b1 b2) (\lambda (b1: A).aprem i a0 b1)))).\lambda (a4: A).\lambda (a5: A).\lambda (_: (leq g a4 a5)).\lambda (H3: ((\forall (i: nat).\forall (b2: A).(aprem i a5 b2) \to ex2 A (\lambda (b1: A).leq g b1 b2) (\lambda (b1: A).aprem i a4 b1)))).\lambda (i: nat).\lambda (b2: A).\lambda (H4: (aprem i (AHead a3 a5) b2)).(match i return (\lambda (n: nat).(aprem n (AHead a3 a5) b2) \to ex2 A (\lambda (b1: A).leq g b1 b2) (\lambda (b1: A).aprem n (AHead a0 a4) b1)) with [O \Rightarrow (\lambda (H5: (aprem O (AHead a3 a5) b2)).let H6 \def match H5 return (\lambda (n: nat).\lambda (a: A).\lambda (a1: A).(eq nat n O) \to (eq A a (AHead a3 a5)) \to (eq A a1 b2) \to ex2 A (\lambda (b1: A).leq g b1 b2) (\lambda (b1: A).aprem O (AHead a0 a4) b1)) with [(aprem_zero a6 a7) \Rightarrow (\lambda (_: (eq nat O O)).\lambda (H5: (eq A (AHead a6 a7) (AHead a3 a5))).\lambda (H6: (eq A a6 b2)).(let H7 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a7 | (AHead _ a) \Rightarrow a]) (AHead a6 a7) (AHead a3 a5) H5 in (let H8 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a6 | (AHead a _) \Rightarrow a]) (AHead a6 a7) (AHead a3 a5) H5 in eq_ind A a3 (\lambda (a: A).(eq A a7 a5) \to (eq A a b2) \to ex2 A (\lambda (b1: A).leq g b1 b2) (\lambda (b1: A).aprem O (AHead a0 a4) b1)) (\lambda (H9: (eq A a7 a5)).eq_ind A a5 (\lambda (_: A).(eq A a3 b2) \to ex2 A (\lambda (b1: A).leq g b1 b2) (\lambda (b1: A).aprem O (AHead a0 a4) b1)) (\lambda (H10: (eq A a3 b2)).eq_ind A b2 (\lambda (_: A).ex2 A (\lambda (b1: A).leq g b1 b2) (\lambda (b1: A).aprem O (AHead a0 a4) b1)) (eq_ind A a3 (\lambda (a: A).ex2 A (\lambda (b1: A).leq g b1 a) (\lambda (b1: A).aprem O (AHead a0 a4) b1)) (ex_intro2 A (\lambda (b1: A).leq g b1 a3) (\lambda (b1: A).aprem O (AHead a0 a4) b1) a0 H0 (aprem_zero a0 a4)) b2 H10) a3 (sym_eq A a3 b2 H10)) a7 (sym_eq A a7 a5 H9)) a6 (sym_eq A a6 a3 H8)) H7) H6) | (aprem_succ a6 a i H4 a7) \Rightarrow (\lambda (H5: (eq nat (S i) O)).\lambda (H6: (eq A (AHead a7 a6) (AHead a3 a5))).\lambda (H7: (eq A a b2)).(let H8 \def eq_ind nat (S i) (\lambda (e: nat).match e return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H5 in False_ind ((eq A (AHead a7 a6) (AHead a3 a5)) \to (eq A a b2) \to (aprem i a6 a) \to ex2 A (\lambda (b1: A).leq g b1 b2) (\lambda (b1: A).aprem O (AHead a0 a4) b1)) H8) H6 H7 H4)] in H6 (refl_equal nat O) (refl_equal A (AHead a3 a5)) (refl_equal A b2)) | (S n) \Rightarrow (\lambda (H5: (aprem (S n) (AHead a3 a5) b2)).let H6 \def match H5 return (\lambda (n0: nat).\lambda (a: A).\lambda (a1: A).(eq nat n0 (S n)) \to (eq A a (AHead a3 a5)) \to (eq A a1 b2) \to ex2 A (\lambda (b1: A).leq g b1 b2) (\lambda (b1: A).aprem (S n) (AHead a0 a4) b1)) with [(aprem_zero a6 a7) \Rightarrow (\lambda (H4: (eq nat O (S n))).\lambda (H5: (eq A (AHead a6 a7) (AHead a3 a5))).\lambda (H6: (eq A a6 b2)).(let H7 \def eq_ind nat O (\lambda (e: nat).match e return (Prop) with [O \Rightarrow True | (S _) \Rightarrow False]) I (S n) H4 in False_ind ((eq A (AHead a6 a7) (AHead a3 a5)) \to (eq A a6 b2) \to ex2 A (\lambda (b1: A).leq g b1 b2) (\lambda (b1: A).aprem (S n) (AHead a0 a4) b1)) H7) H5 H6) | (aprem_succ a6 a i H4 a7) \Rightarrow (\lambda (H5: (eq nat (S i) (S n))).\lambda (H6: (eq A (AHead a7 a6) (AHead a3 a5))).\lambda (H7: (eq A a b2)).(let H8 \def f_equal nat nat (\lambda (e: nat).match e return nat with [O \Rightarrow i | (S n) \Rightarrow n]) (S i) (S n) H5 in eq_ind nat n (\lambda (n0: nat).(eq A (AHead a7 a6) (AHead a3 a5)) \to (eq A a b2) \to (aprem n0 a6 a) \to ex2 A (\lambda (b1: A).leq g b1 b2) (\lambda (b1: A).aprem (S n) (AHead a0 a4) b1)) (\lambda (H9: (eq A (AHead a7 a6) (AHead a3 a5))).let H10 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a6 | (AHead _ a) \Rightarrow a]) (AHead a7 a6) (AHead a3 a5) H9 in (let H11 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a7 | (AHead a _) \Rightarrow a]) (AHead a7 a6) (AHead a3 a5) H9 in eq_ind A a3 (\lambda (_: A).(eq A a6 a5) \to (eq A a b2) \to (aprem n a6 a) \to ex2 A (\lambda (b1: A).leq g b1 b2) (\lambda (b1: A).aprem (S n) (AHead a0 a4) b1)) (\lambda (H12: (eq A a6 a5)).eq_ind A a5 (\lambda (a1: A).(eq A a b2) \to (aprem n a1 a) \to ex2 A (\lambda (b1: A).leq g b1 b2) (\lambda (b1: A).aprem (S n) (AHead a0 a4) b1)) (\lambda (H13: (eq A a b2)).eq_ind A b2 (\lambda (a1: A).(aprem n a5 a1) \to ex2 A (\lambda (b1: A).leq g b1 b2) (\lambda (b1: A).aprem (S n) (AHead a0 a4) b1)) (\lambda (H14: (aprem n a5 b2)).let H_x \def H3 n b2 H14 in let H3 \def H_x in ex2_ind A (\lambda (b1: A).leq g b1 b2) (\lambda (b1: A).aprem n a4 b1) (ex2 A (\lambda (b1: A).leq g b1 b2) (\lambda (b1: A).aprem (S n) (AHead a0 a4) b1)) (\lambda (x: A).\lambda (H15: (leq g x b2)).\lambda (H16: (aprem n a4 x)).ex_intro2 A (\lambda (b1: A).leq g b1 b2) (\lambda (b1: A).aprem (S n) (AHead a0 a4) b1) x H15 (aprem_succ a4 x n H16 a0)) H3) a (sym_eq A a b2 H13)) a6 (sym_eq A a6 a5 H12)) a7 (sym_eq A a7 a3 H11)) H10) i (sym_eq nat i n H8)) H6 H7 H4)] in H6 (refl_equal nat (S n)) (refl_equal A (AHead a3 a5)) (refl_equal A b2))]) H4) a1 a2 H.
+
+theorem aprem_asucc: \forall (g: G).\forall (a1: A).\forall (a2: A).\forall (i: nat).(aprem i a1 a2) \to aprem i (asucc g a1) a2 \def \lambda (g: G).\lambda (a1: A).\lambda (a2: A).\lambda (i: nat).\lambda (H: (aprem i a1 a2)).aprem_ind (\lambda (n: nat).\lambda (a: A).\lambda (a0: A).aprem n (asucc g a) a0) (\lambda (a0: A).\lambda (a3: A).aprem_zero a0 (asucc g a3)) (\lambda (a0: A).\lambda (a: A).\lambda (i0: nat).\lambda (_: (aprem i0 a0 a)).\lambda (H1: (aprem i0 (asucc g a0) a)).\lambda (a3: A).aprem_succ (asucc g a0) a i0 H1 a3) i a1 a2 H.
+
+theorem gz: G \def Build_G S lt_n_Sn.
+
+inductive leqz: A \to A \to Prop \def
+| leqz_sort: \forall (h1: nat).\forall (h2: nat).\forall (n1: nat).\forall (n2: nat).(eq nat (plus h1 n2) (plus h2 n1)) \to leqz (ASort h1 n1) (ASort h2 n2)
+| leqz_head: \forall (a1: A).\forall (a2: A).(leqz a1 a2) \to \forall (a3: A).\forall (a4: A).(leqz a3 a4) \to leqz (AHead a1 a3) (AHead a2 a4).
+
+theorem aplus_gz_le: \forall (k: nat).\forall (h: nat).\forall (n: nat).(le h k) \to eq A (aplus gz (ASort h n) k) (ASort O (plus (minus k h) n)) \def \lambda (k: nat).nat_ind (\lambda (n: nat).\forall (h: nat).\forall (n0: nat).(le h n) \to eq A (aplus gz (ASort h n0) n) (ASort O (plus (minus n h) n0))) (\lambda (h: nat).\lambda (n: nat).\lambda (H: (le h O)).let H_y \def le_n_O_eq h H in eq_ind nat O (\lambda (n0: nat).eq A (ASort n0 n) (ASort O n)) (refl_equal A (ASort O n)) h H_y) (\lambda (k0: nat).\lambda (IH: ((\forall (h: nat).\forall (n: nat).(le h k0) \to eq A (aplus gz (ASort h n) k0) (ASort O (plus (minus k0 h) n))))).\lambda (h: nat).nat_ind (\lambda (n: nat).\forall (n0: nat).(le n (S k0)) \to eq A (asucc gz (aplus gz (ASort n n0) k0)) (ASort O (plus (match n with [O \Rightarrow (S k0) | (S l) \Rightarrow (minus k0 l)]) n0))) (\lambda (n: nat).\lambda (_: (le O (S k0))).eq_ind A (aplus gz (asucc gz (ASort O n)) k0) (\lambda (a: A).eq A a (ASort O (S (plus k0 n)))) (eq_ind_r A (ASort O (plus (minus k0 O) (S n))) (\lambda (a: A).eq A a (ASort O (S (plus k0 n)))) (eq_ind nat k0 (\lambda (n0: nat).eq A (ASort O (plus n0 (S n))) (ASort O (S (plus k0 n)))) (eq_ind nat (S (plus k0 n)) (\lambda (n0: nat).eq A (ASort O n0) (ASort O (S (plus k0 n)))) (refl_equal A (ASort O (S (plus k0 n)))) (plus k0 (S n)) (plus_n_Sm k0 n)) (minus k0 O) (minus_n_O k0)) (aplus gz (ASort O (S n)) k0) (IH O (S n) (le_O_n k0))) (asucc gz (aplus gz (ASort O n) k0)) (aplus_asucc gz k0 (ASort O n))) (\lambda (n: nat).\lambda (_: ((\forall (n0: nat).(le n (S k0)) \to eq A (asucc gz (aplus gz (ASort n n0) k0)) (ASort O (plus (match n with [O \Rightarrow (S k0) | (S l) \Rightarrow (minus k0 l)]) n0))))).\lambda (n0: nat).\lambda (H0: (le (S n) (S k0))).ex2_ind nat (\lambda (n1: nat).eq nat (S k0) (S n1)) (\lambda (n1: nat).le n n1) (eq A (asucc gz (aplus gz (ASort (S n) n0) k0)) (ASort O (plus (minus k0 n) n0))) (\lambda (x: nat).\lambda (H1: (eq nat (S k0) (S x))).\lambda (H2: (le n x)).let H3 \def f_equal nat nat (\lambda (e: nat).match e return nat with [O \Rightarrow k0 | (S n) \Rightarrow n]) (S k0) (S x) H1 in let H4 \def eq_ind_r nat x (\lambda (n0: nat).le n n0) H2 k0 H3 in eq_ind A (aplus gz (ASort n n0) k0) (\lambda (a: A).eq A (asucc gz (aplus gz (ASort (S n) n0) k0)) a) (eq_ind A (aplus gz (asucc gz (ASort (S n) n0)) k0) (\lambda (a: A).eq A a (aplus gz (ASort n n0) k0)) (refl_equal A (aplus gz (ASort n n0) k0)) (asucc gz (aplus gz (ASort (S n) n0) k0)) (aplus_asucc gz k0 (ASort (S n) n0))) (ASort O (plus (minus k0 n) n0)) (IH n n0 H4)) (le_gen_S n (S k0) H0)) h) k.
+
+theorem aplus_gz_ge: \forall (n: nat).\forall (k: nat).\forall (h: nat).(le k h) \to eq A (aplus gz (ASort h n) k) (ASort (minus h k) n) \def \lambda (n: nat).\lambda (k: nat).nat_ind (\lambda (n0: nat).\forall (h: nat).(le n0 h) \to eq A (aplus gz (ASort h n) n0) (ASort (minus h n0) n)) (\lambda (h: nat).\lambda (_: (le O h)).eq_ind nat h (\lambda (n0: nat).eq A (ASort h n) (ASort n0 n)) (refl_equal A (ASort h n)) (minus h O) (minus_n_O h)) (\lambda (k0: nat).\lambda (IH: ((\forall (h: nat).(le k0 h) \to eq A (aplus gz (ASort h n) k0) (ASort (minus h k0) n)))).\lambda (h: nat).nat_ind (\lambda (n0: nat).(le (S k0) n0) \to eq A (asucc gz (aplus gz (ASort n0 n) k0)) (ASort (minus n0 (S k0)) n)) (\lambda (H: (le (S k0) O)).ex2_ind nat (\lambda (n0: nat).eq nat O (S n0)) (\lambda (n0: nat).le k0 n0) (eq A (asucc gz (aplus gz (ASort O n) k0)) (ASort O n)) (\lambda (x: nat).\lambda (H0: (eq nat O (S x))).\lambda (_: (le k0 x)).let H2 \def eq_ind nat O (\lambda (ee: nat).match ee return (Prop) with [O \Rightarrow True | (S _) \Rightarrow False]) I (S x) H0 in False_ind (eq A (asucc gz (aplus gz (ASort O n) k0)) (ASort O n)) H2) (le_gen_S k0 O H)) (\lambda (n0: nat).\lambda (_: (((le (S k0) n0) \to eq A (asucc gz (aplus gz (ASort n0 n) k0)) (ASort (minus n0 (S k0)) n)))).\lambda (H0: (le (S k0) (S n0))).ex2_ind nat (\lambda (n1: nat).eq nat (S n0) (S n1)) (\lambda (n1: nat).le k0 n1) (eq A (asucc gz (aplus gz (ASort (S n0) n) k0)) (ASort (minus n0 k0) n)) (\lambda (x: nat).\lambda (H1: (eq nat (S n0) (S x))).\lambda (H2: (le k0 x)).let H3 \def f_equal nat nat (\lambda (e: nat).match e return nat with [O \Rightarrow n0 | (S n) \Rightarrow n]) (S n0) (S x) H1 in let H4 \def eq_ind_r nat x (\lambda (n: nat).le k0 n) H2 n0 H3 in eq_ind A (aplus gz (ASort n0 n) k0) (\lambda (a: A).eq A (asucc gz (aplus gz (ASort (S n0) n) k0)) a) (eq_ind A (aplus gz (asucc gz (ASort (S n0) n)) k0) (\lambda (a: A).eq A a (aplus gz (ASort n0 n) k0)) (refl_equal A (aplus gz (ASort n0 n) k0)) (asucc gz (aplus gz (ASort (S n0) n) k0)) (aplus_asucc gz k0 (ASort (S n0) n))) (ASort (minus n0 k0) n) (IH n0 H4)) (le_gen_S k0 (S n0) H0)) h) k.
+
+theorem next_plus_gz: \forall (n: nat).\forall (h: nat).eq nat (next_plus gz n h) (plus h n) \def \lambda (n: nat).\lambda (h: nat).nat_ind (\lambda (n0: nat).eq nat (next_plus gz n n0) (plus n0 n)) (refl_equal nat n) (\lambda (n0: nat).\lambda (H: (eq nat (next_plus gz n n0) (plus n0 n))).f_equal nat nat S (next_plus gz n n0) (plus n0 n) H) h.
+
+theorem leqz_leq: \forall (a1: A).\forall (a2: A).(leq gz a1 a2) \to leqz a1 a2 \def \lambda (a1: A).\lambda (a2: A).\lambda (H: (leq gz a1 a2)).leq_ind gz (\lambda (a: A).\lambda (a0: A).leqz a a0) (\lambda (h1: nat).\lambda (h2: nat).\lambda (n1: nat).\lambda (n2: nat).\lambda (k: nat).\lambda (H0: (eq A (aplus gz (ASort h1 n1) k) (aplus gz (ASort h2 n2) k))).lt_le_e k h1 (leqz (ASort h1 n1) (ASort h2 n2)) (\lambda (H1: (lt k h1)).lt_le_e k h2 (leqz (ASort h1 n1) (ASort h2 n2)) (\lambda (H2: (lt k h2)).let H3 \def eq_ind A (aplus gz (ASort h1 n1) k) (\lambda (a: A).eq A a (aplus gz (ASort h2 n2) k)) H0 (ASort (minus h1 k) n1) (aplus_gz_ge n1 k h1 (le_S_n k h1 (le_S (S k) h1 H1))) in let H4 \def eq_ind A (aplus gz (ASort h2 n2) k) (\lambda (a: A).eq A (ASort (minus h1 k) n1) a) H3 (ASort (minus h2 k) n2) (aplus_gz_ge n2 k h2 (le_S_n k h2 (le_S (S k) h2 H2))) in let H5 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort n _) \Rightarrow n | (AHead _ _) \Rightarrow ((let rec (minus: (\forall (n: nat).nat \to nat)) = (\lambda (n: nat).\lambda (m: nat).match n with [O \Rightarrow O | (S k) \Rightarrow (match m with [O \Rightarrow (S k) | (S l) \Rightarrow (minus k l)])]) in minus) h1 k)]) (ASort (minus h1 k) n1) (ASort (minus h2 k) n2) H4 in (let H6 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort _ n) \Rightarrow n | (AHead _ _) \Rightarrow n1]) (ASort (minus h1 k) n1) (ASort (minus h2 k) n2) H4 in \lambda (H7: (eq nat (minus h1 k) (minus h2 k))).eq_ind nat n1 (\lambda (n: nat).leqz (ASort h1 n1) (ASort h2 n)) (eq_ind nat h1 (\lambda (n: nat).leqz (ASort h1 n1) (ASort n n1)) (leqz_sort h1 h1 n1 n1 (refl_equal nat (plus h1 n1))) h2 (minus_minus k h1 h2 (le_S_n k h1 (le_S (S k) h1 H1)) (le_S_n k h2 (le_S (S k) h2 H2)) H7)) n2 H6) H5) (\lambda (H2: (le h2 k)).let H3 \def eq_ind A (aplus gz (ASort h1 n1) k) (\lambda (a: A).eq A a (aplus gz (ASort h2 n2) k)) H0 (ASort (minus h1 k) n1) (aplus_gz_ge n1 k h1 (le_S_n k h1 (le_S (S k) h1 H1))) in let H4 \def eq_ind A (aplus gz (ASort h2 n2) k) (\lambda (a: A).eq A (ASort (minus h1 k) n1) a) H3 (ASort O (plus (minus k h2) n2)) (aplus_gz_le k h2 n2 H2) in let H5 \def eq_ind nat (minus h1 k) (\lambda (n: nat).eq A (ASort n n1) (ASort O (plus (minus k h2) n2))) H4 (S (minus h1 (S k))) (minus_x_Sy h1 k H1) in let H6 \def eq_ind A (ASort (S (minus h1 (S k))) n1) (\lambda (ee: A).match ee return (Prop) with [(ASort n _) \Rightarrow (match n return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) | (AHead _ _) \Rightarrow False]) I (ASort O (plus (minus k h2) n2)) H5 in False_ind (leqz (ASort h1 n1) (ASort h2 n2)) H6)) (\lambda (H1: (le h1 k)).lt_le_e k h2 (leqz (ASort h1 n1) (ASort h2 n2)) (\lambda (H2: (lt k h2)).let H3 \def eq_ind A (aplus gz (ASort h1 n1) k) (\lambda (a: A).eq A a (aplus gz (ASort h2 n2) k)) H0 (ASort O (plus (minus k h1) n1)) (aplus_gz_le k h1 n1 H1) in let H4 \def eq_ind A (aplus gz (ASort h2 n2) k) (\lambda (a: A).eq A (ASort O (plus (minus k h1) n1)) a) H3 (ASort (minus h2 k) n2) (aplus_gz_ge n2 k h2 (le_S_n k h2 (le_S (S k) h2 H2))) in let H5 \def sym_equal A (ASort O (plus (minus k h1) n1)) (ASort (minus h2 k) n2) H4 in let H6 \def eq_ind nat (minus h2 k) (\lambda (n: nat).eq A (ASort n n2) (ASort O (plus (minus k h1) n1))) H5 (S (minus h2 (S k))) (minus_x_Sy h2 k H2) in let H7 \def eq_ind A (ASort (S (minus h2 (S k))) n2) (\lambda (ee: A).match ee return (Prop) with [(ASort n _) \Rightarrow (match n return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) | (AHead _ _) \Rightarrow False]) I (ASort O (plus (minus k h1) n1)) H6 in False_ind (leqz (ASort h1 n1) (ASort h2 n2)) H7) (\lambda (H2: (le h2 k)).let H3 \def eq_ind A (aplus gz (ASort h1 n1) k) (\lambda (a: A).eq A a (aplus gz (ASort h2 n2) k)) H0 (ASort O (plus (minus k h1) n1)) (aplus_gz_le k h1 n1 H1) in let H4 \def eq_ind A (aplus gz (ASort h2 n2) k) (\lambda (a: A).eq A (ASort O (plus (minus k h1) n1)) a) H3 (ASort O (plus (minus k h2) n2)) (aplus_gz_le k h2 n2 H2) in let H5 \def f_equal A nat (\lambda (e: A).match e return nat with [(ASort _ n) \Rightarrow n | (AHead _ _) \Rightarrow ((let rec (plus: (\forall (n: nat).nat \to nat)) = (\lambda (n: nat).\lambda (m: nat).match n with [O \Rightarrow m | (S p) \Rightarrow (S (plus p m))]) in plus) (minus k h1) n1)]) (ASort O (plus (minus k h1) n1)) (ASort O (plus (minus k h2) n2)) H4 in let H_y \def plus_plus k h1 h2 n1 n2 H1 H2 H5 in leqz_sort h1 h2 n1 n2 H_y))) (\lambda (a0: A).\lambda (a3: A).\lambda (_: (leq gz a0 a3)).\lambda (H1: (leqz a0 a3)).\lambda (a4: A).\lambda (a5: A).\lambda (_: (leq gz a4 a5)).\lambda (H3: (leqz a4 a5)).leqz_head a0 a3 H1 a4 a5 H3) a1 a2 H.
+
+theorem leq_leqz: \forall (a1: A).\forall (a2: A).(leqz a1 a2) \to leq gz a1 a2 \def \lambda (a1: A).\lambda (a2: A).\lambda (H: (leqz a1 a2)).leqz_ind (\lambda (a: A).\lambda (a0: A).leq gz a a0) (\lambda (h1: nat).\lambda (h2: nat).\lambda (n1: nat).\lambda (n2: nat).\lambda (H0: (eq nat (plus h1 n2) (plus h2 n1))).leq_sort gz h1 h2 n1 n2 (plus h1 h2) (eq_ind_r A (ASort (minus h1 (plus h1 h2)) (next_plus gz n1 (minus (plus h1 h2) h1))) (\lambda (a: A).eq A a (aplus gz (ASort h2 n2) (plus h1 h2))) (eq_ind_r A (ASort (minus h2 (plus h1 h2)) (next_plus gz n2 (minus (plus h1 h2) h2))) (\lambda (a: A).eq A (ASort (minus h1 (plus h1 h2)) (next_plus gz n1 (minus (plus h1 h2) h1))) a) (eq_ind_r nat h2 (\lambda (n: nat).eq A (ASort (minus h1 (plus h1 h2)) (next_plus gz n1 n)) (ASort (minus h2 (plus h1 h2)) (next_plus gz n2 (minus (plus h1 h2) h2)))) (eq_ind_r nat h1 (\lambda (n: nat).eq A (ASort (minus h1 (plus h1 h2)) (next_plus gz n1 h2)) (ASort (minus h2 (plus h1 h2)) (next_plus gz n2 n))) (eq_ind_r nat O (\lambda (n: nat).eq A (ASort n (next_plus gz n1 h2)) (ASort (minus h2 (plus h1 h2)) (next_plus gz n2 h1))) (eq_ind_r nat O (\lambda (n: nat).eq A (ASort O (next_plus gz n1 h2)) (ASort n (next_plus gz n2 h1))) (eq_ind_r nat (plus h2 n1) (\lambda (n: nat).eq A (ASort O n) (ASort O (next_plus gz n2 h1))) (eq_ind_r nat (plus h1 n2) (\lambda (n: nat).eq A (ASort O (plus h2 n1)) (ASort O n)) (f_equal nat A (ASort O) (plus h2 n1) (plus h1 n2) (sym_eq nat (plus h1 n2) (plus h2 n1) H0)) (next_plus gz n2 h1) (next_plus_gz n2 h1)) (next_plus gz n1 h2) (next_plus_gz n1 h2)) (minus h2 (plus h1 h2)) (O_minus h2 (plus h1 h2) (le_plus_r h1 h2))) (minus h1 (plus h1 h2)) (O_minus h1 (plus h1 h2) (le_plus_l h1 h2))) (minus (plus h1 h2) h2) (minus_plus_r h1 h2)) (minus (plus h1 h2) h1) (minus_plus h1 h2)) (aplus gz (ASort h2 n2) (plus h1 h2)) (aplus_asort_simpl gz (plus h1 h2) h2 n2)) (aplus gz (ASort h1 n1) (plus h1 h2)) (aplus_asort_simpl gz (plus h1 h2) h1 n1))) (\lambda (a0: A).\lambda (a3: A).\lambda (_: (leqz a0 a3)).\lambda (H1: (leq gz a0 a3)).\lambda (a4: A).\lambda (a5: A).\lambda (_: (leqz a4 a5)).\lambda (H3: (leq gz a4 a5)).leq_head gz a0 a3 H1 a4 a5 H3) a1 a2 H.
+
+inductive arity (g:G): C \to T \to A \to Prop \def
+| arity_sort: \forall (c: C).\forall (n: nat).arity g c (TSort n) (ASort O n)
+| arity_abbr: \forall (c: C).\forall (d: C).\forall (u: T).\forall (i: nat).(getl i c (CHead d (Bind Abbr) u)) \to \forall (a: A).(arity g d u a) \to arity g c (TLRef i) a
+| arity_abst: \forall (c: C).\forall (d: C).\forall (u: T).\forall (i: nat).(getl i c (CHead d (Bind Abst) u)) \to \forall (a: A).(arity g d u (asucc g a)) \to arity g c (TLRef i) a
+| arity_bind: \forall (b: B).(not (eq B b Abst)) \to \forall (c: C).\forall (u: T).\forall (a1: A).(arity g c u a1) \to \forall (t: T).\forall (a2: A).(arity g (CHead c (Bind b) u) t a2) \to arity g c (THead (Bind b) u t) a2
+| arity_head: \forall (c: C).\forall (u: T).\forall (a1: A).(arity g c u (asucc g a1)) \to \forall (t: T).\forall (a2: A).(arity g (CHead c (Bind Abst) u) t a2) \to arity g c (THead (Bind Abst) u t) (AHead a1 a2)
+| arity_appl: \forall (c: C).\forall (u: T).\forall (a1: A).(arity g c u a1) \to \forall (t: T).\forall (a2: A).(arity g c t (AHead a1 a2)) \to arity g c (THead (Flat Appl) u t) a2
+| arity_cast: \forall (c: C).\forall (u: T).\forall (a: A).(arity g c u (asucc g a)) \to \forall (t: T).(arity g c t a) \to arity g c (THead (Flat Cast) u t) a
+| arity_repl: \forall (c: C).\forall (t: T).\forall (a1: A).(arity g c t a1) \to \forall (a2: A).(leq g a1 a2) \to arity g c t a2.
+
+theorem arity_gen_sort: \forall (g: G).\forall (c: C).\forall (n: nat).\forall (a: A).(arity g c (TSort n) a) \to leq g a (ASort O n) \def \lambda (g: G).\lambda (c: C).\lambda (n: nat).\lambda (a: A).\lambda (H: (arity g c (TSort n) a)).insert_eq T (TSort n) (\lambda (t: T).arity g c t a) (leq g a (ASort O n)) (\lambda (y: T).\lambda (H0: (arity g c y a)).arity_ind g (\lambda (_: C).\lambda (t: T).\lambda (a0: A).(eq T t (TSort n)) \to leq g a0 (ASort O n)) (\lambda (_: C).\lambda (n0: nat).\lambda (H1: (eq T (TSort n0) (TSort n))).let H2 \def f_equal T nat (\lambda (e: T).match e return nat with [(TSort n) \Rightarrow n | (TLRef _) \Rightarrow n0 | (THead _ _ _) \Rightarrow n0]) (TSort n0) (TSort n) H1 in eq_ind_r nat n (\lambda (n1: nat).leq g (ASort O n1) (ASort O n)) (leq_refl g (ASort O n)) n0 H2) (\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (_: (getl i c0 (CHead d (Bind Abbr) u))).\lambda (a0: A).\lambda (_: (arity g d u a0)).\lambda (_: (((eq T u (TSort n)) \to leq g a0 (ASort O n)))).\lambda (H4: (eq T (TLRef i) (TSort n))).let H5 \def eq_ind T (TLRef i) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (TSort n) H4 in False_ind (leq g a0 (ASort O n)) H5) (\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (_: (getl i c0 (CHead d (Bind Abst) u))).\lambda (a0: A).\lambda (_: (arity g d u (asucc g a0))).\lambda (_: (((eq T u (TSort n)) \to leq g (asucc g a0) (ASort O n)))).\lambda (H4: (eq T (TLRef i) (TSort n))).let H5 \def eq_ind T (TLRef i) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (TSort n) H4 in False_ind (leq g a0 (ASort O n)) H5) (\lambda (b: B).\lambda (_: (not (eq B b Abst))).\lambda (c0: C).\lambda (u: T).\lambda (a1: A).\lambda (_: (arity g c0 u a1)).\lambda (_: (((eq T u (TSort n)) \to leq g a1 (ASort O n)))).\lambda (t: T).\lambda (a2: A).\lambda (_: (arity g (CHead c0 (Bind b) u) t a2)).\lambda (_: (((eq T t (TSort n)) \to leq g a2 (ASort O n)))).\lambda (H6: (eq T (THead (Bind b) u t) (TSort n))).let H7 \def eq_ind T (THead (Bind b) u t) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TSort n) H6 in False_ind (leq g a2 (ASort O n)) H7) (\lambda (c0: C).\lambda (u: T).\lambda (a1: A).\lambda (_: (arity g c0 u (asucc g a1))).\lambda (_: (((eq T u (TSort n)) \to leq g (asucc g a1) (ASort O n)))).\lambda (t: T).\lambda (a2: A).\lambda (_: (arity g (CHead c0 (Bind Abst) u) t a2)).\lambda (_: (((eq T t (TSort n)) \to leq g a2 (ASort O n)))).\lambda (H5: (eq T (THead (Bind Abst) u t) (TSort n))).let H6 \def eq_ind T (THead (Bind Abst) u t) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TSort n) H5 in False_ind (leq g (AHead a1 a2) (ASort O n)) H6) (\lambda (c0: C).\lambda (u: T).\lambda (a1: A).\lambda (_: (arity g c0 u a1)).\lambda (_: (((eq T u (TSort n)) \to leq g a1 (ASort O n)))).\lambda (t: T).\lambda (a2: A).\lambda (_: (arity g c0 t (AHead a1 a2))).\lambda (_: (((eq T t (TSort n)) \to leq g (AHead a1 a2) (ASort O n)))).\lambda (H5: (eq T (THead (Flat Appl) u t) (TSort n))).let H6 \def eq_ind T (THead (Flat Appl) u t) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TSort n) H5 in False_ind (leq g a2 (ASort O n)) H6) (\lambda (c0: C).\lambda (u: T).\lambda (a0: A).\lambda (_: (arity g c0 u (asucc g a0))).\lambda (_: (((eq T u (TSort n)) \to leq g (asucc g a0) (ASort O n)))).\lambda (t: T).\lambda (_: (arity g c0 t a0)).\lambda (_: (((eq T t (TSort n)) \to leq g a0 (ASort O n)))).\lambda (H5: (eq T (THead (Flat Cast) u t) (TSort n))).let H6 \def eq_ind T (THead (Flat Cast) u t) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TSort n) H5 in False_ind (leq g a0 (ASort O n)) H6) (\lambda (c0: C).\lambda (t: T).\lambda (a1: A).\lambda (H1: (arity g c0 t a1)).\lambda (H2: (((eq T t (TSort n)) \to leq g a1 (ASort O n)))).\lambda (a2: A).\lambda (H3: (leq g a1 a2)).\lambda (H4: (eq T t (TSort n))).let H5 \def f_equal T T (\lambda (e: T).e) t (TSort n) H4 in let H6 \def eq_ind T t (\lambda (t: T).(eq T t (TSort n)) \to leq g a1 (ASort O n)) H2 (TSort n) H5 in let H7 \def eq_ind T t (\lambda (t: T).arity g c0 t a1) H1 (TSort n) H5 in leq_trans g a2 a1 (leq_sym g a1 a2 H3) (ASort O n) (H6 (refl_equal T (TSort n)))) c y a H0) H.
+
+theorem arity_gen_lref: \forall (g: G).\forall (c: C).\forall (i: nat).\forall (a: A).(arity g c (TLRef i) a) \to or (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).arity g d u a)) (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c (CHead d (Bind Abst) u)) (\lambda (d: C).\lambda (u: T).arity g d u (asucc g a))) \def \lambda (g: G).\lambda (c: C).\lambda (i: nat).\lambda (a: A).\lambda (H: (arity g c (TLRef i) a)).insert_eq T (TLRef i) (\lambda (t: T).arity g c t a) (or (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).arity g d u a)) (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c (CHead d (Bind Abst) u)) (\lambda (d: C).\lambda (u: T).arity g d u (asucc g a)))) (\lambda (y: T).\lambda (H0: (arity g c y a)).arity_ind g (\lambda (c0: C).\lambda (t: T).\lambda (a0: A).(eq T t (TLRef i)) \to or (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).arity g d u a0)) (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abst) u)) (\lambda (d: C).\lambda (u: T).arity g d u (asucc g a0)))) (\lambda (c0: C).\lambda (n: nat).\lambda (H1: (eq T (TSort n) (TLRef i))).let H2 \def eq_ind T (TSort n) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow True | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow False]) I (TLRef i) H1 in False_ind (or (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).arity g d u (ASort O n))) (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abst) u)) (\lambda (d: C).\lambda (u: T).arity g d u (asucc g (ASort O n))))) H2) (\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (i0: nat).\lambda (H1: (getl i0 c0 (CHead d (Bind Abbr) u))).\lambda (a0: A).\lambda (H2: (arity g d u a0)).\lambda (_: (((eq T u (TLRef i)) \to or (ex2_2 C T (\lambda (d0: C).\lambda (u: T).getl i d (CHead d0 (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).arity g d u a0)) (ex2_2 C T (\lambda (d0: C).\lambda (u: T).getl i d (CHead d0 (Bind Abst) u)) (\lambda (d: C).\lambda (u: T).arity g d u (asucc g a0)))))).\lambda (H4: (eq T (TLRef i0) (TLRef i))).let H5 \def f_equal T nat (\lambda (e: T).match e return nat with [(TSort _) \Rightarrow i0 | (TLRef n) \Rightarrow n | (THead _ _ _) \Rightarrow i0]) (TLRef i0) (TLRef i) H4 in let H6 \def eq_ind nat i0 (\lambda (n: nat).getl n c0 (CHead d (Bind Abbr) u)) H1 i H5 in or_introl (ex2_2 C T (\lambda (d0: C).\lambda (u0: T).getl i c0 (CHead d0 (Bind Abbr) u0)) (\lambda (d0: C).\lambda (u0: T).arity g d0 u0 a0)) (ex2_2 C T (\lambda (d0: C).\lambda (u0: T).getl i c0 (CHead d0 (Bind Abst) u0)) (\lambda (d0: C).\lambda (u0: T).arity g d0 u0 (asucc g a0))) (ex2_2_intro C T (\lambda (d0: C).\lambda (u0: T).getl i c0 (CHead d0 (Bind Abbr) u0)) (\lambda (d0: C).\lambda (u0: T).arity g d0 u0 a0) d u H6 H2)) (\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (i0: nat).\lambda (H1: (getl i0 c0 (CHead d (Bind Abst) u))).\lambda (a0: A).\lambda (H2: (arity g d u (asucc g a0))).\lambda (_: (((eq T u (TLRef i)) \to or (ex2_2 C T (\lambda (d0: C).\lambda (u: T).getl i d (CHead d0 (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).arity g d u (asucc g a0))) (ex2_2 C T (\lambda (d0: C).\lambda (u: T).getl i d (CHead d0 (Bind Abst) u)) (\lambda (d: C).\lambda (u: T).arity g d u (asucc g (asucc g a0))))))).\lambda (H4: (eq T (TLRef i0) (TLRef i))).let H5 \def f_equal T nat (\lambda (e: T).match e return nat with [(TSort _) \Rightarrow i0 | (TLRef n) \Rightarrow n | (THead _ _ _) \Rightarrow i0]) (TLRef i0) (TLRef i) H4 in let H6 \def eq_ind nat i0 (\lambda (n: nat).getl n c0 (CHead d (Bind Abst) u)) H1 i H5 in or_intror (ex2_2 C T (\lambda (d0: C).\lambda (u0: T).getl i c0 (CHead d0 (Bind Abbr) u0)) (\lambda (d0: C).\lambda (u0: T).arity g d0 u0 a0)) (ex2_2 C T (\lambda (d0: C).\lambda (u0: T).getl i c0 (CHead d0 (Bind Abst) u0)) (\lambda (d0: C).\lambda (u0: T).arity g d0 u0 (asucc g a0))) (ex2_2_intro C T (\lambda (d0: C).\lambda (u0: T).getl i c0 (CHead d0 (Bind Abst) u0)) (\lambda (d0: C).\lambda (u0: T).arity g d0 u0 (asucc g a0)) d u H6 H2)) (\lambda (b: B).\lambda (_: (not (eq B b Abst))).\lambda (c0: C).\lambda (u: T).\lambda (a1: A).\lambda (_: (arity g c0 u a1)).\lambda (_: (((eq T u (TLRef i)) \to or (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).arity g d u a1)) (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abst) u)) (\lambda (d: C).\lambda (u: T).arity g d u (asucc g a1)))))).\lambda (t: T).\lambda (a2: A).\lambda (_: (arity g (CHead c0 (Bind b) u) t a2)).\lambda (_: (((eq T t (TLRef i)) \to or (ex2_2 C T (\lambda (d: C).\lambda (u0: T).getl i (CHead c0 (Bind b) u) (CHead d (Bind Abbr) u0)) (\lambda (d: C).\lambda (u: T).arity g d u a2)) (ex2_2 C T (\lambda (d: C).\lambda (u0: T).getl i (CHead c0 (Bind b) u) (CHead d (Bind Abst) u0)) (\lambda (d: C).\lambda (u: T).arity g d u (asucc g a2)))))).\lambda (H6: (eq T (THead (Bind b) u t) (TLRef i))).let H7 \def eq_ind T (THead (Bind b) u t) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef i) H6 in False_ind (or (ex2_2 C T (\lambda (d: C).\lambda (u0: T).getl i c0 (CHead d (Bind Abbr) u0)) (\lambda (d: C).\lambda (u0: T).arity g d u0 a2)) (ex2_2 C T (\lambda (d: C).\lambda (u0: T).getl i c0 (CHead d (Bind Abst) u0)) (\lambda (d: C).\lambda (u0: T).arity g d u0 (asucc g a2)))) H7) (\lambda (c0: C).\lambda (u: T).\lambda (a1: A).\lambda (_: (arity g c0 u (asucc g a1))).\lambda (_: (((eq T u (TLRef i)) \to or (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).arity g d u (asucc g a1))) (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abst) u)) (\lambda (d: C).\lambda (u: T).arity g d u (asucc g (asucc g a1))))))).\lambda (t: T).\lambda (a2: A).\lambda (_: (arity g (CHead c0 (Bind Abst) u) t a2)).\lambda (_: (((eq T t (TLRef i)) \to or (ex2_2 C T (\lambda (d: C).\lambda (u0: T).getl i (CHead c0 (Bind Abst) u) (CHead d (Bind Abbr) u0)) (\lambda (d: C).\lambda (u: T).arity g d u a2)) (ex2_2 C T (\lambda (d: C).\lambda (u0: T).getl i (CHead c0 (Bind Abst) u) (CHead d (Bind Abst) u0)) (\lambda (d: C).\lambda (u: T).arity g d u (asucc g a2)))))).\lambda (H5: (eq T (THead (Bind Abst) u t) (TLRef i))).let H6 \def eq_ind T (THead (Bind Abst) u t) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef i) H5 in False_ind (or (ex2_2 C T (\lambda (d: C).\lambda (u0: T).getl i c0 (CHead d (Bind Abbr) u0)) (\lambda (d: C).\lambda (u0: T).arity g d u0 (AHead a1 a2))) (ex2_2 C T (\lambda (d: C).\lambda (u0: T).getl i c0 (CHead d (Bind Abst) u0)) (\lambda (d: C).\lambda (u0: T).arity g d u0 (asucc g (AHead a1 a2))))) H6) (\lambda (c0: C).\lambda (u: T).\lambda (a1: A).\lambda (_: (arity g c0 u a1)).\lambda (_: (((eq T u (TLRef i)) \to or (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).arity g d u a1)) (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abst) u)) (\lambda (d: C).\lambda (u: T).arity g d u (asucc g a1)))))).\lambda (t: T).\lambda (a2: A).\lambda (_: (arity g c0 t (AHead a1 a2))).\lambda (_: (((eq T t (TLRef i)) \to or (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).arity g d u (AHead a1 a2))) (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abst) u)) (\lambda (d: C).\lambda (u: T).arity g d u (asucc g (AHead a1 a2))))))).\lambda (H5: (eq T (THead (Flat Appl) u t) (TLRef i))).let H6 \def eq_ind T (THead (Flat Appl) u t) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef i) H5 in False_ind (or (ex2_2 C T (\lambda (d: C).\lambda (u0: T).getl i c0 (CHead d (Bind Abbr) u0)) (\lambda (d: C).\lambda (u0: T).arity g d u0 a2)) (ex2_2 C T (\lambda (d: C).\lambda (u0: T).getl i c0 (CHead d (Bind Abst) u0)) (\lambda (d: C).\lambda (u0: T).arity g d u0 (asucc g a2)))) H6) (\lambda (c0: C).\lambda (u: T).\lambda (a0: A).\lambda (_: (arity g c0 u (asucc g a0))).\lambda (_: (((eq T u (TLRef i)) \to or (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).arity g d u (asucc g a0))) (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abst) u)) (\lambda (d: C).\lambda (u: T).arity g d u (asucc g (asucc g a0))))))).\lambda (t: T).\lambda (_: (arity g c0 t a0)).\lambda (_: (((eq T t (TLRef i)) \to or (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).arity g d u a0)) (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abst) u)) (\lambda (d: C).\lambda (u: T).arity g d u (asucc g a0)))))).\lambda (H5: (eq T (THead (Flat Cast) u t) (TLRef i))).let H6 \def eq_ind T (THead (Flat Cast) u t) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef i) H5 in False_ind (or (ex2_2 C T (\lambda (d: C).\lambda (u0: T).getl i c0 (CHead d (Bind Abbr) u0)) (\lambda (d: C).\lambda (u0: T).arity g d u0 a0)) (ex2_2 C T (\lambda (d: C).\lambda (u0: T).getl i c0 (CHead d (Bind Abst) u0)) (\lambda (d: C).\lambda (u0: T).arity g d u0 (asucc g a0)))) H6) (\lambda (c0: C).\lambda (t: T).\lambda (a1: A).\lambda (H1: (arity g c0 t a1)).\lambda (H2: (((eq T t (TLRef i)) \to or (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).arity g d u a1)) (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abst) u)) (\lambda (d: C).\lambda (u: T).arity g d u (asucc g a1)))))).\lambda (a2: A).\lambda (H3: (leq g a1 a2)).\lambda (H4: (eq T t (TLRef i))).let H5 \def f_equal T T (\lambda (e: T).e) t (TLRef i) H4 in let H6 \def eq_ind T t (\lambda (t: T).(eq T t (TLRef i)) \to or (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).arity g d u a1)) (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abst) u)) (\lambda (d: C).\lambda (u: T).arity g d u (asucc g a1)))) H2 (TLRef i) H5 in let H7 \def eq_ind T t (\lambda (t: T).arity g c0 t a1) H1 (TLRef i) H5 in let H8 \def H6 (refl_equal T (TLRef i)) in or_ind (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).arity g d u a1)) (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abst) u)) (\lambda (d: C).\lambda (u: T).arity g d u (asucc g a1))) (or (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).arity g d u a2)) (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abst) u)) (\lambda (d: C).\lambda (u: T).arity g d u (asucc g a2)))) (\lambda (H9: (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).arity g d u a1))).ex2_2_ind C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).arity g d u a1) (or (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).arity g d u a2)) (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abst) u)) (\lambda (d: C).\lambda (u: T).arity g d u (asucc g a2)))) (\lambda (x0: C).\lambda (x1: T).\lambda (H10: (getl i c0 (CHead x0 (Bind Abbr) x1))).\lambda (H11: (arity g x0 x1 a1)).or_introl (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).arity g d u a2)) (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abst) u)) (\lambda (d: C).\lambda (u: T).arity g d u (asucc g a2))) (ex2_2_intro C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).arity g d u a2) x0 x1 H10 (arity_repl g x0 x1 a1 H11 a2 H3))) H9) (\lambda (H9: (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abst) u)) (\lambda (d: C).\lambda (u: T).arity g d u (asucc g a1)))).ex2_2_ind C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abst) u)) (\lambda (d: C).\lambda (u: T).arity g d u (asucc g a1)) (or (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).arity g d u a2)) (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abst) u)) (\lambda (d: C).\lambda (u: T).arity g d u (asucc g a2)))) (\lambda (x0: C).\lambda (x1: T).\lambda (H10: (getl i c0 (CHead x0 (Bind Abst) x1))).\lambda (H11: (arity g x0 x1 (asucc g a1))).or_intror (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).arity g d u a2)) (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abst) u)) (\lambda (d: C).\lambda (u: T).arity g d u (asucc g a2))) (ex2_2_intro C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abst) u)) (\lambda (d: C).\lambda (u: T).arity g d u (asucc g a2)) x0 x1 H10 (arity_repl g x0 x1 (asucc g a1) H11 (asucc g a2) (asucc_repl g a1 a2 H3)))) H9) H8) c y a H0) H.
+
+theorem arity_gen_bind: \forall (b: B).(not (eq B b Abst)) \to \forall (g: G).\forall (c: C).\forall (u: T).\forall (t: T).\forall (a2: A).(arity g c (THead (Bind b) u t) a2) \to ex2 A (\lambda (a1: A).arity g c u a1) (\lambda (_: A).arity g (CHead c (Bind b) u) t a2) \def \lambda (b: B).\lambda (H: (not (eq B b Abst))).\lambda (g: G).\lambda (c: C).\lambda (u: T).\lambda (t: T).\lambda (a2: A).\lambda (H0: (arity g c (THead (Bind b) u t) a2)).insert_eq T (THead (Bind b) u t) (\lambda (t0: T).arity g c t0 a2) (ex2 A (\lambda (a1: A).arity g c u a1) (\lambda (_: A).arity g (CHead c (Bind b) u) t a2)) (\lambda (y: T).\lambda (H1: (arity g c y a2)).arity_ind g (\lambda (c0: C).\lambda (t0: T).\lambda (a: A).(eq T t0 (THead (Bind b) u t)) \to ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (_: A).arity g (CHead c0 (Bind b) u) t a)) (\lambda (c0: C).\lambda (n: nat).\lambda (H2: (eq T (TSort n) (THead (Bind b) u t))).let H3 \def eq_ind T (TSort n) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow True | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow False]) I (THead (Bind b) u t) H2 in False_ind (ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (_: A).arity g (CHead c0 (Bind b) u) t (ASort O n))) H3) (\lambda (c0: C).\lambda (d: C).\lambda (u0: T).\lambda (i: nat).\lambda (_: (getl i c0 (CHead d (Bind Abbr) u0))).\lambda (a: A).\lambda (_: (arity g d u0 a)).\lambda (_: (((eq T u0 (THead (Bind b) u t)) \to ex2 A (\lambda (a1: A).arity g d u a1) (\lambda (_: A).arity g (CHead d (Bind b) u) t a)))).\lambda (H5: (eq T (TLRef i) (THead (Bind b) u t))).let H6 \def eq_ind T (TLRef i) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Bind b) u t) H5 in False_ind (ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (_: A).arity g (CHead c0 (Bind b) u) t a)) H6) (\lambda (c0: C).\lambda (d: C).\lambda (u0: T).\lambda (i: nat).\lambda (_: (getl i c0 (CHead d (Bind Abst) u0))).\lambda (a: A).\lambda (_: (arity g d u0 (asucc g a))).\lambda (_: (((eq T u0 (THead (Bind b) u t)) \to ex2 A (\lambda (a1: A).arity g d u a1) (\lambda (_: A).arity g (CHead d (Bind b) u) t (asucc g a))))).\lambda (H5: (eq T (TLRef i) (THead (Bind b) u t))).let H6 \def eq_ind T (TLRef i) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Bind b) u t) H5 in False_ind (ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (_: A).arity g (CHead c0 (Bind b) u) t a)) H6) (\lambda (b0: B).\lambda (H2: (not (eq B b0 Abst))).\lambda (c0: C).\lambda (u0: T).\lambda (a1: A).\lambda (H3: (arity g c0 u0 a1)).\lambda (H4: (((eq T u0 (THead (Bind b) u t)) \to ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (_: A).arity g (CHead c0 (Bind b) u) t a1)))).\lambda (t0: T).\lambda (a0: A).\lambda (H5: (arity g (CHead c0 (Bind b0) u0) t0 a0)).\lambda (H6: (((eq T t0 (THead (Bind b) u t)) \to ex2 A (\lambda (a1: A).arity g (CHead c0 (Bind b0) u0) u a1) (\lambda (_: A).arity g (CHead (CHead c0 (Bind b0) u0) (Bind b) u) t a0)))).\lambda (H7: (eq T (THead (Bind b0) u0 t0) (THead (Bind b) u t))).let H8 \def f_equal T B (\lambda (e: T).match e return B with [(TSort _) \Rightarrow b0 | (TLRef _) \Rightarrow b0 | (THead k _ _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow b0])]) (THead (Bind b0) u0 t0) (THead (Bind b) u t) H7 in (let H9 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u0 | (TLRef _) \Rightarrow u0 | (THead _ t _) \Rightarrow t]) (THead (Bind b0) u0 t0) (THead (Bind b) u t) H7 in (let H10 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead (Bind b0) u0 t0) (THead (Bind b) u t) H7 in \lambda (H11: (eq T u0 u)).\lambda (H12: (eq B b0 b)).let H13 \def eq_ind T t0 (\lambda (t0: T).(eq T t0 (THead (Bind b) u t)) \to ex2 A (\lambda (a1: A).arity g (CHead c0 (Bind b0) u0) u a1) (\lambda (_: A).arity g (CHead (CHead c0 (Bind b0) u0) (Bind b) u) t a0)) H6 t H10 in let H14 \def eq_ind T t0 (\lambda (t: T).arity g (CHead c0 (Bind b0) u0) t a0) H5 t H10 in let H15 \def eq_ind T u0 (\lambda (t0: T).(eq T t (THead (Bind b) u t)) \to ex2 A (\lambda (a1: A).arity g (CHead c0 (Bind b0) t0) u a1) (\lambda (_: A).arity g (CHead (CHead c0 (Bind b0) t0) (Bind b) u) t a0)) H13 u H11 in let H16 \def eq_ind T u0 (\lambda (t0: T).arity g (CHead c0 (Bind b0) t0) t a0) H14 u H11 in let H17 \def eq_ind T u0 (\lambda (t0: T).(eq T t0 (THead (Bind b) u t)) \to ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (_: A).arity g (CHead c0 (Bind b) u) t a1)) H4 u H11 in let H18 \def eq_ind T u0 (\lambda (t: T).arity g c0 t a1) H3 u H11 in let H19 \def eq_ind B b0 (\lambda (b0: B).(eq T t (THead (Bind b) u t)) \to ex2 A (\lambda (a1: A).arity g (CHead c0 (Bind b0) u) u a1) (\lambda (_: A).arity g (CHead (CHead c0 (Bind b0) u) (Bind b) u) t a0)) H15 b H12 in let H20 \def eq_ind B b0 (\lambda (b: B).arity g (CHead c0 (Bind b) u) t a0) H16 b H12 in let H21 \def eq_ind B b0 (\lambda (b: B).not (eq B b Abst)) H2 b H12 in ex_intro2 A (\lambda (a3: A).arity g c0 u a3) (\lambda (_: A).arity g (CHead c0 (Bind b) u) t a0) a1 H18 H20) H9) H8) (\lambda (c0: C).\lambda (u0: T).\lambda (a1: A).\lambda (H2: (arity g c0 u0 (asucc g a1))).\lambda (H3: (((eq T u0 (THead (Bind b) u t)) \to ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (_: A).arity g (CHead c0 (Bind b) u) t (asucc g a1))))).\lambda (t0: T).\lambda (a0: A).\lambda (H4: (arity g (CHead c0 (Bind Abst) u0) t0 a0)).\lambda (H5: (((eq T t0 (THead (Bind b) u t)) \to ex2 A (\lambda (a1: A).arity g (CHead c0 (Bind Abst) u0) u a1) (\lambda (_: A).arity g (CHead (CHead c0 (Bind Abst) u0) (Bind b) u) t a0)))).\lambda (H6: (eq T (THead (Bind Abst) u0 t0) (THead (Bind b) u t))).let H7 \def f_equal T B (\lambda (e: T).match e return B with [(TSort _) \Rightarrow Abst | (TLRef _) \Rightarrow Abst | (THead k _ _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abst])]) (THead (Bind Abst) u0 t0) (THead (Bind b) u t) H6 in (let H8 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u0 | (TLRef _) \Rightarrow u0 | (THead _ t _) \Rightarrow t]) (THead (Bind Abst) u0 t0) (THead (Bind b) u t) H6 in (let H9 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead (Bind Abst) u0 t0) (THead (Bind b) u t) H6 in \lambda (H10: (eq T u0 u)).\lambda (H11: (eq B Abst b)).let H12 \def eq_ind T t0 (\lambda (t0: T).(eq T t0 (THead (Bind b) u t)) \to ex2 A (\lambda (a1: A).arity g (CHead c0 (Bind Abst) u0) u a1) (\lambda (_: A).arity g (CHead (CHead c0 (Bind Abst) u0) (Bind b) u) t a0)) H5 t H9 in let H13 \def eq_ind T t0 (\lambda (t: T).arity g (CHead c0 (Bind Abst) u0) t a0) H4 t H9 in let H14 \def eq_ind T u0 (\lambda (t0: T).(eq T t (THead (Bind b) u t)) \to ex2 A (\lambda (a1: A).arity g (CHead c0 (Bind Abst) t0) u a1) (\lambda (_: A).arity g (CHead (CHead c0 (Bind Abst) t0) (Bind b) u) t a0)) H12 u H10 in let H15 \def eq_ind T u0 (\lambda (t0: T).arity g (CHead c0 (Bind Abst) t0) t a0) H13 u H10 in let H16 \def eq_ind T u0 (\lambda (t0: T).(eq T t0 (THead (Bind b) u t)) \to ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (_: A).arity g (CHead c0 (Bind b) u) t (asucc g a1))) H3 u H10 in let H17 \def eq_ind T u0 (\lambda (t: T).arity g c0 t (asucc g a1)) H2 u H10 in let H18 \def eq_ind_r B b (\lambda (b: B).(eq T t (THead (Bind b) u t)) \to ex2 A (\lambda (a1: A).arity g (CHead c0 (Bind Abst) u) u a1) (\lambda (_: A).arity g (CHead (CHead c0 (Bind Abst) u) (Bind b) u) t a0)) H14 Abst H11 in let H19 \def eq_ind_r B b (\lambda (b: B).(eq T u (THead (Bind b) u t)) \to ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (_: A).arity g (CHead c0 (Bind b) u) t (asucc g a1))) H16 Abst H11 in let H20 \def eq_ind_r B b (\lambda (b: B).not (eq B b Abst)) H Abst H11 in eq_ind B Abst (\lambda (b0: B).ex2 A (\lambda (a3: A).arity g c0 u a3) (\lambda (_: A).arity g (CHead c0 (Bind b0) u) t (AHead a1 a0))) (let H21 \def match (H20 (refl_equal B Abst)) return (ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (_: A).arity g (CHead c0 (Bind Abst) u) t (AHead a1 a0))) with [] in H21) b H11) H8) H7) (\lambda (c0: C).\lambda (u0: T).\lambda (a1: A).\lambda (_: (arity g c0 u0 a1)).\lambda (_: (((eq T u0 (THead (Bind b) u t)) \to ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (_: A).arity g (CHead c0 (Bind b) u) t a1)))).\lambda (t0: T).\lambda (a0: A).\lambda (_: (arity g c0 t0 (AHead a1 a0))).\lambda (_: (((eq T t0 (THead (Bind b) u t)) \to ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (_: A).arity g (CHead c0 (Bind b) u) t (AHead a1 a0))))).\lambda (H6: (eq T (THead (Flat Appl) u0 t0) (THead (Bind b) u t))).let H7 \def eq_ind T (THead (Flat Appl) u0 t0) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind b) u t) H6 in False_ind (ex2 A (\lambda (a3: A).arity g c0 u a3) (\lambda (_: A).arity g (CHead c0 (Bind b) u) t a0)) H7) (\lambda (c0: C).\lambda (u0: T).\lambda (a: A).\lambda (_: (arity g c0 u0 (asucc g a))).\lambda (_: (((eq T u0 (THead (Bind b) u t)) \to ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (_: A).arity g (CHead c0 (Bind b) u) t (asucc g a))))).\lambda (t0: T).\lambda (_: (arity g c0 t0 a)).\lambda (_: (((eq T t0 (THead (Bind b) u t)) \to ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (_: A).arity g (CHead c0 (Bind b) u) t a)))).\lambda (H6: (eq T (THead (Flat Cast) u0 t0) (THead (Bind b) u t))).let H7 \def eq_ind T (THead (Flat Cast) u0 t0) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind b) u t) H6 in False_ind (ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (_: A).arity g (CHead c0 (Bind b) u) t a)) H7) (\lambda (c0: C).\lambda (t0: T).\lambda (a1: A).\lambda (H2: (arity g c0 t0 a1)).\lambda (H3: (((eq T t0 (THead (Bind b) u t)) \to ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (_: A).arity g (CHead c0 (Bind b) u) t a1)))).\lambda (a0: A).\lambda (H4: (leq g a1 a0)).\lambda (H5: (eq T t0 (THead (Bind b) u t))).let H6 \def f_equal T T (\lambda (e: T).e) t0 (THead (Bind b) u t) H5 in let H7 \def eq_ind T t0 (\lambda (t0: T).(eq T t0 (THead (Bind b) u t)) \to ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (_: A).arity g (CHead c0 (Bind b) u) t a1)) H3 (THead (Bind b) u t) H6 in let H8 \def eq_ind T t0 (\lambda (t: T).arity g c0 t a1) H2 (THead (Bind b) u t) H6 in let H9 \def H7 (refl_equal T (THead (Bind b) u t)) in ex2_ind A (\lambda (a3: A).arity g c0 u a3) (\lambda (_: A).arity g (CHead c0 (Bind b) u) t a1) (ex2 A (\lambda (a3: A).arity g c0 u a3) (\lambda (_: A).arity g (CHead c0 (Bind b) u) t a0)) (\lambda (x: A).\lambda (H10: (arity g c0 u x)).\lambda (H11: (arity g (CHead c0 (Bind b) u) t a1)).ex_intro2 A (\lambda (a3: A).arity g c0 u a3) (\lambda (_: A).arity g (CHead c0 (Bind b) u) t a0) x H10 (arity_repl g (CHead c0 (Bind b) u) t a1 H11 a0 H4)) H9) c y a2 H1) H0.
+
+theorem arity_gen_abst: \forall (g: G).\forall (c: C).\forall (u: T).\forall (t: T).\forall (a: A).(arity g c (THead (Bind Abst) u t) a) \to ex3_2 A A (\lambda (a1: A).\lambda (a2: A).eq A a (AHead a1 a2)) (\lambda (a1: A).\lambda (_: A).arity g c u (asucc g a1)) (\lambda (_: A).\lambda (a2: A).arity g (CHead c (Bind Abst) u) t a2) \def \lambda (g: G).\lambda (c: C).\lambda (u: T).\lambda (t: T).\lambda (a: A).\lambda (H: (arity g c (THead (Bind Abst) u t) a)).insert_eq T (THead (Bind Abst) u t) (\lambda (t0: T).arity g c t0 a) (ex3_2 A A (\lambda (a1: A).\lambda (a2: A).eq A a (AHead a1 a2)) (\lambda (a1: A).\lambda (_: A).arity g c u (asucc g a1)) (\lambda (_: A).\lambda (a2: A).arity g (CHead c (Bind Abst) u) t a2)) (\lambda (y: T).\lambda (H0: (arity g c y a)).arity_ind g (\lambda (c0: C).\lambda (t0: T).\lambda (a0: A).(eq T t0 (THead (Bind Abst) u t)) \to ex3_2 A A (\lambda (a1: A).\lambda (a2: A).eq A a0 (AHead a1 a2)) (\lambda (a1: A).\lambda (_: A).arity g c0 u (asucc g a1)) (\lambda (_: A).\lambda (a2: A).arity g (CHead c0 (Bind Abst) u) t a2)) (\lambda (c0: C).\lambda (n: nat).\lambda (H1: (eq T (TSort n) (THead (Bind Abst) u t))).let H2 \def eq_ind T (TSort n) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow True | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow False]) I (THead (Bind Abst) u t) H1 in False_ind (ex3_2 A A (\lambda (a1: A).\lambda (a2: A).eq A (ASort O n) (AHead a1 a2)) (\lambda (a1: A).\lambda (_: A).arity g c0 u (asucc g a1)) (\lambda (_: A).\lambda (a2: A).arity g (CHead c0 (Bind Abst) u) t a2)) H2) (\lambda (c0: C).\lambda (d: C).\lambda (u0: T).\lambda (i: nat).\lambda (_: (getl i c0 (CHead d (Bind Abbr) u0))).\lambda (a0: A).\lambda (_: (arity g d u0 a0)).\lambda (_: (((eq T u0 (THead (Bind Abst) u t)) \to ex3_2 A A (\lambda (a1: A).\lambda (a2: A).eq A a0 (AHead a1 a2)) (\lambda (a1: A).\lambda (_: A).arity g d u (asucc g a1)) (\lambda (_: A).\lambda (a2: A).arity g (CHead d (Bind Abst) u) t a2)))).\lambda (H4: (eq T (TLRef i) (THead (Bind Abst) u t))).let H5 \def eq_ind T (TLRef i) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Bind Abst) u t) H4 in False_ind (ex3_2 A A (\lambda (a1: A).\lambda (a2: A).eq A a0 (AHead a1 a2)) (\lambda (a1: A).\lambda (_: A).arity g c0 u (asucc g a1)) (\lambda (_: A).\lambda (a2: A).arity g (CHead c0 (Bind Abst) u) t a2)) H5) (\lambda (c0: C).\lambda (d: C).\lambda (u0: T).\lambda (i: nat).\lambda (_: (getl i c0 (CHead d (Bind Abst) u0))).\lambda (a0: A).\lambda (_: (arity g d u0 (asucc g a0))).\lambda (_: (((eq T u0 (THead (Bind Abst) u t)) \to ex3_2 A A (\lambda (a1: A).\lambda (a2: A).eq A (asucc g a0) (AHead a1 a2)) (\lambda (a1: A).\lambda (_: A).arity g d u (asucc g a1)) (\lambda (_: A).\lambda (a2: A).arity g (CHead d (Bind Abst) u) t a2)))).\lambda (H4: (eq T (TLRef i) (THead (Bind Abst) u t))).let H5 \def eq_ind T (TLRef i) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Bind Abst) u t) H4 in False_ind (ex3_2 A A (\lambda (a1: A).\lambda (a2: A).eq A a0 (AHead a1 a2)) (\lambda (a1: A).\lambda (_: A).arity g c0 u (asucc g a1)) (\lambda (_: A).\lambda (a2: A).arity g (CHead c0 (Bind Abst) u) t a2)) H5) (\lambda (b: B).\lambda (H1: (not (eq B b Abst))).\lambda (c0: C).\lambda (u0: T).\lambda (a1: A).\lambda (H2: (arity g c0 u0 a1)).\lambda (H3: (((eq T u0 (THead (Bind Abst) u t)) \to ex3_2 A A (\lambda (a2: A).\lambda (a3: A).eq A a1 (AHead a2 a3)) (\lambda (a1: A).\lambda (_: A).arity g c0 u (asucc g a1)) (\lambda (_: A).\lambda (a2: A).arity g (CHead c0 (Bind Abst) u) t a2)))).\lambda (t0: T).\lambda (a2: A).\lambda (H4: (arity g (CHead c0 (Bind b) u0) t0 a2)).\lambda (H5: (((eq T t0 (THead (Bind Abst) u t)) \to ex3_2 A A (\lambda (a1: A).\lambda (a3: A).eq A a2 (AHead a1 a3)) (\lambda (a1: A).\lambda (_: A).arity g (CHead c0 (Bind b) u0) u (asucc g a1)) (\lambda (_: A).\lambda (a2: A).arity g (CHead (CHead c0 (Bind b) u0) (Bind Abst) u) t a2)))).\lambda (H6: (eq T (THead (Bind b) u0 t0) (THead (Bind Abst) u t))).let H7 \def f_equal T B (\lambda (e: T).match e return B with [(TSort _) \Rightarrow b | (TLRef _) \Rightarrow b | (THead k _ _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow b])]) (THead (Bind b) u0 t0) (THead (Bind Abst) u t) H6 in (let H8 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u0 | (TLRef _) \Rightarrow u0 | (THead _ t _) \Rightarrow t]) (THead (Bind b) u0 t0) (THead (Bind Abst) u t) H6 in (let H9 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead (Bind b) u0 t0) (THead (Bind Abst) u t) H6 in \lambda (H10: (eq T u0 u)).\lambda (H11: (eq B b Abst)).let H12 \def eq_ind T t0 (\lambda (t0: T).(eq T t0 (THead (Bind Abst) u t)) \to ex3_2 A A (\lambda (a1: A).\lambda (a3: A).eq A a2 (AHead a1 a3)) (\lambda (a1: A).\lambda (_: A).arity g (CHead c0 (Bind b) u0) u (asucc g a1)) (\lambda (_: A).\lambda (a2: A).arity g (CHead (CHead c0 (Bind b) u0) (Bind Abst) u) t a2)) H5 t H9 in let H13 \def eq_ind T t0 (\lambda (t: T).arity g (CHead c0 (Bind b) u0) t a2) H4 t H9 in let H14 \def eq_ind T u0 (\lambda (t0: T).(eq T t (THead (Bind Abst) u t)) \to ex3_2 A A (\lambda (a1: A).\lambda (a3: A).eq A a2 (AHead a1 a3)) (\lambda (a1: A).\lambda (_: A).arity g (CHead c0 (Bind b) t0) u (asucc g a1)) (\lambda (_: A).\lambda (a2: A).arity g (CHead (CHead c0 (Bind b) t0) (Bind Abst) u) t a2)) H12 u H10 in let H15 \def eq_ind T u0 (\lambda (t0: T).arity g (CHead c0 (Bind b) t0) t a2) H13 u H10 in let H16 \def eq_ind T u0 (\lambda (t0: T).(eq T t0 (THead (Bind Abst) u t)) \to ex3_2 A A (\lambda (a2: A).\lambda (a3: A).eq A a1 (AHead a2 a3)) (\lambda (a1: A).\lambda (_: A).arity g c0 u (asucc g a1)) (\lambda (_: A).\lambda (a2: A).arity g (CHead c0 (Bind Abst) u) t a2)) H3 u H10 in let H17 \def eq_ind T u0 (\lambda (t: T).arity g c0 t a1) H2 u H10 in let H18 \def eq_ind B b (\lambda (b: B).(eq T t (THead (Bind Abst) u t)) \to ex3_2 A A (\lambda (a1: A).\lambda (a3: A).eq A a2 (AHead a1 a3)) (\lambda (a1: A).\lambda (_: A).arity g (CHead c0 (Bind b) u) u (asucc g a1)) (\lambda (_: A).\lambda (a2: A).arity g (CHead (CHead c0 (Bind b) u) (Bind Abst) u) t a2)) H14 Abst H11 in let H19 \def eq_ind B b (\lambda (b: B).arity g (CHead c0 (Bind b) u) t a2) H15 Abst H11 in let H20 \def eq_ind B b (\lambda (b: B).not (eq B b Abst)) H1 Abst H11 in let H21 \def match (H20 (refl_equal B Abst)) return (ex3_2 A A (\lambda (a1: A).\lambda (a3: A).eq A a2 (AHead a1 a3)) (\lambda (a1: A).\lambda (_: A).arity g c0 u (asucc g a1)) (\lambda (_: A).\lambda (a2: A).arity g (CHead c0 (Bind Abst) u) t a2)) with [] in H21) H8) H7) (\lambda (c0: C).\lambda (u0: T).\lambda (a1: A).\lambda (H1: (arity g c0 u0 (asucc g a1))).\lambda (H2: (((eq T u0 (THead (Bind Abst) u t)) \to ex3_2 A A (\lambda (a2: A).\lambda (a3: A).eq A (asucc g a1) (AHead a2 a3)) (\lambda (a1: A).\lambda (_: A).arity g c0 u (asucc g a1)) (\lambda (_: A).\lambda (a2: A).arity g (CHead c0 (Bind Abst) u) t a2)))).\lambda (t0: T).\lambda (a2: A).\lambda (H3: (arity g (CHead c0 (Bind Abst) u0) t0 a2)).\lambda (H4: (((eq T t0 (THead (Bind Abst) u t)) \to ex3_2 A A (\lambda (a1: A).\lambda (a3: A).eq A a2 (AHead a1 a3)) (\lambda (a1: A).\lambda (_: A).arity g (CHead c0 (Bind Abst) u0) u (asucc g a1)) (\lambda (_: A).\lambda (a2: A).arity g (CHead (CHead c0 (Bind Abst) u0) (Bind Abst) u) t a2)))).\lambda (H5: (eq T (THead (Bind Abst) u0 t0) (THead (Bind Abst) u t))).let H6 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u0 | (TLRef _) \Rightarrow u0 | (THead _ t _) \Rightarrow t]) (THead (Bind Abst) u0 t0) (THead (Bind Abst) u t) H5 in (let H7 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead (Bind Abst) u0 t0) (THead (Bind Abst) u t) H5 in \lambda (H8: (eq T u0 u)).let H9 \def eq_ind T t0 (\lambda (t0: T).(eq T t0 (THead (Bind Abst) u t)) \to ex3_2 A A (\lambda (a1: A).\lambda (a3: A).eq A a2 (AHead a1 a3)) (\lambda (a1: A).\lambda (_: A).arity g (CHead c0 (Bind Abst) u0) u (asucc g a1)) (\lambda (_: A).\lambda (a2: A).arity g (CHead (CHead c0 (Bind Abst) u0) (Bind Abst) u) t a2)) H4 t H7 in let H10 \def eq_ind T t0 (\lambda (t: T).arity g (CHead c0 (Bind Abst) u0) t a2) H3 t H7 in let H11 \def eq_ind T u0 (\lambda (t0: T).(eq T t (THead (Bind Abst) u t)) \to ex3_2 A A (\lambda (a1: A).\lambda (a3: A).eq A a2 (AHead a1 a3)) (\lambda (a1: A).\lambda (_: A).arity g (CHead c0 (Bind Abst) t0) u (asucc g a1)) (\lambda (_: A).\lambda (a2: A).arity g (CHead (CHead c0 (Bind Abst) t0) (Bind Abst) u) t a2)) H9 u H8 in let H12 \def eq_ind T u0 (\lambda (t0: T).arity g (CHead c0 (Bind Abst) t0) t a2) H10 u H8 in let H13 \def eq_ind T u0 (\lambda (t0: T).(eq T t0 (THead (Bind Abst) u t)) \to ex3_2 A A (\lambda (a2: A).\lambda (a3: A).eq A (asucc g a1) (AHead a2 a3)) (\lambda (a1: A).\lambda (_: A).arity g c0 u (asucc g a1)) (\lambda (_: A).\lambda (a2: A).arity g (CHead c0 (Bind Abst) u) t a2)) H2 u H8 in let H14 \def eq_ind T u0 (\lambda (t: T).arity g c0 t (asucc g a1)) H1 u H8 in ex3_2_intro A A (\lambda (a3: A).\lambda (a4: A).eq A (AHead a1 a2) (AHead a3 a4)) (\lambda (a3: A).\lambda (_: A).arity g c0 u (asucc g a3)) (\lambda (_: A).\lambda (a4: A).arity g (CHead c0 (Bind Abst) u) t a4) a1 a2 (refl_equal A (AHead a1 a2)) H14 H12) H6) (\lambda (c0: C).\lambda (u0: T).\lambda (a1: A).\lambda (_: (arity g c0 u0 a1)).\lambda (_: (((eq T u0 (THead (Bind Abst) u t)) \to ex3_2 A A (\lambda (a2: A).\lambda (a3: A).eq A a1 (AHead a2 a3)) (\lambda (a1: A).\lambda (_: A).arity g c0 u (asucc g a1)) (\lambda (_: A).\lambda (a2: A).arity g (CHead c0 (Bind Abst) u) t a2)))).\lambda (t0: T).\lambda (a2: A).\lambda (_: (arity g c0 t0 (AHead a1 a2))).\lambda (_: (((eq T t0 (THead (Bind Abst) u t)) \to ex3_2 A A (\lambda (a3: A).\lambda (a4: A).eq A (AHead a1 a2) (AHead a3 a4)) (\lambda (a1: A).\lambda (_: A).arity g c0 u (asucc g a1)) (\lambda (_: A).\lambda (a2: A).arity g (CHead c0 (Bind Abst) u) t a2)))).\lambda (H5: (eq T (THead (Flat Appl) u0 t0) (THead (Bind Abst) u t))).let H6 \def eq_ind T (THead (Flat Appl) u0 t0) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind Abst) u t) H5 in False_ind (ex3_2 A A (\lambda (a3: A).\lambda (a4: A).eq A a2 (AHead a3 a4)) (\lambda (a3: A).\lambda (_: A).arity g c0 u (asucc g a3)) (\lambda (_: A).\lambda (a4: A).arity g (CHead c0 (Bind Abst) u) t a4)) H6) (\lambda (c0: C).\lambda (u0: T).\lambda (a0: A).\lambda (_: (arity g c0 u0 (asucc g a0))).\lambda (_: (((eq T u0 (THead (Bind Abst) u t)) \to ex3_2 A A (\lambda (a1: A).\lambda (a2: A).eq A (asucc g a0) (AHead a1 a2)) (\lambda (a1: A).\lambda (_: A).arity g c0 u (asucc g a1)) (\lambda (_: A).\lambda (a2: A).arity g (CHead c0 (Bind Abst) u) t a2)))).\lambda (t0: T).\lambda (_: (arity g c0 t0 a0)).\lambda (_: (((eq T t0 (THead (Bind Abst) u t)) \to ex3_2 A A (\lambda (a1: A).\lambda (a2: A).eq A a0 (AHead a1 a2)) (\lambda (a1: A).\lambda (_: A).arity g c0 u (asucc g a1)) (\lambda (_: A).\lambda (a2: A).arity g (CHead c0 (Bind Abst) u) t a2)))).\lambda (H5: (eq T (THead (Flat Cast) u0 t0) (THead (Bind Abst) u t))).let H6 \def eq_ind T (THead (Flat Cast) u0 t0) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind Abst) u t) H5 in False_ind (ex3_2 A A (\lambda (a1: A).\lambda (a2: A).eq A a0 (AHead a1 a2)) (\lambda (a1: A).\lambda (_: A).arity g c0 u (asucc g a1)) (\lambda (_: A).\lambda (a2: A).arity g (CHead c0 (Bind Abst) u) t a2)) H6) (\lambda (c0: C).\lambda (t0: T).\lambda (a1: A).\lambda (H1: (arity g c0 t0 a1)).\lambda (H2: (((eq T t0 (THead (Bind Abst) u t)) \to ex3_2 A A (\lambda (a2: A).\lambda (a3: A).eq A a1 (AHead a2 a3)) (\lambda (a1: A).\lambda (_: A).arity g c0 u (asucc g a1)) (\lambda (_: A).\lambda (a2: A).arity g (CHead c0 (Bind Abst) u) t a2)))).\lambda (a2: A).\lambda (H3: (leq g a1 a2)).\lambda (H4: (eq T t0 (THead (Bind Abst) u t))).let H5 \def f_equal T T (\lambda (e: T).e) t0 (THead (Bind Abst) u t) H4 in let H6 \def eq_ind T t0 (\lambda (t0: T).(eq T t0 (THead (Bind Abst) u t)) \to ex3_2 A A (\lambda (a2: A).\lambda (a3: A).eq A a1 (AHead a2 a3)) (\lambda (a1: A).\lambda (_: A).arity g c0 u (asucc g a1)) (\lambda (_: A).\lambda (a2: A).arity g (CHead c0 (Bind Abst) u) t a2)) H2 (THead (Bind Abst) u t) H5 in let H7 \def eq_ind T t0 (\lambda (t: T).arity g c0 t a1) H1 (THead (Bind Abst) u t) H5 in let H8 \def H6 (refl_equal T (THead (Bind Abst) u t)) in ex3_2_ind A A (\lambda (a3: A).\lambda (a4: A).eq A a1 (AHead a3 a4)) (\lambda (a3: A).\lambda (_: A).arity g c0 u (asucc g a3)) (\lambda (_: A).\lambda (a4: A).arity g (CHead c0 (Bind Abst) u) t a4) (ex3_2 A A (\lambda (a3: A).\lambda (a4: A).eq A a2 (AHead a3 a4)) (\lambda (a3: A).\lambda (_: A).arity g c0 u (asucc g a3)) (\lambda (_: A).\lambda (a4: A).arity g (CHead c0 (Bind Abst) u) t a4)) (\lambda (x0: A).\lambda (x1: A).\lambda (H9: (eq A a1 (AHead x0 x1))).\lambda (H10: (arity g c0 u (asucc g x0))).\lambda (H11: (arity g (CHead c0 (Bind Abst) u) t x1)).let H12 \def eq_ind A a1 (\lambda (a: A).leq g a a2) H3 (AHead x0 x1) H9 in let H13 \def eq_ind A a1 (\lambda (a: A).arity g c0 (THead (Bind Abst) u t) a) H7 (AHead x0 x1) H9 in let H_x \def leq_gen_head g x0 x1 a2 H12 in let H14 \def H_x in ex3_2_ind A A (\lambda (a3: A).\lambda (a4: A).eq A a2 (AHead a3 a4)) (\lambda (a3: A).\lambda (_: A).leq g x0 a3) (\lambda (_: A).\lambda (a4: A).leq g x1 a4) (ex3_2 A A (\lambda (a3: A).\lambda (a4: A).eq A a2 (AHead a3 a4)) (\lambda (a3: A).\lambda (_: A).arity g c0 u (asucc g a3)) (\lambda (_: A).\lambda (a4: A).arity g (CHead c0 (Bind Abst) u) t a4)) (\lambda (x2: A).\lambda (x3: A).\lambda (H15: (eq A a2 (AHead x2 x3))).\lambda (H16: (leq g x0 x2)).\lambda (H17: (leq g x1 x3)).eq_ind_r A (AHead x2 x3) (\lambda (a0: A).ex3_2 A A (\lambda (a3: A).\lambda (a4: A).eq A a0 (AHead a3 a4)) (\lambda (a3: A).\lambda (_: A).arity g c0 u (asucc g a3)) (\lambda (_: A).\lambda (a4: A).arity g (CHead c0 (Bind Abst) u) t a4)) (ex3_2_intro A A (\lambda (a3: A).\lambda (a4: A).eq A (AHead x2 x3) (AHead a3 a4)) (\lambda (a3: A).\lambda (_: A).arity g c0 u (asucc g a3)) (\lambda (_: A).\lambda (a4: A).arity g (CHead c0 (Bind Abst) u) t a4) x2 x3 (refl_equal A (AHead x2 x3)) (arity_repl g c0 u (asucc g x0) H10 (asucc g x2) (asucc_repl g x0 x2 H16)) (arity_repl g (CHead c0 (Bind Abst) u) t x1 H11 x3 H17)) a2 H15) H14) H8) c y a H0) H.
+
+theorem arity_gen_appl: \forall (g: G).\forall (c: C).\forall (u: T).\forall (t: T).\forall (a2: A).(arity g c (THead (Flat Appl) u t) a2) \to ex2 A (\lambda (a1: A).arity g c u a1) (\lambda (a1: A).arity g c t (AHead a1 a2)) \def \lambda (g: G).\lambda (c: C).\lambda (u: T).\lambda (t: T).\lambda (a2: A).\lambda (H: (arity g c (THead (Flat Appl) u t) a2)).insert_eq T (THead (Flat Appl) u t) (\lambda (t0: T).arity g c t0 a2) (ex2 A (\lambda (a1: A).arity g c u a1) (\lambda (a1: A).arity g c t (AHead a1 a2))) (\lambda (y: T).\lambda (H0: (arity g c y a2)).arity_ind g (\lambda (c0: C).\lambda (t0: T).\lambda (a: A).(eq T t0 (THead (Flat Appl) u t)) \to ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (a1: A).arity g c0 t (AHead a1 a))) (\lambda (c0: C).\lambda (n: nat).\lambda (H1: (eq T (TSort n) (THead (Flat Appl) u t))).let H2 \def eq_ind T (TSort n) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow True | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow False]) I (THead (Flat Appl) u t) H1 in False_ind (ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (a1: A).arity g c0 t (AHead a1 (ASort O n)))) H2) (\lambda (c0: C).\lambda (d: C).\lambda (u0: T).\lambda (i: nat).\lambda (_: (getl i c0 (CHead d (Bind Abbr) u0))).\lambda (a: A).\lambda (_: (arity g d u0 a)).\lambda (_: (((eq T u0 (THead (Flat Appl) u t)) \to ex2 A (\lambda (a1: A).arity g d u a1) (\lambda (a1: A).arity g d t (AHead a1 a))))).\lambda (H4: (eq T (TLRef i) (THead (Flat Appl) u t))).let H5 \def eq_ind T (TLRef i) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Flat Appl) u t) H4 in False_ind (ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (a1: A).arity g c0 t (AHead a1 a))) H5) (\lambda (c0: C).\lambda (d: C).\lambda (u0: T).\lambda (i: nat).\lambda (_: (getl i c0 (CHead d (Bind Abst) u0))).\lambda (a: A).\lambda (_: (arity g d u0 (asucc g a))).\lambda (_: (((eq T u0 (THead (Flat Appl) u t)) \to ex2 A (\lambda (a1: A).arity g d u a1) (\lambda (a1: A).arity g d t (AHead a1 (asucc g a)))))).\lambda (H4: (eq T (TLRef i) (THead (Flat Appl) u t))).let H5 \def eq_ind T (TLRef i) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Flat Appl) u t) H4 in False_ind (ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (a1: A).arity g c0 t (AHead a1 a))) H5) (\lambda (b: B).\lambda (_: (not (eq B b Abst))).\lambda (c0: C).\lambda (u0: T).\lambda (a1: A).\lambda (_: (arity g c0 u0 a1)).\lambda (_: (((eq T u0 (THead (Flat Appl) u t)) \to ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (a2: A).arity g c0 t (AHead a2 a1))))).\lambda (t0: T).\lambda (a0: A).\lambda (_: (arity g (CHead c0 (Bind b) u0) t0 a0)).\lambda (_: (((eq T t0 (THead (Flat Appl) u t)) \to ex2 A (\lambda (a1: A).arity g (CHead c0 (Bind b) u0) u a1) (\lambda (a1: A).arity g (CHead c0 (Bind b) u0) t (AHead a1 a0))))).\lambda (H6: (eq T (THead (Bind b) u0 t0) (THead (Flat Appl) u t))).let H7 \def eq_ind T (THead (Bind b) u0 t0) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (THead (Flat Appl) u t) H6 in False_ind (ex2 A (\lambda (a3: A).arity g c0 u a3) (\lambda (a3: A).arity g c0 t (AHead a3 a0))) H7) (\lambda (c0: C).\lambda (u0: T).\lambda (a1: A).\lambda (_: (arity g c0 u0 (asucc g a1))).\lambda (_: (((eq T u0 (THead (Flat Appl) u t)) \to ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (a2: A).arity g c0 t (AHead a2 (asucc g a1)))))).\lambda (t0: T).\lambda (a0: A).\lambda (_: (arity g (CHead c0 (Bind Abst) u0) t0 a0)).\lambda (_: (((eq T t0 (THead (Flat Appl) u t)) \to ex2 A (\lambda (a1: A).arity g (CHead c0 (Bind Abst) u0) u a1) (\lambda (a1: A).arity g (CHead c0 (Bind Abst) u0) t (AHead a1 a0))))).\lambda (H5: (eq T (THead (Bind Abst) u0 t0) (THead (Flat Appl) u t))).let H6 \def eq_ind T (THead (Bind Abst) u0 t0) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (THead (Flat Appl) u t) H5 in False_ind (ex2 A (\lambda (a3: A).arity g c0 u a3) (\lambda (a3: A).arity g c0 t (AHead a3 (AHead a1 a0)))) H6) (\lambda (c0: C).\lambda (u0: T).\lambda (a1: A).\lambda (H1: (arity g c0 u0 a1)).\lambda (H2: (((eq T u0 (THead (Flat Appl) u t)) \to ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (a2: A).arity g c0 t (AHead a2 a1))))).\lambda (t0: T).\lambda (a0: A).\lambda (H3: (arity g c0 t0 (AHead a1 a0))).\lambda (H4: (((eq T t0 (THead (Flat Appl) u t)) \to ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (a2: A).arity g c0 t (AHead a2 (AHead a1 a0)))))).\lambda (H5: (eq T (THead (Flat Appl) u0 t0) (THead (Flat Appl) u t))).let H6 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u0 | (TLRef _) \Rightarrow u0 | (THead _ t _) \Rightarrow t]) (THead (Flat Appl) u0 t0) (THead (Flat Appl) u t) H5 in (let H7 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead (Flat Appl) u0 t0) (THead (Flat Appl) u t) H5 in \lambda (H8: (eq T u0 u)).let H9 \def eq_ind T t0 (\lambda (t0: T).(eq T t0 (THead (Flat Appl) u t)) \to ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (a2: A).arity g c0 t (AHead a2 (AHead a1 a0)))) H4 t H7 in let H10 \def eq_ind T t0 (\lambda (t: T).arity g c0 t (AHead a1 a0)) H3 t H7 in let H11 \def eq_ind T u0 (\lambda (t0: T).(eq T t0 (THead (Flat Appl) u t)) \to ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (a2: A).arity g c0 t (AHead a2 a1))) H2 u H8 in let H12 \def eq_ind T u0 (\lambda (t: T).arity g c0 t a1) H1 u H8 in ex_intro2 A (\lambda (a3: A).arity g c0 u a3) (\lambda (a3: A).arity g c0 t (AHead a3 a0)) a1 H12 H10) H6) (\lambda (c0: C).\lambda (u0: T).\lambda (a: A).\lambda (_: (arity g c0 u0 (asucc g a))).\lambda (_: (((eq T u0 (THead (Flat Appl) u t)) \to ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (a1: A).arity g c0 t (AHead a1 (asucc g a)))))).\lambda (t0: T).\lambda (_: (arity g c0 t0 a)).\lambda (_: (((eq T t0 (THead (Flat Appl) u t)) \to ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (a1: A).arity g c0 t (AHead a1 a))))).\lambda (H5: (eq T (THead (Flat Cast) u0 t0) (THead (Flat Appl) u t))).let H6 \def eq_ind T (THead (Flat Cast) u0 t0) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat f) \Rightarrow (match f return (Prop) with [Appl \Rightarrow False | Cast \Rightarrow True])])]) I (THead (Flat Appl) u t) H5 in False_ind (ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (a1: A).arity g c0 t (AHead a1 a))) H6) (\lambda (c0: C).\lambda (t0: T).\lambda (a1: A).\lambda (H1: (arity g c0 t0 a1)).\lambda (H2: (((eq T t0 (THead (Flat Appl) u t)) \to ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (a2: A).arity g c0 t (AHead a2 a1))))).\lambda (a0: A).\lambda (H3: (leq g a1 a0)).\lambda (H4: (eq T t0 (THead (Flat Appl) u t))).let H5 \def f_equal T T (\lambda (e: T).e) t0 (THead (Flat Appl) u t) H4 in let H6 \def eq_ind T t0 (\lambda (t0: T).(eq T t0 (THead (Flat Appl) u t)) \to ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (a2: A).arity g c0 t (AHead a2 a1))) H2 (THead (Flat Appl) u t) H5 in let H7 \def eq_ind T t0 (\lambda (t: T).arity g c0 t a1) H1 (THead (Flat Appl) u t) H5 in let H8 \def H6 (refl_equal T (THead (Flat Appl) u t)) in ex2_ind A (\lambda (a3: A).arity g c0 u a3) (\lambda (a3: A).arity g c0 t (AHead a3 a1)) (ex2 A (\lambda (a3: A).arity g c0 u a3) (\lambda (a3: A).arity g c0 t (AHead a3 a0))) (\lambda (x: A).\lambda (H9: (arity g c0 u x)).\lambda (H10: (arity g c0 t (AHead x a1))).ex_intro2 A (\lambda (a3: A).arity g c0 u a3) (\lambda (a3: A).arity g c0 t (AHead a3 a0)) x H9 (arity_repl g c0 t (AHead x a1) H10 (AHead x a0) (leq_head g x x (leq_refl g x) a1 a0 H3))) H8) c y a2 H0) H.
+
+theorem arity_gen_cast: \forall (g: G).\forall (c: C).\forall (u: T).\forall (t: T).\forall (a: A).(arity g c (THead (Flat Cast) u t) a) \to and (arity g c u (asucc g a)) (arity g c t a) \def \lambda (g: G).\lambda (c: C).\lambda (u: T).\lambda (t: T).\lambda (a: A).\lambda (H: (arity g c (THead (Flat Cast) u t) a)).insert_eq T (THead (Flat Cast) u t) (\lambda (t0: T).arity g c t0 a) (and (arity g c u (asucc g a)) (arity g c t a)) (\lambda (y: T).\lambda (H0: (arity g c y a)).arity_ind g (\lambda (c0: C).\lambda (t0: T).\lambda (a0: A).(eq T t0 (THead (Flat Cast) u t)) \to and (arity g c0 u (asucc g a0)) (arity g c0 t a0)) (\lambda (c0: C).\lambda (n: nat).\lambda (H1: (eq T (TSort n) (THead (Flat Cast) u t))).let H2 \def eq_ind T (TSort n) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow True | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow False]) I (THead (Flat Cast) u t) H1 in False_ind (and (arity g c0 u (asucc g (ASort O n))) (arity g c0 t (ASort O n))) H2) (\lambda (c0: C).\lambda (d: C).\lambda (u0: T).\lambda (i: nat).\lambda (_: (getl i c0 (CHead d (Bind Abbr) u0))).\lambda (a0: A).\lambda (_: (arity g d u0 a0)).\lambda (_: (((eq T u0 (THead (Flat Cast) u t)) \to and (arity g d u (asucc g a0)) (arity g d t a0)))).\lambda (H4: (eq T (TLRef i) (THead (Flat Cast) u t))).let H5 \def eq_ind T (TLRef i) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Flat Cast) u t) H4 in False_ind (and (arity g c0 u (asucc g a0)) (arity g c0 t a0)) H5) (\lambda (c0: C).\lambda (d: C).\lambda (u0: T).\lambda (i: nat).\lambda (_: (getl i c0 (CHead d (Bind Abst) u0))).\lambda (a0: A).\lambda (_: (arity g d u0 (asucc g a0))).\lambda (_: (((eq T u0 (THead (Flat Cast) u t)) \to and (arity g d u (asucc g (asucc g a0))) (arity g d t (asucc g a0))))).\lambda (H4: (eq T (TLRef i) (THead (Flat Cast) u t))).let H5 \def eq_ind T (TLRef i) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Flat Cast) u t) H4 in False_ind (and (arity g c0 u (asucc g a0)) (arity g c0 t a0)) H5) (\lambda (b: B).\lambda (_: (not (eq B b Abst))).\lambda (c0: C).\lambda (u0: T).\lambda (a1: A).\lambda (_: (arity g c0 u0 a1)).\lambda (_: (((eq T u0 (THead (Flat Cast) u t)) \to and (arity g c0 u (asucc g a1)) (arity g c0 t a1)))).\lambda (t0: T).\lambda (a2: A).\lambda (_: (arity g (CHead c0 (Bind b) u0) t0 a2)).\lambda (_: (((eq T t0 (THead (Flat Cast) u t)) \to and (arity g (CHead c0 (Bind b) u0) u (asucc g a2)) (arity g (CHead c0 (Bind b) u0) t a2)))).\lambda (H6: (eq T (THead (Bind b) u0 t0) (THead (Flat Cast) u t))).let H7 \def eq_ind T (THead (Bind b) u0 t0) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (THead (Flat Cast) u t) H6 in False_ind (and (arity g c0 u (asucc g a2)) (arity g c0 t a2)) H7) (\lambda (c0: C).\lambda (u0: T).\lambda (a1: A).\lambda (_: (arity g c0 u0 (asucc g a1))).\lambda (_: (((eq T u0 (THead (Flat Cast) u t)) \to and (arity g c0 u (asucc g (asucc g a1))) (arity g c0 t (asucc g a1))))).\lambda (t0: T).\lambda (a2: A).\lambda (_: (arity g (CHead c0 (Bind Abst) u0) t0 a2)).\lambda (_: (((eq T t0 (THead (Flat Cast) u t)) \to and (arity g (CHead c0 (Bind Abst) u0) u (asucc g a2)) (arity g (CHead c0 (Bind Abst) u0) t a2)))).\lambda (H5: (eq T (THead (Bind Abst) u0 t0) (THead (Flat Cast) u t))).let H6 \def eq_ind T (THead (Bind Abst) u0 t0) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (THead (Flat Cast) u t) H5 in False_ind (and (arity g c0 u (asucc g (AHead a1 a2))) (arity g c0 t (AHead a1 a2))) H6) (\lambda (c0: C).\lambda (u0: T).\lambda (a1: A).\lambda (_: (arity g c0 u0 a1)).\lambda (_: (((eq T u0 (THead (Flat Cast) u t)) \to and (arity g c0 u (asucc g a1)) (arity g c0 t a1)))).\lambda (t0: T).\lambda (a2: A).\lambda (_: (arity g c0 t0 (AHead a1 a2))).\lambda (_: (((eq T t0 (THead (Flat Cast) u t)) \to and (arity g c0 u (asucc g (AHead a1 a2))) (arity g c0 t (AHead a1 a2))))).\lambda (H5: (eq T (THead (Flat Appl) u0 t0) (THead (Flat Cast) u t))).let H6 \def eq_ind T (THead (Flat Appl) u0 t0) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat f) \Rightarrow (match f return (Prop) with [Appl \Rightarrow True | Cast \Rightarrow False])])]) I (THead (Flat Cast) u t) H5 in False_ind (and (arity g c0 u (asucc g a2)) (arity g c0 t a2)) H6) (\lambda (c0: C).\lambda (u0: T).\lambda (a0: A).\lambda (H1: (arity g c0 u0 (asucc g a0))).\lambda (H2: (((eq T u0 (THead (Flat Cast) u t)) \to and (arity g c0 u (asucc g (asucc g a0))) (arity g c0 t (asucc g a0))))).\lambda (t0: T).\lambda (H3: (arity g c0 t0 a0)).\lambda (H4: (((eq T t0 (THead (Flat Cast) u t)) \to and (arity g c0 u (asucc g a0)) (arity g c0 t a0)))).\lambda (H5: (eq T (THead (Flat Cast) u0 t0) (THead (Flat Cast) u t))).let H6 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u0 | (TLRef _) \Rightarrow u0 | (THead _ t _) \Rightarrow t]) (THead (Flat Cast) u0 t0) (THead (Flat Cast) u t) H5 in (let H7 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead (Flat Cast) u0 t0) (THead (Flat Cast) u t) H5 in \lambda (H8: (eq T u0 u)).let H9 \def eq_ind T t0 (\lambda (t0: T).(eq T t0 (THead (Flat Cast) u t)) \to and (arity g c0 u (asucc g a0)) (arity g c0 t a0)) H4 t H7 in let H10 \def eq_ind T t0 (\lambda (t: T).arity g c0 t a0) H3 t H7 in let H11 \def eq_ind T u0 (\lambda (t0: T).(eq T t0 (THead (Flat Cast) u t)) \to and (arity g c0 u (asucc g (asucc g a0))) (arity g c0 t (asucc g a0))) H2 u H8 in let H12 \def eq_ind T u0 (\lambda (t: T).arity g c0 t (asucc g a0)) H1 u H8 in conj (arity g c0 u (asucc g a0)) (arity g c0 t a0) H12 H10) H6) (\lambda (c0: C).\lambda (t0: T).\lambda (a1: A).\lambda (H1: (arity g c0 t0 a1)).\lambda (H2: (((eq T t0 (THead (Flat Cast) u t)) \to and (arity g c0 u (asucc g a1)) (arity g c0 t a1)))).\lambda (a2: A).\lambda (H3: (leq g a1 a2)).\lambda (H4: (eq T t0 (THead (Flat Cast) u t))).let H5 \def f_equal T T (\lambda (e: T).e) t0 (THead (Flat Cast) u t) H4 in let H6 \def eq_ind T t0 (\lambda (t0: T).(eq T t0 (THead (Flat Cast) u t)) \to and (arity g c0 u (asucc g a1)) (arity g c0 t a1)) H2 (THead (Flat Cast) u t) H5 in let H7 \def eq_ind T t0 (\lambda (t: T).arity g c0 t a1) H1 (THead (Flat Cast) u t) H5 in let H8 \def H6 (refl_equal T (THead (Flat Cast) u t)) in and_ind (arity g c0 u (asucc g a1)) (arity g c0 t a1) (and (arity g c0 u (asucc g a2)) (arity g c0 t a2)) (\lambda (H9: (arity g c0 u (asucc g a1))).\lambda (H10: (arity g c0 t a1)).conj (arity g c0 u (asucc g a2)) (arity g c0 t a2) (arity_repl g c0 u (asucc g a1) H9 (asucc g a2) (asucc_repl g a1 a2 H3)) (arity_repl g c0 t a1 H10 a2 H3)) H8) c y a H0) H.
+
+theorem arity_gen_appls: \forall (g: G).\forall (c: C).\forall (t: T).\forall (vs: TList).\forall (a2: A).(arity g c (THeads (Flat Appl) vs t) a2) \to ex A (\lambda (a: A).arity g c t a) \def \lambda (g: G).\lambda (c: C).\lambda (t: T).\lambda (vs: TList).TList_ind (\lambda (t0: TList).\forall (a2: A).(arity g c (THeads (Flat Appl) t0 t) a2) \to ex A (\lambda (a: A).arity g c t a)) (\lambda (a2: A).\lambda (H: (arity g c t a2)).ex_intro A (\lambda (a: A).arity g c t a) a2 H) (\lambda (t0: T).\lambda (t1: TList).\lambda (H: ((\forall (a2: A).(arity g c (THeads (Flat Appl) t1 t) a2) \to ex A (\lambda (a: A).arity g c t a)))).\lambda (a2: A).\lambda (H0: (arity g c (THead (Flat Appl) t0 (THeads (Flat Appl) t1 t)) a2)).let H1 \def arity_gen_appl g c t0 (THeads (Flat Appl) t1 t) a2 H0 in ex2_ind A (\lambda (a1: A).arity g c t0 a1) (\lambda (a1: A).arity g c (THeads (Flat Appl) t1 t) (AHead a1 a2)) (ex A (\lambda (a: A).arity g c t a)) (\lambda (x: A).\lambda (_: (arity g c t0 x)).\lambda (H3: (arity g c (THeads (Flat Appl) t1 t) (AHead x a2))).let H_x \def H (AHead x a2) H3 in let H4 \def H_x in ex_ind A (\lambda (a: A).arity g c t a) (ex A (\lambda (a: A).arity g c t a)) (\lambda (x0: A).\lambda (H5: (arity g c t x0)).ex_intro A (\lambda (a: A).arity g c t a) x0 H5) H4) H1) vs.
+
+theorem node_inh: \forall (g: G).\forall (n: nat).\forall (k: nat).ex_2 C T (\lambda (c: C).\lambda (t: T).arity g c t (ASort k n)) \def \lambda (g: G).\lambda (n: nat).\lambda (k: nat).nat_ind (\lambda (n0: nat).ex_2 C T (\lambda (c: C).\lambda (t: T).arity g c t (ASort n0 n))) (ex_2_intro C T (\lambda (c: C).\lambda (t: T).arity g c t (ASort O n)) (CSort O) (TSort n) (arity_sort g (CSort O) n)) (\lambda (n0: nat).\lambda (H: (ex_2 C T (\lambda (c: C).\lambda (t: T).arity g c t (ASort n0 n)))).let H0 \def H in ex_2_ind C T (\lambda (c: C).\lambda (t: T).arity g c t (ASort n0 n)) (ex_2 C T (\lambda (c: C).\lambda (t: T).arity g c t (ASort (S n0) n))) (\lambda (x0: C).\lambda (x1: T).\lambda (H1: (arity g x0 x1 (ASort n0 n))).ex_2_intro C T (\lambda (c: C).\lambda (t: T).arity g c t (ASort (S n0) n)) (CHead x0 (Bind Abst) x1) (TLRef O) (arity_abst g (CHead x0 (Bind Abst) x1) x0 x1 O (getl_refl Abst x0 x1) (ASort (S n0) n) H1)) H0) k.
+
+theorem arity_gen_cvoid_subst0: \forall (g: G).\forall (c: C).\forall (t: T).\forall (a: A).(arity g c t a) \to \forall (d: C).\forall (u: T).\forall (i: nat).(getl i c (CHead d (Bind Void) u)) \to \forall (w: T).\forall (v: T).(subst0 i w t v) \to \forall (P: (Prop)).P \def \lambda (g: G).\lambda (c: C).\lambda (t: T).\lambda (a: A).\lambda (H: (arity g c t a)).arity_ind g (\lambda (c0: C).\lambda (t0: T).\lambda (_: A).\forall (d: C).\forall (u: T).\forall (i: nat).(getl i c0 (CHead d (Bind Void) u)) \to \forall (w: T).\forall (v: T).(subst0 i w t0 v) \to \forall (P: (Prop)).P) (\lambda (c0: C).\lambda (n: nat).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (_: (getl i c0 (CHead d (Bind Void) u))).\lambda (w: T).\lambda (v: T).\lambda (H1: (subst0 i w (TSort n) v)).\lambda (P: (Prop)).subst0_gen_sort w v i n H1 P) (\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c0 (CHead d (Bind Abbr) u))).\lambda (a0: A).\lambda (_: (arity g d u a0)).\lambda (_: ((\forall (d0: C).\forall (u0: T).\forall (i: nat).(getl i d (CHead d0 (Bind Void) u0)) \to \forall (w: T).\forall (v: T).(subst0 i w u v) \to \forall (P: (Prop)).P))).\lambda (d0: C).\lambda (u0: T).\lambda (i0: nat).\lambda (H3: (getl i0 c0 (CHead d0 (Bind Void) u0))).\lambda (w: T).\lambda (v: T).\lambda (H4: (subst0 i0 w (TLRef i) v)).\lambda (P: (Prop)).and_ind (eq nat i i0) (eq T v (lift (S i) O w)) P (\lambda (H5: (eq nat i i0)).\lambda (_: (eq T v (lift (S i) O w))).let H7 \def eq_ind_r nat i0 (\lambda (n: nat).getl n c0 (CHead d0 (Bind Void) u0)) H3 i H5 in let H8 \def eq_ind C (CHead d (Bind Abbr) u) (\lambda (c: C).getl i c0 c) H0 (CHead d0 (Bind Void) u0) (getl_mono c0 (CHead d (Bind Abbr) u) i H0 (CHead d0 (Bind Void) u0) H7) in let H9 \def eq_ind C (CHead d (Bind Abbr) u) (\lambda (ee: C).match ee return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow True | Abst \Rightarrow False | Void \Rightarrow False]) | (Flat _) \Rightarrow False])]) I (CHead d0 (Bind Void) u0) (getl_mono c0 (CHead d (Bind Abbr) u) i H0 (CHead d0 (Bind Void) u0) H7) in False_ind P H9) (subst0_gen_lref w v i0 i H4)) (\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c0 (CHead d (Bind Abst) u))).\lambda (a0: A).\lambda (_: (arity g d u (asucc g a0))).\lambda (_: ((\forall (d0: C).\forall (u0: T).\forall (i: nat).(getl i d (CHead d0 (Bind Void) u0)) \to \forall (w: T).\forall (v: T).(subst0 i w u v) \to \forall (P: (Prop)).P))).\lambda (d0: C).\lambda (u0: T).\lambda (i0: nat).\lambda (H3: (getl i0 c0 (CHead d0 (Bind Void) u0))).\lambda (w: T).\lambda (v: T).\lambda (H4: (subst0 i0 w (TLRef i) v)).\lambda (P: (Prop)).and_ind (eq nat i i0) (eq T v (lift (S i) O w)) P (\lambda (H5: (eq nat i i0)).\lambda (_: (eq T v (lift (S i) O w))).let H7 \def eq_ind_r nat i0 (\lambda (n: nat).getl n c0 (CHead d0 (Bind Void) u0)) H3 i H5 in let H8 \def eq_ind C (CHead d (Bind Abst) u) (\lambda (c: C).getl i c0 c) H0 (CHead d0 (Bind Void) u0) (getl_mono c0 (CHead d (Bind Abst) u) i H0 (CHead d0 (Bind Void) u0) H7) in let H9 \def eq_ind C (CHead d (Bind Abst) u) (\lambda (ee: C).match ee return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow False | Abst \Rightarrow True | Void \Rightarrow False]) | (Flat _) \Rightarrow False])]) I (CHead d0 (Bind Void) u0) (getl_mono c0 (CHead d (Bind Abst) u) i H0 (CHead d0 (Bind Void) u0) H7) in False_ind P H9) (subst0_gen_lref w v i0 i H4)) (\lambda (b: B).\lambda (_: (not (eq B b Abst))).\lambda (c0: C).\lambda (u: T).\lambda (a1: A).\lambda (_: (arity g c0 u a1)).\lambda (H2: ((\forall (d: C).\forall (u0: T).\forall (i: nat).(getl i c0 (CHead d (Bind Void) u0)) \to \forall (w: T).\forall (v: T).(subst0 i w u v) \to \forall (P: (Prop)).P))).\lambda (t0: T).\lambda (a2: A).\lambda (_: (arity g (CHead c0 (Bind b) u) t0 a2)).\lambda (H4: ((\forall (d: C).\forall (u0: T).\forall (i: nat).(getl i (CHead c0 (Bind b) u) (CHead d (Bind Void) u0)) \to \forall (w: T).\forall (v: T).(subst0 i w t0 v) \to \forall (P: (Prop)).P))).\lambda (d: C).\lambda (u0: T).\lambda (i: nat).\lambda (H5: (getl i c0 (CHead d (Bind Void) u0))).\lambda (w: T).\lambda (v: T).\lambda (H6: (subst0 i w (THead (Bind b) u t0) v)).\lambda (P: (Prop)).or3_ind (ex2 T (\lambda (u2: T).eq T v (THead (Bind b) u2 t0)) (\lambda (u2: T).subst0 i w u u2)) (ex2 T (\lambda (t2: T).eq T v (THead (Bind b) u t2)) (\lambda (t2: T).subst0 (s (Bind b) i) w t0 t2)) (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T v (THead (Bind b) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i w u u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Bind b) i) w t0 t2)) P (\lambda (H7: (ex2 T (\lambda (u2: T).eq T v (THead (Bind b) u2 t0)) (\lambda (u2: T).subst0 i w u u2))).ex2_ind T (\lambda (u2: T).eq T v (THead (Bind b) u2 t0)) (\lambda (u2: T).subst0 i w u u2) P (\lambda (x: T).\lambda (_: (eq T v (THead (Bind b) x t0))).\lambda (H9: (subst0 i w u x)).H2 d u0 i H5 w x H9 P) H7) (\lambda (H7: (ex2 T (\lambda (t2: T).eq T v (THead (Bind b) u t2)) (\lambda (t2: T).subst0 (s (Bind b) i) w t0 t2))).ex2_ind T (\lambda (t2: T).eq T v (THead (Bind b) u t2)) (\lambda (t2: T).subst0 (s (Bind b) i) w t0 t2) P (\lambda (x: T).\lambda (_: (eq T v (THead (Bind b) u x))).\lambda (H9: (subst0 (s (Bind b) i) w t0 x)).H4 d u0 (S i) (getl_clear_bind b (CHead c0 (Bind b) u) c0 u (clear_bind b c0 u) (CHead d (Bind Void) u0) i H5) w x H9 P) H7) (\lambda (H7: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T v (THead (Bind b) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i w u u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Bind b) i) w t0 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t2: T).eq T v (THead (Bind b) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i w u u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Bind b) i) w t0 t2) P (\lambda (x0: T).\lambda (x1: T).\lambda (_: (eq T v (THead (Bind b) x0 x1))).\lambda (H9: (subst0 i w u x0)).\lambda (_: (subst0 (s (Bind b) i) w t0 x1)).H2 d u0 i H5 w x0 H9 P) H7) (subst0_gen_head (Bind b) w u t0 v i H6)) (\lambda (c0: C).\lambda (u: T).\lambda (a1: A).\lambda (_: (arity g c0 u (asucc g a1))).\lambda (H1: ((\forall (d: C).\forall (u0: T).\forall (i: nat).(getl i c0 (CHead d (Bind Void) u0)) \to \forall (w: T).\forall (v: T).(subst0 i w u v) \to \forall (P: (Prop)).P))).\lambda (t0: T).\lambda (a2: A).\lambda (_: (arity g (CHead c0 (Bind Abst) u) t0 a2)).\lambda (H3: ((\forall (d: C).\forall (u0: T).\forall (i: nat).(getl i (CHead c0 (Bind Abst) u) (CHead d (Bind Void) u0)) \to \forall (w: T).\forall (v: T).(subst0 i w t0 v) \to \forall (P: (Prop)).P))).\lambda (d: C).\lambda (u0: T).\lambda (i: nat).\lambda (H4: (getl i c0 (CHead d (Bind Void) u0))).\lambda (w: T).\lambda (v: T).\lambda (H5: (subst0 i w (THead (Bind Abst) u t0) v)).\lambda (P: (Prop)).or3_ind (ex2 T (\lambda (u2: T).eq T v (THead (Bind Abst) u2 t0)) (\lambda (u2: T).subst0 i w u u2)) (ex2 T (\lambda (t2: T).eq T v (THead (Bind Abst) u t2)) (\lambda (t2: T).subst0 (s (Bind Abst) i) w t0 t2)) (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T v (THead (Bind Abst) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i w u u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Bind Abst) i) w t0 t2)) P (\lambda (H6: (ex2 T (\lambda (u2: T).eq T v (THead (Bind Abst) u2 t0)) (\lambda (u2: T).subst0 i w u u2))).ex2_ind T (\lambda (u2: T).eq T v (THead (Bind Abst) u2 t0)) (\lambda (u2: T).subst0 i w u u2) P (\lambda (x: T).\lambda (_: (eq T v (THead (Bind Abst) x t0))).\lambda (H8: (subst0 i w u x)).H1 d u0 i H4 w x H8 P) H6) (\lambda (H6: (ex2 T (\lambda (t2: T).eq T v (THead (Bind Abst) u t2)) (\lambda (t2: T).subst0 (s (Bind Abst) i) w t0 t2))).ex2_ind T (\lambda (t2: T).eq T v (THead (Bind Abst) u t2)) (\lambda (t2: T).subst0 (s (Bind Abst) i) w t0 t2) P (\lambda (x: T).\lambda (_: (eq T v (THead (Bind Abst) u x))).\lambda (H8: (subst0 (s (Bind Abst) i) w t0 x)).H3 d u0 (S i) (getl_clear_bind Abst (CHead c0 (Bind Abst) u) c0 u (clear_bind Abst c0 u) (CHead d (Bind Void) u0) i H4) w x H8 P) H6) (\lambda (H6: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T v (THead (Bind Abst) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i w u u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Bind Abst) i) w t0 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t2: T).eq T v (THead (Bind Abst) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i w u u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Bind Abst) i) w t0 t2) P (\lambda (x0: T).\lambda (x1: T).\lambda (_: (eq T v (THead (Bind Abst) x0 x1))).\lambda (H8: (subst0 i w u x0)).\lambda (_: (subst0 (s (Bind Abst) i) w t0 x1)).H1 d u0 i H4 w x0 H8 P) H6) (subst0_gen_head (Bind Abst) w u t0 v i H5)) (\lambda (c0: C).\lambda (u: T).\lambda (a1: A).\lambda (_: (arity g c0 u a1)).\lambda (H1: ((\forall (d: C).\forall (u0: T).\forall (i: nat).(getl i c0 (CHead d (Bind Void) u0)) \to \forall (w: T).\forall (v: T).(subst0 i w u v) \to \forall (P: (Prop)).P))).\lambda (t0: T).\lambda (a2: A).\lambda (_: (arity g c0 t0 (AHead a1 a2))).\lambda (H3: ((\forall (d: C).\forall (u: T).\forall (i: nat).(getl i c0 (CHead d (Bind Void) u)) \to \forall (w: T).\forall (v: T).(subst0 i w t0 v) \to \forall (P: (Prop)).P))).\lambda (d: C).\lambda (u0: T).\lambda (i: nat).\lambda (H4: (getl i c0 (CHead d (Bind Void) u0))).\lambda (w: T).\lambda (v: T).\lambda (H5: (subst0 i w (THead (Flat Appl) u t0) v)).\lambda (P: (Prop)).or3_ind (ex2 T (\lambda (u2: T).eq T v (THead (Flat Appl) u2 t0)) (\lambda (u2: T).subst0 i w u u2)) (ex2 T (\lambda (t2: T).eq T v (THead (Flat Appl) u t2)) (\lambda (t2: T).subst0 (s (Flat Appl) i) w t0 t2)) (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T v (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i w u u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Flat Appl) i) w t0 t2)) P (\lambda (H6: (ex2 T (\lambda (u2: T).eq T v (THead (Flat Appl) u2 t0)) (\lambda (u2: T).subst0 i w u u2))).ex2_ind T (\lambda (u2: T).eq T v (THead (Flat Appl) u2 t0)) (\lambda (u2: T).subst0 i w u u2) P (\lambda (x: T).\lambda (_: (eq T v (THead (Flat Appl) x t0))).\lambda (H8: (subst0 i w u x)).H1 d u0 i H4 w x H8 P) H6) (\lambda (H6: (ex2 T (\lambda (t2: T).eq T v (THead (Flat Appl) u t2)) (\lambda (t2: T).subst0 (s (Flat Appl) i) w t0 t2))).ex2_ind T (\lambda (t2: T).eq T v (THead (Flat Appl) u t2)) (\lambda (t2: T).subst0 (s (Flat Appl) i) w t0 t2) P (\lambda (x: T).\lambda (_: (eq T v (THead (Flat Appl) u x))).\lambda (H8: (subst0 (s (Flat Appl) i) w t0 x)).H3 d u0 i H4 w x H8 P) H6) (\lambda (H6: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T v (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i w u u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Flat Appl) i) w t0 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t2: T).eq T v (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i w u u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Flat Appl) i) w t0 t2) P (\lambda (x0: T).\lambda (x1: T).\lambda (_: (eq T v (THead (Flat Appl) x0 x1))).\lambda (H8: (subst0 i w u x0)).\lambda (_: (subst0 (s (Flat Appl) i) w t0 x1)).H1 d u0 i H4 w x0 H8 P) H6) (subst0_gen_head (Flat Appl) w u t0 v i H5)) (\lambda (c0: C).\lambda (u: T).\lambda (a0: A).\lambda (_: (arity g c0 u (asucc g a0))).\lambda (H1: ((\forall (d: C).\forall (u0: T).\forall (i: nat).(getl i c0 (CHead d (Bind Void) u0)) \to \forall (w: T).\forall (v: T).(subst0 i w u v) \to \forall (P: (Prop)).P))).\lambda (t0: T).\lambda (_: (arity g c0 t0 a0)).\lambda (H3: ((\forall (d: C).\forall (u: T).\forall (i: nat).(getl i c0 (CHead d (Bind Void) u)) \to \forall (w: T).\forall (v: T).(subst0 i w t0 v) \to \forall (P: (Prop)).P))).\lambda (d: C).\lambda (u0: T).\lambda (i: nat).\lambda (H4: (getl i c0 (CHead d (Bind Void) u0))).\lambda (w: T).\lambda (v: T).\lambda (H5: (subst0 i w (THead (Flat Cast) u t0) v)).\lambda (P: (Prop)).or3_ind (ex2 T (\lambda (u2: T).eq T v (THead (Flat Cast) u2 t0)) (\lambda (u2: T).subst0 i w u u2)) (ex2 T (\lambda (t2: T).eq T v (THead (Flat Cast) u t2)) (\lambda (t2: T).subst0 (s (Flat Cast) i) w t0 t2)) (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T v (THead (Flat Cast) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i w u u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Flat Cast) i) w t0 t2)) P (\lambda (H6: (ex2 T (\lambda (u2: T).eq T v (THead (Flat Cast) u2 t0)) (\lambda (u2: T).subst0 i w u u2))).ex2_ind T (\lambda (u2: T).eq T v (THead (Flat Cast) u2 t0)) (\lambda (u2: T).subst0 i w u u2) P (\lambda (x: T).\lambda (_: (eq T v (THead (Flat Cast) x t0))).\lambda (H8: (subst0 i w u x)).H1 d u0 i H4 w x H8 P) H6) (\lambda (H6: (ex2 T (\lambda (t2: T).eq T v (THead (Flat Cast) u t2)) (\lambda (t2: T).subst0 (s (Flat Cast) i) w t0 t2))).ex2_ind T (\lambda (t2: T).eq T v (THead (Flat Cast) u t2)) (\lambda (t2: T).subst0 (s (Flat Cast) i) w t0 t2) P (\lambda (x: T).\lambda (_: (eq T v (THead (Flat Cast) u x))).\lambda (H8: (subst0 (s (Flat Cast) i) w t0 x)).H3 d u0 i H4 w x H8 P) H6) (\lambda (H6: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T v (THead (Flat Cast) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i w u u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Flat Cast) i) w t0 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t2: T).eq T v (THead (Flat Cast) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i w u u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Flat Cast) i) w t0 t2) P (\lambda (x0: T).\lambda (x1: T).\lambda (_: (eq T v (THead (Flat Cast) x0 x1))).\lambda (H8: (subst0 i w u x0)).\lambda (_: (subst0 (s (Flat Cast) i) w t0 x1)).H1 d u0 i H4 w x0 H8 P) H6) (subst0_gen_head (Flat Cast) w u t0 v i H5)) (\lambda (c0: C).\lambda (t0: T).\lambda (a1: A).\lambda (_: (arity g c0 t0 a1)).\lambda (H1: ((\forall (d: C).\forall (u: T).\forall (i: nat).(getl i c0 (CHead d (Bind Void) u)) \to \forall (w: T).\forall (v: T).(subst0 i w t0 v) \to \forall (P: (Prop)).P))).\lambda (a2: A).\lambda (_: (leq g a1 a2)).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H3: (getl i c0 (CHead d (Bind Void) u))).\lambda (w: T).\lambda (v: T).\lambda (H4: (subst0 i w t0 v)).\lambda (P: (Prop)).H1 d u i H3 w v H4 P) c t a H.
+
+theorem arity_gen_cvoid: \forall (g: G).\forall (c: C).\forall (t: T).\forall (a: A).(arity g c t a) \to \forall (d: C).\forall (u: T).\forall (i: nat).(getl i c (CHead d (Bind Void) u)) \to ex T (\lambda (v: T).eq T t (lift (S O) i v)) \def \lambda (g: G).\lambda (c: C).\lambda (t: T).\lambda (a: A).\lambda (H: (arity g c t a)).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c (CHead d (Bind Void) u))).let H_x \def dnf_dec u t i in let H1 \def H_x in ex_ind T (\lambda (v: T).or (subst0 i u t (lift (S O) i v)) (eq T t (lift (S O) i v))) (ex T (\lambda (v: T).eq T t (lift (S O) i v))) (\lambda (x: T).\lambda (H2: (or (subst0 i u t (lift (S O) i x)) (eq T t (lift (S O) i x)))).or_ind (subst0 i u t (lift (S O) i x)) (eq T t (lift (S O) i x)) (ex T (\lambda (v: T).eq T t (lift (S O) i v))) (\lambda (H3: (subst0 i u t (lift (S O) i x))).arity_gen_cvoid_subst0 g c t a H d u i H0 u (lift (S O) i x) H3 (ex T (\lambda (v: T).eq T t (lift (S O) i v)))) (\lambda (H3: (eq T t (lift (S O) i x))).let H4 \def eq_ind T t (\lambda (t: T).arity g c t a) H (lift (S O) i x) H3 in eq_ind_r T (lift (S O) i x) (\lambda (t0: T).ex T (\lambda (v: T).eq T t0 (lift (S O) i v))) (ex_intro T (\lambda (v: T).eq T (lift (S O) i x) (lift (S O) i v)) x (refl_equal T (lift (S O) i x))) t H3) H2) H1.
+
+theorem arity_gen_lift: \forall (g: G).\forall (c1: C).\forall (t: T).\forall (a: A).\forall (h: nat).\forall (d: nat).(arity g c1 (lift h d t) a) \to \forall (c2: C).(drop h d c1 c2) \to arity g c2 t a \def \lambda (g: G).\lambda (c1: C).\lambda (t: T).\lambda (a: A).\lambda (h: nat).\lambda (d: nat).\lambda (H: (arity g c1 (lift h d t) a)).insert_eq T (lift h d t) (\lambda (t0: T).arity g c1 t0 a) (\forall (c2: C).(drop h d c1 c2) \to arity g c2 t a) (\lambda (y: T).\lambda (H0: (arity g c1 y a)).unintro T t (\lambda (t0: T).(eq T y (lift h d t0)) \to \forall (c2: C).(drop h d c1 c2) \to arity g c2 t0 a) (unintro nat d (\lambda (n: nat).\forall (x: T).(eq T y (lift h n x)) \to \forall (c2: C).(drop h n c1 c2) \to arity g c2 x a) (arity_ind g (\lambda (c: C).\lambda (t0: T).\lambda (a0: A).\forall (x: nat).\forall (x0: T).(eq T t0 (lift h x x0)) \to \forall (c2: C).(drop h x c c2) \to arity g c2 x0 a0) (\lambda (c: C).\lambda (n: nat).\lambda (x: nat).\lambda (x0: T).\lambda (H1: (eq T (TSort n) (lift h x x0))).\lambda (c2: C).\lambda (_: (drop h x c c2)).eq_ind_r T (TSort n) (\lambda (t0: T).arity g c2 t0 (ASort O n)) (arity_sort g c2 n) x0 (lift_gen_sort h x n x0 H1)) (\lambda (c: C).\lambda (d0: C).\lambda (u: T).\lambda (i: nat).\lambda (H1: (getl i c (CHead d0 (Bind Abbr) u))).\lambda (a0: A).\lambda (H2: (arity g d0 u a0)).\lambda (H3: ((\forall (x: nat).\forall (x0: T).(eq T u (lift h x x0)) \to \forall (c2: C).(drop h x d0 c2) \to arity g c2 x0 a0))).\lambda (x: nat).\lambda (x0: T).\lambda (H4: (eq T (TLRef i) (lift h x x0))).\lambda (c2: C).\lambda (H5: (drop h x c c2)).let H_x \def lift_gen_lref x0 x h i H4 in let H6 \def H_x in or_ind (and (lt i x) (eq T x0 (TLRef i))) (and (le (plus x h) i) (eq T x0 (TLRef (minus i h)))) (arity g c2 x0 a0) (\lambda (H7: (and (lt i x) (eq T x0 (TLRef i)))).and_ind (lt i x) (eq T x0 (TLRef i)) (arity g c2 x0 a0) (\lambda (H8: (lt i x)).\lambda (H9: (eq T x0 (TLRef i))).eq_ind_r T (TLRef i) (\lambda (t0: T).arity g c2 t0 a0) (let H10 \def eq_ind nat x (\lambda (n: nat).drop h n c c2) H5 (S (plus i (minus x (S i)))) (lt_plus_minus i x H8) in ex3_2_ind T C (\lambda (v: T).\lambda (_: C).eq T u (lift h (minus x (S i)) v)) (\lambda (v: T).\lambda (e0: C).getl i c2 (CHead e0 (Bind Abbr) v)) (\lambda (_: T).\lambda (e0: C).drop h (minus x (S i)) d0 e0) (arity g c2 (TLRef i) a0) (\lambda (x1: T).\lambda (x2: C).\lambda (H11: (eq T u (lift h (minus x (S i)) x1))).\lambda (H12: (getl i c2 (CHead x2 (Bind Abbr) x1))).\lambda (H13: (drop h (minus x (S i)) d0 x2)).let H14 \def eq_ind T u (\lambda (t: T).\forall (x: nat).\forall (x0: T).(eq T t (lift h x x0)) \to \forall (c2: C).(drop h x d0 c2) \to arity g c2 x0 a0) H3 (lift h (minus x (S i)) x1) H11 in let H15 \def eq_ind T u (\lambda (t: T).arity g d0 t a0) H2 (lift h (minus x (S i)) x1) H11 in arity_abbr g c2 x2 x1 i H12 a0 (H14 (minus x (S i)) x1 (refl_equal T (lift h (minus x (S i)) x1)) x2 H13)) (getl_drop_conf_lt Abbr c d0 u i H1 c2 h (minus x (S i)) H10)) x0 H9) H7) (\lambda (H7: (and (le (plus x h) i) (eq T x0 (TLRef (minus i h))))).and_ind (le (plus x h) i) (eq T x0 (TLRef (minus i h))) (arity g c2 x0 a0) (\lambda (H8: (le (plus x h) i)).\lambda (H9: (eq T x0 (TLRef (minus i h)))).eq_ind_r T (TLRef (minus i h)) (\lambda (t0: T).arity g c2 t0 a0) (arity_abbr g c2 d0 u (minus i h) (getl_drop_conf_ge i (CHead d0 (Bind Abbr) u) c H1 c2 h x H5 H8) a0 H2) x0 H9) H7) H6) (\lambda (c: C).\lambda (d0: C).\lambda (u: T).\lambda (i: nat).\lambda (H1: (getl i c (CHead d0 (Bind Abst) u))).\lambda (a0: A).\lambda (H2: (arity g d0 u (asucc g a0))).\lambda (H3: ((\forall (x: nat).\forall (x0: T).(eq T u (lift h x x0)) \to \forall (c2: C).(drop h x d0 c2) \to arity g c2 x0 (asucc g a0)))).\lambda (x: nat).\lambda (x0: T).\lambda (H4: (eq T (TLRef i) (lift h x x0))).\lambda (c2: C).\lambda (H5: (drop h x c c2)).let H_x \def lift_gen_lref x0 x h i H4 in let H6 \def H_x in or_ind (and (lt i x) (eq T x0 (TLRef i))) (and (le (plus x h) i) (eq T x0 (TLRef (minus i h)))) (arity g c2 x0 a0) (\lambda (H7: (and (lt i x) (eq T x0 (TLRef i)))).and_ind (lt i x) (eq T x0 (TLRef i)) (arity g c2 x0 a0) (\lambda (H8: (lt i x)).\lambda (H9: (eq T x0 (TLRef i))).eq_ind_r T (TLRef i) (\lambda (t0: T).arity g c2 t0 a0) (let H10 \def eq_ind nat x (\lambda (n: nat).drop h n c c2) H5 (S (plus i (minus x (S i)))) (lt_plus_minus i x H8) in ex3_2_ind T C (\lambda (v: T).\lambda (_: C).eq T u (lift h (minus x (S i)) v)) (\lambda (v: T).\lambda (e0: C).getl i c2 (CHead e0 (Bind Abst) v)) (\lambda (_: T).\lambda (e0: C).drop h (minus x (S i)) d0 e0) (arity g c2 (TLRef i) a0) (\lambda (x1: T).\lambda (x2: C).\lambda (H11: (eq T u (lift h (minus x (S i)) x1))).\lambda (H12: (getl i c2 (CHead x2 (Bind Abst) x1))).\lambda (H13: (drop h (minus x (S i)) d0 x2)).let H14 \def eq_ind T u (\lambda (t: T).\forall (x: nat).\forall (x0: T).(eq T t (lift h x x0)) \to \forall (c2: C).(drop h x d0 c2) \to arity g c2 x0 (asucc g a0)) H3 (lift h (minus x (S i)) x1) H11 in let H15 \def eq_ind T u (\lambda (t: T).arity g d0 t (asucc g a0)) H2 (lift h (minus x (S i)) x1) H11 in arity_abst g c2 x2 x1 i H12 a0 (H14 (minus x (S i)) x1 (refl_equal T (lift h (minus x (S i)) x1)) x2 H13)) (getl_drop_conf_lt Abst c d0 u i H1 c2 h (minus x (S i)) H10)) x0 H9) H7) (\lambda (H7: (and (le (plus x h) i) (eq T x0 (TLRef (minus i h))))).and_ind (le (plus x h) i) (eq T x0 (TLRef (minus i h))) (arity g c2 x0 a0) (\lambda (H8: (le (plus x h) i)).\lambda (H9: (eq T x0 (TLRef (minus i h)))).eq_ind_r T (TLRef (minus i h)) (\lambda (t0: T).arity g c2 t0 a0) (arity_abst g c2 d0 u (minus i h) (getl_drop_conf_ge i (CHead d0 (Bind Abst) u) c H1 c2 h x H5 H8) a0 H2) x0 H9) H7) H6) (\lambda (b: B).\lambda (H1: (not (eq B b Abst))).\lambda (c: C).\lambda (u: T).\lambda (a1: A).\lambda (H2: (arity g c u a1)).\lambda (H3: ((\forall (x: nat).\forall (x0: T).(eq T u (lift h x x0)) \to \forall (c2: C).(drop h x c c2) \to arity g c2 x0 a1))).\lambda (t0: T).\lambda (a2: A).\lambda (H4: (arity g (CHead c (Bind b) u) t0 a2)).\lambda (H5: ((\forall (x: nat).\forall (x0: T).(eq T t0 (lift h x x0)) \to \forall (c2: C).(drop h x (CHead c (Bind b) u) c2) \to arity g c2 x0 a2))).\lambda (x: nat).\lambda (x0: T).\lambda (H6: (eq T (THead (Bind b) u t0) (lift h x x0))).\lambda (c2: C).\lambda (H7: (drop h x c c2)).ex3_2_ind T T (\lambda (y0: T).\lambda (z: T).eq T x0 (THead (Bind b) y0 z)) (\lambda (y0: T).\lambda (_: T).eq T u (lift h x y0)) (\lambda (_: T).\lambda (z: T).eq T t0 (lift h (S x) z)) (arity g c2 x0 a2) (\lambda (x1: T).\lambda (x2: T).\lambda (H8: (eq T x0 (THead (Bind b) x1 x2))).\lambda (H9: (eq T u (lift h x x1))).\lambda (H10: (eq T t0 (lift h (S x) x2))).eq_ind_r T (THead (Bind b) x1 x2) (\lambda (t1: T).arity g c2 t1 a2) (let H11 \def eq_ind T t0 (\lambda (t: T).\forall (x: nat).\forall (x0: T).(eq T t (lift h x x0)) \to \forall (c2: C).(drop h x (CHead c (Bind b) u) c2) \to arity g c2 x0 a2) H5 (lift h (S x) x2) H10 in let H12 \def eq_ind T t0 (\lambda (t: T).arity g (CHead c (Bind b) u) t a2) H4 (lift h (S x) x2) H10 in let H13 \def eq_ind T u (\lambda (t: T).arity g (CHead c (Bind b) t) (lift h (S x) x2) a2) H12 (lift h x x1) H9 in let H14 \def eq_ind T u (\lambda (t: T).\forall (x0: nat).\forall (x1: T).(eq T (lift h (S x) x2) (lift h x0 x1)) \to \forall (c2: C).(drop h x0 (CHead c (Bind b) t) c2) \to arity g c2 x1 a2) H11 (lift h x x1) H9 in let H15 \def eq_ind T u (\lambda (t: T).\forall (x: nat).\forall (x0: T).(eq T t (lift h x x0)) \to \forall (c2: C).(drop h x c c2) \to arity g c2 x0 a1) H3 (lift h x x1) H9 in let H16 \def eq_ind T u (\lambda (t: T).arity g c t a1) H2 (lift h x x1) H9 in arity_bind g b H1 c2 x1 a1 (H15 x x1 (refl_equal T (lift h x x1)) c2 H7) x2 a2 (H14 (S x) x2 (refl_equal T (lift h (S x) x2)) (CHead c2 (Bind b) x1) (drop_skip_bind h x c c2 H7 b x1))) x0 H8) (lift_gen_bind b u t0 x0 h x H6)) (\lambda (c: C).\lambda (u: T).\lambda (a1: A).\lambda (H1: (arity g c u (asucc g a1))).\lambda (H2: ((\forall (x: nat).\forall (x0: T).(eq T u (lift h x x0)) \to \forall (c2: C).(drop h x c c2) \to arity g c2 x0 (asucc g a1)))).\lambda (t0: T).\lambda (a2: A).\lambda (H3: (arity g (CHead c (Bind Abst) u) t0 a2)).\lambda (H4: ((\forall (x: nat).\forall (x0: T).(eq T t0 (lift h x x0)) \to \forall (c2: C).(drop h x (CHead c (Bind Abst) u) c2) \to arity g c2 x0 a2))).\lambda (x: nat).\lambda (x0: T).\lambda (H5: (eq T (THead (Bind Abst) u t0) (lift h x x0))).\lambda (c2: C).\lambda (H6: (drop h x c c2)).ex3_2_ind T T (\lambda (y0: T).\lambda (z: T).eq T x0 (THead (Bind Abst) y0 z)) (\lambda (y0: T).\lambda (_: T).eq T u (lift h x y0)) (\lambda (_: T).\lambda (z: T).eq T t0 (lift h (S x) z)) (arity g c2 x0 (AHead a1 a2)) (\lambda (x1: T).\lambda (x2: T).\lambda (H7: (eq T x0 (THead (Bind Abst) x1 x2))).\lambda (H8: (eq T u (lift h x x1))).\lambda (H9: (eq T t0 (lift h (S x) x2))).eq_ind_r T (THead (Bind Abst) x1 x2) (\lambda (t1: T).arity g c2 t1 (AHead a1 a2)) (let H10 \def eq_ind T t0 (\lambda (t: T).\forall (x: nat).\forall (x0: T).(eq T t (lift h x x0)) \to \forall (c2: C).(drop h x (CHead c (Bind Abst) u) c2) \to arity g c2 x0 a2) H4 (lift h (S x) x2) H9 in let H11 \def eq_ind T t0 (\lambda (t: T).arity g (CHead c (Bind Abst) u) t a2) H3 (lift h (S x) x2) H9 in let H12 \def eq_ind T u (\lambda (t: T).arity g (CHead c (Bind Abst) t) (lift h (S x) x2) a2) H11 (lift h x x1) H8 in let H13 \def eq_ind T u (\lambda (t: T).\forall (x0: nat).\forall (x1: T).(eq T (lift h (S x) x2) (lift h x0 x1)) \to \forall (c2: C).(drop h x0 (CHead c (Bind Abst) t) c2) \to arity g c2 x1 a2) H10 (lift h x x1) H8 in let H14 \def eq_ind T u (\lambda (t: T).\forall (x: nat).\forall (x0: T).(eq T t (lift h x x0)) \to \forall (c2: C).(drop h x c c2) \to arity g c2 x0 (asucc g a1)) H2 (lift h x x1) H8 in let H15 \def eq_ind T u (\lambda (t: T).arity g c t (asucc g a1)) H1 (lift h x x1) H8 in arity_head g c2 x1 a1 (H14 x x1 (refl_equal T (lift h x x1)) c2 H6) x2 a2 (H13 (S x) x2 (refl_equal T (lift h (S x) x2)) (CHead c2 (Bind Abst) x1) (drop_skip_bind h x c c2 H6 Abst x1))) x0 H7) (lift_gen_bind Abst u t0 x0 h x H5)) (\lambda (c: C).\lambda (u: T).\lambda (a1: A).\lambda (H1: (arity g c u a1)).\lambda (H2: ((\forall (x: nat).\forall (x0: T).(eq T u (lift h x x0)) \to \forall (c2: C).(drop h x c c2) \to arity g c2 x0 a1))).\lambda (t0: T).\lambda (a2: A).\lambda (H3: (arity g c t0 (AHead a1 a2))).\lambda (H4: ((\forall (x: nat).\forall (x0: T).(eq T t0 (lift h x x0)) \to \forall (c2: C).(drop h x c c2) \to arity g c2 x0 (AHead a1 a2)))).\lambda (x: nat).\lambda (x0: T).\lambda (H5: (eq T (THead (Flat Appl) u t0) (lift h x x0))).\lambda (c2: C).\lambda (H6: (drop h x c c2)).ex3_2_ind T T (\lambda (y0: T).\lambda (z: T).eq T x0 (THead (Flat Appl) y0 z)) (\lambda (y0: T).\lambda (_: T).eq T u (lift h x y0)) (\lambda (_: T).\lambda (z: T).eq T t0 (lift h x z)) (arity g c2 x0 a2) (\lambda (x1: T).\lambda (x2: T).\lambda (H7: (eq T x0 (THead (Flat Appl) x1 x2))).\lambda (H8: (eq T u (lift h x x1))).\lambda (H9: (eq T t0 (lift h x x2))).eq_ind_r T (THead (Flat Appl) x1 x2) (\lambda (t1: T).arity g c2 t1 a2) (let H10 \def eq_ind T t0 (\lambda (t: T).\forall (x: nat).\forall (x0: T).(eq T t (lift h x x0)) \to \forall (c2: C).(drop h x c c2) \to arity g c2 x0 (AHead a1 a2)) H4 (lift h x x2) H9 in let H11 \def eq_ind T t0 (\lambda (t: T).arity g c t (AHead a1 a2)) H3 (lift h x x2) H9 in let H12 \def eq_ind T u (\lambda (t: T).\forall (x: nat).\forall (x0: T).(eq T t (lift h x x0)) \to \forall (c2: C).(drop h x c c2) \to arity g c2 x0 a1) H2 (lift h x x1) H8 in let H13 \def eq_ind T u (\lambda (t: T).arity g c t a1) H1 (lift h x x1) H8 in arity_appl g c2 x1 a1 (H12 x x1 (refl_equal T (lift h x x1)) c2 H6) x2 a2 (H10 x x2 (refl_equal T (lift h x x2)) c2 H6)) x0 H7) (lift_gen_flat Appl u t0 x0 h x H5)) (\lambda (c: C).\lambda (u: T).\lambda (a0: A).\lambda (H1: (arity g c u (asucc g a0))).\lambda (H2: ((\forall (x: nat).\forall (x0: T).(eq T u (lift h x x0)) \to \forall (c2: C).(drop h x c c2) \to arity g c2 x0 (asucc g a0)))).\lambda (t0: T).\lambda (H3: (arity g c t0 a0)).\lambda (H4: ((\forall (x: nat).\forall (x0: T).(eq T t0 (lift h x x0)) \to \forall (c2: C).(drop h x c c2) \to arity g c2 x0 a0))).\lambda (x: nat).\lambda (x0: T).\lambda (H5: (eq T (THead (Flat Cast) u t0) (lift h x x0))).\lambda (c2: C).\lambda (H6: (drop h x c c2)).ex3_2_ind T T (\lambda (y0: T).\lambda (z: T).eq T x0 (THead (Flat Cast) y0 z)) (\lambda (y0: T).\lambda (_: T).eq T u (lift h x y0)) (\lambda (_: T).\lambda (z: T).eq T t0 (lift h x z)) (arity g c2 x0 a0) (\lambda (x1: T).\lambda (x2: T).\lambda (H7: (eq T x0 (THead (Flat Cast) x1 x2))).\lambda (H8: (eq T u (lift h x x1))).\lambda (H9: (eq T t0 (lift h x x2))).eq_ind_r T (THead (Flat Cast) x1 x2) (\lambda (t1: T).arity g c2 t1 a0) (let H10 \def eq_ind T t0 (\lambda (t: T).\forall (x: nat).\forall (x0: T).(eq T t (lift h x x0)) \to \forall (c2: C).(drop h x c c2) \to arity g c2 x0 a0) H4 (lift h x x2) H9 in let H11 \def eq_ind T t0 (\lambda (t: T).arity g c t a0) H3 (lift h x x2) H9 in let H12 \def eq_ind T u (\lambda (t: T).\forall (x: nat).\forall (x0: T).(eq T t (lift h x x0)) \to \forall (c2: C).(drop h x c c2) \to arity g c2 x0 (asucc g a0)) H2 (lift h x x1) H8 in let H13 \def eq_ind T u (\lambda (t: T).arity g c t (asucc g a0)) H1 (lift h x x1) H8 in arity_cast g c2 x1 a0 (H12 x x1 (refl_equal T (lift h x x1)) c2 H6) x2 (H10 x x2 (refl_equal T (lift h x x2)) c2 H6)) x0 H7) (lift_gen_flat Cast u t0 x0 h x H5)) (\lambda (c: C).\lambda (t0: T).\lambda (a1: A).\lambda (_: (arity g c t0 a1)).\lambda (H2: ((\forall (x: nat).\forall (x0: T).(eq T t0 (lift h x x0)) \to \forall (c2: C).(drop h x c c2) \to arity g c2 x0 a1))).\lambda (a2: A).\lambda (H3: (leq g a1 a2)).\lambda (x: nat).\lambda (x0: T).\lambda (H4: (eq T t0 (lift h x x0))).\lambda (c2: C).\lambda (H5: (drop h x c c2)).arity_repl g c2 x0 a1 (H2 x x0 H4 c2 H5) a2 H3) c1 y a H0))) H.
+
+theorem arity_lift: \forall (g: G).\forall (c2: C).\forall (t: T).\forall (a: A).(arity g c2 t a) \to \forall (c1: C).\forall (h: nat).\forall (d: nat).(drop h d c1 c2) \to arity g c1 (lift h d t) a \def \lambda (g: G).\lambda (c2: C).\lambda (t: T).\lambda (a: A).\lambda (H: (arity g c2 t a)).arity_ind g (\lambda (c: C).\lambda (t0: T).\lambda (a0: A).\forall (c1: C).\forall (h: nat).\forall (d: nat).(drop h d c1 c) \to arity g c1 (lift h d t0) a0) (\lambda (c: C).\lambda (n: nat).\lambda (c1: C).\lambda (h: nat).\lambda (d: nat).\lambda (_: (drop h d c1 c)).eq_ind_r T (TSort n) (\lambda (t0: T).arity g c1 t0 (ASort O n)) (arity_sort g c1 n) (lift h d (TSort n)) (lift_sort n h d)) (\lambda (c: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c (CHead d (Bind Abbr) u))).\lambda (a0: A).\lambda (H1: (arity g d u a0)).\lambda (H2: ((\forall (c1: C).\forall (h: nat).\forall (d0: nat).(drop h d0 c1 d) \to arity g c1 (lift h d0 u) a0))).\lambda (c1: C).\lambda (h: nat).\lambda (d0: nat).\lambda (H3: (drop h d0 c1 c)).lt_le_e i d0 (arity g c1 (lift h d0 (TLRef i)) a0) (\lambda (H4: (lt i d0)).eq_ind_r T (TLRef i) (\lambda (t0: T).arity g c1 t0 a0) (let H5 \def drop_getl_trans_le i d0 (le_S_n i d0 (le_S (S i) d0 H4)) c1 c h H3 (CHead d (Bind Abbr) u) H0 in ex3_2_ind C C (\lambda (e0: C).\lambda (_: C).drop i O c1 e0) (\lambda (e0: C).\lambda (e1: C).drop h (minus d0 i) e0 e1) (\lambda (_: C).\lambda (e1: C).clear e1 (CHead d (Bind Abbr) u)) (arity g c1 (TLRef i) a0) (\lambda (x0: C).\lambda (x1: C).\lambda (H6: (drop i O c1 x0)).\lambda (H7: (drop h (minus d0 i) x0 x1)).\lambda (H8: (clear x1 (CHead d (Bind Abbr) u))).let H9 \def eq_ind nat (minus d0 i) (\lambda (n: nat).drop h n x0 x1) H7 (S (minus d0 (S i))) (minus_x_Sy d0 i H4) in let H10 \def drop_clear_S x1 x0 h (minus d0 (S i)) H9 Abbr d u H8 in ex2_ind C (\lambda (c3: C).clear x0 (CHead c3 (Bind Abbr) (lift h (minus d0 (S i)) u))) (\lambda (c3: C).drop h (minus d0 (S i)) c3 d) (arity g c1 (TLRef i) a0) (\lambda (x: C).\lambda (H11: (clear x0 (CHead x (Bind Abbr) (lift h (minus d0 (S i)) u)))).\lambda (H12: (drop h (minus d0 (S i)) x d)).arity_abbr g c1 x (lift h (minus d0 (S i)) u) i (getl_intro i c1 (CHead x (Bind Abbr) (lift h (minus d0 (S i)) u)) x0 H6 H11) a0 (H2 x h (minus d0 (S i)) H12)) H10) H5) (lift h d0 (TLRef i)) (lift_lref_lt i h d0 H4)) (\lambda (H4: (le d0 i)).eq_ind_r T (TLRef (plus i h)) (\lambda (t0: T).arity g c1 t0 a0) (arity_abbr g c1 d u (plus i h) (drop_getl_trans_ge i c1 c d0 h H3 (CHead d (Bind Abbr) u) H0 H4) a0 H1) (lift h d0 (TLRef i)) (lift_lref_ge i h d0 H4))) (\lambda (c: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c (CHead d (Bind Abst) u))).\lambda (a0: A).\lambda (H1: (arity g d u (asucc g a0))).\lambda (H2: ((\forall (c1: C).\forall (h: nat).\forall (d0: nat).(drop h d0 c1 d) \to arity g c1 (lift h d0 u) (asucc g a0)))).\lambda (c1: C).\lambda (h: nat).\lambda (d0: nat).\lambda (H3: (drop h d0 c1 c)).lt_le_e i d0 (arity g c1 (lift h d0 (TLRef i)) a0) (\lambda (H4: (lt i d0)).eq_ind_r T (TLRef i) (\lambda (t0: T).arity g c1 t0 a0) (let H5 \def drop_getl_trans_le i d0 (le_S_n i d0 (le_S (S i) d0 H4)) c1 c h H3 (CHead d (Bind Abst) u) H0 in ex3_2_ind C C (\lambda (e0: C).\lambda (_: C).drop i O c1 e0) (\lambda (e0: C).\lambda (e1: C).drop h (minus d0 i) e0 e1) (\lambda (_: C).\lambda (e1: C).clear e1 (CHead d (Bind Abst) u)) (arity g c1 (TLRef i) a0) (\lambda (x0: C).\lambda (x1: C).\lambda (H6: (drop i O c1 x0)).\lambda (H7: (drop h (minus d0 i) x0 x1)).\lambda (H8: (clear x1 (CHead d (Bind Abst) u))).let H9 \def eq_ind nat (minus d0 i) (\lambda (n: nat).drop h n x0 x1) H7 (S (minus d0 (S i))) (minus_x_Sy d0 i H4) in let H10 \def drop_clear_S x1 x0 h (minus d0 (S i)) H9 Abst d u H8 in ex2_ind C (\lambda (c3: C).clear x0 (CHead c3 (Bind Abst) (lift h (minus d0 (S i)) u))) (\lambda (c3: C).drop h (minus d0 (S i)) c3 d) (arity g c1 (TLRef i) a0) (\lambda (x: C).\lambda (H11: (clear x0 (CHead x (Bind Abst) (lift h (minus d0 (S i)) u)))).\lambda (H12: (drop h (minus d0 (S i)) x d)).arity_abst g c1 x (lift h (minus d0 (S i)) u) i (getl_intro i c1 (CHead x (Bind Abst) (lift h (minus d0 (S i)) u)) x0 H6 H11) a0 (H2 x h (minus d0 (S i)) H12)) H10) H5) (lift h d0 (TLRef i)) (lift_lref_lt i h d0 H4)) (\lambda (H4: (le d0 i)).eq_ind_r T (TLRef (plus i h)) (\lambda (t0: T).arity g c1 t0 a0) (arity_abst g c1 d u (plus i h) (drop_getl_trans_ge i c1 c d0 h H3 (CHead d (Bind Abst) u) H0 H4) a0 H1) (lift h d0 (TLRef i)) (lift_lref_ge i h d0 H4))) (\lambda (b: B).\lambda (H0: (not (eq B b Abst))).\lambda (c: C).\lambda (u: T).\lambda (a1: A).\lambda (_: (arity g c u a1)).\lambda (H2: ((\forall (c1: C).\forall (h: nat).\forall (d: nat).(drop h d c1 c) \to arity g c1 (lift h d u) a1))).\lambda (t0: T).\lambda (a2: A).\lambda (_: (arity g (CHead c (Bind b) u) t0 a2)).\lambda (H4: ((\forall (c1: C).\forall (h: nat).\forall (d: nat).(drop h d c1 (CHead c (Bind b) u)) \to arity g c1 (lift h d t0) a2))).\lambda (c1: C).\lambda (h: nat).\lambda (d: nat).\lambda (H5: (drop h d c1 c)).eq_ind_r T (THead (Bind b) (lift h d u) (lift h (s (Bind b) d) t0)) (\lambda (t1: T).arity g c1 t1 a2) (arity_bind g b H0 c1 (lift h d u) a1 (H2 c1 h d H5) (lift h (s (Bind b) d) t0) a2 (H4 (CHead c1 (Bind b) (lift h d u)) h (s (Bind b) d) (drop_skip_bind h d c1 c H5 b u))) (lift h d (THead (Bind b) u t0)) (lift_head (Bind b) u t0 h d)) (\lambda (c: C).\lambda (u: T).\lambda (a1: A).\lambda (_: (arity g c u (asucc g a1))).\lambda (H1: ((\forall (c1: C).\forall (h: nat).\forall (d: nat).(drop h d c1 c) \to arity g c1 (lift h d u) (asucc g a1)))).\lambda (t0: T).\lambda (a2: A).\lambda (_: (arity g (CHead c (Bind Abst) u) t0 a2)).\lambda (H3: ((\forall (c1: C).\forall (h: nat).\forall (d: nat).(drop h d c1 (CHead c (Bind Abst) u)) \to arity g c1 (lift h d t0) a2))).\lambda (c1: C).\lambda (h: nat).\lambda (d: nat).\lambda (H4: (drop h d c1 c)).eq_ind_r T (THead (Bind Abst) (lift h d u) (lift h (s (Bind Abst) d) t0)) (\lambda (t1: T).arity g c1 t1 (AHead a1 a2)) (arity_head g c1 (lift h d u) a1 (H1 c1 h d H4) (lift h (s (Bind Abst) d) t0) a2 (H3 (CHead c1 (Bind Abst) (lift h d u)) h (s (Bind Abst) d) (drop_skip_bind h d c1 c H4 Abst u))) (lift h d (THead (Bind Abst) u t0)) (lift_head (Bind Abst) u t0 h d)) (\lambda (c: C).\lambda (u: T).\lambda (a1: A).\lambda (_: (arity g c u a1)).\lambda (H1: ((\forall (c1: C).\forall (h: nat).\forall (d: nat).(drop h d c1 c) \to arity g c1 (lift h d u) a1))).\lambda (t0: T).\lambda (a2: A).\lambda (_: (arity g c t0 (AHead a1 a2))).\lambda (H3: ((\forall (c1: C).\forall (h: nat).\forall (d: nat).(drop h d c1 c) \to arity g c1 (lift h d t0) (AHead a1 a2)))).\lambda (c1: C).\lambda (h: nat).\lambda (d: nat).\lambda (H4: (drop h d c1 c)).eq_ind_r T (THead (Flat Appl) (lift h d u) (lift h (s (Flat Appl) d) t0)) (\lambda (t1: T).arity g c1 t1 a2) (arity_appl g c1 (lift h d u) a1 (H1 c1 h d H4) (lift h (s (Flat Appl) d) t0) a2 (H3 c1 h (s (Flat Appl) d) H4)) (lift h d (THead (Flat Appl) u t0)) (lift_head (Flat Appl) u t0 h d)) (\lambda (c: C).\lambda (u: T).\lambda (a0: A).\lambda (_: (arity g c u (asucc g a0))).\lambda (H1: ((\forall (c1: C).\forall (h: nat).\forall (d: nat).(drop h d c1 c) \to arity g c1 (lift h d u) (asucc g a0)))).\lambda (t0: T).\lambda (_: (arity g c t0 a0)).\lambda (H3: ((\forall (c1: C).\forall (h: nat).\forall (d: nat).(drop h d c1 c) \to arity g c1 (lift h d t0) a0))).\lambda (c1: C).\lambda (h: nat).\lambda (d: nat).\lambda (H4: (drop h d c1 c)).eq_ind_r T (THead (Flat Cast) (lift h d u) (lift h (s (Flat Cast) d) t0)) (\lambda (t1: T).arity g c1 t1 a0) (arity_cast g c1 (lift h d u) a0 (H1 c1 h d H4) (lift h (s (Flat Cast) d) t0) (H3 c1 h (s (Flat Cast) d) H4)) (lift h d (THead (Flat Cast) u t0)) (lift_head (Flat Cast) u t0 h d)) (\lambda (c: C).\lambda (t0: T).\lambda (a1: A).\lambda (_: (arity g c t0 a1)).\lambda (H1: ((\forall (c1: C).\forall (h: nat).\forall (d: nat).(drop h d c1 c) \to arity g c1 (lift h d t0) a1))).\lambda (a2: A).\lambda (H2: (leq g a1 a2)).\lambda (c1: C).\lambda (h: nat).\lambda (d: nat).\lambda (H3: (drop h d c1 c)).arity_repl g c1 (lift h d t0) a1 (H1 c1 h d H3) a2 H2) c2 t a H.
+
+theorem arity_lift1: \forall (g: G).\forall (a: A).\forall (c2: C).\forall (hds: PList).\forall (c1: C).\forall (t: T).(drop1 hds c1 c2) \to (arity g c2 t a) \to arity g c1 (lift1 hds t) a \def \lambda (g: G).\lambda (a: A).\lambda (c2: C).\lambda (hds: PList).PList_ind (\lambda (p: PList).\forall (c1: C).\forall (t: T).(drop1 p c1 c2) \to (arity g c2 t a) \to arity g c1 (lift1 p t) a) (\lambda (c1: C).\lambda (t: T).\lambda (H: (drop1 PNil c1 c2)).\lambda (H0: (arity g c2 t a)).let H1 \def match H return (\lambda (p: PList).\lambda (c: C).\lambda (c0: C).(eq PList p PNil) \to (eq C c c1) \to (eq C c0 c2) \to arity g c1 t a) with [(drop1_nil c) \Rightarrow (\lambda (_: (eq PList PNil PNil)).\lambda (H2: (eq C c c1)).\lambda (H3: (eq C c c2)).eq_ind C c1 (\lambda (c0: C).(eq C c0 c2) \to arity g c1 t a) (\lambda (H4: (eq C c1 c2)).eq_ind C c2 (\lambda (c0: C).arity g c0 t a) H0 c1 (sym_eq C c1 c2 H4)) c (sym_eq C c c1 H2) H3) | (drop1_cons c0 c3 h d H1 c4 hds H2) \Rightarrow (\lambda (H3: (eq PList (PCons h d hds) PNil)).\lambda (H4: (eq C c0 c1)).\lambda (H5: (eq C c4 c2)).(let H6 \def eq_ind PList (PCons h d hds) (\lambda (e: PList).match e return (Prop) with [PNil \Rightarrow False | (PCons _ _ _) \Rightarrow True]) I PNil H3 in False_ind ((eq C c0 c1) \to (eq C c4 c2) \to (drop h d c0 c3) \to (drop1 hds c3 c4) \to arity g c1 t a) H6) H4 H5 H1 H2)] in H1 (refl_equal PList PNil) (refl_equal C c1) (refl_equal C c2)) (\lambda (n: nat).\lambda (n0: nat).\lambda (p: PList).\lambda (H: ((\forall (c1: C).\forall (t: T).(drop1 p c1 c2) \to (arity g c2 t a) \to arity g c1 (lift1 p t) a))).\lambda (c1: C).\lambda (t: T).\lambda (H0: (drop1 (PCons n n0 p) c1 c2)).\lambda (H1: (arity g c2 t a)).let H2 \def match H0 return (\lambda (p0: PList).\lambda (c: C).\lambda (c0: C).(eq PList p0 (PCons n n0 p)) \to (eq C c c1) \to (eq C c0 c2) \to arity g c1 (lift n n0 (lift1 p t)) a) with [(drop1_nil c) \Rightarrow (\lambda (H2: (eq PList PNil (PCons n n0 p))).\lambda (H3: (eq C c c1)).\lambda (H4: (eq C c c2)).(let H5 \def eq_ind PList PNil (\lambda (e: PList).match e return (Prop) with [PNil \Rightarrow True | (PCons _ _ _) \Rightarrow False]) I (PCons n n0 p) H2 in False_ind ((eq C c c1) \to (eq C c c2) \to arity g c1 (lift n n0 (lift1 p t)) a) H5) H3 H4) | (drop1_cons c0 c3 h d H2 c4 hds H3) \Rightarrow (\lambda (H4: (eq PList (PCons h d hds) (PCons n n0 p))).\lambda (H5: (eq C c0 c1)).\lambda (H6: (eq C c4 c2)).(let H7 \def f_equal PList PList (\lambda (e: PList).match e return PList with [PNil \Rightarrow hds | (PCons _ _ p) \Rightarrow p]) (PCons h d hds) (PCons n n0 p) H4 in (let H8 \def f_equal PList nat (\lambda (e: PList).match e return nat with [PNil \Rightarrow d | (PCons _ n _) \Rightarrow n]) (PCons h d hds) (PCons n n0 p) H4 in (let H9 \def f_equal PList nat (\lambda (e: PList).match e return nat with [PNil \Rightarrow h | (PCons n _ _) \Rightarrow n]) (PCons h d hds) (PCons n n0 p) H4 in eq_ind nat n (\lambda (n1: nat).(eq nat d n0) \to (eq PList hds p) \to (eq C c0 c1) \to (eq C c4 c2) \to (drop n1 d c0 c3) \to (drop1 hds c3 c4) \to arity g c1 (lift n n0 (lift1 p t)) a) (\lambda (H10: (eq nat d n0)).eq_ind nat n0 (\lambda (n1: nat).(eq PList hds p) \to (eq C c0 c1) \to (eq C c4 c2) \to (drop n n1 c0 c3) \to (drop1 hds c3 c4) \to arity g c1 (lift n n0 (lift1 p t)) a) (\lambda (H11: (eq PList hds p)).eq_ind PList p (\lambda (p0: PList).(eq C c0 c1) \to (eq C c4 c2) \to (drop n n0 c0 c3) \to (drop1 p0 c3 c4) \to arity g c1 (lift n n0 (lift1 p t)) a) (\lambda (H12: (eq C c0 c1)).eq_ind C c1 (\lambda (c: C).(eq C c4 c2) \to (drop n n0 c c3) \to (drop1 p c3 c4) \to arity g c1 (lift n n0 (lift1 p t)) a) (\lambda (H13: (eq C c4 c2)).eq_ind C c2 (\lambda (c: C).(drop n n0 c1 c3) \to (drop1 p c3 c) \to arity g c1 (lift n n0 (lift1 p t)) a) (\lambda (H14: (drop n n0 c1 c3)).\lambda (H15: (drop1 p c3 c2)).arity_lift g c3 (lift1 p t) a (H c3 t H15 H1) c1 n n0 H14) c4 (sym_eq C c4 c2 H13)) c0 (sym_eq C c0 c1 H12)) hds (sym_eq PList hds p H11)) d (sym_eq nat d n0 H10)) h (sym_eq nat h n H9)) H8) H7) H5 H6 H2 H3)] in H2 (refl_equal PList (PCons n n0 p)) (refl_equal C c1) (refl_equal C c2)) hds.
+
+theorem arity_mono: \forall (g: G).\forall (c: C).\forall (t: T).\forall (a1: A).(arity g c t a1) \to \forall (a2: A).(arity g c t a2) \to leq g a1 a2 \def \lambda (g: G).\lambda (c: C).\lambda (t: T).\lambda (a1: A).\lambda (H: (arity g c t a1)).arity_ind g (\lambda (c0: C).\lambda (t0: T).\lambda (a: A).\forall (a2: A).(arity g c0 t0 a2) \to leq g a a2) (\lambda (c0: C).\lambda (n: nat).\lambda (a2: A).\lambda (H0: (arity g c0 (TSort n) a2)).leq_sym g a2 (ASort O n) (arity_gen_sort g c0 n a2 H0)) (\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c0 (CHead d (Bind Abbr) u))).\lambda (a: A).\lambda (_: (arity g d u a)).\lambda (H2: ((\forall (a2: A).(arity g d u a2) \to leq g a a2))).\lambda (a2: A).\lambda (H3: (arity g c0 (TLRef i) a2)).let H4 \def arity_gen_lref g c0 i a2 H3 in or_ind (ex2_2 C T (\lambda (d0: C).\lambda (u0: T).getl i c0 (CHead d0 (Bind Abbr) u0)) (\lambda (d0: C).\lambda (u0: T).arity g d0 u0 a2)) (ex2_2 C T (\lambda (d0: C).\lambda (u0: T).getl i c0 (CHead d0 (Bind Abst) u0)) (\lambda (d0: C).\lambda (u0: T).arity g d0 u0 (asucc g a2))) (leq g a a2) (\lambda (H5: (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).arity g d u a2))).ex2_2_ind C T (\lambda (d0: C).\lambda (u0: T).getl i c0 (CHead d0 (Bind Abbr) u0)) (\lambda (d0: C).\lambda (u0: T).arity g d0 u0 a2) (leq g a a2) (\lambda (x0: C).\lambda (x1: T).\lambda (H6: (getl i c0 (CHead x0 (Bind Abbr) x1))).\lambda (H7: (arity g x0 x1 a2)).let H8 \def eq_ind C (CHead d (Bind Abbr) u) (\lambda (c: C).getl i c0 c) H0 (CHead x0 (Bind Abbr) x1) (getl_mono c0 (CHead d (Bind Abbr) u) i H0 (CHead x0 (Bind Abbr) x1) H6) in let H9 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u) (CHead x0 (Bind Abbr) x1) (getl_mono c0 (CHead d (Bind Abbr) u) i H0 (CHead x0 (Bind Abbr) x1) H6) in (let H10 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u) (CHead x0 (Bind Abbr) x1) (getl_mono c0 (CHead d (Bind Abbr) u) i H0 (CHead x0 (Bind Abbr) x1) H6) in \lambda (H11: (eq C d x0)).let H12 \def eq_ind_r T x1 (\lambda (t: T).getl i c0 (CHead x0 (Bind Abbr) t)) H8 u H10 in let H13 \def eq_ind_r T x1 (\lambda (t: T).arity g x0 t a2) H7 u H10 in let H14 \def eq_ind_r C x0 (\lambda (c: C).getl i c0 (CHead c (Bind Abbr) u)) H12 d H11 in let H15 \def eq_ind_r C x0 (\lambda (c: C).arity g c u a2) H13 d H11 in H2 a2 H15) H9) H5) (\lambda (H5: (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abst) u)) (\lambda (d: C).\lambda (u: T).arity g d u (asucc g a2)))).ex2_2_ind C T (\lambda (d0: C).\lambda (u0: T).getl i c0 (CHead d0 (Bind Abst) u0)) (\lambda (d0: C).\lambda (u0: T).arity g d0 u0 (asucc g a2)) (leq g a a2) (\lambda (x0: C).\lambda (x1: T).\lambda (H6: (getl i c0 (CHead x0 (Bind Abst) x1))).\lambda (_: (arity g x0 x1 (asucc g a2))).let H8 \def eq_ind C (CHead d (Bind Abbr) u) (\lambda (c: C).getl i c0 c) H0 (CHead x0 (Bind Abst) x1) (getl_mono c0 (CHead d (Bind Abbr) u) i H0 (CHead x0 (Bind Abst) x1) H6) in let H9 \def eq_ind C (CHead d (Bind Abbr) u) (\lambda (ee: C).match ee return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow True | Abst \Rightarrow False | Void \Rightarrow False]) | (Flat _) \Rightarrow False])]) I (CHead x0 (Bind Abst) x1) (getl_mono c0 (CHead d (Bind Abbr) u) i H0 (CHead x0 (Bind Abst) x1) H6) in False_ind (leq g a a2) H9) H5) H4) (\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c0 (CHead d (Bind Abst) u))).\lambda (a: A).\lambda (_: (arity g d u (asucc g a))).\lambda (H2: ((\forall (a2: A).(arity g d u a2) \to leq g (asucc g a) a2))).\lambda (a2: A).\lambda (H3: (arity g c0 (TLRef i) a2)).let H4 \def arity_gen_lref g c0 i a2 H3 in or_ind (ex2_2 C T (\lambda (d0: C).\lambda (u0: T).getl i c0 (CHead d0 (Bind Abbr) u0)) (\lambda (d0: C).\lambda (u0: T).arity g d0 u0 a2)) (ex2_2 C T (\lambda (d0: C).\lambda (u0: T).getl i c0 (CHead d0 (Bind Abst) u0)) (\lambda (d0: C).\lambda (u0: T).arity g d0 u0 (asucc g a2))) (leq g a a2) (\lambda (H5: (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).arity g d u a2))).ex2_2_ind C T (\lambda (d0: C).\lambda (u0: T).getl i c0 (CHead d0 (Bind Abbr) u0)) (\lambda (d0: C).\lambda (u0: T).arity g d0 u0 a2) (leq g a a2) (\lambda (x0: C).\lambda (x1: T).\lambda (H6: (getl i c0 (CHead x0 (Bind Abbr) x1))).\lambda (_: (arity g x0 x1 a2)).let H8 \def eq_ind C (CHead d (Bind Abst) u) (\lambda (c: C).getl i c0 c) H0 (CHead x0 (Bind Abbr) x1) (getl_mono c0 (CHead d (Bind Abst) u) i H0 (CHead x0 (Bind Abbr) x1) H6) in let H9 \def eq_ind C (CHead d (Bind Abst) u) (\lambda (ee: C).match ee return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow False | Abst \Rightarrow True | Void \Rightarrow False]) | (Flat _) \Rightarrow False])]) I (CHead x0 (Bind Abbr) x1) (getl_mono c0 (CHead d (Bind Abst) u) i H0 (CHead x0 (Bind Abbr) x1) H6) in False_ind (leq g a a2) H9) H5) (\lambda (H5: (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c0 (CHead d (Bind Abst) u)) (\lambda (d: C).\lambda (u: T).arity g d u (asucc g a2)))).ex2_2_ind C T (\lambda (d0: C).\lambda (u0: T).getl i c0 (CHead d0 (Bind Abst) u0)) (\lambda (d0: C).\lambda (u0: T).arity g d0 u0 (asucc g a2)) (leq g a a2) (\lambda (x0: C).\lambda (x1: T).\lambda (H6: (getl i c0 (CHead x0 (Bind Abst) x1))).\lambda (H7: (arity g x0 x1 (asucc g a2))).let H8 \def eq_ind C (CHead d (Bind Abst) u) (\lambda (c: C).getl i c0 c) H0 (CHead x0 (Bind Abst) x1) (getl_mono c0 (CHead d (Bind Abst) u) i H0 (CHead x0 (Bind Abst) x1) H6) in let H9 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abst) u) (CHead x0 (Bind Abst) x1) (getl_mono c0 (CHead d (Bind Abst) u) i H0 (CHead x0 (Bind Abst) x1) H6) in (let H10 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abst) u) (CHead x0 (Bind Abst) x1) (getl_mono c0 (CHead d (Bind Abst) u) i H0 (CHead x0 (Bind Abst) x1) H6) in \lambda (H11: (eq C d x0)).let H12 \def eq_ind_r T x1 (\lambda (t: T).getl i c0 (CHead x0 (Bind Abst) t)) H8 u H10 in let H13 \def eq_ind_r T x1 (\lambda (t: T).arity g x0 t (asucc g a2)) H7 u H10 in let H14 \def eq_ind_r C x0 (\lambda (c: C).getl i c0 (CHead c (Bind Abst) u)) H12 d H11 in let H15 \def eq_ind_r C x0 (\lambda (c: C).arity g c u (asucc g a2)) H13 d H11 in asucc_inj g a a2 (H2 (asucc g a2) H15)) H9) H5) H4) (\lambda (b: B).\lambda (H0: (not (eq B b Abst))).\lambda (c0: C).\lambda (u: T).\lambda (a2: A).\lambda (_: (arity g c0 u a2)).\lambda (_: ((\forall (a3: A).(arity g c0 u a3) \to leq g a2 a3))).\lambda (t0: T).\lambda (a3: A).\lambda (_: (arity g (CHead c0 (Bind b) u) t0 a3)).\lambda (H4: ((\forall (a2: A).(arity g (CHead c0 (Bind b) u) t0 a2) \to leq g a3 a2))).\lambda (a0: A).\lambda (H5: (arity g c0 (THead (Bind b) u t0) a0)).let H6 \def arity_gen_bind b H0 g c0 u t0 a0 H5 in ex2_ind A (\lambda (a4: A).arity g c0 u a4) (\lambda (_: A).arity g (CHead c0 (Bind b) u) t0 a0) (leq g a3 a0) (\lambda (x: A).\lambda (_: (arity g c0 u x)).\lambda (H8: (arity g (CHead c0 (Bind b) u) t0 a0)).H4 a0 H8) H6) (\lambda (c0: C).\lambda (u: T).\lambda (a2: A).\lambda (_: (arity g c0 u (asucc g a2))).\lambda (H1: ((\forall (a3: A).(arity g c0 u a3) \to leq g (asucc g a2) a3))).\lambda (t0: T).\lambda (a3: A).\lambda (_: (arity g (CHead c0 (Bind Abst) u) t0 a3)).\lambda (H3: ((\forall (a2: A).(arity g (CHead c0 (Bind Abst) u) t0 a2) \to leq g a3 a2))).\lambda (a0: A).\lambda (H4: (arity g c0 (THead (Bind Abst) u t0) a0)).let H5 \def arity_gen_abst g c0 u t0 a0 H4 in ex3_2_ind A A (\lambda (a4: A).\lambda (a5: A).eq A a0 (AHead a4 a5)) (\lambda (a4: A).\lambda (_: A).arity g c0 u (asucc g a4)) (\lambda (_: A).\lambda (a5: A).arity g (CHead c0 (Bind Abst) u) t0 a5) (leq g (AHead a2 a3) a0) (\lambda (x0: A).\lambda (x1: A).\lambda (H6: (eq A a0 (AHead x0 x1))).\lambda (H7: (arity g c0 u (asucc g x0))).\lambda (H8: (arity g (CHead c0 (Bind Abst) u) t0 x1)).eq_ind_r A (AHead x0 x1) (\lambda (a: A).leq g (AHead a2 a3) a) (leq_head g a2 x0 (asucc_inj g a2 x0 (H1 (asucc g x0) H7)) a3 x1 (H3 x1 H8)) a0 H6) H5) (\lambda (c0: C).\lambda (u: T).\lambda (a2: A).\lambda (_: (arity g c0 u a2)).\lambda (_: ((\forall (a3: A).(arity g c0 u a3) \to leq g a2 a3))).\lambda (t0: T).\lambda (a3: A).\lambda (_: (arity g c0 t0 (AHead a2 a3))).\lambda (H3: ((\forall (a4: A).(arity g c0 t0 a4) \to leq g (AHead a2 a3) a4))).\lambda (a0: A).\lambda (H4: (arity g c0 (THead (Flat Appl) u t0) a0)).let H5 \def arity_gen_appl g c0 u t0 a0 H4 in ex2_ind A (\lambda (a4: A).arity g c0 u a4) (\lambda (a4: A).arity g c0 t0 (AHead a4 a0)) (leq g a3 a0) (\lambda (x: A).\lambda (_: (arity g c0 u x)).\lambda (H7: (arity g c0 t0 (AHead x a0))).ahead_inj_snd g a2 a3 x a0 (H3 (AHead x a0) H7)) H5) (\lambda (c0: C).\lambda (u: T).\lambda (a: A).\lambda (_: (arity g c0 u (asucc g a))).\lambda (_: ((\forall (a2: A).(arity g c0 u a2) \to leq g (asucc g a) a2))).\lambda (t0: T).\lambda (_: (arity g c0 t0 a)).\lambda (H3: ((\forall (a2: A).(arity g c0 t0 a2) \to leq g a a2))).\lambda (a2: A).\lambda (H4: (arity g c0 (THead (Flat Cast) u t0) a2)).let H5 \def arity_gen_cast g c0 u t0 a2 H4 in and_ind (arity g c0 u (asucc g a2)) (arity g c0 t0 a2) (leq g a a2) (\lambda (_: (arity g c0 u (asucc g a2))).\lambda (H7: (arity g c0 t0 a2)).H3 a2 H7) H5) (\lambda (c0: C).\lambda (t0: T).\lambda (a2: A).\lambda (_: (arity g c0 t0 a2)).\lambda (H1: ((\forall (a3: A).(arity g c0 t0 a3) \to leq g a2 a3))).\lambda (a3: A).\lambda (H2: (leq g a2 a3)).\lambda (a0: A).\lambda (H3: (arity g c0 t0 a0)).leq_trans g a3 a2 (leq_sym g a2 a3 H2) a0 (H1 a0 H3)) c t a1 H.
+
+theorem arity_cimp_conf: \forall (g: G).\forall (c1: C).\forall (t: T).\forall (a: A).(arity g c1 t a) \to \forall (c2: C).(cimp c1 c2) \to arity g c2 t a \def \lambda (g: G).\lambda (c1: C).\lambda (t: T).\lambda (a: A).\lambda (H: (arity g c1 t a)).arity_ind g (\lambda (c: C).\lambda (t0: T).\lambda (a0: A).\forall (c2: C).(cimp c c2) \to arity g c2 t0 a0) (\lambda (c: C).\lambda (n: nat).\lambda (c2: C).\lambda (_: (cimp c c2)).arity_sort g c2 n) (\lambda (c: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c (CHead d (Bind Abbr) u))).\lambda (a0: A).\lambda (_: (arity g d u a0)).\lambda (H2: ((\forall (c2: C).(cimp d c2) \to arity g c2 u a0))).\lambda (c2: C).\lambda (H3: (cimp c c2)).let H_x \def H3 Abbr d u i H0 in let H4 \def H_x in ex_ind C (\lambda (d2: C).getl i c2 (CHead d2 (Bind Abbr) u)) (arity g c2 (TLRef i) a0) (\lambda (x: C).\lambda (H5: (getl i c2 (CHead x (Bind Abbr) u))).let H_x0 \def cimp_getl_conf c c2 H3 Abbr d u i H0 in let H6 \def H_x0 in ex2_ind C (\lambda (d2: C).cimp d d2) (\lambda (d2: C).getl i c2 (CHead d2 (Bind Abbr) u)) (arity g c2 (TLRef i) a0) (\lambda (x0: C).\lambda (H7: (cimp d x0)).\lambda (H8: (getl i c2 (CHead x0 (Bind Abbr) u))).let H9 \def eq_ind C (CHead x (Bind Abbr) u) (\lambda (c: C).getl i c2 c) H5 (CHead x0 (Bind Abbr) u) (getl_mono c2 (CHead x (Bind Abbr) u) i H5 (CHead x0 (Bind Abbr) u) H8) in let H10 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow x | (CHead c _ _) \Rightarrow c]) (CHead x (Bind Abbr) u) (CHead x0 (Bind Abbr) u) (getl_mono c2 (CHead x (Bind Abbr) u) i H5 (CHead x0 (Bind Abbr) u) H8) in let H11 \def eq_ind_r C x0 (\lambda (c: C).getl i c2 (CHead c (Bind Abbr) u)) H9 x H10 in let H12 \def eq_ind_r C x0 (\lambda (c: C).cimp d c) H7 x H10 in arity_abbr g c2 x u i H11 a0 (H2 x H12)) H6) H4) (\lambda (c: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c (CHead d (Bind Abst) u))).\lambda (a0: A).\lambda (_: (arity g d u (asucc g a0))).\lambda (H2: ((\forall (c2: C).(cimp d c2) \to arity g c2 u (asucc g a0)))).\lambda (c2: C).\lambda (H3: (cimp c c2)).let H_x \def H3 Abst d u i H0 in let H4 \def H_x in ex_ind C (\lambda (d2: C).getl i c2 (CHead d2 (Bind Abst) u)) (arity g c2 (TLRef i) a0) (\lambda (x: C).\lambda (H5: (getl i c2 (CHead x (Bind Abst) u))).let H_x0 \def cimp_getl_conf c c2 H3 Abst d u i H0 in let H6 \def H_x0 in ex2_ind C (\lambda (d2: C).cimp d d2) (\lambda (d2: C).getl i c2 (CHead d2 (Bind Abst) u)) (arity g c2 (TLRef i) a0) (\lambda (x0: C).\lambda (H7: (cimp d x0)).\lambda (H8: (getl i c2 (CHead x0 (Bind Abst) u))).let H9 \def eq_ind C (CHead x (Bind Abst) u) (\lambda (c: C).getl i c2 c) H5 (CHead x0 (Bind Abst) u) (getl_mono c2 (CHead x (Bind Abst) u) i H5 (CHead x0 (Bind Abst) u) H8) in let H10 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow x | (CHead c _ _) \Rightarrow c]) (CHead x (Bind Abst) u) (CHead x0 (Bind Abst) u) (getl_mono c2 (CHead x (Bind Abst) u) i H5 (CHead x0 (Bind Abst) u) H8) in let H11 \def eq_ind_r C x0 (\lambda (c: C).getl i c2 (CHead c (Bind Abst) u)) H9 x H10 in let H12 \def eq_ind_r C x0 (\lambda (c: C).cimp d c) H7 x H10 in arity_abst g c2 x u i H11 a0 (H2 x H12)) H6) H4) (\lambda (b: B).\lambda (H0: (not (eq B b Abst))).\lambda (c: C).\lambda (u: T).\lambda (a1: A).\lambda (_: (arity g c u a1)).\lambda (H2: ((\forall (c2: C).(cimp c c2) \to arity g c2 u a1))).\lambda (t0: T).\lambda (a2: A).\lambda (_: (arity g (CHead c (Bind b) u) t0 a2)).\lambda (H4: ((\forall (c2: C).(cimp (CHead c (Bind b) u) c2) \to arity g c2 t0 a2))).\lambda (c2: C).\lambda (H5: (cimp c c2)).arity_bind g b H0 c2 u a1 (H2 c2 H5) t0 a2 (H4 (CHead c2 (Bind b) u) (cimp_bind c c2 H5 b u))) (\lambda (c: C).\lambda (u: T).\lambda (a1: A).\lambda (_: (arity g c u (asucc g a1))).\lambda (H1: ((\forall (c2: C).(cimp c c2) \to arity g c2 u (asucc g a1)))).\lambda (t0: T).\lambda (a2: A).\lambda (_: (arity g (CHead c (Bind Abst) u) t0 a2)).\lambda (H3: ((\forall (c2: C).(cimp (CHead c (Bind Abst) u) c2) \to arity g c2 t0 a2))).\lambda (c2: C).\lambda (H4: (cimp c c2)).arity_head g c2 u a1 (H1 c2 H4) t0 a2 (H3 (CHead c2 (Bind Abst) u) (cimp_bind c c2 H4 Abst u))) (\lambda (c: C).\lambda (u: T).\lambda (a1: A).\lambda (_: (arity g c u a1)).\lambda (H1: ((\forall (c2: C).(cimp c c2) \to arity g c2 u a1))).\lambda (t0: T).\lambda (a2: A).\lambda (_: (arity g c t0 (AHead a1 a2))).\lambda (H3: ((\forall (c2: C).(cimp c c2) \to arity g c2 t0 (AHead a1 a2)))).\lambda (c2: C).\lambda (H4: (cimp c c2)).arity_appl g c2 u a1 (H1 c2 H4) t0 a2 (H3 c2 H4)) (\lambda (c: C).\lambda (u: T).\lambda (a0: A).\lambda (_: (arity g c u (asucc g a0))).\lambda (H1: ((\forall (c2: C).(cimp c c2) \to arity g c2 u (asucc g a0)))).\lambda (t0: T).\lambda (_: (arity g c t0 a0)).\lambda (H3: ((\forall (c2: C).(cimp c c2) \to arity g c2 t0 a0))).\lambda (c2: C).\lambda (H4: (cimp c c2)).arity_cast g c2 u a0 (H1 c2 H4) t0 (H3 c2 H4)) (\lambda (c: C).\lambda (t0: T).\lambda (a1: A).\lambda (_: (arity g c t0 a1)).\lambda (H1: ((\forall (c2: C).(cimp c c2) \to arity g c2 t0 a1))).\lambda (a2: A).\lambda (H2: (leq g a1 a2)).\lambda (c2: C).\lambda (H3: (cimp c c2)).arity_repl g c2 t0 a1 (H1 c2 H3) a2 H2) c1 t a H.
+
+theorem arity_aprem: \forall (g: G).\forall (c: C).\forall (t: T).\forall (a: A).(arity g c t a) \to \forall (i: nat).\forall (b: A).(aprem i a b) \to ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d c) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b)) \def \lambda (g: G).\lambda (c: C).\lambda (t: T).\lambda (a: A).\lambda (H: (arity g c t a)).arity_ind g (\lambda (c0: C).\lambda (_: T).\lambda (a0: A).\forall (i: nat).\forall (b: A).(aprem i a0 b) \to ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))) (\lambda (c0: C).\lambda (n: nat).\lambda (i: nat).\lambda (b: A).\lambda (H0: (aprem i (ASort O n) b)).let H1 \def match H0 return (\lambda (n0: nat).\lambda (a: A).\lambda (a0: A).(eq nat n0 i) \to (eq A a (ASort O n)) \to (eq A a0 b) \to ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))) with [(aprem_zero a1 a2) \Rightarrow (\lambda (H0: (eq nat O i)).\lambda (H1: (eq A (AHead a1 a2) (ASort O n))).\lambda (H2: (eq A a1 b)).eq_ind nat O (\lambda (n0: nat).(eq A (AHead a1 a2) (ASort O n)) \to (eq A a1 b) \to ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus n0 j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))) (\lambda (H3: (eq A (AHead a1 a2) (ASort O n))).let H4 \def eq_ind A (AHead a1 a2) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow False | (AHead _ _) \Rightarrow True]) I (ASort O n) H3 in False_ind ((eq A a1 b) \to ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus O j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))) H4) i H0 H1 H2) | (aprem_succ a2 a i0 H0 a1) \Rightarrow (\lambda (H1: (eq nat (S i0) i)).\lambda (H2: (eq A (AHead a1 a2) (ASort O n))).\lambda (H3: (eq A a b)).eq_ind nat (S i0) (\lambda (n0: nat).(eq A (AHead a1 a2) (ASort O n)) \to (eq A a b) \to (aprem i0 a2 a) \to ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus n0 j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))) (\lambda (H4: (eq A (AHead a1 a2) (ASort O n))).let H5 \def eq_ind A (AHead a1 a2) (\lambda (e: A).match e return (Prop) with [(ASort _ _) \Rightarrow False | (AHead _ _) \Rightarrow True]) I (ASort O n) H4 in False_ind ((eq A a b) \to (aprem i0 a2 a) \to ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus (S i0) j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))) H5) i H1 H2 H3 H0)] in H1 (refl_equal nat i) (refl_equal A (ASort O n)) (refl_equal A b)) (\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c0 (CHead d (Bind Abbr) u))).\lambda (a0: A).\lambda (_: (arity g d u a0)).\lambda (H2: ((\forall (i: nat).\forall (b: A).(aprem i a0 b) \to ex2_3 C T nat (\lambda (d0: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d0 d) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))))).\lambda (i0: nat).\lambda (b: A).\lambda (H3: (aprem i0 a0 b)).let H_x \def H2 i0 b H3 in let H4 \def H_x in ex2_3_ind C T nat (\lambda (d0: C).\lambda (_: T).\lambda (j: nat).drop (plus i0 j) O d0 d) (\lambda (d0: C).\lambda (u0: T).\lambda (_: nat).arity g d0 u0 (asucc g b)) (ex2_3 C T nat (\lambda (d0: C).\lambda (_: T).\lambda (j: nat).drop (plus i0 j) O d0 c0) (\lambda (d0: C).\lambda (u0: T).\lambda (_: nat).arity g d0 u0 (asucc g b))) (\lambda (x0: C).\lambda (x1: T).\lambda (x2: nat).\lambda (H5: (drop (plus i0 x2) O x0 d)).\lambda (H6: (arity g x0 x1 (asucc g b))).let H_x0 \def getl_drop_conf_rev (plus i0 x2) x0 d H5 Abbr c0 u i H0 in let H7 \def H_x0 in ex2_ind C (\lambda (c1: C).drop (plus i0 x2) O c1 c0) (\lambda (c1: C).drop (S i) (plus i0 x2) c1 x0) (ex2_3 C T nat (\lambda (d0: C).\lambda (_: T).\lambda (j: nat).drop (plus i0 j) O d0 c0) (\lambda (d0: C).\lambda (u0: T).\lambda (_: nat).arity g d0 u0 (asucc g b))) (\lambda (x: C).\lambda (H8: (drop (plus i0 x2) O x c0)).\lambda (H9: (drop (S i) (plus i0 x2) x x0)).ex2_3_intro C T nat (\lambda (d0: C).\lambda (_: T).\lambda (j: nat).drop (plus i0 j) O d0 c0) (\lambda (d0: C).\lambda (u0: T).\lambda (_: nat).arity g d0 u0 (asucc g b)) x (lift (S i) (plus i0 x2) x1) x2 H8 (arity_lift g x0 x1 (asucc g b) H6 x (S i) (plus i0 x2) H9)) H7) H4) (\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c0 (CHead d (Bind Abst) u))).\lambda (a0: A).\lambda (_: (arity g d u (asucc g a0))).\lambda (H2: ((\forall (i: nat).\forall (b: A).(aprem i (asucc g a0) b) \to ex2_3 C T nat (\lambda (d0: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d0 d) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))))).\lambda (i0: nat).\lambda (b: A).\lambda (H3: (aprem i0 a0 b)).let H4 \def H2 i0 b (aprem_asucc g a0 b i0 H3) in ex2_3_ind C T nat (\lambda (d0: C).\lambda (_: T).\lambda (j: nat).drop (plus i0 j) O d0 d) (\lambda (d0: C).\lambda (u0: T).\lambda (_: nat).arity g d0 u0 (asucc g b)) (ex2_3 C T nat (\lambda (d0: C).\lambda (_: T).\lambda (j: nat).drop (plus i0 j) O d0 c0) (\lambda (d0: C).\lambda (u0: T).\lambda (_: nat).arity g d0 u0 (asucc g b))) (\lambda (x0: C).\lambda (x1: T).\lambda (x2: nat).\lambda (H5: (drop (plus i0 x2) O x0 d)).\lambda (H6: (arity g x0 x1 (asucc g b))).let H_x \def getl_drop_conf_rev (plus i0 x2) x0 d H5 Abst c0 u i H0 in let H7 \def H_x in ex2_ind C (\lambda (c1: C).drop (plus i0 x2) O c1 c0) (\lambda (c1: C).drop (S i) (plus i0 x2) c1 x0) (ex2_3 C T nat (\lambda (d0: C).\lambda (_: T).\lambda (j: nat).drop (plus i0 j) O d0 c0) (\lambda (d0: C).\lambda (u0: T).\lambda (_: nat).arity g d0 u0 (asucc g b))) (\lambda (x: C).\lambda (H8: (drop (plus i0 x2) O x c0)).\lambda (H9: (drop (S i) (plus i0 x2) x x0)).ex2_3_intro C T nat (\lambda (d0: C).\lambda (_: T).\lambda (j: nat).drop (plus i0 j) O d0 c0) (\lambda (d0: C).\lambda (u0: T).\lambda (_: nat).arity g d0 u0 (asucc g b)) x (lift (S i) (plus i0 x2) x1) x2 H8 (arity_lift g x0 x1 (asucc g b) H6 x (S i) (plus i0 x2) H9)) H7) H4) (\lambda (b: B).\lambda (_: (not (eq B b Abst))).\lambda (c0: C).\lambda (u: T).\lambda (a1: A).\lambda (_: (arity g c0 u a1)).\lambda (_: ((\forall (i: nat).\forall (b: A).(aprem i a1 b) \to ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))))).\lambda (t0: T).\lambda (a2: A).\lambda (_: (arity g (CHead c0 (Bind b) u) t0 a2)).\lambda (H4: ((\forall (i: nat).\forall (b0: A).(aprem i a2 b0) \to ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d (CHead c0 (Bind b) u)) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b0))))).\lambda (i: nat).\lambda (b0: A).\lambda (H5: (aprem i a2 b0)).let H_x \def H4 i b0 H5 in let H6 \def H_x in ex2_3_ind C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d (CHead c0 (Bind b) u)) (\lambda (d: C).\lambda (u0: T).\lambda (_: nat).arity g d u0 (asucc g b0)) (ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d c0) (\lambda (d: C).\lambda (u0: T).\lambda (_: nat).arity g d u0 (asucc g b0))) (\lambda (x0: C).\lambda (x1: T).\lambda (x2: nat).\lambda (H7: (drop (plus i x2) O x0 (CHead c0 (Bind b) u))).\lambda (H8: (arity g x0 x1 (asucc g b0))).let H9 \def eq_ind nat (S (plus i x2)) (\lambda (n: nat).drop n O x0 c0) (drop_S b x0 c0 u (plus i x2) H7) (plus i (S x2)) (plus_n_Sm i x2) in ex2_3_intro C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d c0) (\lambda (d: C).\lambda (u0: T).\lambda (_: nat).arity g d u0 (asucc g b0)) x0 x1 (S x2) H9 H8) H6) (\lambda (c0: C).\lambda (u: T).\lambda (a1: A).\lambda (H0: (arity g c0 u (asucc g a1))).\lambda (_: ((\forall (i: nat).\forall (b: A).(aprem i (asucc g a1) b) \to ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))))).\lambda (t0: T).\lambda (a2: A).\lambda (_: (arity g (CHead c0 (Bind Abst) u) t0 a2)).\lambda (H3: ((\forall (i: nat).\forall (b: A).(aprem i a2 b) \to ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d (CHead c0 (Bind Abst) u)) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))))).\lambda (i: nat).\lambda (b: A).\lambda (H4: (aprem i (AHead a1 a2) b)).(match i return (\lambda (n: nat).(aprem n (AHead a1 a2) b) \to ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus n j) O d c0) (\lambda (d: C).\lambda (u0: T).\lambda (_: nat).arity g d u0 (asucc g b))) with [O \Rightarrow (\lambda (H5: (aprem O (AHead a1 a2) b)).let H6 \def match H5 return (\lambda (n: nat).\lambda (a: A).\lambda (a0: A).(eq nat n O) \to (eq A a (AHead a1 a2)) \to (eq A a0 b) \to ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus O j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))) with [(aprem_zero a0 a3) \Rightarrow (\lambda (_: (eq nat O O)).\lambda (H5: (eq A (AHead a0 a3) (AHead a1 a2))).\lambda (H6: (eq A a0 b)).(let H7 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a3 | (AHead _ a) \Rightarrow a]) (AHead a0 a3) (AHead a1 a2) H5 in (let H8 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a0 | (AHead a _) \Rightarrow a]) (AHead a0 a3) (AHead a1 a2) H5 in eq_ind A a1 (\lambda (a: A).(eq A a3 a2) \to (eq A a b) \to ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus O j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))) (\lambda (H9: (eq A a3 a2)).eq_ind A a2 (\lambda (_: A).(eq A a1 b) \to ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus O j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))) (\lambda (H10: (eq A a1 b)).eq_ind A b (\lambda (_: A).ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus O j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))) (eq_ind A a1 (\lambda (a: A).ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus O j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g a))) (ex2_3_intro C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus O j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g a1)) c0 u O (drop_refl c0) H0) b H10) a1 (sym_eq A a1 b H10)) a3 (sym_eq A a3 a2 H9)) a0 (sym_eq A a0 a1 H8)) H7) H6) | (aprem_succ a0 a i H4 a3) \Rightarrow (\lambda (H5: (eq nat (S i) O)).\lambda (H6: (eq A (AHead a3 a0) (AHead a1 a2))).\lambda (H7: (eq A a b)).(let H8 \def eq_ind nat (S i) (\lambda (e: nat).match e return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H5 in False_ind ((eq A (AHead a3 a0) (AHead a1 a2)) \to (eq A a b) \to (aprem i a0 a) \to ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus O j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))) H8) H6 H7 H4)] in H6 (refl_equal nat O) (refl_equal A (AHead a1 a2)) (refl_equal A b)) | (S n) \Rightarrow (\lambda (H5: (aprem (S n) (AHead a1 a2) b)).let H6 \def match H5 return (\lambda (n0: nat).\lambda (a: A).\lambda (a0: A).(eq nat n0 (S n)) \to (eq A a (AHead a1 a2)) \to (eq A a0 b) \to ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus (S n) j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))) with [(aprem_zero a0 a3) \Rightarrow (\lambda (H4: (eq nat O (S n))).\lambda (H5: (eq A (AHead a0 a3) (AHead a1 a2))).\lambda (H6: (eq A a0 b)).(let H7 \def eq_ind nat O (\lambda (e: nat).match e return (Prop) with [O \Rightarrow True | (S _) \Rightarrow False]) I (S n) H4 in False_ind ((eq A (AHead a0 a3) (AHead a1 a2)) \to (eq A a0 b) \to ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus (S n) j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))) H7) H5 H6) | (aprem_succ a0 a i H4 a3) \Rightarrow (\lambda (H5: (eq nat (S i) (S n))).\lambda (H6: (eq A (AHead a3 a0) (AHead a1 a2))).\lambda (H7: (eq A a b)).(let H8 \def f_equal nat nat (\lambda (e: nat).match e return nat with [O \Rightarrow i | (S n) \Rightarrow n]) (S i) (S n) H5 in eq_ind nat n (\lambda (n0: nat).(eq A (AHead a3 a0) (AHead a1 a2)) \to (eq A a b) \to (aprem n0 a0 a) \to ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus (S n) j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))) (\lambda (H9: (eq A (AHead a3 a0) (AHead a1 a2))).let H10 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a0 | (AHead _ a) \Rightarrow a]) (AHead a3 a0) (AHead a1 a2) H9 in (let H11 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a3 | (AHead a _) \Rightarrow a]) (AHead a3 a0) (AHead a1 a2) H9 in eq_ind A a1 (\lambda (_: A).(eq A a0 a2) \to (eq A a b) \to (aprem n a0 a) \to ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus (S n) j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))) (\lambda (H12: (eq A a0 a2)).eq_ind A a2 (\lambda (a1: A).(eq A a b) \to (aprem n a1 a) \to ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus (S n) j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))) (\lambda (H13: (eq A a b)).eq_ind A b (\lambda (a1: A).(aprem n a2 a1) \to ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus (S n) j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))) (\lambda (H14: (aprem n a2 b)).let H_x \def H3 n b H14 in let H3 \def H_x in ex2_3_ind C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus n j) O d (CHead c0 (Bind Abst) u)) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b)) (ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus (S n) j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))) (\lambda (x0: C).\lambda (x1: T).\lambda (x2: nat).\lambda (H15: (drop (plus n x2) O x0 (CHead c0 (Bind Abst) u))).\lambda (H16: (arity g x0 x1 (asucc g b))).ex2_3_intro C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus (S n) j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b)) x0 x1 x2 (drop_S Abst x0 c0 u (plus n x2) H15) H16) H3) a (sym_eq A a b H13)) a0 (sym_eq A a0 a2 H12)) a3 (sym_eq A a3 a1 H11)) H10) i (sym_eq nat i n H8)) H6 H7 H4)] in H6 (refl_equal nat (S n)) (refl_equal A (AHead a1 a2)) (refl_equal A b))]) H4) (\lambda (c0: C).\lambda (u: T).\lambda (a1: A).\lambda (_: (arity g c0 u a1)).\lambda (_: ((\forall (i: nat).\forall (b: A).(aprem i a1 b) \to ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))))).\lambda (t0: T).\lambda (a2: A).\lambda (_: (arity g c0 t0 (AHead a1 a2))).\lambda (H3: ((\forall (i: nat).\forall (b: A).(aprem i (AHead a1 a2) b) \to ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))))).\lambda (i: nat).\lambda (b: A).\lambda (H4: (aprem i a2 b)).let H5 \def H3 (S i) b (aprem_succ a2 b i H4 a1) in ex2_3_ind C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (S (plus i j)) O d c0) (\lambda (d: C).\lambda (u0: T).\lambda (_: nat).arity g d u0 (asucc g b)) (ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d c0) (\lambda (d: C).\lambda (u0: T).\lambda (_: nat).arity g d u0 (asucc g b))) (\lambda (x0: C).\lambda (x1: T).\lambda (x2: nat).\lambda (H6: (drop (S (plus i x2)) O x0 c0)).\lambda (H7: (arity g x0 x1 (asucc g b))).C_ind (\lambda (c1: C).(drop (S (plus i x2)) O c1 c0) \to (arity g c1 x1 (asucc g b)) \to ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d c0) (\lambda (d: C).\lambda (u0: T).\lambda (_: nat).arity g d u0 (asucc g b))) (\lambda (n: nat).\lambda (H8: (drop (S (plus i x2)) O (CSort n) c0)).\lambda (_: (arity g (CSort n) x1 (asucc g b))).and3_ind (eq C c0 (CSort n)) (eq nat (S (plus i x2)) O) (eq nat O O) (ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d c0) (\lambda (d: C).\lambda (u0: T).\lambda (_: nat).arity g d u0 (asucc g b))) (\lambda (_: (eq C c0 (CSort n))).\lambda (H11: (eq nat (S (plus i x2)) O)).\lambda (_: (eq nat O O)).let H13 \def eq_ind nat (S (plus i x2)) (\lambda (ee: nat).match ee return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H11 in False_ind (ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d c0) (\lambda (d: C).\lambda (u0: T).\lambda (_: nat).arity g d u0 (asucc g b))) H13) (drop_gen_sort n (S (plus i x2)) O c0 H8)) (\lambda (d: C).\lambda (IHd: (((drop (S (plus i x2)) O d c0) \to (arity g d x1 (asucc g b)) \to ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))))).\lambda (k: K).\lambda (t1: T).\lambda (H8: (drop (S (plus i x2)) O (CHead d k t1) c0)).\lambda (H9: (arity g (CHead d k t1) x1 (asucc g b))).(match k return (\lambda (k0: K).(arity g (CHead d k0 t1) x1 (asucc g b)) \to (drop (r k0 (plus i x2)) O d c0) \to ex2_3 C T nat (\lambda (d0: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d0 c0) (\lambda (d0: C).\lambda (u0: T).\lambda (_: nat).arity g d0 u0 (asucc g b))) with [(Bind b0) \Rightarrow (\lambda (H10: (arity g (CHead d (Bind b0) t1) x1 (asucc g b))).\lambda (H11: (drop (r (Bind b0) (plus i x2)) O d c0)).ex2_3_intro C T nat (\lambda (d0: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d0 c0) (\lambda (d0: C).\lambda (u0: T).\lambda (_: nat).arity g d0 u0 (asucc g b)) (CHead d (Bind b0) t1) x1 (S x2) (eq_ind nat (S (plus i x2)) (\lambda (n: nat).drop n O (CHead d (Bind b0) t1) c0) (drop_drop (Bind b0) (plus i x2) d c0 H11 t1) (plus i (S x2)) (plus_n_Sm i x2)) H10) | (Flat f) \Rightarrow (\lambda (H10: (arity g (CHead d (Flat f) t1) x1 (asucc g b))).\lambda (H11: (drop (r (Flat f) (plus i x2)) O d c0)).let H12 \def IHd H11 (arity_cimp_conf g (CHead d (Flat f) t1) x1 (asucc g b) H10 d (cimp_flat_sx f d t1)) in ex2_3_ind C T nat (\lambda (d0: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d0 c0) (\lambda (d0: C).\lambda (u0: T).\lambda (_: nat).arity g d0 u0 (asucc g b)) (ex2_3 C T nat (\lambda (d0: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d0 c0) (\lambda (d0: C).\lambda (u0: T).\lambda (_: nat).arity g d0 u0 (asucc g b))) (\lambda (x3: C).\lambda (x4: T).\lambda (x5: nat).\lambda (H13: (drop (plus i x5) O x3 c0)).\lambda (H14: (arity g x3 x4 (asucc g b))).ex2_3_intro C T nat (\lambda (d0: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d0 c0) (\lambda (d0: C).\lambda (u0: T).\lambda (_: nat).arity g d0 u0 (asucc g b)) x3 x4 x5 H13 H14) H12)]) H9 (drop_gen_drop k d c0 t1 (plus i x2) H8)) x0 H6 H7) H5) (\lambda (c0: C).\lambda (u: T).\lambda (a0: A).\lambda (_: (arity g c0 u (asucc g a0))).\lambda (_: ((\forall (i: nat).\forall (b: A).(aprem i (asucc g a0) b) \to ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))))).\lambda (t0: T).\lambda (_: (arity g c0 t0 a0)).\lambda (H3: ((\forall (i: nat).\forall (b: A).(aprem i a0 b) \to ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))))).\lambda (i: nat).\lambda (b: A).\lambda (H4: (aprem i a0 b)).let H_x \def H3 i b H4 in let H5 \def H_x in ex2_3_ind C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d c0) (\lambda (d: C).\lambda (u0: T).\lambda (_: nat).arity g d u0 (asucc g b)) (ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d c0) (\lambda (d: C).\lambda (u0: T).\lambda (_: nat).arity g d u0 (asucc g b))) (\lambda (x0: C).\lambda (x1: T).\lambda (x2: nat).\lambda (H6: (drop (plus i x2) O x0 c0)).\lambda (H7: (arity g x0 x1 (asucc g b))).ex2_3_intro C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d c0) (\lambda (d: C).\lambda (u0: T).\lambda (_: nat).arity g d u0 (asucc g b)) x0 x1 x2 H6 H7) H5) (\lambda (c0: C).\lambda (t0: T).\lambda (a1: A).\lambda (_: (arity g c0 t0 a1)).\lambda (H1: ((\forall (i: nat).\forall (b: A).(aprem i a1 b) \to ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))))).\lambda (a2: A).\lambda (H2: (leq g a1 a2)).\lambda (i: nat).\lambda (b: A).\lambda (H3: (aprem i a2 b)).let H_x \def aprem_repl g a1 a2 H2 i b H3 in let H4 \def H_x in ex2_ind A (\lambda (b1: A).leq g b1 b) (\lambda (b1: A).aprem i a1 b1) (ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))) (\lambda (x: A).\lambda (H5: (leq g x b)).\lambda (H6: (aprem i a1 x)).let H_x0 \def H1 i x H6 in let H7 \def H_x0 in ex2_3_ind C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g x)) (ex2_3 C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b))) (\lambda (x0: C).\lambda (x1: T).\lambda (x2: nat).\lambda (H8: (drop (plus i x2) O x0 c0)).\lambda (H9: (arity g x0 x1 (asucc g x))).ex2_3_intro C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop (plus i j) O d c0) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g b)) x0 x1 x2 H8 (arity_repl g x0 x1 (asucc g x) H9 (asucc g b) (asucc_repl g x b H5))) H7) H4) c t a H.
+
+theorem arity_appls_cast: \forall (g: G).\forall (c: C).\forall (u: T).\forall (t: T).\forall (vs: TList).\forall (a: A).(arity g c (THeads (Flat Appl) vs u) (asucc g a)) \to (arity g c (THeads (Flat Appl) vs t) a) \to arity g c (THeads (Flat Appl) vs (THead (Flat Cast) u t)) a \def \lambda (g: G).\lambda (c: C).\lambda (u: T).\lambda (t: T).\lambda (vs: TList).TList_ind (\lambda (t0: TList).\forall (a: A).(arity g c (THeads (Flat Appl) t0 u) (asucc g a)) \to (arity g c (THeads (Flat Appl) t0 t) a) \to arity g c (THeads (Flat Appl) t0 (THead (Flat Cast) u t)) a) (\lambda (a: A).\lambda (H: (arity g c u (asucc g a))).\lambda (H0: (arity g c t a)).arity_cast g c u a H t H0) (\lambda (t0: T).\lambda (t1: TList).\lambda (H: ((\forall (a: A).(arity g c (THeads (Flat Appl) t1 u) (asucc g a)) \to (arity g c (THeads (Flat Appl) t1 t) a) \to arity g c (THeads (Flat Appl) t1 (THead (Flat Cast) u t)) a))).\lambda (a: A).\lambda (H0: (arity g c (THead (Flat Appl) t0 (THeads (Flat Appl) t1 u)) (asucc g a))).\lambda (H1: (arity g c (THead (Flat Appl) t0 (THeads (Flat Appl) t1 t)) a)).let H2 \def arity_gen_appl g c t0 (THeads (Flat Appl) t1 t) a H1 in ex2_ind A (\lambda (a1: A).arity g c t0 a1) (\lambda (a1: A).arity g c (THeads (Flat Appl) t1 t) (AHead a1 a)) (arity g c (THead (Flat Appl) t0 (THeads (Flat Appl) t1 (THead (Flat Cast) u t))) a) (\lambda (x: A).\lambda (H3: (arity g c t0 x)).\lambda (H4: (arity g c (THeads (Flat Appl) t1 t) (AHead x a))).let H5 \def arity_gen_appl g c t0 (THeads (Flat Appl) t1 u) (asucc g a) H0 in ex2_ind A (\lambda (a1: A).arity g c t0 a1) (\lambda (a1: A).arity g c (THeads (Flat Appl) t1 u) (AHead a1 (asucc g a))) (arity g c (THead (Flat Appl) t0 (THeads (Flat Appl) t1 (THead (Flat Cast) u t))) a) (\lambda (x0: A).\lambda (H6: (arity g c t0 x0)).\lambda (H7: (arity g c (THeads (Flat Appl) t1 u) (AHead x0 (asucc g a)))).arity_appl g c t0 x H3 (THeads (Flat Appl) t1 (THead (Flat Cast) u t)) a (H (AHead x a) (arity_repl g c (THeads (Flat Appl) t1 u) (AHead x (asucc g a)) (arity_repl g c (THeads (Flat Appl) t1 u) (AHead x0 (asucc g a)) H7 (AHead x (asucc g a)) (leq_head g x0 x (arity_mono g c t0 x0 H6 x H3) (asucc g a) (asucc g a) (leq_refl g (asucc g a)))) (asucc g (AHead x a)) (leq_refl g (asucc g (AHead x a)))) H4)) H5) H2) vs.
+
+theorem arity_appls_abbr: \forall (g: G).\forall (c: C).\forall (d: C).\forall (v: T).\forall (i: nat).(getl i c (CHead d (Bind Abbr) v)) \to \forall (vs: TList).\forall (a: A).(arity g c (THeads (Flat Appl) vs (lift (S i) O v)) a) \to arity g c (THeads (Flat Appl) vs (TLRef i)) a \def \lambda (g: G).\lambda (c: C).\lambda (d: C).\lambda (v: T).\lambda (i: nat).\lambda (H: (getl i c (CHead d (Bind Abbr) v))).\lambda (vs: TList).TList_ind (\lambda (t: TList).\forall (a: A).(arity g c (THeads (Flat Appl) t (lift (S i) O v)) a) \to arity g c (THeads (Flat Appl) t (TLRef i)) a) (\lambda (a: A).\lambda (H0: (arity g c (lift (S i) O v) a)).arity_abbr g c d v i H a (arity_gen_lift g c v a (S i) O H0 d (getl_drop Abbr c d v i H))) (\lambda (t: T).\lambda (t0: TList).\lambda (H0: ((\forall (a: A).(arity g c (THeads (Flat Appl) t0 (lift (S i) O v)) a) \to arity g c (THeads (Flat Appl) t0 (TLRef i)) a))).\lambda (a: A).\lambda (H1: (arity g c (THead (Flat Appl) t (THeads (Flat Appl) t0 (lift (S i) O v))) a)).let H2 \def arity_gen_appl g c t (THeads (Flat Appl) t0 (lift (S i) O v)) a H1 in ex2_ind A (\lambda (a1: A).arity g c t a1) (\lambda (a1: A).arity g c (THeads (Flat Appl) t0 (lift (S i) O v)) (AHead a1 a)) (arity g c (THead (Flat Appl) t (THeads (Flat Appl) t0 (TLRef i))) a) (\lambda (x: A).\lambda (H3: (arity g c t x)).\lambda (H4: (arity g c (THeads (Flat Appl) t0 (lift (S i) O v)) (AHead x a))).arity_appl g c t x H3 (THeads (Flat Appl) t0 (TLRef i)) a (H0 (AHead x a) H4)) H2) vs.
+
+theorem arity_appls_bind: \forall (g: G).\forall (b: B).(not (eq B b Abst)) \to \forall (c: C).\forall (v: T).\forall (a1: A).(arity g c v a1) \to \forall (t: T).\forall (vs: TList).\forall (a2: A).(arity g (CHead c (Bind b) v) (THeads (Flat Appl) (lifts (S O) O vs) t) a2) \to arity g c (THeads (Flat Appl) vs (THead (Bind b) v t)) a2 \def \lambda (g: G).\lambda (b: B).\lambda (H: (not (eq B b Abst))).\lambda (c: C).\lambda (v: T).\lambda (a1: A).\lambda (H0: (arity g c v a1)).\lambda (t: T).\lambda (vs: TList).TList_ind (\lambda (t0: TList).\forall (a2: A).(arity g (CHead c (Bind b) v) (THeads (Flat Appl) (lifts (S O) O t0) t) a2) \to arity g c (THeads (Flat Appl) t0 (THead (Bind b) v t)) a2) (\lambda (a2: A).\lambda (H1: (arity g (CHead c (Bind b) v) t a2)).arity_bind g b H c v a1 H0 t a2 H1) (\lambda (t0: T).\lambda (t1: TList).\lambda (H1: ((\forall (a2: A).(arity g (CHead c (Bind b) v) (THeads (Flat Appl) (lifts (S O) O t1) t) a2) \to arity g c (THeads (Flat Appl) t1 (THead (Bind b) v t)) a2))).\lambda (a2: A).\lambda (H2: (arity g (CHead c (Bind b) v) (THead (Flat Appl) (lift (S O) O t0) (THeads (Flat Appl) (lifts (S O) O t1) t)) a2)).let H3 \def arity_gen_appl g (CHead c (Bind b) v) (lift (S O) O t0) (THeads (Flat Appl) (lifts (S O) O t1) t) a2 H2 in ex2_ind A (\lambda (a3: A).arity g (CHead c (Bind b) v) (lift (S O) O t0) a3) (\lambda (a3: A).arity g (CHead c (Bind b) v) (THeads (Flat Appl) (lifts (S O) O t1) t) (AHead a3 a2)) (arity g c (THead (Flat Appl) t0 (THeads (Flat Appl) t1 (THead (Bind b) v t))) a2) (\lambda (x: A).\lambda (H4: (arity g (CHead c (Bind b) v) (lift (S O) O t0) x)).\lambda (H5: (arity g (CHead c (Bind b) v) (THeads (Flat Appl) (lifts (S O) O t1) t) (AHead x a2))).arity_appl g c t0 x (arity_gen_lift g (CHead c (Bind b) v) t0 x (S O) O H4 c (drop_drop (Bind b) O c c (drop_refl c) v)) (THeads (Flat Appl) t1 (THead (Bind b) v t)) a2 (H1 (AHead x a2) H5)) H3) vs.
+
+theorem arity_fsubst0: \forall (g: G).\forall (c1: C).\forall (t1: T).\forall (a: A).(arity g c1 t1 a) \to \forall (d1: C).\forall (u: T).\forall (i: nat).(getl i c1 (CHead d1 (Bind Abbr) u)) \to \forall (c2: C).\forall (t2: T).(fsubst0 i u c1 t1 c2 t2) \to arity g c2 t2 a \def \lambda (g: G).\lambda (c1: C).\lambda (t1: T).\lambda (a: A).\lambda (H: (arity g c1 t1 a)).arity_ind g (\lambda (c: C).\lambda (t: T).\lambda (a0: A).\forall (d1: C).\forall (u: T).\forall (i: nat).(getl i c (CHead d1 (Bind Abbr) u)) \to \forall (c2: C).\forall (t2: T).(fsubst0 i u c t c2 t2) \to arity g c2 t2 a0) (\lambda (c: C).\lambda (n: nat).\lambda (d1: C).\lambda (u: T).\lambda (i: nat).\lambda (_: (getl i c (CHead d1 (Bind Abbr) u))).\lambda (c2: C).\lambda (t2: T).\lambda (H1: (fsubst0 i u c (TSort n) c2 t2)).let H2 \def fsubst0_gen_base c c2 (TSort n) t2 u i H1 in or3_ind (and (eq C c c2) (subst0 i u (TSort n) t2)) (and (eq T (TSort n) t2) (csubst0 i u c c2)) (and (subst0 i u (TSort n) t2) (csubst0 i u c c2)) (arity g c2 t2 (ASort O n)) (\lambda (H3: (and (eq C c c2) (subst0 i u (TSort n) t2))).and_ind (eq C c c2) (subst0 i u (TSort n) t2) (arity g c2 t2 (ASort O n)) (\lambda (H4: (eq C c c2)).\lambda (H5: (subst0 i u (TSort n) t2)).eq_ind C c (\lambda (c0: C).arity g c0 t2 (ASort O n)) (subst0_gen_sort u t2 i n H5 (arity g c t2 (ASort O n))) c2 H4) H3) (\lambda (H3: (and (eq T (TSort n) t2) (csubst0 i u c c2))).and_ind (eq T (TSort n) t2) (csubst0 i u c c2) (arity g c2 t2 (ASort O n)) (\lambda (H4: (eq T (TSort n) t2)).\lambda (_: (csubst0 i u c c2)).eq_ind T (TSort n) (\lambda (t: T).arity g c2 t (ASort O n)) (arity_sort g c2 n) t2 H4) H3) (\lambda (H3: (and (subst0 i u (TSort n) t2) (csubst0 i u c c2))).and_ind (subst0 i u (TSort n) t2) (csubst0 i u c c2) (arity g c2 t2 (ASort O n)) (\lambda (H4: (subst0 i u (TSort n) t2)).\lambda (_: (csubst0 i u c c2)).subst0_gen_sort u t2 i n H4 (arity g c2 t2 (ASort O n))) H3) H2) (\lambda (c: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c (CHead d (Bind Abbr) u))).\lambda (a0: A).\lambda (H1: (arity g d u a0)).\lambda (H2: ((\forall (d1: C).\forall (u0: T).\forall (i: nat).(getl i d (CHead d1 (Bind Abbr) u0)) \to \forall (c2: C).\forall (t2: T).(fsubst0 i u0 d u c2 t2) \to arity g c2 t2 a0))).\lambda (d1: C).\lambda (u0: T).\lambda (i0: nat).\lambda (H3: (getl i0 c (CHead d1 (Bind Abbr) u0))).\lambda (c2: C).\lambda (t2: T).\lambda (H4: (fsubst0 i0 u0 c (TLRef i) c2 t2)).let H5 \def fsubst0_gen_base c c2 (TLRef i) t2 u0 i0 H4 in or3_ind (and (eq C c c2) (subst0 i0 u0 (TLRef i) t2)) (and (eq T (TLRef i) t2) (csubst0 i0 u0 c c2)) (and (subst0 i0 u0 (TLRef i) t2) (csubst0 i0 u0 c c2)) (arity g c2 t2 a0) (\lambda (H6: (and (eq C c c2) (subst0 i0 u0 (TLRef i) t2))).and_ind (eq C c c2) (subst0 i0 u0 (TLRef i) t2) (arity g c2 t2 a0) (\lambda (H7: (eq C c c2)).\lambda (H8: (subst0 i0 u0 (TLRef i) t2)).eq_ind C c (\lambda (c0: C).arity g c0 t2 a0) (and_ind (eq nat i i0) (eq T t2 (lift (S i) O u0)) (arity g c t2 a0) (\lambda (H9: (eq nat i i0)).\lambda (H10: (eq T t2 (lift (S i) O u0))).eq_ind_r T (lift (S i) O u0) (\lambda (t: T).arity g c t a0) (let H11 \def eq_ind_r nat i0 (\lambda (n: nat).getl n c (CHead d1 (Bind Abbr) u0)) H3 i H9 in let H12 \def eq_ind C (CHead d (Bind Abbr) u) (\lambda (c0: C).getl i c c0) H0 (CHead d1 (Bind Abbr) u0) (getl_mono c (CHead d (Bind Abbr) u) i H0 (CHead d1 (Bind Abbr) u0) H11) in let H13 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u) (CHead d1 (Bind Abbr) u0) (getl_mono c (CHead d (Bind Abbr) u) i H0 (CHead d1 (Bind Abbr) u0) H11) in (let H14 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u) (CHead d1 (Bind Abbr) u0) (getl_mono c (CHead d (Bind Abbr) u) i H0 (CHead d1 (Bind Abbr) u0) H11) in \lambda (H15: (eq C d d1)).let H16 \def eq_ind_r T u0 (\lambda (t: T).getl i c (CHead d1 (Bind Abbr) t)) H12 u H14 in eq_ind T u (\lambda (t: T).arity g c (lift (S i) O t) a0) (let H17 \def eq_ind_r C d1 (\lambda (c0: C).getl i c (CHead c0 (Bind Abbr) u)) H16 d H15 in arity_lift g d u a0 H1 c (S i) O (getl_drop Abbr c d u i H17)) u0 H14) H13) t2 H10) (subst0_gen_lref u0 t2 i0 i H8)) c2 H7) H6) (\lambda (H6: (and (eq T (TLRef i) t2) (csubst0 i0 u0 c c2))).and_ind (eq T (TLRef i) t2) (csubst0 i0 u0 c c2) (arity g c2 t2 a0) (\lambda (H7: (eq T (TLRef i) t2)).\lambda (H8: (csubst0 i0 u0 c c2)).eq_ind T (TLRef i) (\lambda (t: T).arity g c2 t a0) (lt_le_e i i0 (arity g c2 (TLRef i) a0) (\lambda (H9: (lt i i0)).let H10 \def csubst0_getl_lt i0 i H9 c c2 u0 H8 (CHead d (Bind Abbr) u) H0 in or4_ind (getl i c2 (CHead d (Bind Abbr) u)) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e0 (Bind b) u1)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl i c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u1 w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u1: T).getl i c2 (CHead e2 (Bind b) u1)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl i c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u1 w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2)) (arity g c2 (TLRef i) a0) (\lambda (H11: (getl i c2 (CHead d (Bind Abbr) u))).let H12 \def eq_ind nat (minus i0 i) (\lambda (n: nat).getl n (CHead d (Bind Abbr) u) (CHead d1 (Bind Abbr) u0)) (getl_conf_le i0 (CHead d1 (Bind Abbr) u0) c H3 (CHead d (Bind Abbr) u) i H0 (le_S_n i i0 (le_S (S i) i0 H9))) (S (minus i0 (S i))) (minus_x_Sy i0 i H9) in arity_abbr g c2 d u i H11 a0 H1) (\lambda (H11: (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e0 (Bind b) u0)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl i c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u w))).ex3_4_ind B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e0 (Bind b) u1)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl i c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u1 w) (arity g c2 (TLRef i) a0) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: T).\lambda (x3: T).\lambda (H12: (eq C (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x2))).\lambda (H13: (getl i c2 (CHead x1 (Bind x0) x3))).\lambda (H14: (subst0 (minus i0 (S i)) u0 x2 x3)).let H15 \def eq_ind nat (minus i0 i) (\lambda (n: nat).getl n (CHead d (Bind Abbr) u) (CHead d1 (Bind Abbr) u0)) (getl_conf_le i0 (CHead d1 (Bind Abbr) u0) c H3 (CHead d (Bind Abbr) u) i H0 (le_S_n i i0 (le_S (S i) i0 H9))) (S (minus i0 (S i))) (minus_x_Sy i0 i H9) in let H16 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x2) H12 in (let H17 \def f_equal C B (\lambda (e: C).match e return B with [(CSort _) \Rightarrow Abbr | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x2) H12 in (let H18 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x2) H12 in \lambda (H19: (eq B Abbr x0)).\lambda (H20: (eq C d x1)).let H21 \def eq_ind_r T x2 (\lambda (t: T).subst0 (minus i0 (S i)) u0 t x3) H14 u H18 in let H22 \def eq_ind_r C x1 (\lambda (c: C).getl i c2 (CHead c (Bind x0) x3)) H13 d H20 in let H23 \def eq_ind_r B x0 (\lambda (b: B).getl i c2 (CHead d (Bind b) x3)) H22 Abbr H19 in arity_abbr g c2 d x3 i H23 a0 (H2 d1 u0 (r (Bind Abbr) (minus i0 (S i))) (getl_gen_S (Bind Abbr) d (CHead d1 (Bind Abbr) u0) u (minus i0 (S i)) H15) d x3 (fsubst0_snd (r (Bind Abbr) (minus i0 (S i))) u0 d u x3 H21))) H17) H16) H11) (\lambda (H11: (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u0)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl i c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2))).ex3_4_ind B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u1: T).getl i c2 (CHead e2 (Bind b) u1)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2) (arity g c2 (TLRef i) a0) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (H12: (eq C (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3))).\lambda (H13: (getl i c2 (CHead x2 (Bind x0) x3))).\lambda (H14: (csubst0 (minus i0 (S i)) u0 x1 x2)).let H15 \def eq_ind nat (minus i0 i) (\lambda (n: nat).getl n (CHead d (Bind Abbr) u) (CHead d1 (Bind Abbr) u0)) (getl_conf_le i0 (CHead d1 (Bind Abbr) u0) c H3 (CHead d (Bind Abbr) u) i H0 (le_S_n i i0 (le_S (S i) i0 H9))) (S (minus i0 (S i))) (minus_x_Sy i0 i H9) in let H16 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H12 in (let H17 \def f_equal C B (\lambda (e: C).match e return B with [(CSort _) \Rightarrow Abbr | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H12 in (let H18 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H12 in \lambda (H19: (eq B Abbr x0)).\lambda (H20: (eq C d x1)).let H21 \def eq_ind_r T x3 (\lambda (t: T).getl i c2 (CHead x2 (Bind x0) t)) H13 u H18 in let H22 \def eq_ind_r C x1 (\lambda (c: C).csubst0 (minus i0 (S i)) u0 c x2) H14 d H20 in let H23 \def eq_ind_r B x0 (\lambda (b: B).getl i c2 (CHead x2 (Bind b) u)) H21 Abbr H19 in arity_abbr g c2 x2 u i H23 a0 (H2 d1 u0 (r (Bind Abbr) (minus i0 (S i))) (getl_gen_S (Bind Abbr) d (CHead d1 (Bind Abbr) u0) u (minus i0 (S i)) H15) x2 u (fsubst0_fst (r (Bind Abbr) (minus i0 (S i))) u0 d u x2 H22))) H17) H16) H11) (\lambda (H11: (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u0)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl i c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2))).ex4_5_ind B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl i c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u1 w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2) (arity g c2 (TLRef i) a0) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (x4: T).\lambda (H12: (eq C (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3))).\lambda (H13: (getl i c2 (CHead x2 (Bind x0) x4))).\lambda (H14: (subst0 (minus i0 (S i)) u0 x3 x4)).\lambda (H15: (csubst0 (minus i0 (S i)) u0 x1 x2)).let H16 \def eq_ind nat (minus i0 i) (\lambda (n: nat).getl n (CHead d (Bind Abbr) u) (CHead d1 (Bind Abbr) u0)) (getl_conf_le i0 (CHead d1 (Bind Abbr) u0) c H3 (CHead d (Bind Abbr) u) i H0 (le_S_n i i0 (le_S (S i) i0 H9))) (S (minus i0 (S i))) (minus_x_Sy i0 i H9) in let H17 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H12 in (let H18 \def f_equal C B (\lambda (e: C).match e return B with [(CSort _) \Rightarrow Abbr | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H12 in (let H19 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H12 in \lambda (H20: (eq B Abbr x0)).\lambda (H21: (eq C d x1)).let H22 \def eq_ind_r T x3 (\lambda (t: T).subst0 (minus i0 (S i)) u0 t x4) H14 u H19 in let H23 \def eq_ind_r C x1 (\lambda (c: C).csubst0 (minus i0 (S i)) u0 c x2) H15 d H21 in let H24 \def eq_ind_r B x0 (\lambda (b: B).getl i c2 (CHead x2 (Bind b) x4)) H13 Abbr H20 in arity_abbr g c2 x2 x4 i H24 a0 (H2 d1 u0 (r (Bind Abbr) (minus i0 (S i))) (getl_gen_S (Bind Abbr) d (CHead d1 (Bind Abbr) u0) u (minus i0 (S i)) H16) x2 x4 (fsubst0_both (r (Bind Abbr) (minus i0 (S i))) u0 d u x4 H22 x2 H23))) H18) H17) H11) H10) (\lambda (H9: (le i0 i)).arity_abbr g c2 d u i (csubst0_getl_ge i0 i H9 c c2 u0 H8 (CHead d (Bind Abbr) u) H0) a0 H1)) t2 H7) H6) (\lambda (H6: (and (subst0 i0 u0 (TLRef i) t2) (csubst0 i0 u0 c c2))).and_ind (subst0 i0 u0 (TLRef i) t2) (csubst0 i0 u0 c c2) (arity g c2 t2 a0) (\lambda (H7: (subst0 i0 u0 (TLRef i) t2)).\lambda (H8: (csubst0 i0 u0 c c2)).and_ind (eq nat i i0) (eq T t2 (lift (S i) O u0)) (arity g c2 t2 a0) (\lambda (H9: (eq nat i i0)).\lambda (H10: (eq T t2 (lift (S i) O u0))).eq_ind_r T (lift (S i) O u0) (\lambda (t: T).arity g c2 t a0) (let H11 \def eq_ind_r nat i0 (\lambda (n: nat).csubst0 n u0 c c2) H8 i H9 in let H12 \def eq_ind_r nat i0 (\lambda (n: nat).getl n c (CHead d1 (Bind Abbr) u0)) H3 i H9 in let H13 \def eq_ind C (CHead d (Bind Abbr) u) (\lambda (c0: C).getl i c c0) H0 (CHead d1 (Bind Abbr) u0) (getl_mono c (CHead d (Bind Abbr) u) i H0 (CHead d1 (Bind Abbr) u0) H12) in let H14 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u) (CHead d1 (Bind Abbr) u0) (getl_mono c (CHead d (Bind Abbr) u) i H0 (CHead d1 (Bind Abbr) u0) H12) in (let H15 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u) (CHead d1 (Bind Abbr) u0) (getl_mono c (CHead d (Bind Abbr) u) i H0 (CHead d1 (Bind Abbr) u0) H12) in \lambda (H16: (eq C d d1)).let H17 \def eq_ind_r T u0 (\lambda (t: T).getl i c (CHead d1 (Bind Abbr) t)) H13 u H15 in let H18 \def eq_ind_r T u0 (\lambda (t: T).csubst0 i t c c2) H11 u H15 in eq_ind T u (\lambda (t: T).arity g c2 (lift (S i) O t) a0) (let H19 \def eq_ind_r C d1 (\lambda (c0: C).getl i c (CHead c0 (Bind Abbr) u)) H17 d H16 in arity_lift g d u a0 H1 c2 (S i) O (getl_drop Abbr c2 d u i (csubst0_getl_ge i i (le_n i) c c2 u H18 (CHead d (Bind Abbr) u) H19))) u0 H15) H14) t2 H10) (subst0_gen_lref u0 t2 i0 i H7)) H6) H5) (\lambda (c: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c (CHead d (Bind Abst) u))).\lambda (a0: A).\lambda (H1: (arity g d u (asucc g a0))).\lambda (H2: ((\forall (d1: C).\forall (u0: T).\forall (i: nat).(getl i d (CHead d1 (Bind Abbr) u0)) \to \forall (c2: C).\forall (t2: T).(fsubst0 i u0 d u c2 t2) \to arity g c2 t2 (asucc g a0)))).\lambda (d1: C).\lambda (u0: T).\lambda (i0: nat).\lambda (H3: (getl i0 c (CHead d1 (Bind Abbr) u0))).\lambda (c2: C).\lambda (t2: T).\lambda (H4: (fsubst0 i0 u0 c (TLRef i) c2 t2)).let H5 \def fsubst0_gen_base c c2 (TLRef i) t2 u0 i0 H4 in or3_ind (and (eq C c c2) (subst0 i0 u0 (TLRef i) t2)) (and (eq T (TLRef i) t2) (csubst0 i0 u0 c c2)) (and (subst0 i0 u0 (TLRef i) t2) (csubst0 i0 u0 c c2)) (arity g c2 t2 a0) (\lambda (H6: (and (eq C c c2) (subst0 i0 u0 (TLRef i) t2))).and_ind (eq C c c2) (subst0 i0 u0 (TLRef i) t2) (arity g c2 t2 a0) (\lambda (H7: (eq C c c2)).\lambda (H8: (subst0 i0 u0 (TLRef i) t2)).eq_ind C c (\lambda (c0: C).arity g c0 t2 a0) (and_ind (eq nat i i0) (eq T t2 (lift (S i) O u0)) (arity g c t2 a0) (\lambda (H9: (eq nat i i0)).\lambda (H10: (eq T t2 (lift (S i) O u0))).eq_ind_r T (lift (S i) O u0) (\lambda (t: T).arity g c t a0) (let H11 \def eq_ind_r nat i0 (\lambda (n: nat).getl n c (CHead d1 (Bind Abbr) u0)) H3 i H9 in let H12 \def eq_ind C (CHead d (Bind Abst) u) (\lambda (c0: C).getl i c c0) H0 (CHead d1 (Bind Abbr) u0) (getl_mono c (CHead d (Bind Abst) u) i H0 (CHead d1 (Bind Abbr) u0) H11) in let H13 \def eq_ind C (CHead d (Bind Abst) u) (\lambda (ee: C).match ee return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow False | Abst \Rightarrow True | Void \Rightarrow False]) | (Flat _) \Rightarrow False])]) I (CHead d1 (Bind Abbr) u0) (getl_mono c (CHead d (Bind Abst) u) i H0 (CHead d1 (Bind Abbr) u0) H11) in False_ind (arity g c (lift (S i) O u0) a0) H13) t2 H10) (subst0_gen_lref u0 t2 i0 i H8)) c2 H7) H6) (\lambda (H6: (and (eq T (TLRef i) t2) (csubst0 i0 u0 c c2))).and_ind (eq T (TLRef i) t2) (csubst0 i0 u0 c c2) (arity g c2 t2 a0) (\lambda (H7: (eq T (TLRef i) t2)).\lambda (H8: (csubst0 i0 u0 c c2)).eq_ind T (TLRef i) (\lambda (t: T).arity g c2 t a0) (lt_le_e i i0 (arity g c2 (TLRef i) a0) (\lambda (H9: (lt i i0)).let H10 \def csubst0_getl_lt i0 i H9 c c2 u0 H8 (CHead d (Bind Abst) u) H0 in or4_ind (getl i c2 (CHead d (Bind Abst) u)) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abst) u) (CHead e0 (Bind b) u1)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl i c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u1 w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).eq C (CHead d (Bind Abst) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u1: T).getl i c2 (CHead e2 (Bind b) u1)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abst) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl i c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u1 w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2)) (arity g c2 (TLRef i) a0) (\lambda (H11: (getl i c2 (CHead d (Bind Abst) u))).let H12 \def eq_ind nat (minus i0 i) (\lambda (n: nat).getl n (CHead d (Bind Abst) u) (CHead d1 (Bind Abbr) u0)) (getl_conf_le i0 (CHead d1 (Bind Abbr) u0) c H3 (CHead d (Bind Abst) u) i H0 (le_S_n i i0 (le_S (S i) i0 H9))) (S (minus i0 (S i))) (minus_x_Sy i0 i H9) in arity_abst g c2 d u i H11 a0 H1) (\lambda (H11: (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C (CHead d (Bind Abst) u) (CHead e0 (Bind b) u0)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl i c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u w))).ex3_4_ind B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abst) u) (CHead e0 (Bind b) u1)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl i c2 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u1 w) (arity g c2 (TLRef i) a0) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: T).\lambda (x3: T).\lambda (H12: (eq C (CHead d (Bind Abst) u) (CHead x1 (Bind x0) x2))).\lambda (H13: (getl i c2 (CHead x1 (Bind x0) x3))).\lambda (H14: (subst0 (minus i0 (S i)) u0 x2 x3)).let H15 \def eq_ind nat (minus i0 i) (\lambda (n: nat).getl n (CHead d (Bind Abst) u) (CHead d1 (Bind Abbr) u0)) (getl_conf_le i0 (CHead d1 (Bind Abbr) u0) c H3 (CHead d (Bind Abst) u) i H0 (le_S_n i i0 (le_S (S i) i0 H9))) (S (minus i0 (S i))) (minus_x_Sy i0 i H9) in let H16 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abst) u) (CHead x1 (Bind x0) x2) H12 in (let H17 \def f_equal C B (\lambda (e: C).match e return B with [(CSort _) \Rightarrow Abst | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abst])]) (CHead d (Bind Abst) u) (CHead x1 (Bind x0) x2) H12 in (let H18 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abst) u) (CHead x1 (Bind x0) x2) H12 in \lambda (H19: (eq B Abst x0)).\lambda (H20: (eq C d x1)).let H21 \def eq_ind_r T x2 (\lambda (t: T).subst0 (minus i0 (S i)) u0 t x3) H14 u H18 in let H22 \def eq_ind_r C x1 (\lambda (c: C).getl i c2 (CHead c (Bind x0) x3)) H13 d H20 in let H23 \def eq_ind_r B x0 (\lambda (b: B).getl i c2 (CHead d (Bind b) x3)) H22 Abst H19 in arity_abst g c2 d x3 i H23 a0 (H2 d1 u0 (r (Bind Abst) (minus i0 (S i))) (getl_gen_S (Bind Abst) d (CHead d1 (Bind Abbr) u0) u (minus i0 (S i)) H15) d x3 (fsubst0_snd (r (Bind Abst) (minus i0 (S i))) u0 d u x3 H21))) H17) H16) H11) (\lambda (H11: (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C (CHead d (Bind Abst) u) (CHead e1 (Bind b) u0)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl i c2 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2))).ex3_4_ind B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).eq C (CHead d (Bind Abst) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u1: T).getl i c2 (CHead e2 (Bind b) u1)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2) (arity g c2 (TLRef i) a0) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (H12: (eq C (CHead d (Bind Abst) u) (CHead x1 (Bind x0) x3))).\lambda (H13: (getl i c2 (CHead x2 (Bind x0) x3))).\lambda (H14: (csubst0 (minus i0 (S i)) u0 x1 x2)).let H15 \def eq_ind nat (minus i0 i) (\lambda (n: nat).getl n (CHead d (Bind Abst) u) (CHead d1 (Bind Abbr) u0)) (getl_conf_le i0 (CHead d1 (Bind Abbr) u0) c H3 (CHead d (Bind Abst) u) i H0 (le_S_n i i0 (le_S (S i) i0 H9))) (S (minus i0 (S i))) (minus_x_Sy i0 i H9) in let H16 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abst) u) (CHead x1 (Bind x0) x3) H12 in (let H17 \def f_equal C B (\lambda (e: C).match e return B with [(CSort _) \Rightarrow Abst | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abst])]) (CHead d (Bind Abst) u) (CHead x1 (Bind x0) x3) H12 in (let H18 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abst) u) (CHead x1 (Bind x0) x3) H12 in \lambda (H19: (eq B Abst x0)).\lambda (H20: (eq C d x1)).let H21 \def eq_ind_r T x3 (\lambda (t: T).getl i c2 (CHead x2 (Bind x0) t)) H13 u H18 in let H22 \def eq_ind_r C x1 (\lambda (c: C).csubst0 (minus i0 (S i)) u0 c x2) H14 d H20 in let H23 \def eq_ind_r B x0 (\lambda (b: B).getl i c2 (CHead x2 (Bind b) u)) H21 Abst H19 in arity_abst g c2 x2 u i H23 a0 (H2 d1 u0 (r (Bind Abst) (minus i0 (S i))) (getl_gen_S (Bind Abst) d (CHead d1 (Bind Abbr) u0) u (minus i0 (S i)) H15) x2 u (fsubst0_fst (r (Bind Abst) (minus i0 (S i))) u0 d u x2 H22))) H17) H16) H11) (\lambda (H11: (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C (CHead d (Bind Abst) u) (CHead e1 (Bind b) u0)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl i c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2))).ex4_5_ind B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abst) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl i c2 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u1 w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2) (arity g c2 (TLRef i) a0) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (x4: T).\lambda (H12: (eq C (CHead d (Bind Abst) u) (CHead x1 (Bind x0) x3))).\lambda (H13: (getl i c2 (CHead x2 (Bind x0) x4))).\lambda (H14: (subst0 (minus i0 (S i)) u0 x3 x4)).\lambda (H15: (csubst0 (minus i0 (S i)) u0 x1 x2)).let H16 \def eq_ind nat (minus i0 i) (\lambda (n: nat).getl n (CHead d (Bind Abst) u) (CHead d1 (Bind Abbr) u0)) (getl_conf_le i0 (CHead d1 (Bind Abbr) u0) c H3 (CHead d (Bind Abst) u) i H0 (le_S_n i i0 (le_S (S i) i0 H9))) (S (minus i0 (S i))) (minus_x_Sy i0 i H9) in let H17 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abst) u) (CHead x1 (Bind x0) x3) H12 in (let H18 \def f_equal C B (\lambda (e: C).match e return B with [(CSort _) \Rightarrow Abst | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abst])]) (CHead d (Bind Abst) u) (CHead x1 (Bind x0) x3) H12 in (let H19 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abst) u) (CHead x1 (Bind x0) x3) H12 in \lambda (H20: (eq B Abst x0)).\lambda (H21: (eq C d x1)).let H22 \def eq_ind_r T x3 (\lambda (t: T).subst0 (minus i0 (S i)) u0 t x4) H14 u H19 in let H23 \def eq_ind_r C x1 (\lambda (c: C).csubst0 (minus i0 (S i)) u0 c x2) H15 d H21 in let H24 \def eq_ind_r B x0 (\lambda (b: B).getl i c2 (CHead x2 (Bind b) x4)) H13 Abst H20 in arity_abst g c2 x2 x4 i H24 a0 (H2 d1 u0 (r (Bind Abst) (minus i0 (S i))) (getl_gen_S (Bind Abst) d (CHead d1 (Bind Abbr) u0) u (minus i0 (S i)) H16) x2 x4 (fsubst0_both (r (Bind Abst) (minus i0 (S i))) u0 d u x4 H22 x2 H23))) H18) H17) H11) H10) (\lambda (H9: (le i0 i)).arity_abst g c2 d u i (csubst0_getl_ge i0 i H9 c c2 u0 H8 (CHead d (Bind Abst) u) H0) a0 H1)) t2 H7) H6) (\lambda (H6: (and (subst0 i0 u0 (TLRef i) t2) (csubst0 i0 u0 c c2))).and_ind (subst0 i0 u0 (TLRef i) t2) (csubst0 i0 u0 c c2) (arity g c2 t2 a0) (\lambda (H7: (subst0 i0 u0 (TLRef i) t2)).\lambda (H8: (csubst0 i0 u0 c c2)).and_ind (eq nat i i0) (eq T t2 (lift (S i) O u0)) (arity g c2 t2 a0) (\lambda (H9: (eq nat i i0)).\lambda (H10: (eq T t2 (lift (S i) O u0))).eq_ind_r T (lift (S i) O u0) (\lambda (t: T).arity g c2 t a0) (let H11 \def eq_ind_r nat i0 (\lambda (n: nat).csubst0 n u0 c c2) H8 i H9 in let H12 \def eq_ind_r nat i0 (\lambda (n: nat).getl n c (CHead d1 (Bind Abbr) u0)) H3 i H9 in let H13 \def eq_ind C (CHead d (Bind Abst) u) (\lambda (c0: C).getl i c c0) H0 (CHead d1 (Bind Abbr) u0) (getl_mono c (CHead d (Bind Abst) u) i H0 (CHead d1 (Bind Abbr) u0) H12) in let H14 \def eq_ind C (CHead d (Bind Abst) u) (\lambda (ee: C).match ee return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow False | Abst \Rightarrow True | Void \Rightarrow False]) | (Flat _) \Rightarrow False])]) I (CHead d1 (Bind Abbr) u0) (getl_mono c (CHead d (Bind Abst) u) i H0 (CHead d1 (Bind Abbr) u0) H12) in False_ind (arity g c2 (lift (S i) O u0) a0) H14) t2 H10) (subst0_gen_lref u0 t2 i0 i H7)) H6) H5) (\lambda (b: B).\lambda (H0: (not (eq B b Abst))).\lambda (c: C).\lambda (u: T).\lambda (a1: A).\lambda (H1: (arity g c u a1)).\lambda (H2: ((\forall (d1: C).\forall (u0: T).\forall (i: nat).(getl i c (CHead d1 (Bind Abbr) u0)) \to \forall (c2: C).\forall (t2: T).(fsubst0 i u0 c u c2 t2) \to arity g c2 t2 a1))).\lambda (t: T).\lambda (a2: A).\lambda (_: (arity g (CHead c (Bind b) u) t a2)).\lambda (H4: ((\forall (d1: C).\forall (u0: T).\forall (i: nat).(getl i (CHead c (Bind b) u) (CHead d1 (Bind Abbr) u0)) \to \forall (c2: C).\forall (t2: T).(fsubst0 i u0 (CHead c (Bind b) u) t c2 t2) \to arity g c2 t2 a2))).\lambda (d1: C).\lambda (u0: T).\lambda (i: nat).\lambda (H5: (getl i c (CHead d1 (Bind Abbr) u0))).\lambda (c2: C).\lambda (t2: T).\lambda (H6: (fsubst0 i u0 c (THead (Bind b) u t) c2 t2)).let H7 \def fsubst0_gen_base c c2 (THead (Bind b) u t) t2 u0 i H6 in or3_ind (and (eq C c c2) (subst0 i u0 (THead (Bind b) u t) t2)) (and (eq T (THead (Bind b) u t) t2) (csubst0 i u0 c c2)) (and (subst0 i u0 (THead (Bind b) u t) t2) (csubst0 i u0 c c2)) (arity g c2 t2 a2) (\lambda (H8: (and (eq C c c2) (subst0 i u0 (THead (Bind b) u t) t2))).and_ind (eq C c c2) (subst0 i u0 (THead (Bind b) u t) t2) (arity g c2 t2 a2) (\lambda (H9: (eq C c c2)).\lambda (H10: (subst0 i u0 (THead (Bind b) u t) t2)).eq_ind C c (\lambda (c0: C).arity g c0 t2 a2) (or3_ind (ex2 T (\lambda (u2: T).eq T t2 (THead (Bind b) u2 t)) (\lambda (u2: T).subst0 i u0 u u2)) (ex2 T (\lambda (t3: T).eq T t2 (THead (Bind b) u t3)) (\lambda (t3: T).subst0 (s (Bind b) i) u0 t t3)) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind b) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 u u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Bind b) i) u0 t t3)) (arity g c t2 a2) (\lambda (H11: (ex2 T (\lambda (u2: T).eq T t2 (THead (Bind b) u2 t)) (\lambda (u2: T).subst0 i u0 u u2))).ex2_ind T (\lambda (u2: T).eq T t2 (THead (Bind b) u2 t)) (\lambda (u2: T).subst0 i u0 u u2) (arity g c t2 a2) (\lambda (x: T).\lambda (H12: (eq T t2 (THead (Bind b) x t))).\lambda (H13: (subst0 i u0 u x)).eq_ind_r T (THead (Bind b) x t) (\lambda (t0: T).arity g c t0 a2) (arity_bind g b H0 c x a1 (H2 d1 u0 i H5 c x (fsubst0_snd i u0 c u x H13)) t a2 (H4 d1 u0 (S i) (getl_clear_bind b (CHead c (Bind b) u) c u (clear_bind b c u) (CHead d1 (Bind Abbr) u0) i H5) (CHead c (Bind b) x) t (fsubst0_fst (S i) u0 (CHead c (Bind b) u) t (CHead c (Bind b) x) (csubst0_snd_bind b i u0 u x H13 c)))) t2 H12) H11) (\lambda (H11: (ex2 T (\lambda (t3: T).eq T t2 (THead (Bind b) u t3)) (\lambda (t2: T).subst0 (s (Bind b) i) u0 t t2))).ex2_ind T (\lambda (t3: T).eq T t2 (THead (Bind b) u t3)) (\lambda (t3: T).subst0 (s (Bind b) i) u0 t t3) (arity g c t2 a2) (\lambda (x: T).\lambda (H12: (eq T t2 (THead (Bind b) u x))).\lambda (H13: (subst0 (s (Bind b) i) u0 t x)).eq_ind_r T (THead (Bind b) u x) (\lambda (t0: T).arity g c t0 a2) (arity_bind g b H0 c u a1 H1 x a2 (H4 d1 u0 (S i) (getl_clear_bind b (CHead c (Bind b) u) c u (clear_bind b c u) (CHead d1 (Bind Abbr) u0) i H5) (CHead c (Bind b) u) x (fsubst0_snd (S i) u0 (CHead c (Bind b) u) t x H13))) t2 H12) H11) (\lambda (H11: (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind b) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 u u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Bind b) i) u0 t t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind b) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 u u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Bind b) i) u0 t t3) (arity g c t2 a2) (\lambda (x0: T).\lambda (x1: T).\lambda (H12: (eq T t2 (THead (Bind b) x0 x1))).\lambda (H13: (subst0 i u0 u x0)).\lambda (H14: (subst0 (s (Bind b) i) u0 t x1)).eq_ind_r T (THead (Bind b) x0 x1) (\lambda (t0: T).arity g c t0 a2) (arity_bind g b H0 c x0 a1 (H2 d1 u0 i H5 c x0 (fsubst0_snd i u0 c u x0 H13)) x1 a2 (H4 d1 u0 (S i) (getl_clear_bind b (CHead c (Bind b) u) c u (clear_bind b c u) (CHead d1 (Bind Abbr) u0) i H5) (CHead c (Bind b) x0) x1 (fsubst0_both (S i) u0 (CHead c (Bind b) u) t x1 H14 (CHead c (Bind b) x0) (csubst0_snd_bind b i u0 u x0 H13 c)))) t2 H12) H11) (subst0_gen_head (Bind b) u0 u t t2 i H10)) c2 H9) H8) (\lambda (H8: (and (eq T (THead (Bind b) u t) t2) (csubst0 i u0 c c2))).and_ind (eq T (THead (Bind b) u t) t2) (csubst0 i u0 c c2) (arity g c2 t2 a2) (\lambda (H9: (eq T (THead (Bind b) u t) t2)).\lambda (H10: (csubst0 i u0 c c2)).eq_ind T (THead (Bind b) u t) (\lambda (t0: T).arity g c2 t0 a2) (arity_bind g b H0 c2 u a1 (H2 d1 u0 i H5 c2 u (fsubst0_fst i u0 c u c2 H10)) t a2 (H4 d1 u0 (S i) (getl_clear_bind b (CHead c (Bind b) u) c u (clear_bind b c u) (CHead d1 (Bind Abbr) u0) i H5) (CHead c2 (Bind b) u) t (fsubst0_fst (S i) u0 (CHead c (Bind b) u) t (CHead c2 (Bind b) u) (csubst0_fst_bind b i c c2 u0 H10 u)))) t2 H9) H8) (\lambda (H8: (and (subst0 i u0 (THead (Bind b) u t) t2) (csubst0 i u0 c c2))).and_ind (subst0 i u0 (THead (Bind b) u t) t2) (csubst0 i u0 c c2) (arity g c2 t2 a2) (\lambda (H9: (subst0 i u0 (THead (Bind b) u t) t2)).\lambda (H10: (csubst0 i u0 c c2)).or3_ind (ex2 T (\lambda (u2: T).eq T t2 (THead (Bind b) u2 t)) (\lambda (u2: T).subst0 i u0 u u2)) (ex2 T (\lambda (t3: T).eq T t2 (THead (Bind b) u t3)) (\lambda (t3: T).subst0 (s (Bind b) i) u0 t t3)) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind b) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 u u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Bind b) i) u0 t t3)) (arity g c2 t2 a2) (\lambda (H11: (ex2 T (\lambda (u2: T).eq T t2 (THead (Bind b) u2 t)) (\lambda (u2: T).subst0 i u0 u u2))).ex2_ind T (\lambda (u2: T).eq T t2 (THead (Bind b) u2 t)) (\lambda (u2: T).subst0 i u0 u u2) (arity g c2 t2 a2) (\lambda (x: T).\lambda (H12: (eq T t2 (THead (Bind b) x t))).\lambda (H13: (subst0 i u0 u x)).eq_ind_r T (THead (Bind b) x t) (\lambda (t0: T).arity g c2 t0 a2) (arity_bind g b H0 c2 x a1 (H2 d1 u0 i H5 c2 x (fsubst0_both i u0 c u x H13 c2 H10)) t a2 (H4 d1 u0 (S i) (getl_clear_bind b (CHead c (Bind b) u) c u (clear_bind b c u) (CHead d1 (Bind Abbr) u0) i H5) (CHead c2 (Bind b) x) t (fsubst0_fst (S i) u0 (CHead c (Bind b) u) t (CHead c2 (Bind b) x) (csubst0_both_bind b i u0 u x H13 c c2 H10)))) t2 H12) H11) (\lambda (H11: (ex2 T (\lambda (t3: T).eq T t2 (THead (Bind b) u t3)) (\lambda (t2: T).subst0 (s (Bind b) i) u0 t t2))).ex2_ind T (\lambda (t3: T).eq T t2 (THead (Bind b) u t3)) (\lambda (t3: T).subst0 (s (Bind b) i) u0 t t3) (arity g c2 t2 a2) (\lambda (x: T).\lambda (H12: (eq T t2 (THead (Bind b) u x))).\lambda (H13: (subst0 (s (Bind b) i) u0 t x)).eq_ind_r T (THead (Bind b) u x) (\lambda (t0: T).arity g c2 t0 a2) (arity_bind g b H0 c2 u a1 (H2 d1 u0 i H5 c2 u (fsubst0_fst i u0 c u c2 H10)) x a2 (H4 d1 u0 (S i) (getl_clear_bind b (CHead c (Bind b) u) c u (clear_bind b c u) (CHead d1 (Bind Abbr) u0) i H5) (CHead c2 (Bind b) u) x (fsubst0_both (S i) u0 (CHead c (Bind b) u) t x H13 (CHead c2 (Bind b) u) (csubst0_fst_bind b i c c2 u0 H10 u)))) t2 H12) H11) (\lambda (H11: (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind b) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 u u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Bind b) i) u0 t t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind b) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 u u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Bind b) i) u0 t t3) (arity g c2 t2 a2) (\lambda (x0: T).\lambda (x1: T).\lambda (H12: (eq T t2 (THead (Bind b) x0 x1))).\lambda (H13: (subst0 i u0 u x0)).\lambda (H14: (subst0 (s (Bind b) i) u0 t x1)).eq_ind_r T (THead (Bind b) x0 x1) (\lambda (t0: T).arity g c2 t0 a2) (arity_bind g b H0 c2 x0 a1 (H2 d1 u0 i H5 c2 x0 (fsubst0_both i u0 c u x0 H13 c2 H10)) x1 a2 (H4 d1 u0 (S i) (getl_clear_bind b (CHead c (Bind b) u) c u (clear_bind b c u) (CHead d1 (Bind Abbr) u0) i H5) (CHead c2 (Bind b) x0) x1 (fsubst0_both (S i) u0 (CHead c (Bind b) u) t x1 H14 (CHead c2 (Bind b) x0) (csubst0_both_bind b i u0 u x0 H13 c c2 H10)))) t2 H12) H11) (subst0_gen_head (Bind b) u0 u t t2 i H9)) H8) H7) (\lambda (c: C).\lambda (u: T).\lambda (a1: A).\lambda (H0: (arity g c u (asucc g a1))).\lambda (H1: ((\forall (d1: C).\forall (u0: T).\forall (i: nat).(getl i c (CHead d1 (Bind Abbr) u0)) \to \forall (c2: C).\forall (t2: T).(fsubst0 i u0 c u c2 t2) \to arity g c2 t2 (asucc g a1)))).\lambda (t: T).\lambda (a2: A).\lambda (_: (arity g (CHead c (Bind Abst) u) t a2)).\lambda (H3: ((\forall (d1: C).\forall (u0: T).\forall (i: nat).(getl i (CHead c (Bind Abst) u) (CHead d1 (Bind Abbr) u0)) \to \forall (c2: C).\forall (t2: T).(fsubst0 i u0 (CHead c (Bind Abst) u) t c2 t2) \to arity g c2 t2 a2))).\lambda (d1: C).\lambda (u0: T).\lambda (i: nat).\lambda (H4: (getl i c (CHead d1 (Bind Abbr) u0))).\lambda (c2: C).\lambda (t2: T).\lambda (H5: (fsubst0 i u0 c (THead (Bind Abst) u t) c2 t2)).let H6 \def fsubst0_gen_base c c2 (THead (Bind Abst) u t) t2 u0 i H5 in or3_ind (and (eq C c c2) (subst0 i u0 (THead (Bind Abst) u t) t2)) (and (eq T (THead (Bind Abst) u t) t2) (csubst0 i u0 c c2)) (and (subst0 i u0 (THead (Bind Abst) u t) t2) (csubst0 i u0 c c2)) (arity g c2 t2 (AHead a1 a2)) (\lambda (H7: (and (eq C c c2) (subst0 i u0 (THead (Bind Abst) u t) t2))).and_ind (eq C c c2) (subst0 i u0 (THead (Bind Abst) u t) t2) (arity g c2 t2 (AHead a1 a2)) (\lambda (H8: (eq C c c2)).\lambda (H9: (subst0 i u0 (THead (Bind Abst) u t) t2)).eq_ind C c (\lambda (c0: C).arity g c0 t2 (AHead a1 a2)) (or3_ind (ex2 T (\lambda (u2: T).eq T t2 (THead (Bind Abst) u2 t)) (\lambda (u2: T).subst0 i u0 u u2)) (ex2 T (\lambda (t3: T).eq T t2 (THead (Bind Abst) u t3)) (\lambda (t3: T).subst0 (s (Bind Abst) i) u0 t t3)) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 u u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Bind Abst) i) u0 t t3)) (arity g c t2 (AHead a1 a2)) (\lambda (H10: (ex2 T (\lambda (u2: T).eq T t2 (THead (Bind Abst) u2 t)) (\lambda (u2: T).subst0 i u0 u u2))).ex2_ind T (\lambda (u2: T).eq T t2 (THead (Bind Abst) u2 t)) (\lambda (u2: T).subst0 i u0 u u2) (arity g c t2 (AHead a1 a2)) (\lambda (x: T).\lambda (H11: (eq T t2 (THead (Bind Abst) x t))).\lambda (H12: (subst0 i u0 u x)).eq_ind_r T (THead (Bind Abst) x t) (\lambda (t0: T).arity g c t0 (AHead a1 a2)) (arity_head g c x a1 (H1 d1 u0 i H4 c x (fsubst0_snd i u0 c u x H12)) t a2 (H3 d1 u0 (S i) (getl_clear_bind Abst (CHead c (Bind Abst) u) c u (clear_bind Abst c u) (CHead d1 (Bind Abbr) u0) i H4) (CHead c (Bind Abst) x) t (fsubst0_fst (S i) u0 (CHead c (Bind Abst) u) t (CHead c (Bind Abst) x) (csubst0_snd_bind Abst i u0 u x H12 c)))) t2 H11) H10) (\lambda (H10: (ex2 T (\lambda (t3: T).eq T t2 (THead (Bind Abst) u t3)) (\lambda (t2: T).subst0 (s (Bind Abst) i) u0 t t2))).ex2_ind T (\lambda (t3: T).eq T t2 (THead (Bind Abst) u t3)) (\lambda (t3: T).subst0 (s (Bind Abst) i) u0 t t3) (arity g c t2 (AHead a1 a2)) (\lambda (x: T).\lambda (H11: (eq T t2 (THead (Bind Abst) u x))).\lambda (H12: (subst0 (s (Bind Abst) i) u0 t x)).eq_ind_r T (THead (Bind Abst) u x) (\lambda (t0: T).arity g c t0 (AHead a1 a2)) (arity_head g c u a1 H0 x a2 (H3 d1 u0 (S i) (getl_clear_bind Abst (CHead c (Bind Abst) u) c u (clear_bind Abst c u) (CHead d1 (Bind Abbr) u0) i H4) (CHead c (Bind Abst) u) x (fsubst0_snd (S i) u0 (CHead c (Bind Abst) u) t x H12))) t2 H11) H10) (\lambda (H10: (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 u u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Bind Abst) i) u0 t t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 u u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Bind Abst) i) u0 t t3) (arity g c t2 (AHead a1 a2)) (\lambda (x0: T).\lambda (x1: T).\lambda (H11: (eq T t2 (THead (Bind Abst) x0 x1))).\lambda (H12: (subst0 i u0 u x0)).\lambda (H13: (subst0 (s (Bind Abst) i) u0 t x1)).eq_ind_r T (THead (Bind Abst) x0 x1) (\lambda (t0: T).arity g c t0 (AHead a1 a2)) (arity_head g c x0 a1 (H1 d1 u0 i H4 c x0 (fsubst0_snd i u0 c u x0 H12)) x1 a2 (H3 d1 u0 (S i) (getl_clear_bind Abst (CHead c (Bind Abst) u) c u (clear_bind Abst c u) (CHead d1 (Bind Abbr) u0) i H4) (CHead c (Bind Abst) x0) x1 (fsubst0_both (S i) u0 (CHead c (Bind Abst) u) t x1 H13 (CHead c (Bind Abst) x0) (csubst0_snd_bind Abst i u0 u x0 H12 c)))) t2 H11) H10) (subst0_gen_head (Bind Abst) u0 u t t2 i H9)) c2 H8) H7) (\lambda (H7: (and (eq T (THead (Bind Abst) u t) t2) (csubst0 i u0 c c2))).and_ind (eq T (THead (Bind Abst) u t) t2) (csubst0 i u0 c c2) (arity g c2 t2 (AHead a1 a2)) (\lambda (H8: (eq T (THead (Bind Abst) u t) t2)).\lambda (H9: (csubst0 i u0 c c2)).eq_ind T (THead (Bind Abst) u t) (\lambda (t0: T).arity g c2 t0 (AHead a1 a2)) (arity_head g c2 u a1 (H1 d1 u0 i H4 c2 u (fsubst0_fst i u0 c u c2 H9)) t a2 (H3 d1 u0 (S i) (getl_clear_bind Abst (CHead c (Bind Abst) u) c u (clear_bind Abst c u) (CHead d1 (Bind Abbr) u0) i H4) (CHead c2 (Bind Abst) u) t (fsubst0_fst (S i) u0 (CHead c (Bind Abst) u) t (CHead c2 (Bind Abst) u) (csubst0_fst_bind Abst i c c2 u0 H9 u)))) t2 H8) H7) (\lambda (H7: (and (subst0 i u0 (THead (Bind Abst) u t) t2) (csubst0 i u0 c c2))).and_ind (subst0 i u0 (THead (Bind Abst) u t) t2) (csubst0 i u0 c c2) (arity g c2 t2 (AHead a1 a2)) (\lambda (H8: (subst0 i u0 (THead (Bind Abst) u t) t2)).\lambda (H9: (csubst0 i u0 c c2)).or3_ind (ex2 T (\lambda (u2: T).eq T t2 (THead (Bind Abst) u2 t)) (\lambda (u2: T).subst0 i u0 u u2)) (ex2 T (\lambda (t3: T).eq T t2 (THead (Bind Abst) u t3)) (\lambda (t3: T).subst0 (s (Bind Abst) i) u0 t t3)) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 u u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Bind Abst) i) u0 t t3)) (arity g c2 t2 (AHead a1 a2)) (\lambda (H10: (ex2 T (\lambda (u2: T).eq T t2 (THead (Bind Abst) u2 t)) (\lambda (u2: T).subst0 i u0 u u2))).ex2_ind T (\lambda (u2: T).eq T t2 (THead (Bind Abst) u2 t)) (\lambda (u2: T).subst0 i u0 u u2) (arity g c2 t2 (AHead a1 a2)) (\lambda (x: T).\lambda (H11: (eq T t2 (THead (Bind Abst) x t))).\lambda (H12: (subst0 i u0 u x)).eq_ind_r T (THead (Bind Abst) x t) (\lambda (t0: T).arity g c2 t0 (AHead a1 a2)) (arity_head g c2 x a1 (H1 d1 u0 i H4 c2 x (fsubst0_both i u0 c u x H12 c2 H9)) t a2 (H3 d1 u0 (S i) (getl_clear_bind Abst (CHead c (Bind Abst) u) c u (clear_bind Abst c u) (CHead d1 (Bind Abbr) u0) i H4) (CHead c2 (Bind Abst) x) t (fsubst0_fst (S i) u0 (CHead c (Bind Abst) u) t (CHead c2 (Bind Abst) x) (csubst0_both_bind Abst i u0 u x H12 c c2 H9)))) t2 H11) H10) (\lambda (H10: (ex2 T (\lambda (t3: T).eq T t2 (THead (Bind Abst) u t3)) (\lambda (t2: T).subst0 (s (Bind Abst) i) u0 t t2))).ex2_ind T (\lambda (t3: T).eq T t2 (THead (Bind Abst) u t3)) (\lambda (t3: T).subst0 (s (Bind Abst) i) u0 t t3) (arity g c2 t2 (AHead a1 a2)) (\lambda (x: T).\lambda (H11: (eq T t2 (THead (Bind Abst) u x))).\lambda (H12: (subst0 (s (Bind Abst) i) u0 t x)).eq_ind_r T (THead (Bind Abst) u x) (\lambda (t0: T).arity g c2 t0 (AHead a1 a2)) (arity_head g c2 u a1 (H1 d1 u0 i H4 c2 u (fsubst0_fst i u0 c u c2 H9)) x a2 (H3 d1 u0 (S i) (getl_clear_bind Abst (CHead c (Bind Abst) u) c u (clear_bind Abst c u) (CHead d1 (Bind Abbr) u0) i H4) (CHead c2 (Bind Abst) u) x (fsubst0_both (S i) u0 (CHead c (Bind Abst) u) t x H12 (CHead c2 (Bind Abst) u) (csubst0_fst_bind Abst i c c2 u0 H9 u)))) t2 H11) H10) (\lambda (H10: (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 u u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Bind Abst) i) u0 t t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 u u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Bind Abst) i) u0 t t3) (arity g c2 t2 (AHead a1 a2)) (\lambda (x0: T).\lambda (x1: T).\lambda (H11: (eq T t2 (THead (Bind Abst) x0 x1))).\lambda (H12: (subst0 i u0 u x0)).\lambda (H13: (subst0 (s (Bind Abst) i) u0 t x1)).eq_ind_r T (THead (Bind Abst) x0 x1) (\lambda (t0: T).arity g c2 t0 (AHead a1 a2)) (arity_head g c2 x0 a1 (H1 d1 u0 i H4 c2 x0 (fsubst0_both i u0 c u x0 H12 c2 H9)) x1 a2 (H3 d1 u0 (S i) (getl_clear_bind Abst (CHead c (Bind Abst) u) c u (clear_bind Abst c u) (CHead d1 (Bind Abbr) u0) i H4) (CHead c2 (Bind Abst) x0) x1 (fsubst0_both (S i) u0 (CHead c (Bind Abst) u) t x1 H13 (CHead c2 (Bind Abst) x0) (csubst0_both_bind Abst i u0 u x0 H12 c c2 H9)))) t2 H11) H10) (subst0_gen_head (Bind Abst) u0 u t t2 i H8)) H7) H6) (\lambda (c: C).\lambda (u: T).\lambda (a1: A).\lambda (H0: (arity g c u a1)).\lambda (H1: ((\forall (d1: C).\forall (u0: T).\forall (i: nat).(getl i c (CHead d1 (Bind Abbr) u0)) \to \forall (c2: C).\forall (t2: T).(fsubst0 i u0 c u c2 t2) \to arity g c2 t2 a1))).\lambda (t: T).\lambda (a2: A).\lambda (H2: (arity g c t (AHead a1 a2))).\lambda (H3: ((\forall (d1: C).\forall (u: T).\forall (i: nat).(getl i c (CHead d1 (Bind Abbr) u)) \to \forall (c2: C).\forall (t2: T).(fsubst0 i u c t c2 t2) \to arity g c2 t2 (AHead a1 a2)))).\lambda (d1: C).\lambda (u0: T).\lambda (i: nat).\lambda (H4: (getl i c (CHead d1 (Bind Abbr) u0))).\lambda (c2: C).\lambda (t2: T).\lambda (H5: (fsubst0 i u0 c (THead (Flat Appl) u t) c2 t2)).let H6 \def fsubst0_gen_base c c2 (THead (Flat Appl) u t) t2 u0 i H5 in or3_ind (and (eq C c c2) (subst0 i u0 (THead (Flat Appl) u t) t2)) (and (eq T (THead (Flat Appl) u t) t2) (csubst0 i u0 c c2)) (and (subst0 i u0 (THead (Flat Appl) u t) t2) (csubst0 i u0 c c2)) (arity g c2 t2 a2) (\lambda (H7: (and (eq C c c2) (subst0 i u0 (THead (Flat Appl) u t) t2))).and_ind (eq C c c2) (subst0 i u0 (THead (Flat Appl) u t) t2) (arity g c2 t2 a2) (\lambda (H8: (eq C c c2)).\lambda (H9: (subst0 i u0 (THead (Flat Appl) u t) t2)).eq_ind C c (\lambda (c0: C).arity g c0 t2 a2) (or3_ind (ex2 T (\lambda (u2: T).eq T t2 (THead (Flat Appl) u2 t)) (\lambda (u2: T).subst0 i u0 u u2)) (ex2 T (\lambda (t3: T).eq T t2 (THead (Flat Appl) u t3)) (\lambda (t3: T).subst0 (s (Flat Appl) i) u0 t t3)) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 u u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Flat Appl) i) u0 t t3)) (arity g c t2 a2) (\lambda (H10: (ex2 T (\lambda (u2: T).eq T t2 (THead (Flat Appl) u2 t)) (\lambda (u2: T).subst0 i u0 u u2))).ex2_ind T (\lambda (u2: T).eq T t2 (THead (Flat Appl) u2 t)) (\lambda (u2: T).subst0 i u0 u u2) (arity g c t2 a2) (\lambda (x: T).\lambda (H11: (eq T t2 (THead (Flat Appl) x t))).\lambda (H12: (subst0 i u0 u x)).eq_ind_r T (THead (Flat Appl) x t) (\lambda (t0: T).arity g c t0 a2) (arity_appl g c x a1 (H1 d1 u0 i H4 c x (fsubst0_snd i u0 c u x H12)) t a2 H2) t2 H11) H10) (\lambda (H10: (ex2 T (\lambda (t3: T).eq T t2 (THead (Flat Appl) u t3)) (\lambda (t2: T).subst0 (s (Flat Appl) i) u0 t t2))).ex2_ind T (\lambda (t3: T).eq T t2 (THead (Flat Appl) u t3)) (\lambda (t3: T).subst0 (s (Flat Appl) i) u0 t t3) (arity g c t2 a2) (\lambda (x: T).\lambda (H11: (eq T t2 (THead (Flat Appl) u x))).\lambda (H12: (subst0 (s (Flat Appl) i) u0 t x)).eq_ind_r T (THead (Flat Appl) u x) (\lambda (t0: T).arity g c t0 a2) (arity_appl g c u a1 H0 x a2 (H3 d1 u0 i H4 c x (fsubst0_snd i u0 c t x H12))) t2 H11) H10) (\lambda (H10: (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 u u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Flat Appl) i) u0 t t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 u u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Flat Appl) i) u0 t t3) (arity g c t2 a2) (\lambda (x0: T).\lambda (x1: T).\lambda (H11: (eq T t2 (THead (Flat Appl) x0 x1))).\lambda (H12: (subst0 i u0 u x0)).\lambda (H13: (subst0 (s (Flat Appl) i) u0 t x1)).eq_ind_r T (THead (Flat Appl) x0 x1) (\lambda (t0: T).arity g c t0 a2) (arity_appl g c x0 a1 (H1 d1 u0 i H4 c x0 (fsubst0_snd i u0 c u x0 H12)) x1 a2 (H3 d1 u0 i H4 c x1 (fsubst0_snd i u0 c t x1 H13))) t2 H11) H10) (subst0_gen_head (Flat Appl) u0 u t t2 i H9)) c2 H8) H7) (\lambda (H7: (and (eq T (THead (Flat Appl) u t) t2) (csubst0 i u0 c c2))).and_ind (eq T (THead (Flat Appl) u t) t2) (csubst0 i u0 c c2) (arity g c2 t2 a2) (\lambda (H8: (eq T (THead (Flat Appl) u t) t2)).\lambda (H9: (csubst0 i u0 c c2)).eq_ind T (THead (Flat Appl) u t) (\lambda (t0: T).arity g c2 t0 a2) (arity_appl g c2 u a1 (H1 d1 u0 i H4 c2 u (fsubst0_fst i u0 c u c2 H9)) t a2 (H3 d1 u0 i H4 c2 t (fsubst0_fst i u0 c t c2 H9))) t2 H8) H7) (\lambda (H7: (and (subst0 i u0 (THead (Flat Appl) u t) t2) (csubst0 i u0 c c2))).and_ind (subst0 i u0 (THead (Flat Appl) u t) t2) (csubst0 i u0 c c2) (arity g c2 t2 a2) (\lambda (H8: (subst0 i u0 (THead (Flat Appl) u t) t2)).\lambda (H9: (csubst0 i u0 c c2)).or3_ind (ex2 T (\lambda (u2: T).eq T t2 (THead (Flat Appl) u2 t)) (\lambda (u2: T).subst0 i u0 u u2)) (ex2 T (\lambda (t3: T).eq T t2 (THead (Flat Appl) u t3)) (\lambda (t3: T).subst0 (s (Flat Appl) i) u0 t t3)) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 u u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Flat Appl) i) u0 t t3)) (arity g c2 t2 a2) (\lambda (H10: (ex2 T (\lambda (u2: T).eq T t2 (THead (Flat Appl) u2 t)) (\lambda (u2: T).subst0 i u0 u u2))).ex2_ind T (\lambda (u2: T).eq T t2 (THead (Flat Appl) u2 t)) (\lambda (u2: T).subst0 i u0 u u2) (arity g c2 t2 a2) (\lambda (x: T).\lambda (H11: (eq T t2 (THead (Flat Appl) x t))).\lambda (H12: (subst0 i u0 u x)).eq_ind_r T (THead (Flat Appl) x t) (\lambda (t0: T).arity g c2 t0 a2) (arity_appl g c2 x a1 (H1 d1 u0 i H4 c2 x (fsubst0_both i u0 c u x H12 c2 H9)) t a2 (H3 d1 u0 i H4 c2 t (fsubst0_fst i u0 c t c2 H9))) t2 H11) H10) (\lambda (H10: (ex2 T (\lambda (t3: T).eq T t2 (THead (Flat Appl) u t3)) (\lambda (t2: T).subst0 (s (Flat Appl) i) u0 t t2))).ex2_ind T (\lambda (t3: T).eq T t2 (THead (Flat Appl) u t3)) (\lambda (t3: T).subst0 (s (Flat Appl) i) u0 t t3) (arity g c2 t2 a2) (\lambda (x: T).\lambda (H11: (eq T t2 (THead (Flat Appl) u x))).\lambda (H12: (subst0 (s (Flat Appl) i) u0 t x)).eq_ind_r T (THead (Flat Appl) u x) (\lambda (t0: T).arity g c2 t0 a2) (arity_appl g c2 u a1 (H1 d1 u0 i H4 c2 u (fsubst0_fst i u0 c u c2 H9)) x a2 (H3 d1 u0 i H4 c2 x (fsubst0_both i u0 c t x H12 c2 H9))) t2 H11) H10) (\lambda (H10: (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 u u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Flat Appl) i) u0 t t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 u u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Flat Appl) i) u0 t t3) (arity g c2 t2 a2) (\lambda (x0: T).\lambda (x1: T).\lambda (H11: (eq T t2 (THead (Flat Appl) x0 x1))).\lambda (H12: (subst0 i u0 u x0)).\lambda (H13: (subst0 (s (Flat Appl) i) u0 t x1)).eq_ind_r T (THead (Flat Appl) x0 x1) (\lambda (t0: T).arity g c2 t0 a2) (arity_appl g c2 x0 a1 (H1 d1 u0 i H4 c2 x0 (fsubst0_both i u0 c u x0 H12 c2 H9)) x1 a2 (H3 d1 u0 i H4 c2 x1 (fsubst0_both i u0 c t x1 H13 c2 H9))) t2 H11) H10) (subst0_gen_head (Flat Appl) u0 u t t2 i H8)) H7) H6) (\lambda (c: C).\lambda (u: T).\lambda (a0: A).\lambda (H0: (arity g c u (asucc g a0))).\lambda (H1: ((\forall (d1: C).\forall (u0: T).\forall (i: nat).(getl i c (CHead d1 (Bind Abbr) u0)) \to \forall (c2: C).\forall (t2: T).(fsubst0 i u0 c u c2 t2) \to arity g c2 t2 (asucc g a0)))).\lambda (t: T).\lambda (H2: (arity g c t a0)).\lambda (H3: ((\forall (d1: C).\forall (u: T).\forall (i: nat).(getl i c (CHead d1 (Bind Abbr) u)) \to \forall (c2: C).\forall (t2: T).(fsubst0 i u c t c2 t2) \to arity g c2 t2 a0))).\lambda (d1: C).\lambda (u0: T).\lambda (i: nat).\lambda (H4: (getl i c (CHead d1 (Bind Abbr) u0))).\lambda (c2: C).\lambda (t2: T).\lambda (H5: (fsubst0 i u0 c (THead (Flat Cast) u t) c2 t2)).let H6 \def fsubst0_gen_base c c2 (THead (Flat Cast) u t) t2 u0 i H5 in or3_ind (and (eq C c c2) (subst0 i u0 (THead (Flat Cast) u t) t2)) (and (eq T (THead (Flat Cast) u t) t2) (csubst0 i u0 c c2)) (and (subst0 i u0 (THead (Flat Cast) u t) t2) (csubst0 i u0 c c2)) (arity g c2 t2 a0) (\lambda (H7: (and (eq C c c2) (subst0 i u0 (THead (Flat Cast) u t) t2))).and_ind (eq C c c2) (subst0 i u0 (THead (Flat Cast) u t) t2) (arity g c2 t2 a0) (\lambda (H8: (eq C c c2)).\lambda (H9: (subst0 i u0 (THead (Flat Cast) u t) t2)).eq_ind C c (\lambda (c0: C).arity g c0 t2 a0) (or3_ind (ex2 T (\lambda (u2: T).eq T t2 (THead (Flat Cast) u2 t)) (\lambda (u2: T).subst0 i u0 u u2)) (ex2 T (\lambda (t3: T).eq T t2 (THead (Flat Cast) u t3)) (\lambda (t3: T).subst0 (s (Flat Cast) i) u0 t t3)) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 u u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Flat Cast) i) u0 t t3)) (arity g c t2 a0) (\lambda (H10: (ex2 T (\lambda (u2: T).eq T t2 (THead (Flat Cast) u2 t)) (\lambda (u2: T).subst0 i u0 u u2))).ex2_ind T (\lambda (u2: T).eq T t2 (THead (Flat Cast) u2 t)) (\lambda (u2: T).subst0 i u0 u u2) (arity g c t2 a0) (\lambda (x: T).\lambda (H11: (eq T t2 (THead (Flat Cast) x t))).\lambda (H12: (subst0 i u0 u x)).eq_ind_r T (THead (Flat Cast) x t) (\lambda (t0: T).arity g c t0 a0) (arity_cast g c x a0 (H1 d1 u0 i H4 c x (fsubst0_snd i u0 c u x H12)) t H2) t2 H11) H10) (\lambda (H10: (ex2 T (\lambda (t3: T).eq T t2 (THead (Flat Cast) u t3)) (\lambda (t2: T).subst0 (s (Flat Cast) i) u0 t t2))).ex2_ind T (\lambda (t3: T).eq T t2 (THead (Flat Cast) u t3)) (\lambda (t3: T).subst0 (s (Flat Cast) i) u0 t t3) (arity g c t2 a0) (\lambda (x: T).\lambda (H11: (eq T t2 (THead (Flat Cast) u x))).\lambda (H12: (subst0 (s (Flat Cast) i) u0 t x)).eq_ind_r T (THead (Flat Cast) u x) (\lambda (t0: T).arity g c t0 a0) (arity_cast g c u a0 H0 x (H3 d1 u0 i H4 c x (fsubst0_snd i u0 c t x H12))) t2 H11) H10) (\lambda (H10: (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 u u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Flat Cast) i) u0 t t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 u u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Flat Cast) i) u0 t t3) (arity g c t2 a0) (\lambda (x0: T).\lambda (x1: T).\lambda (H11: (eq T t2 (THead (Flat Cast) x0 x1))).\lambda (H12: (subst0 i u0 u x0)).\lambda (H13: (subst0 (s (Flat Cast) i) u0 t x1)).eq_ind_r T (THead (Flat Cast) x0 x1) (\lambda (t0: T).arity g c t0 a0) (arity_cast g c x0 a0 (H1 d1 u0 i H4 c x0 (fsubst0_snd i u0 c u x0 H12)) x1 (H3 d1 u0 i H4 c x1 (fsubst0_snd i u0 c t x1 H13))) t2 H11) H10) (subst0_gen_head (Flat Cast) u0 u t t2 i H9)) c2 H8) H7) (\lambda (H7: (and (eq T (THead (Flat Cast) u t) t2) (csubst0 i u0 c c2))).and_ind (eq T (THead (Flat Cast) u t) t2) (csubst0 i u0 c c2) (arity g c2 t2 a0) (\lambda (H8: (eq T (THead (Flat Cast) u t) t2)).\lambda (H9: (csubst0 i u0 c c2)).eq_ind T (THead (Flat Cast) u t) (\lambda (t0: T).arity g c2 t0 a0) (arity_cast g c2 u a0 (H1 d1 u0 i H4 c2 u (fsubst0_fst i u0 c u c2 H9)) t (H3 d1 u0 i H4 c2 t (fsubst0_fst i u0 c t c2 H9))) t2 H8) H7) (\lambda (H7: (and (subst0 i u0 (THead (Flat Cast) u t) t2) (csubst0 i u0 c c2))).and_ind (subst0 i u0 (THead (Flat Cast) u t) t2) (csubst0 i u0 c c2) (arity g c2 t2 a0) (\lambda (H8: (subst0 i u0 (THead (Flat Cast) u t) t2)).\lambda (H9: (csubst0 i u0 c c2)).or3_ind (ex2 T (\lambda (u2: T).eq T t2 (THead (Flat Cast) u2 t)) (\lambda (u2: T).subst0 i u0 u u2)) (ex2 T (\lambda (t3: T).eq T t2 (THead (Flat Cast) u t3)) (\lambda (t3: T).subst0 (s (Flat Cast) i) u0 t t3)) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 u u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Flat Cast) i) u0 t t3)) (arity g c2 t2 a0) (\lambda (H10: (ex2 T (\lambda (u2: T).eq T t2 (THead (Flat Cast) u2 t)) (\lambda (u2: T).subst0 i u0 u u2))).ex2_ind T (\lambda (u2: T).eq T t2 (THead (Flat Cast) u2 t)) (\lambda (u2: T).subst0 i u0 u u2) (arity g c2 t2 a0) (\lambda (x: T).\lambda (H11: (eq T t2 (THead (Flat Cast) x t))).\lambda (H12: (subst0 i u0 u x)).eq_ind_r T (THead (Flat Cast) x t) (\lambda (t0: T).arity g c2 t0 a0) (arity_cast g c2 x a0 (H1 d1 u0 i H4 c2 x (fsubst0_both i u0 c u x H12 c2 H9)) t (H3 d1 u0 i H4 c2 t (fsubst0_fst i u0 c t c2 H9))) t2 H11) H10) (\lambda (H10: (ex2 T (\lambda (t3: T).eq T t2 (THead (Flat Cast) u t3)) (\lambda (t2: T).subst0 (s (Flat Cast) i) u0 t t2))).ex2_ind T (\lambda (t3: T).eq T t2 (THead (Flat Cast) u t3)) (\lambda (t3: T).subst0 (s (Flat Cast) i) u0 t t3) (arity g c2 t2 a0) (\lambda (x: T).\lambda (H11: (eq T t2 (THead (Flat Cast) u x))).\lambda (H12: (subst0 (s (Flat Cast) i) u0 t x)).eq_ind_r T (THead (Flat Cast) u x) (\lambda (t0: T).arity g c2 t0 a0) (arity_cast g c2 u a0 (H1 d1 u0 i H4 c2 u (fsubst0_fst i u0 c u c2 H9)) x (H3 d1 u0 i H4 c2 x (fsubst0_both i u0 c t x H12 c2 H9))) t2 H11) H10) (\lambda (H10: (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 u u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Flat Cast) i) u0 t t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 u u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Flat Cast) i) u0 t t3) (arity g c2 t2 a0) (\lambda (x0: T).\lambda (x1: T).\lambda (H11: (eq T t2 (THead (Flat Cast) x0 x1))).\lambda (H12: (subst0 i u0 u x0)).\lambda (H13: (subst0 (s (Flat Cast) i) u0 t x1)).eq_ind_r T (THead (Flat Cast) x0 x1) (\lambda (t0: T).arity g c2 t0 a0) (arity_cast g c2 x0 a0 (H1 d1 u0 i H4 c2 x0 (fsubst0_both i u0 c u x0 H12 c2 H9)) x1 (H3 d1 u0 i H4 c2 x1 (fsubst0_both i u0 c t x1 H13 c2 H9))) t2 H11) H10) (subst0_gen_head (Flat Cast) u0 u t t2 i H8)) H7) H6) (\lambda (c: C).\lambda (t: T).\lambda (a1: A).\lambda (_: (arity g c t a1)).\lambda (H1: ((\forall (d1: C).\forall (u: T).\forall (i: nat).(getl i c (CHead d1 (Bind Abbr) u)) \to \forall (c2: C).\forall (t2: T).(fsubst0 i u c t c2 t2) \to arity g c2 t2 a1))).\lambda (a2: A).\lambda (H2: (leq g a1 a2)).\lambda (d1: C).\lambda (u: T).\lambda (i: nat).\lambda (H3: (getl i c (CHead d1 (Bind Abbr) u))).\lambda (c2: C).\lambda (t2: T).\lambda (H4: (fsubst0 i u c t c2 t2)).let H5 \def fsubst0_gen_base c c2 t t2 u i H4 in or3_ind (and (eq C c c2) (subst0 i u t t2)) (and (eq T t t2) (csubst0 i u c c2)) (and (subst0 i u t t2) (csubst0 i u c c2)) (arity g c2 t2 a2) (\lambda (H6: (and (eq C c c2) (subst0 i u t t2))).and_ind (eq C c c2) (subst0 i u t t2) (arity g c2 t2 a2) (\lambda (H7: (eq C c c2)).\lambda (H8: (subst0 i u t t2)).eq_ind C c (\lambda (c0: C).arity g c0 t2 a2) (arity_repl g c t2 a1 (H1 d1 u i H3 c t2 (fsubst0_snd i u c t t2 H8)) a2 H2) c2 H7) H6) (\lambda (H6: (and (eq T t t2) (csubst0 i u c c2))).and_ind (eq T t t2) (csubst0 i u c c2) (arity g c2 t2 a2) (\lambda (H7: (eq T t t2)).\lambda (H8: (csubst0 i u c c2)).eq_ind T t (\lambda (t0: T).arity g c2 t0 a2) (arity_repl g c2 t a1 (H1 d1 u i H3 c2 t (fsubst0_fst i u c t c2 H8)) a2 H2) t2 H7) H6) (\lambda (H6: (and (subst0 i u t t2) (csubst0 i u c c2))).and_ind (subst0 i u t t2) (csubst0 i u c c2) (arity g c2 t2 a2) (\lambda (H7: (subst0 i u t t2)).\lambda (H8: (csubst0 i u c c2)).arity_repl g c2 t2 a1 (H1 d1 u i H3 c2 t2 (fsubst0_both i u c t t2 H7 c2 H8)) a2 H2) H6) H5) c1 t1 a H.
+
+theorem arity_subst0: \forall (g: G).\forall (c: C).\forall (t1: T).\forall (a: A).(arity g c t1 a) \to \forall (d: C).\forall (u: T).\forall (i: nat).(getl i c (CHead d (Bind Abbr) u)) \to \forall (t2: T).(subst0 i u t1 t2) \to arity g c t2 a \def \lambda (g: G).\lambda (c: C).\lambda (t1: T).\lambda (a: A).\lambda (H: (arity g c t1 a)).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c (CHead d (Bind Abbr) u))).\lambda (t2: T).\lambda (H1: (subst0 i u t1 t2)).arity_fsubst0 g c t1 a H d u i H0 c t2 (fsubst0_snd i u c t1 t2 H1).
+
+inductive pr0: T \to T \to Prop \def
+| pr0_refl: \forall (t: T).pr0 t t
+| pr0_comp: \forall (u1: T).\forall (u2: T).(pr0 u1 u2) \to \forall (t1: T).\forall (t2: T).(pr0 t1 t2) \to \forall (k: K).pr0 (THead k u1 t1) (THead k u2 t2)
+| pr0_beta: \forall (u: T).\forall (v1: T).\forall (v2: T).(pr0 v1 v2) \to \forall (t1: T).\forall (t2: T).(pr0 t1 t2) \to pr0 (THead (Flat Appl) v1 (THead (Bind Abst) u t1)) (THead (Bind Abbr) v2 t2)
+| pr0_upsilon: \forall (b: B).(not (eq B b Abst)) \to \forall (v1: T).\forall (v2: T).(pr0 v1 v2) \to \forall (u1: T).\forall (u2: T).(pr0 u1 u2) \to \forall (t1: T).\forall (t2: T).(pr0 t1 t2) \to pr0 (THead (Flat Appl) v1 (THead (Bind b) u1 t1)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t2))
+| pr0_delta: \forall (u1: T).\forall (u2: T).(pr0 u1 u2) \to \forall (t1: T).\forall (t2: T).(pr0 t1 t2) \to \forall (w: T).(subst0 O u2 t2 w) \to pr0 (THead (Bind Abbr) u1 t1) (THead (Bind Abbr) u2 w)
+| pr0_zeta: \forall (b: B).(not (eq B b Abst)) \to \forall (t1: T).\forall (t2: T).(pr0 t1 t2) \to \forall (u: T).pr0 (THead (Bind b) u (lift (S O) O t1)) t2
+| pr0_epsilon: \forall (t1: T).\forall (t2: T).(pr0 t1 t2) \to \forall (u: T).pr0 (THead (Flat Cast) u t1) t2.
+
+theorem pr0_gen_sort: \forall (x: T).\forall (n: nat).(pr0 (TSort n) x) \to eq T x (TSort n) \def \lambda (x: T).\lambda (n: nat).\lambda (H: (pr0 (TSort n) x)).let H0 \def match H return (\lambda (t: T).\lambda (t0: T).(eq T t (TSort n)) \to (eq T t0 x) \to eq T x (TSort n)) with [(pr0_refl t) \Rightarrow (\lambda (H0: (eq T t (TSort n))).\lambda (H1: (eq T t x)).eq_ind T (TSort n) (\lambda (t0: T).(eq T t0 x) \to eq T x (TSort n)) (\lambda (H2: (eq T (TSort n) x)).eq_ind T (TSort n) (\lambda (t0: T).eq T t0 (TSort n)) (refl_equal T (TSort n)) x H2) t (sym_eq T t (TSort n) H0) H1) | (pr0_comp u1 u2 H0 t1 t2 H1 k) \Rightarrow (\lambda (H2: (eq T (THead k u1 t1) (TSort n))).\lambda (H3: (eq T (THead k u2 t2) x)).(let H4 \def eq_ind T (THead k u1 t1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TSort n) H2 in False_ind ((eq T (THead k u2 t2) x) \to (pr0 u1 u2) \to (pr0 t1 t2) \to eq T x (TSort n)) H4) H3 H0 H1) | (pr0_beta u v1 v2 H0 t1 t2 H1) \Rightarrow (\lambda (H2: (eq T (THead (Flat Appl) v1 (THead (Bind Abst) u t1)) (TSort n))).\lambda (H3: (eq T (THead (Bind Abbr) v2 t2) x)).(let H4 \def eq_ind T (THead (Flat Appl) v1 (THead (Bind Abst) u t1)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TSort n) H2 in False_ind ((eq T (THead (Bind Abbr) v2 t2) x) \to (pr0 v1 v2) \to (pr0 t1 t2) \to eq T x (TSort n)) H4) H3 H0 H1) | (pr0_upsilon b H0 v1 v2 H1 u1 u2 H2 t1 t2 H3) \Rightarrow (\lambda (H4: (eq T (THead (Flat Appl) v1 (THead (Bind b) u1 t1)) (TSort n))).\lambda (H5: (eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t2)) x)).(let H6 \def eq_ind T (THead (Flat Appl) v1 (THead (Bind b) u1 t1)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TSort n) H4 in False_ind ((eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t2)) x) \to (not (eq B b Abst)) \to (pr0 v1 v2) \to (pr0 u1 u2) \to (pr0 t1 t2) \to eq T x (TSort n)) H6) H5 H0 H1 H2 H3) | (pr0_delta u1 u2 H0 t1 t2 H1 w H2) \Rightarrow (\lambda (H3: (eq T (THead (Bind Abbr) u1 t1) (TSort n))).\lambda (H4: (eq T (THead (Bind Abbr) u2 w) x)).(let H5 \def eq_ind T (THead (Bind Abbr) u1 t1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TSort n) H3 in False_ind ((eq T (THead (Bind Abbr) u2 w) x) \to (pr0 u1 u2) \to (pr0 t1 t2) \to (subst0 O u2 t2 w) \to eq T x (TSort n)) H5) H4 H0 H1 H2) | (pr0_zeta b H0 t1 t2 H1 u) \Rightarrow (\lambda (H2: (eq T (THead (Bind b) u (lift (S O) O t1)) (TSort n))).\lambda (H3: (eq T t2 x)).(let H4 \def eq_ind T (THead (Bind b) u (lift (S O) O t1)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TSort n) H2 in False_ind ((eq T t2 x) \to (not (eq B b Abst)) \to (pr0 t1 t2) \to eq T x (TSort n)) H4) H3 H0 H1) | (pr0_epsilon t1 t2 H0 u) \Rightarrow (\lambda (H1: (eq T (THead (Flat Cast) u t1) (TSort n))).\lambda (H2: (eq T t2 x)).(let H3 \def eq_ind T (THead (Flat Cast) u t1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TSort n) H1 in False_ind ((eq T t2 x) \to (pr0 t1 t2) \to eq T x (TSort n)) H3) H2 H0)] in H0 (refl_equal T (TSort n)) (refl_equal T x).
+
+theorem pr0_gen_lref: \forall (x: T).\forall (n: nat).(pr0 (TLRef n) x) \to eq T x (TLRef n) \def \lambda (x: T).\lambda (n: nat).\lambda (H: (pr0 (TLRef n) x)).let H0 \def match H return (\lambda (t: T).\lambda (t0: T).(eq T t (TLRef n)) \to (eq T t0 x) \to eq T x (TLRef n)) with [(pr0_refl t) \Rightarrow (\lambda (H0: (eq T t (TLRef n))).\lambda (H1: (eq T t x)).eq_ind T (TLRef n) (\lambda (t0: T).(eq T t0 x) \to eq T x (TLRef n)) (\lambda (H2: (eq T (TLRef n) x)).eq_ind T (TLRef n) (\lambda (t0: T).eq T t0 (TLRef n)) (refl_equal T (TLRef n)) x H2) t (sym_eq T t (TLRef n) H0) H1) | (pr0_comp u1 u2 H0 t1 t2 H1 k) \Rightarrow (\lambda (H2: (eq T (THead k u1 t1) (TLRef n))).\lambda (H3: (eq T (THead k u2 t2) x)).(let H4 \def eq_ind T (THead k u1 t1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef n) H2 in False_ind ((eq T (THead k u2 t2) x) \to (pr0 u1 u2) \to (pr0 t1 t2) \to eq T x (TLRef n)) H4) H3 H0 H1) | (pr0_beta u v1 v2 H0 t1 t2 H1) \Rightarrow (\lambda (H2: (eq T (THead (Flat Appl) v1 (THead (Bind Abst) u t1)) (TLRef n))).\lambda (H3: (eq T (THead (Bind Abbr) v2 t2) x)).(let H4 \def eq_ind T (THead (Flat Appl) v1 (THead (Bind Abst) u t1)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef n) H2 in False_ind ((eq T (THead (Bind Abbr) v2 t2) x) \to (pr0 v1 v2) \to (pr0 t1 t2) \to eq T x (TLRef n)) H4) H3 H0 H1) | (pr0_upsilon b H0 v1 v2 H1 u1 u2 H2 t1 t2 H3) \Rightarrow (\lambda (H4: (eq T (THead (Flat Appl) v1 (THead (Bind b) u1 t1)) (TLRef n))).\lambda (H5: (eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t2)) x)).(let H6 \def eq_ind T (THead (Flat Appl) v1 (THead (Bind b) u1 t1)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef n) H4 in False_ind ((eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t2)) x) \to (not (eq B b Abst)) \to (pr0 v1 v2) \to (pr0 u1 u2) \to (pr0 t1 t2) \to eq T x (TLRef n)) H6) H5 H0 H1 H2 H3) | (pr0_delta u1 u2 H0 t1 t2 H1 w H2) \Rightarrow (\lambda (H3: (eq T (THead (Bind Abbr) u1 t1) (TLRef n))).\lambda (H4: (eq T (THead (Bind Abbr) u2 w) x)).(let H5 \def eq_ind T (THead (Bind Abbr) u1 t1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef n) H3 in False_ind ((eq T (THead (Bind Abbr) u2 w) x) \to (pr0 u1 u2) \to (pr0 t1 t2) \to (subst0 O u2 t2 w) \to eq T x (TLRef n)) H5) H4 H0 H1 H2) | (pr0_zeta b H0 t1 t2 H1 u) \Rightarrow (\lambda (H2: (eq T (THead (Bind b) u (lift (S O) O t1)) (TLRef n))).\lambda (H3: (eq T t2 x)).(let H4 \def eq_ind T (THead (Bind b) u (lift (S O) O t1)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef n) H2 in False_ind ((eq T t2 x) \to (not (eq B b Abst)) \to (pr0 t1 t2) \to eq T x (TLRef n)) H4) H3 H0 H1) | (pr0_epsilon t1 t2 H0 u) \Rightarrow (\lambda (H1: (eq T (THead (Flat Cast) u t1) (TLRef n))).\lambda (H2: (eq T t2 x)).(let H3 \def eq_ind T (THead (Flat Cast) u t1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef n) H1 in False_ind ((eq T t2 x) \to (pr0 t1 t2) \to eq T x (TLRef n)) H3) H2 H0)] in H0 (refl_equal T (TLRef n)) (refl_equal T x).
+
+theorem pr0_gen_abst: \forall (u1: T).\forall (t1: T).\forall (x: T).(pr0 (THead (Bind Abst) u1 t1) x) \to ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Abst) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t2: T).pr0 t1 t2) \def \lambda (u1: T).\lambda (t1: T).\lambda (x: T).\lambda (H: (pr0 (THead (Bind Abst) u1 t1) x)).let H0 \def match H return (\lambda (t: T).\lambda (t0: T).(eq T t (THead (Bind Abst) u1 t1)) \to (eq T t0 x) \to ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Abst) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t2: T).pr0 t1 t2)) with [(pr0_refl t) \Rightarrow (\lambda (H0: (eq T t (THead (Bind Abst) u1 t1))).\lambda (H1: (eq T t x)).eq_ind T (THead (Bind Abst) u1 t1) (\lambda (t0: T).(eq T t0 x) \to ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Abst) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t2: T).pr0 t1 t2)) (\lambda (H2: (eq T (THead (Bind Abst) u1 t1) x)).eq_ind T (THead (Bind Abst) u1 t1) (\lambda (t0: T).ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t0 (THead (Bind Abst) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t2: T).pr0 t1 t2)) (ex3_2_intro T T (\lambda (u2: T).\lambda (t2: T).eq T (THead (Bind Abst) u1 t1) (THead (Bind Abst) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t2: T).pr0 t1 t2) u1 t1 (refl_equal T (THead (Bind Abst) u1 t1)) (pr0_refl u1) (pr0_refl t1)) x H2) t (sym_eq T t (THead (Bind Abst) u1 t1) H0) H1) | (pr0_comp u0 u2 H0 t0 t2 H1 k) \Rightarrow (\lambda (H2: (eq T (THead k u0 t0) (THead (Bind Abst) u1 t1))).\lambda (H3: (eq T (THead k u2 t2) x)).(let H4 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead k u0 t0) (THead (Bind Abst) u1 t1) H2 in (let H5 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u0 | (TLRef _) \Rightarrow u0 | (THead _ t _) \Rightarrow t]) (THead k u0 t0) (THead (Bind Abst) u1 t1) H2 in (let H6 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k u0 t0) (THead (Bind Abst) u1 t1) H2 in eq_ind K (Bind Abst) (\lambda (k0: K).(eq T u0 u1) \to (eq T t0 t1) \to (eq T (THead k0 u2 t2) x) \to (pr0 u0 u2) \to (pr0 t0 t2) \to ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Abst) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (\lambda (H7: (eq T u0 u1)).eq_ind T u1 (\lambda (t: T).(eq T t0 t1) \to (eq T (THead (Bind Abst) u2 t2) x) \to (pr0 t u2) \to (pr0 t0 t2) \to ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Abst) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (\lambda (H8: (eq T t0 t1)).eq_ind T t1 (\lambda (t: T).(eq T (THead (Bind Abst) u2 t2) x) \to (pr0 u1 u2) \to (pr0 t t2) \to ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Abst) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (\lambda (H9: (eq T (THead (Bind Abst) u2 t2) x)).eq_ind T (THead (Bind Abst) u2 t2) (\lambda (t: T).(pr0 u1 u2) \to (pr0 t1 t2) \to ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T t (THead (Bind Abst) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (\lambda (H10: (pr0 u1 u2)).\lambda (H11: (pr0 t1 t2)).ex3_2_intro T T (\lambda (u3: T).\lambda (t3: T).eq T (THead (Bind Abst) u2 t2) (THead (Bind Abst) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3) u2 t2 (refl_equal T (THead (Bind Abst) u2 t2)) H10 H11) x H9) t0 (sym_eq T t0 t1 H8)) u0 (sym_eq T u0 u1 H7)) k (sym_eq K k (Bind Abst) H6)) H5) H4) H3 H0 H1) | (pr0_beta u v1 v2 H0 t0 t2 H1) \Rightarrow (\lambda (H2: (eq T (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (THead (Bind Abst) u1 t1))).\lambda (H3: (eq T (THead (Bind Abbr) v2 t2) x)).(let H4 \def eq_ind T (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind Abst) u1 t1) H2 in False_ind ((eq T (THead (Bind Abbr) v2 t2) x) \to (pr0 v1 v2) \to (pr0 t0 t2) \to ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) H4) H3 H0 H1) | (pr0_upsilon b H0 v1 v2 H1 u0 u2 H2 t0 t2 H3) \Rightarrow (\lambda (H4: (eq T (THead (Flat Appl) v1 (THead (Bind b) u0 t0)) (THead (Bind Abst) u1 t1))).\lambda (H5: (eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t2)) x)).(let H6 \def eq_ind T (THead (Flat Appl) v1 (THead (Bind b) u0 t0)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind Abst) u1 t1) H4 in False_ind ((eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t2)) x) \to (not (eq B b Abst)) \to (pr0 v1 v2) \to (pr0 u0 u2) \to (pr0 t0 t2) \to ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Abst) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) H6) H5 H0 H1 H2 H3) | (pr0_delta u0 u2 H0 t0 t2 H1 w H2) \Rightarrow (\lambda (H3: (eq T (THead (Bind Abbr) u0 t0) (THead (Bind Abst) u1 t1))).\lambda (H4: (eq T (THead (Bind Abbr) u2 w) x)).(let H5 \def eq_ind T (THead (Bind Abbr) u0 t0) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow True | Abst \Rightarrow False | Void \Rightarrow False]) | (Flat _) \Rightarrow False])]) I (THead (Bind Abst) u1 t1) H3 in False_ind ((eq T (THead (Bind Abbr) u2 w) x) \to (pr0 u0 u2) \to (pr0 t0 t2) \to (subst0 O u2 t2 w) \to ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Abst) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) H5) H4 H0 H1 H2) | (pr0_zeta b H0 t0 t2 H1 u) \Rightarrow (\lambda (H2: (eq T (THead (Bind b) u (lift (S O) O t0)) (THead (Bind Abst) u1 t1))).\lambda (H3: (eq T t2 x)).(let H4 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x (S O)) O t0) | (TLRef _) \Rightarrow ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x (S O)) O t0) | (THead _ _ t) \Rightarrow t]) (THead (Bind b) u (lift (S O) O t0)) (THead (Bind Abst) u1 t1) H2 in (let H5 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u | (TLRef _) \Rightarrow u | (THead _ t _) \Rightarrow t]) (THead (Bind b) u (lift (S O) O t0)) (THead (Bind Abst) u1 t1) H2 in (let H6 \def f_equal T B (\lambda (e: T).match e return B with [(TSort _) \Rightarrow b | (TLRef _) \Rightarrow b | (THead k _ _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow b])]) (THead (Bind b) u (lift (S O) O t0)) (THead (Bind Abst) u1 t1) H2 in eq_ind B Abst (\lambda (b0: B).(eq T u u1) \to (eq T (lift (S O) O t0) t1) \to (eq T t2 x) \to (not (eq B b0 Abst)) \to (pr0 t0 t2) \to ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (\lambda (H7: (eq T u u1)).eq_ind T u1 (\lambda (_: T).(eq T (lift (S O) O t0) t1) \to (eq T t2 x) \to (not (eq B Abst Abst)) \to (pr0 t0 t2) \to ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (\lambda (H8: (eq T (lift (S O) O t0) t1)).eq_ind T (lift (S O) O t0) (\lambda (t: T).(eq T t2 x) \to (not (eq B Abst Abst)) \to (pr0 t0 t2) \to ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t t3)) (\lambda (H9: (eq T t2 x)).eq_ind T x (\lambda (t: T).(not (eq B Abst Abst)) \to (pr0 t0 t) \to ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 (lift (S O) O t0) t3)) (\lambda (H10: (not (eq B Abst Abst))).\lambda (_: (pr0 t0 x)).False_ind (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 (lift (S O) O t0) t3)) (H10 (refl_equal B Abst))) t2 (sym_eq T t2 x H9)) t1 H8) u (sym_eq T u u1 H7)) b (sym_eq B b Abst H6)) H5) H4) H3 H0 H1) | (pr0_epsilon t0 t2 H0 u) \Rightarrow (\lambda (H1: (eq T (THead (Flat Cast) u t0) (THead (Bind Abst) u1 t1))).\lambda (H2: (eq T t2 x)).(let H3 \def eq_ind T (THead (Flat Cast) u t0) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind Abst) u1 t1) H1 in False_ind ((eq T t2 x) \to (pr0 t0 t2) \to ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) H3) H2 H0)] in H0 (refl_equal T (THead (Bind Abst) u1 t1)) (refl_equal T x).
+
+theorem pr0_gen_appl: \forall (u1: T).\forall (t1: T).\forall (x: T).(pr0 (THead (Flat Appl) u1 t1) x) \to or3 (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t2: T).pr0 t1 t2)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Abbr) u2 t2)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).pr0 z1 t2)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (v2: T).\lambda (t2: T).eq T x (THead (Bind b) v2 (THead (Flat Appl) (lift (S O) O u2) t2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v2: T).\lambda (_: T).pr0 y1 v2) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t2: T).pr0 z1 t2)) \def \lambda (u1: T).\lambda (t1: T).\lambda (x: T).\lambda (H: (pr0 (THead (Flat Appl) u1 t1) x)).let H0 \def match H return (\lambda (t: T).\lambda (t0: T).(eq T t (THead (Flat Appl) u1 t1)) \to (eq T t0 x) \to or3 (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t2: T).pr0 t1 t2)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Abbr) u2 t2)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).pr0 z1 t2)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (v2: T).\lambda (t2: T).eq T x (THead (Bind b) v2 (THead (Flat Appl) (lift (S O) O u2) t2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v2: T).\lambda (_: T).pr0 y1 v2) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t2: T).pr0 z1 t2))) with [(pr0_refl t) \Rightarrow (\lambda (H0: (eq T t (THead (Flat Appl) u1 t1))).\lambda (H1: (eq T t x)).eq_ind T (THead (Flat Appl) u1 t1) (\lambda (t0: T).(eq T t0 x) \to or3 (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t2: T).pr0 t1 t2)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Abbr) u2 t2)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).pr0 z1 t2)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (v2: T).\lambda (t2: T).eq T x (THead (Bind b) v2 (THead (Flat Appl) (lift (S O) O u2) t2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v2: T).\lambda (_: T).pr0 y1 v2) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t2: T).pr0 z1 t2))) (\lambda (H2: (eq T (THead (Flat Appl) u1 t1) x)).eq_ind T (THead (Flat Appl) u1 t1) (\lambda (t0: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t0 (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t2: T).pr0 t1 t2)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t2: T).eq T t0 (THead (Bind Abbr) u2 t2)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).pr0 z1 t2)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (v2: T).\lambda (t2: T).eq T t0 (THead (Bind b) v2 (THead (Flat Appl) (lift (S O) O u2) t2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v2: T).\lambda (_: T).pr0 y1 v2) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t2: T).pr0 z1 t2))) (or3_intro0 (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T (THead (Flat Appl) u1 t1) (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t2: T).pr0 t1 t2)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t2: T).eq T (THead (Flat Appl) u1 t1) (THead (Bind Abbr) u2 t2)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).pr0 z1 t2)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (v2: T).\lambda (t2: T).eq T (THead (Flat Appl) u1 t1) (THead (Bind b) v2 (THead (Flat Appl) (lift (S O) O u2) t2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v2: T).\lambda (_: T).pr0 y1 v2) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t2: T).pr0 z1 t2)) (ex3_2_intro T T (\lambda (u2: T).\lambda (t2: T).eq T (THead (Flat Appl) u1 t1) (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t2: T).pr0 t1 t2) u1 t1 (refl_equal T (THead (Flat Appl) u1 t1)) (pr0_refl u1) (pr0_refl t1))) x H2) t (sym_eq T t (THead (Flat Appl) u1 t1) H0) H1) | (pr0_comp u0 u2 H0 t0 t2 H1 k) \Rightarrow (\lambda (H2: (eq T (THead k u0 t0) (THead (Flat Appl) u1 t1))).\lambda (H3: (eq T (THead k u2 t2) x)).(let H4 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead k u0 t0) (THead (Flat Appl) u1 t1) H2 in (let H5 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u0 | (TLRef _) \Rightarrow u0 | (THead _ t _) \Rightarrow t]) (THead k u0 t0) (THead (Flat Appl) u1 t1) H2 in (let H6 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k u0 t0) (THead (Flat Appl) u1 t1) H2 in eq_ind K (Flat Appl) (\lambda (k0: K).(eq T u0 u1) \to (eq T t0 t1) \to (eq T (THead k0 u2 t2) x) \to (pr0 u0 u2) \to (pr0 t0 t2) \to or3 (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Flat Appl) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u3 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (v2: T).\lambda (t3: T).eq T x (THead (Bind b) v2 (THead (Flat Appl) (lift (S O) O u3) t3))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (_: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v2: T).\lambda (_: T).pr0 y1 v2) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3))) (\lambda (H7: (eq T u0 u1)).eq_ind T u1 (\lambda (t: T).(eq T t0 t1) \to (eq T (THead (Flat Appl) u2 t2) x) \to (pr0 t u2) \to (pr0 t0 t2) \to or3 (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Flat Appl) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u3 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (v2: T).\lambda (t3: T).eq T x (THead (Bind b) v2 (THead (Flat Appl) (lift (S O) O u3) t3))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (_: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v2: T).\lambda (_: T).pr0 y1 v2) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3))) (\lambda (H8: (eq T t0 t1)).eq_ind T t1 (\lambda (t: T).(eq T (THead (Flat Appl) u2 t2) x) \to (pr0 u1 u2) \to (pr0 t t2) \to or3 (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Flat Appl) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u3 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (v2: T).\lambda (t3: T).eq T x (THead (Bind b) v2 (THead (Flat Appl) (lift (S O) O u3) t3))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (_: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v2: T).\lambda (_: T).pr0 y1 v2) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3))) (\lambda (H9: (eq T (THead (Flat Appl) u2 t2) x)).eq_ind T (THead (Flat Appl) u2 t2) (\lambda (t: T).(pr0 u1 u2) \to (pr0 t1 t2) \to or3 (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T t (THead (Flat Appl) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (t3: T).eq T t (THead (Bind Abbr) u3 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (v2: T).\lambda (t3: T).eq T t (THead (Bind b) v2 (THead (Flat Appl) (lift (S O) O u3) t3))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (_: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v2: T).\lambda (_: T).pr0 y1 v2) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3))) (\lambda (H10: (pr0 u1 u2)).\lambda (H11: (pr0 t1 t2)).or3_intro0 (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T (THead (Flat Appl) u2 t2) (THead (Flat Appl) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (t3: T).eq T (THead (Flat Appl) u2 t2) (THead (Bind Abbr) u3 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (v2: T).\lambda (t3: T).eq T (THead (Flat Appl) u2 t2) (THead (Bind b) v2 (THead (Flat Appl) (lift (S O) O u3) t3))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (_: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v2: T).\lambda (_: T).pr0 y1 v2) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3)) (ex3_2_intro T T (\lambda (u3: T).\lambda (t3: T).eq T (THead (Flat Appl) u2 t2) (THead (Flat Appl) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3) u2 t2 (refl_equal T (THead (Flat Appl) u2 t2)) H10 H11)) x H9) t0 (sym_eq T t0 t1 H8)) u0 (sym_eq T u0 u1 H7)) k (sym_eq K k (Flat Appl) H6)) H5) H4) H3 H0 H1) | (pr0_beta u v1 v2 H0 t0 t2 H1) \Rightarrow (\lambda (H2: (eq T (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (THead (Flat Appl) u1 t1))).\lambda (H3: (eq T (THead (Bind Abbr) v2 t2) x)).(let H4 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow (THead (Bind Abst) u t0) | (TLRef _) \Rightarrow (THead (Bind Abst) u t0) | (THead _ _ t) \Rightarrow t]) (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (THead (Flat Appl) u1 t1) H2 in (let H5 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow v1 | (TLRef _) \Rightarrow v1 | (THead _ t _) \Rightarrow t]) (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (THead (Flat Appl) u1 t1) H2 in eq_ind T u1 (\lambda (t: T).(eq T (THead (Bind Abst) u t0) t1) \to (eq T (THead (Bind Abbr) v2 t2) x) \to (pr0 t v2) \to (pr0 t0 t2) \to or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (v3: T).\lambda (t3: T).eq T x (THead (Bind b) v3 (THead (Flat Appl) (lift (S O) O u2) t3))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v3: T).\lambda (_: T).pr0 y1 v3) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3))) (\lambda (H6: (eq T (THead (Bind Abst) u t0) t1)).eq_ind T (THead (Bind Abst) u t0) (\lambda (t: T).(eq T (THead (Bind Abbr) v2 t2) x) \to (pr0 u1 v2) \to (pr0 t0 t2) \to or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (v3: T).\lambda (t3: T).eq T x (THead (Bind b) v3 (THead (Flat Appl) (lift (S O) O u2) t3))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v3: T).\lambda (_: T).pr0 y1 v3) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3))) (\lambda (H7: (eq T (THead (Bind Abbr) v2 t2) x)).eq_ind T (THead (Bind Abbr) v2 t2) (\lambda (t: T).(pr0 u1 v2) \to (pr0 t0 t2) \to or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 (THead (Bind Abst) u t0) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) u t0) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T t (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) u t0) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (v3: T).\lambda (t3: T).eq T t (THead (Bind b) v3 (THead (Flat Appl) (lift (S O) O u2) t3))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v3: T).\lambda (_: T).pr0 y1 v3) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3))) (\lambda (H8: (pr0 u1 v2)).\lambda (H9: (pr0 t0 t2)).or3_intro1 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind Abbr) v2 t2) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 (THead (Bind Abst) u t0) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) u t0) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind Abbr) v2 t2) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) u t0) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (v3: T).\lambda (t3: T).eq T (THead (Bind Abbr) v2 t2) (THead (Bind b) v3 (THead (Flat Appl) (lift (S O) O u2) t3))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v3: T).\lambda (_: T).pr0 y1 v3) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3)) (ex4_4_intro T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) u t0) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind Abbr) v2 t2) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3) u t0 v2 t2 (refl_equal T (THead (Bind Abst) u t0)) (refl_equal T (THead (Bind Abbr) v2 t2)) H8 H9)) x H7) t1 H6) v1 (sym_eq T v1 u1 H5)) H4) H3 H0 H1) | (pr0_upsilon b H0 v1 v2 H1 u0 u2 H2 t0 t2 H3) \Rightarrow (\lambda (H4: (eq T (THead (Flat Appl) v1 (THead (Bind b) u0 t0)) (THead (Flat Appl) u1 t1))).\lambda (H5: (eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t2)) x)).(let H6 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow (THead (Bind b) u0 t0) | (TLRef _) \Rightarrow (THead (Bind b) u0 t0) | (THead _ _ t) \Rightarrow t]) (THead (Flat Appl) v1 (THead (Bind b) u0 t0)) (THead (Flat Appl) u1 t1) H4 in (let H7 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow v1 | (TLRef _) \Rightarrow v1 | (THead _ t _) \Rightarrow t]) (THead (Flat Appl) v1 (THead (Bind b) u0 t0)) (THead (Flat Appl) u1 t1) H4 in eq_ind T u1 (\lambda (t: T).(eq T (THead (Bind b) u0 t0) t1) \to (eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t2)) x) \to (not (eq B b Abst)) \to (pr0 t v2) \to (pr0 u0 u2) \to (pr0 t0 t2) \to or3 (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Flat Appl) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u3 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3)) (ex6_6 B T T T T T (\lambda (b0: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b0 Abst)) (\lambda (b0: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b0) y1 z1)) (\lambda (b0: B).\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (v3: T).\lambda (t3: T).eq T x (THead (Bind b0) v3 (THead (Flat Appl) (lift (S O) O u3) t3))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (_: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v3: T).\lambda (_: T).pr0 y1 v3) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3))) (\lambda (H8: (eq T (THead (Bind b) u0 t0) t1)).eq_ind T (THead (Bind b) u0 t0) (\lambda (t: T).(eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t2)) x) \to (not (eq B b Abst)) \to (pr0 u1 v2) \to (pr0 u0 u2) \to (pr0 t0 t2) \to or3 (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Flat Appl) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u3 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3)) (ex6_6 B T T T T T (\lambda (b0: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b0 Abst)) (\lambda (b0: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t (THead (Bind b0) y1 z1)) (\lambda (b0: B).\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (v3: T).\lambda (t3: T).eq T x (THead (Bind b0) v3 (THead (Flat Appl) (lift (S O) O u3) t3))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (_: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v3: T).\lambda (_: T).pr0 y1 v3) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3))) (\lambda (H9: (eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t2)) x)).eq_ind T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t2)) (\lambda (t: T).(not (eq B b Abst)) \to (pr0 u1 v2) \to (pr0 u0 u2) \to (pr0 t0 t2) \to or3 (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T t (THead (Flat Appl) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 (THead (Bind b) u0 t0) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind b) u0 t0) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (t3: T).eq T t (THead (Bind Abbr) u3 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3)) (ex6_6 B T T T T T (\lambda (b0: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b0 Abst)) (\lambda (b0: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind b) u0 t0) (THead (Bind b0) y1 z1)) (\lambda (b0: B).\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (v3: T).\lambda (t3: T).eq T t (THead (Bind b0) v3 (THead (Flat Appl) (lift (S O) O u3) t3))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (_: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v3: T).\lambda (_: T).pr0 y1 v3) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3))) (\lambda (H10: (not (eq B b Abst))).\lambda (H11: (pr0 u1 v2)).\lambda (H12: (pr0 u0 u2)).\lambda (H13: (pr0 t0 t2)).or3_intro2 (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t2)) (THead (Flat Appl) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 (THead (Bind b) u0 t0) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind b) u0 t0) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (t3: T).eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t2)) (THead (Bind Abbr) u3 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3)) (ex6_6 B T T T T T (\lambda (b0: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b0 Abst)) (\lambda (b0: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind b) u0 t0) (THead (Bind b0) y1 z1)) (\lambda (b0: B).\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (v3: T).\lambda (t3: T).eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t2)) (THead (Bind b0) v3 (THead (Flat Appl) (lift (S O) O u3) t3))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (_: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v3: T).\lambda (_: T).pr0 y1 v3) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3)) (ex6_6_intro B T T T T T (\lambda (b0: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b0 Abst)) (\lambda (b0: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind b) u0 t0) (THead (Bind b0) y1 z1)) (\lambda (b0: B).\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (v3: T).\lambda (t3: T).eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t2)) (THead (Bind b0) v3 (THead (Flat Appl) (lift (S O) O u3) t3))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (_: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v3: T).\lambda (_: T).pr0 y1 v3) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3) b u0 t0 v2 u2 t2 H10 (refl_equal T (THead (Bind b) u0 t0)) (refl_equal T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t2))) H11 H12 H13)) x H9) t1 H8) v1 (sym_eq T v1 u1 H7)) H6) H5 H0 H1 H2 H3) | (pr0_delta u0 u2 H0 t0 t2 H1 w H2) \Rightarrow (\lambda (H3: (eq T (THead (Bind Abbr) u0 t0) (THead (Flat Appl) u1 t1))).\lambda (H4: (eq T (THead (Bind Abbr) u2 w) x)).(let H5 \def eq_ind T (THead (Bind Abbr) u0 t0) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (THead (Flat Appl) u1 t1) H3 in False_ind ((eq T (THead (Bind Abbr) u2 w) x) \to (pr0 u0 u2) \to (pr0 t0 t2) \to (subst0 O u2 t2 w) \to or3 (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Flat Appl) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u3 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (v2: T).\lambda (t3: T).eq T x (THead (Bind b) v2 (THead (Flat Appl) (lift (S O) O u3) t3))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (_: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v2: T).\lambda (_: T).pr0 y1 v2) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3))) H5) H4 H0 H1 H2) | (pr0_zeta b H0 t0 t2 H1 u) \Rightarrow (\lambda (H2: (eq T (THead (Bind b) u (lift (S O) O t0)) (THead (Flat Appl) u1 t1))).\lambda (H3: (eq T t2 x)).(let H4 \def eq_ind T (THead (Bind b) u (lift (S O) O t0)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (THead (Flat Appl) u1 t1) H2 in False_ind ((eq T t2 x) \to (not (eq B b Abst)) \to (pr0 t0 t2) \to or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3)) (ex6_6 B T T T T T (\lambda (b0: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b0 Abst)) (\lambda (b0: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b0) y1 z1)) (\lambda (b0: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (v2: T).\lambda (t3: T).eq T x (THead (Bind b0) v2 (THead (Flat Appl) (lift (S O) O u2) t3))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v2: T).\lambda (_: T).pr0 y1 v2) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3))) H4) H3 H0 H1) | (pr0_epsilon t0 t2 H0 u) \Rightarrow (\lambda (H1: (eq T (THead (Flat Cast) u t0) (THead (Flat Appl) u1 t1))).\lambda (H2: (eq T t2 x)).(let H3 \def eq_ind T (THead (Flat Cast) u t0) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat f) \Rightarrow (match f return (Prop) with [Appl \Rightarrow False | Cast \Rightarrow True])])]) I (THead (Flat Appl) u1 t1) H1 in False_ind ((eq T t2 x) \to (pr0 t0 t2) \to or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (v2: T).\lambda (t3: T).eq T x (THead (Bind b) v2 (THead (Flat Appl) (lift (S O) O u2) t3))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v2: T).\lambda (_: T).pr0 y1 v2) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3))) H3) H2 H0)] in H0 (refl_equal T (THead (Flat Appl) u1 t1)) (refl_equal T x).
+
+theorem pr0_gen_cast: \forall (u1: T).\forall (t1: T).\forall (x: T).(pr0 (THead (Flat Cast) u1 t1) x) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Flat Cast) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t2: T).pr0 t1 t2)) (pr0 t1 x) \def \lambda (u1: T).\lambda (t1: T).\lambda (x: T).\lambda (H: (pr0 (THead (Flat Cast) u1 t1) x)).let H0 \def match H return (\lambda (t: T).\lambda (t0: T).(eq T t (THead (Flat Cast) u1 t1)) \to (eq T t0 x) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Flat Cast) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t2: T).pr0 t1 t2)) (pr0 t1 x)) with [(pr0_refl t) \Rightarrow (\lambda (H0: (eq T t (THead (Flat Cast) u1 t1))).\lambda (H1: (eq T t x)).eq_ind T (THead (Flat Cast) u1 t1) (\lambda (t0: T).(eq T t0 x) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Flat Cast) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t2: T).pr0 t1 t2)) (pr0 t1 x)) (\lambda (H2: (eq T (THead (Flat Cast) u1 t1) x)).eq_ind T (THead (Flat Cast) u1 t1) (\lambda (t0: T).or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t0 (THead (Flat Cast) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t2: T).pr0 t1 t2)) (pr0 t1 t0)) (or_introl (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T (THead (Flat Cast) u1 t1) (THead (Flat Cast) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t2: T).pr0 t1 t2)) (pr0 t1 (THead (Flat Cast) u1 t1)) (ex3_2_intro T T (\lambda (u2: T).\lambda (t2: T).eq T (THead (Flat Cast) u1 t1) (THead (Flat Cast) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t2: T).pr0 t1 t2) u1 t1 (refl_equal T (THead (Flat Cast) u1 t1)) (pr0_refl u1) (pr0_refl t1))) x H2) t (sym_eq T t (THead (Flat Cast) u1 t1) H0) H1) | (pr0_comp u0 u2 H0 t0 t2 H1 k) \Rightarrow (\lambda (H2: (eq T (THead k u0 t0) (THead (Flat Cast) u1 t1))).\lambda (H3: (eq T (THead k u2 t2) x)).(let H4 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead k u0 t0) (THead (Flat Cast) u1 t1) H2 in (let H5 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u0 | (TLRef _) \Rightarrow u0 | (THead _ t _) \Rightarrow t]) (THead k u0 t0) (THead (Flat Cast) u1 t1) H2 in (let H6 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k u0 t0) (THead (Flat Cast) u1 t1) H2 in eq_ind K (Flat Cast) (\lambda (k0: K).(eq T u0 u1) \to (eq T t0 t1) \to (eq T (THead k0 u2 t2) x) \to (pr0 u0 u2) \to (pr0 t0 t2) \to or (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Flat Cast) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (pr0 t1 x)) (\lambda (H7: (eq T u0 u1)).eq_ind T u1 (\lambda (t: T).(eq T t0 t1) \to (eq T (THead (Flat Cast) u2 t2) x) \to (pr0 t u2) \to (pr0 t0 t2) \to or (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Flat Cast) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (pr0 t1 x)) (\lambda (H8: (eq T t0 t1)).eq_ind T t1 (\lambda (t: T).(eq T (THead (Flat Cast) u2 t2) x) \to (pr0 u1 u2) \to (pr0 t t2) \to or (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Flat Cast) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (pr0 t1 x)) (\lambda (H9: (eq T (THead (Flat Cast) u2 t2) x)).eq_ind T (THead (Flat Cast) u2 t2) (\lambda (t: T).(pr0 u1 u2) \to (pr0 t1 t2) \to or (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T t (THead (Flat Cast) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (pr0 t1 t)) (\lambda (H10: (pr0 u1 u2)).\lambda (H11: (pr0 t1 t2)).or_introl (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T (THead (Flat Cast) u2 t2) (THead (Flat Cast) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (pr0 t1 (THead (Flat Cast) u2 t2)) (ex3_2_intro T T (\lambda (u3: T).\lambda (t3: T).eq T (THead (Flat Cast) u2 t2) (THead (Flat Cast) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3) u2 t2 (refl_equal T (THead (Flat Cast) u2 t2)) H10 H11)) x H9) t0 (sym_eq T t0 t1 H8)) u0 (sym_eq T u0 u1 H7)) k (sym_eq K k (Flat Cast) H6)) H5) H4) H3 H0 H1) | (pr0_beta u v1 v2 H0 t0 t2 H1) \Rightarrow (\lambda (H2: (eq T (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (THead (Flat Cast) u1 t1))).\lambda (H3: (eq T (THead (Bind Abbr) v2 t2) x)).(let H4 \def eq_ind T (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat f) \Rightarrow (match f return (Prop) with [Appl \Rightarrow True | Cast \Rightarrow False])])]) I (THead (Flat Cast) u1 t1) H2 in False_ind ((eq T (THead (Bind Abbr) v2 t2) x) \to (pr0 v1 v2) \to (pr0 t0 t2) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (pr0 t1 x)) H4) H3 H0 H1) | (pr0_upsilon b H0 v1 v2 H1 u0 u2 H2 t0 t2 H3) \Rightarrow (\lambda (H4: (eq T (THead (Flat Appl) v1 (THead (Bind b) u0 t0)) (THead (Flat Cast) u1 t1))).\lambda (H5: (eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t2)) x)).(let H6 \def eq_ind T (THead (Flat Appl) v1 (THead (Bind b) u0 t0)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat f) \Rightarrow (match f return (Prop) with [Appl \Rightarrow True | Cast \Rightarrow False])])]) I (THead (Flat Cast) u1 t1) H4 in False_ind ((eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t2)) x) \to (not (eq B b Abst)) \to (pr0 v1 v2) \to (pr0 u0 u2) \to (pr0 t0 t2) \to or (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Flat Cast) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (pr0 t1 x)) H6) H5 H0 H1 H2 H3) | (pr0_delta u0 u2 H0 t0 t2 H1 w H2) \Rightarrow (\lambda (H3: (eq T (THead (Bind Abbr) u0 t0) (THead (Flat Cast) u1 t1))).\lambda (H4: (eq T (THead (Bind Abbr) u2 w) x)).(let H5 \def eq_ind T (THead (Bind Abbr) u0 t0) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (THead (Flat Cast) u1 t1) H3 in False_ind ((eq T (THead (Bind Abbr) u2 w) x) \to (pr0 u0 u2) \to (pr0 t0 t2) \to (subst0 O u2 t2 w) \to or (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Flat Cast) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (pr0 t1 x)) H5) H4 H0 H1 H2) | (pr0_zeta b H0 t0 t2 H1 u) \Rightarrow (\lambda (H2: (eq T (THead (Bind b) u (lift (S O) O t0)) (THead (Flat Cast) u1 t1))).\lambda (H3: (eq T t2 x)).(let H4 \def eq_ind T (THead (Bind b) u (lift (S O) O t0)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (THead (Flat Cast) u1 t1) H2 in False_ind ((eq T t2 x) \to (not (eq B b Abst)) \to (pr0 t0 t2) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (pr0 t1 x)) H4) H3 H0 H1) | (pr0_epsilon t0 t2 H0 u) \Rightarrow (\lambda (H1: (eq T (THead (Flat Cast) u t0) (THead (Flat Cast) u1 t1))).\lambda (H2: (eq T t2 x)).(let H3 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead (Flat Cast) u t0) (THead (Flat Cast) u1 t1) H1 in (let H4 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u | (TLRef _) \Rightarrow u | (THead _ t _) \Rightarrow t]) (THead (Flat Cast) u t0) (THead (Flat Cast) u1 t1) H1 in eq_ind T u1 (\lambda (_: T).(eq T t0 t1) \to (eq T t2 x) \to (pr0 t0 t2) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (pr0 t1 x)) (\lambda (H5: (eq T t0 t1)).eq_ind T t1 (\lambda (t: T).(eq T t2 x) \to (pr0 t t2) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (pr0 t1 x)) (\lambda (H6: (eq T t2 x)).eq_ind T x (\lambda (t: T).(pr0 t1 t) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (pr0 t1 x)) (\lambda (H7: (pr0 t1 x)).or_intror (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (pr0 t1 x) H7) t2 (sym_eq T t2 x H6)) t0 (sym_eq T t0 t1 H5)) u (sym_eq T u u1 H4)) H3) H2 H0)] in H0 (refl_equal T (THead (Flat Cast) u1 t1)) (refl_equal T x).
+
+theorem pr0_lift: \forall (t1: T).\forall (t2: T).(pr0 t1 t2) \to \forall (h: nat).\forall (d: nat).pr0 (lift h d t1) (lift h d t2) \def \lambda (t1: T).\lambda (t2: T).\lambda (H: (pr0 t1 t2)).pr0_ind (\lambda (t: T).\lambda (t0: T).\forall (h: nat).\forall (d: nat).pr0 (lift h d t) (lift h d t0)) (\lambda (t: T).\lambda (h: nat).\lambda (d: nat).pr0_refl (lift h d t)) (\lambda (u1: T).\lambda (u2: T).\lambda (_: (pr0 u1 u2)).\lambda (H1: ((\forall (h: nat).\forall (d: nat).pr0 (lift h d u1) (lift h d u2)))).\lambda (t0: T).\lambda (t3: T).\lambda (_: (pr0 t0 t3)).\lambda (H3: ((\forall (h: nat).\forall (d: nat).pr0 (lift h d t0) (lift h d t3)))).\lambda (k: K).\lambda (h: nat).\lambda (d: nat).eq_ind_r T (THead k (lift h d u1) (lift h (s k d) t0)) (\lambda (t: T).pr0 t (lift h d (THead k u2 t3))) (eq_ind_r T (THead k (lift h d u2) (lift h (s k d) t3)) (\lambda (t: T).pr0 (THead k (lift h d u1) (lift h (s k d) t0)) t) (pr0_comp (lift h d u1) (lift h d u2) (H1 h d) (lift h (s k d) t0) (lift h (s k d) t3) (H3 h (s k d)) k) (lift h d (THead k u2 t3)) (lift_head k u2 t3 h d)) (lift h d (THead k u1 t0)) (lift_head k u1 t0 h d)) (\lambda (u: T).\lambda (v1: T).\lambda (v2: T).\lambda (_: (pr0 v1 v2)).\lambda (H1: ((\forall (h: nat).\forall (d: nat).pr0 (lift h d v1) (lift h d v2)))).\lambda (t0: T).\lambda (t3: T).\lambda (_: (pr0 t0 t3)).\lambda (H3: ((\forall (h: nat).\forall (d: nat).pr0 (lift h d t0) (lift h d t3)))).\lambda (h: nat).\lambda (d: nat).eq_ind_r T (THead (Flat Appl) (lift h d v1) (lift h (s (Flat Appl) d) (THead (Bind Abst) u t0))) (\lambda (t: T).pr0 t (lift h d (THead (Bind Abbr) v2 t3))) (eq_ind_r T (THead (Bind Abst) (lift h (s (Flat Appl) d) u) (lift h (s (Bind Abst) (s (Flat Appl) d)) t0)) (\lambda (t: T).pr0 (THead (Flat Appl) (lift h d v1) t) (lift h d (THead (Bind Abbr) v2 t3))) (eq_ind_r T (THead (Bind Abbr) (lift h d v2) (lift h (s (Bind Abbr) d) t3)) (\lambda (t: T).pr0 (THead (Flat Appl) (lift h d v1) (THead (Bind Abst) (lift h (s (Flat Appl) d) u) (lift h (s (Bind Abst) (s (Flat Appl) d)) t0))) t) (pr0_beta (lift h (s (Flat Appl) d) u) (lift h d v1) (lift h d v2) (H1 h d) (lift h (s (Bind Abst) (s (Flat Appl) d)) t0) (lift h (s (Bind Abbr) d) t3) (H3 h (s (Bind Abbr) d))) (lift h d (THead (Bind Abbr) v2 t3)) (lift_head (Bind Abbr) v2 t3 h d)) (lift h (s (Flat Appl) d) (THead (Bind Abst) u t0)) (lift_head (Bind Abst) u t0 h (s (Flat Appl) d))) (lift h d (THead (Flat Appl) v1 (THead (Bind Abst) u t0))) (lift_head (Flat Appl) v1 (THead (Bind Abst) u t0) h d)) (\lambda (b: B).\lambda (H0: (not (eq B b Abst))).\lambda (v1: T).\lambda (v2: T).\lambda (_: (pr0 v1 v2)).\lambda (H2: ((\forall (h: nat).\forall (d: nat).pr0 (lift h d v1) (lift h d v2)))).\lambda (u1: T).\lambda (u2: T).\lambda (_: (pr0 u1 u2)).\lambda (H4: ((\forall (h: nat).\forall (d: nat).pr0 (lift h d u1) (lift h d u2)))).\lambda (t0: T).\lambda (t3: T).\lambda (_: (pr0 t0 t3)).\lambda (H6: ((\forall (h: nat).\forall (d: nat).pr0 (lift h d t0) (lift h d t3)))).\lambda (h: nat).\lambda (d: nat).eq_ind_r T (THead (Flat Appl) (lift h d v1) (lift h (s (Flat Appl) d) (THead (Bind b) u1 t0))) (\lambda (t: T).pr0 t (lift h d (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)))) (eq_ind_r T (THead (Bind b) (lift h (s (Flat Appl) d) u1) (lift h (s (Bind b) (s (Flat Appl) d)) t0)) (\lambda (t: T).pr0 (THead (Flat Appl) (lift h d v1) t) (lift h d (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)))) (eq_ind_r T (THead (Bind b) (lift h d u2) (lift h (s (Bind b) d) (THead (Flat Appl) (lift (S O) O v2) t3))) (\lambda (t: T).pr0 (THead (Flat Appl) (lift h d v1) (THead (Bind b) (lift h (s (Flat Appl) d) u1) (lift h (s (Bind b) (s (Flat Appl) d)) t0))) t) (eq_ind_r T (THead (Flat Appl) (lift h (s (Bind b) d) (lift (S O) O v2)) (lift h (s (Flat Appl) (s (Bind b) d)) t3)) (\lambda (t: T).pr0 (THead (Flat Appl) (lift h d v1) (THead (Bind b) (lift h (s (Flat Appl) d) u1) (lift h (s (Bind b) (s (Flat Appl) d)) t0))) (THead (Bind b) (lift h d u2) t)) (eq_ind nat (plus (S O) d) (\lambda (n: nat).pr0 (THead (Flat Appl) (lift h d v1) (THead (Bind b) (lift h d u1) (lift h n t0))) (THead (Bind b) (lift h d u2) (THead (Flat Appl) (lift h n (lift (S O) O v2)) (lift h n t3)))) (eq_ind_r T (lift (S O) O (lift h d v2)) (\lambda (t: T).pr0 (THead (Flat Appl) (lift h d v1) (THead (Bind b) (lift h d u1) (lift h (plus (S O) d) t0))) (THead (Bind b) (lift h d u2) (THead (Flat Appl) t (lift h (plus (S O) d) t3)))) (pr0_upsilon b H0 (lift h d v1) (lift h d v2) (H2 h d) (lift h d u1) (lift h d u2) (H4 h d) (lift h (plus (S O) d) t0) (lift h (plus (S O) d) t3) (H6 h (plus (S O) d))) (lift h (plus (S O) d) (lift (S O) O v2)) (lift_d v2 h (S O) d O (le_O_n d))) (S d) (refl_equal nat (S d))) (lift h (s (Bind b) d) (THead (Flat Appl) (lift (S O) O v2) t3)) (lift_head (Flat Appl) (lift (S O) O v2) t3 h (s (Bind b) d))) (lift h d (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3))) (lift_head (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3) h d)) (lift h (s (Flat Appl) d) (THead (Bind b) u1 t0)) (lift_head (Bind b) u1 t0 h (s (Flat Appl) d))) (lift h d (THead (Flat Appl) v1 (THead (Bind b) u1 t0))) (lift_head (Flat Appl) v1 (THead (Bind b) u1 t0) h d)) (\lambda (u1: T).\lambda (u2: T).\lambda (_: (pr0 u1 u2)).\lambda (H1: ((\forall (h: nat).\forall (d: nat).pr0 (lift h d u1) (lift h d u2)))).\lambda (t0: T).\lambda (t3: T).\lambda (_: (pr0 t0 t3)).\lambda (H3: ((\forall (h: nat).\forall (d: nat).pr0 (lift h d t0) (lift h d t3)))).\lambda (w: T).\lambda (H4: (subst0 O u2 t3 w)).\lambda (h: nat).\lambda (d: nat).eq_ind_r T (THead (Bind Abbr) (lift h d u1) (lift h (s (Bind Abbr) d) t0)) (\lambda (t: T).pr0 t (lift h d (THead (Bind Abbr) u2 w))) (eq_ind_r T (THead (Bind Abbr) (lift h d u2) (lift h (s (Bind Abbr) d) w)) (\lambda (t: T).pr0 (THead (Bind Abbr) (lift h d u1) (lift h (s (Bind Abbr) d) t0)) t) (pr0_delta (lift h d u1) (lift h d u2) (H1 h d) (lift h (S d) t0) (lift h (S d) t3) (H3 h (S d)) (lift h (S d) w) (let d' \def S d in eq_ind nat (minus (S d) (S O)) (\lambda (n: nat).subst0 O (lift h n u2) (lift h d' t3) (lift h d' w)) (subst0_lift_lt t3 w u2 O H4 (S d) (lt_le_S O (S d) (le_lt_n_Sm O d (le_O_n d))) h) d (eq_ind nat d (\lambda (n: nat).eq nat n d) (refl_equal nat d) (minus d O) (minus_n_O d)))) (lift h d (THead (Bind Abbr) u2 w)) (lift_head (Bind Abbr) u2 w h d)) (lift h d (THead (Bind Abbr) u1 t0)) (lift_head (Bind Abbr) u1 t0 h d)) (\lambda (b: B).\lambda (H0: (not (eq B b Abst))).\lambda (t0: T).\lambda (t3: T).\lambda (_: (pr0 t0 t3)).\lambda (H2: ((\forall (h: nat).\forall (d: nat).pr0 (lift h d t0) (lift h d t3)))).\lambda (u: T).\lambda (h: nat).\lambda (d: nat).eq_ind_r T (THead (Bind b) (lift h d u) (lift h (s (Bind b) d) (lift (S O) O t0))) (\lambda (t: T).pr0 t (lift h d t3)) (eq_ind nat (plus (S O) d) (\lambda (n: nat).pr0 (THead (Bind b) (lift h d u) (lift h n (lift (S O) O t0))) (lift h d t3)) (eq_ind_r T (lift (S O) O (lift h d t0)) (\lambda (t: T).pr0 (THead (Bind b) (lift h d u) t) (lift h d t3)) (pr0_zeta b H0 (lift h d t0) (lift h d t3) (H2 h d) (lift h d u)) (lift h (plus (S O) d) (lift (S O) O t0)) (lift_d t0 h (S O) d O (le_O_n d))) (S d) (refl_equal nat (S d))) (lift h d (THead (Bind b) u (lift (S O) O t0))) (lift_head (Bind b) u (lift (S O) O t0) h d)) (\lambda (t0: T).\lambda (t3: T).\lambda (_: (pr0 t0 t3)).\lambda (H1: ((\forall (h: nat).\forall (d: nat).pr0 (lift h d t0) (lift h d t3)))).\lambda (u: T).\lambda (h: nat).\lambda (d: nat).eq_ind_r T (THead (Flat Cast) (lift h d u) (lift h (s (Flat Cast) d) t0)) (\lambda (t: T).pr0 t (lift h d t3)) (pr0_epsilon (lift h (s (Flat Cast) d) t0) (lift h d t3) (H1 h d) (lift h d u)) (lift h d (THead (Flat Cast) u t0)) (lift_head (Flat Cast) u t0 h d)) t1 t2 H.
+
+theorem pr0_gen_abbr: \forall (u1: T).\forall (t1: T).\forall (x: T).(pr0 (THead (Bind Abbr) u1 t1) x) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Abbr) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (u2: T).\lambda (t2: T).or (pr0 t1 t2) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u2 y t2)))) (pr0 t1 (lift (S O) O x)) \def \lambda (u1: T).\lambda (t1: T).\lambda (x: T).\lambda (H: (pr0 (THead (Bind Abbr) u1 t1) x)).let H0 \def match H return (\lambda (t: T).\lambda (t0: T).(eq T t (THead (Bind Abbr) u1 t1)) \to (eq T t0 x) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Abbr) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (u2: T).\lambda (t2: T).or (pr0 t1 t2) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u2 y t2)))) (pr0 t1 (lift (S O) O x))) with [(pr0_refl t) \Rightarrow (\lambda (H0: (eq T t (THead (Bind Abbr) u1 t1))).\lambda (H1: (eq T t x)).eq_ind T (THead (Bind Abbr) u1 t1) (\lambda (t0: T).(eq T t0 x) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Abbr) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (u2: T).\lambda (t2: T).or (pr0 t1 t2) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u2 y t2)))) (pr0 t1 (lift (S O) O x))) (\lambda (H2: (eq T (THead (Bind Abbr) u1 t1) x)).eq_ind T (THead (Bind Abbr) u1 t1) (\lambda (t0: T).or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t0 (THead (Bind Abbr) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (u2: T).\lambda (t2: T).or (pr0 t1 t2) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u2 y t2)))) (pr0 t1 (lift (S O) O t0))) (or_introl (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T (THead (Bind Abbr) u1 t1) (THead (Bind Abbr) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (u2: T).\lambda (t2: T).or (pr0 t1 t2) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u2 y t2)))) (pr0 t1 (lift (S O) O (THead (Bind Abbr) u1 t1))) (ex3_2_intro T T (\lambda (u2: T).\lambda (t2: T).eq T (THead (Bind Abbr) u1 t1) (THead (Bind Abbr) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (u2: T).\lambda (t2: T).or (pr0 t1 t2) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u2 y t2))) u1 t1 (refl_equal T (THead (Bind Abbr) u1 t1)) (pr0_refl u1) (or_introl (pr0 t1 t1) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u1 y t1)) (pr0_refl t1)))) x H2) t (sym_eq T t (THead (Bind Abbr) u1 t1) H0) H1) | (pr0_comp u0 u2 H0 t0 t2 H1 k) \Rightarrow (\lambda (H2: (eq T (THead k u0 t0) (THead (Bind Abbr) u1 t1))).\lambda (H3: (eq T (THead k u2 t2) x)).(let H4 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead k u0 t0) (THead (Bind Abbr) u1 t1) H2 in (let H5 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u0 | (TLRef _) \Rightarrow u0 | (THead _ t _) \Rightarrow t]) (THead k u0 t0) (THead (Bind Abbr) u1 t1) H2 in (let H6 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k u0 t0) (THead (Bind Abbr) u1 t1) H2 in eq_ind K (Bind Abbr) (\lambda (k0: K).(eq T u0 u1) \to (eq T t0 t1) \to (eq T (THead k0 u2 t2) x) \to (pr0 u0 u2) \to (pr0 t0 t2) \to or (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (u3: T).\lambda (t3: T).or (pr0 t1 t3) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u3 y t3)))) (pr0 t1 (lift (S O) O x))) (\lambda (H7: (eq T u0 u1)).eq_ind T u1 (\lambda (t: T).(eq T t0 t1) \to (eq T (THead (Bind Abbr) u2 t2) x) \to (pr0 t u2) \to (pr0 t0 t2) \to or (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (u3: T).\lambda (t3: T).or (pr0 t1 t3) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u3 y t3)))) (pr0 t1 (lift (S O) O x))) (\lambda (H8: (eq T t0 t1)).eq_ind T t1 (\lambda (t: T).(eq T (THead (Bind Abbr) u2 t2) x) \to (pr0 u1 u2) \to (pr0 t t2) \to or (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (u3: T).\lambda (t3: T).or (pr0 t1 t3) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u3 y t3)))) (pr0 t1 (lift (S O) O x))) (\lambda (H9: (eq T (THead (Bind Abbr) u2 t2) x)).eq_ind T (THead (Bind Abbr) u2 t2) (\lambda (t: T).(pr0 u1 u2) \to (pr0 t1 t2) \to or (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T t (THead (Bind Abbr) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (u3: T).\lambda (t3: T).or (pr0 t1 t3) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u3 y t3)))) (pr0 t1 (lift (S O) O t))) (\lambda (H10: (pr0 u1 u2)).\lambda (H11: (pr0 t1 t2)).or_introl (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T (THead (Bind Abbr) u2 t2) (THead (Bind Abbr) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (u3: T).\lambda (t3: T).or (pr0 t1 t3) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u3 y t3)))) (pr0 t1 (lift (S O) O (THead (Bind Abbr) u2 t2))) (ex3_2_intro T T (\lambda (u3: T).\lambda (t3: T).eq T (THead (Bind Abbr) u2 t2) (THead (Bind Abbr) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (u3: T).\lambda (t3: T).or (pr0 t1 t3) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u3 y t3))) u2 t2 (refl_equal T (THead (Bind Abbr) u2 t2)) H10 (or_introl (pr0 t1 t2) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u2 y t2)) H11))) x H9) t0 (sym_eq T t0 t1 H8)) u0 (sym_eq T u0 u1 H7)) k (sym_eq K k (Bind Abbr) H6)) H5) H4) H3 H0 H1) | (pr0_beta u v1 v2 H0 t0 t2 H1) \Rightarrow (\lambda (H2: (eq T (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (THead (Bind Abbr) u1 t1))).\lambda (H3: (eq T (THead (Bind Abbr) v2 t2) x)).(let H4 \def eq_ind T (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind Abbr) u1 t1) H2 in False_ind ((eq T (THead (Bind Abbr) v2 t2) x) \to (pr0 v1 v2) \to (pr0 t0 t2) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (u2: T).\lambda (t3: T).or (pr0 t1 t3) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u2 y t3)))) (pr0 t1 (lift (S O) O x))) H4) H3 H0 H1) | (pr0_upsilon b H0 v1 v2 H1 u0 u2 H2 t0 t2 H3) \Rightarrow (\lambda (H4: (eq T (THead (Flat Appl) v1 (THead (Bind b) u0 t0)) (THead (Bind Abbr) u1 t1))).\lambda (H5: (eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t2)) x)).(let H6 \def eq_ind T (THead (Flat Appl) v1 (THead (Bind b) u0 t0)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind Abbr) u1 t1) H4 in False_ind ((eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t2)) x) \to (not (eq B b Abst)) \to (pr0 v1 v2) \to (pr0 u0 u2) \to (pr0 t0 t2) \to or (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (u3: T).\lambda (t3: T).or (pr0 t1 t3) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u3 y t3)))) (pr0 t1 (lift (S O) O x))) H6) H5 H0 H1 H2 H3) | (pr0_delta u0 u2 H0 t0 t2 H1 w H2) \Rightarrow (\lambda (H3: (eq T (THead (Bind Abbr) u0 t0) (THead (Bind Abbr) u1 t1))).\lambda (H4: (eq T (THead (Bind Abbr) u2 w) x)).(let H5 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead (Bind Abbr) u0 t0) (THead (Bind Abbr) u1 t1) H3 in (let H6 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u0 | (TLRef _) \Rightarrow u0 | (THead _ t _) \Rightarrow t]) (THead (Bind Abbr) u0 t0) (THead (Bind Abbr) u1 t1) H3 in eq_ind T u1 (\lambda (t: T).(eq T t0 t1) \to (eq T (THead (Bind Abbr) u2 w) x) \to (pr0 t u2) \to (pr0 t0 t2) \to (subst0 O u2 t2 w) \to or (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (u3: T).\lambda (t3: T).or (pr0 t1 t3) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u3 y t3)))) (pr0 t1 (lift (S O) O x))) (\lambda (H7: (eq T t0 t1)).eq_ind T t1 (\lambda (t: T).(eq T (THead (Bind Abbr) u2 w) x) \to (pr0 u1 u2) \to (pr0 t t2) \to (subst0 O u2 t2 w) \to or (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (u3: T).\lambda (t3: T).or (pr0 t1 t3) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u3 y t3)))) (pr0 t1 (lift (S O) O x))) (\lambda (H8: (eq T (THead (Bind Abbr) u2 w) x)).eq_ind T (THead (Bind Abbr) u2 w) (\lambda (t: T).(pr0 u1 u2) \to (pr0 t1 t2) \to (subst0 O u2 t2 w) \to or (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T t (THead (Bind Abbr) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (u3: T).\lambda (t3: T).or (pr0 t1 t3) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u3 y t3)))) (pr0 t1 (lift (S O) O t))) (\lambda (H9: (pr0 u1 u2)).\lambda (H10: (pr0 t1 t2)).\lambda (H11: (subst0 O u2 t2 w)).or_introl (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T (THead (Bind Abbr) u2 w) (THead (Bind Abbr) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (u3: T).\lambda (t3: T).or (pr0 t1 t3) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u3 y t3)))) (pr0 t1 (lift (S O) O (THead (Bind Abbr) u2 w))) (ex3_2_intro T T (\lambda (u3: T).\lambda (t3: T).eq T (THead (Bind Abbr) u2 w) (THead (Bind Abbr) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (u3: T).\lambda (t3: T).or (pr0 t1 t3) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u3 y t3))) u2 w (refl_equal T (THead (Bind Abbr) u2 w)) H9 (or_intror (pr0 t1 w) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u2 y w)) (ex_intro2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u2 y w) t2 H10 H11)))) x H8) t0 (sym_eq T t0 t1 H7)) u0 (sym_eq T u0 u1 H6)) H5) H4 H0 H1 H2) | (pr0_zeta b H0 t0 t2 H1 u) \Rightarrow (\lambda (H2: (eq T (THead (Bind b) u (lift (S O) O t0)) (THead (Bind Abbr) u1 t1))).\lambda (H3: (eq T t2 x)).(let H4 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x (S O)) O t0) | (TLRef _) \Rightarrow ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x (S O)) O t0) | (THead _ _ t) \Rightarrow t]) (THead (Bind b) u (lift (S O) O t0)) (THead (Bind Abbr) u1 t1) H2 in (let H5 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u | (TLRef _) \Rightarrow u | (THead _ t _) \Rightarrow t]) (THead (Bind b) u (lift (S O) O t0)) (THead (Bind Abbr) u1 t1) H2 in (let H6 \def f_equal T B (\lambda (e: T).match e return B with [(TSort _) \Rightarrow b | (TLRef _) \Rightarrow b | (THead k _ _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow b])]) (THead (Bind b) u (lift (S O) O t0)) (THead (Bind Abbr) u1 t1) H2 in eq_ind B Abbr (\lambda (b0: B).(eq T u u1) \to (eq T (lift (S O) O t0) t1) \to (eq T t2 x) \to (not (eq B b0 Abst)) \to (pr0 t0 t2) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (u2: T).\lambda (t3: T).or (pr0 t1 t3) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u2 y t3)))) (pr0 t1 (lift (S O) O x))) (\lambda (H7: (eq T u u1)).eq_ind T u1 (\lambda (_: T).(eq T (lift (S O) O t0) t1) \to (eq T t2 x) \to (not (eq B Abbr Abst)) \to (pr0 t0 t2) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (u2: T).\lambda (t3: T).or (pr0 t1 t3) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u2 y t3)))) (pr0 t1 (lift (S O) O x))) (\lambda (H8: (eq T (lift (S O) O t0) t1)).eq_ind T (lift (S O) O t0) (\lambda (t: T).(eq T t2 x) \to (not (eq B Abbr Abst)) \to (pr0 t0 t2) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (u2: T).\lambda (t3: T).or (pr0 t t3) (ex2 T (\lambda (y: T).pr0 t y) (\lambda (y: T).subst0 O u2 y t3)))) (pr0 t (lift (S O) O x))) (\lambda (H9: (eq T t2 x)).eq_ind T x (\lambda (t: T).(not (eq B Abbr Abst)) \to (pr0 t0 t) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (u2: T).\lambda (t3: T).or (pr0 (lift (S O) O t0) t3) (ex2 T (\lambda (y: T).pr0 (lift (S O) O t0) y) (\lambda (y: T).subst0 O u2 y t3)))) (pr0 (lift (S O) O t0) (lift (S O) O x))) (\lambda (_: (not (eq B Abbr Abst))).\lambda (H11: (pr0 t0 x)).or_intror (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (u2: T).\lambda (t3: T).or (pr0 (lift (S O) O t0) t3) (ex2 T (\lambda (y: T).pr0 (lift (S O) O t0) y) (\lambda (y: T).subst0 O u2 y t3)))) (pr0 (lift (S O) O t0) (lift (S O) O x)) (pr0_lift t0 x H11 (S O) O)) t2 (sym_eq T t2 x H9)) t1 H8) u (sym_eq T u u1 H7)) b (sym_eq B b Abbr H6)) H5) H4) H3 H0 H1) | (pr0_epsilon t0 t2 H0 u) \Rightarrow (\lambda (H1: (eq T (THead (Flat Cast) u t0) (THead (Bind Abbr) u1 t1))).\lambda (H2: (eq T t2 x)).(let H3 \def eq_ind T (THead (Flat Cast) u t0) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind Abbr) u1 t1) H1 in False_ind ((eq T t2 x) \to (pr0 t0 t2) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (u2: T).\lambda (t3: T).or (pr0 t1 t3) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u2 y t3)))) (pr0 t1 (lift (S O) O x))) H3) H2 H0)] in H0 (refl_equal T (THead (Bind Abbr) u1 t1)) (refl_equal T x).
+
+theorem pr0_gen_void: \forall (u1: T).\forall (t1: T).\forall (x: T).(pr0 (THead (Bind Void) u1 t1) x) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Void) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t2: T).pr0 t1 t2)) (pr0 t1 (lift (S O) O x)) \def \lambda (u1: T).\lambda (t1: T).\lambda (x: T).\lambda (H: (pr0 (THead (Bind Void) u1 t1) x)).let H0 \def match H return (\lambda (t: T).\lambda (t0: T).(eq T t (THead (Bind Void) u1 t1)) \to (eq T t0 x) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Void) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t2: T).pr0 t1 t2)) (pr0 t1 (lift (S O) O x))) with [(pr0_refl t) \Rightarrow (\lambda (H0: (eq T t (THead (Bind Void) u1 t1))).\lambda (H1: (eq T t x)).eq_ind T (THead (Bind Void) u1 t1) (\lambda (t0: T).(eq T t0 x) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Void) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t2: T).pr0 t1 t2)) (pr0 t1 (lift (S O) O x))) (\lambda (H2: (eq T (THead (Bind Void) u1 t1) x)).eq_ind T (THead (Bind Void) u1 t1) (\lambda (t0: T).or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t0 (THead (Bind Void) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t2: T).pr0 t1 t2)) (pr0 t1 (lift (S O) O t0))) (or_introl (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T (THead (Bind Void) u1 t1) (THead (Bind Void) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t2: T).pr0 t1 t2)) (pr0 t1 (lift (S O) O (THead (Bind Void) u1 t1))) (ex3_2_intro T T (\lambda (u2: T).\lambda (t2: T).eq T (THead (Bind Void) u1 t1) (THead (Bind Void) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t2: T).pr0 t1 t2) u1 t1 (refl_equal T (THead (Bind Void) u1 t1)) (pr0_refl u1) (pr0_refl t1))) x H2) t (sym_eq T t (THead (Bind Void) u1 t1) H0) H1) | (pr0_comp u0 u2 H0 t0 t2 H1 k) \Rightarrow (\lambda (H2: (eq T (THead k u0 t0) (THead (Bind Void) u1 t1))).\lambda (H3: (eq T (THead k u2 t2) x)).(let H4 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead k u0 t0) (THead (Bind Void) u1 t1) H2 in (let H5 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u0 | (TLRef _) \Rightarrow u0 | (THead _ t _) \Rightarrow t]) (THead k u0 t0) (THead (Bind Void) u1 t1) H2 in (let H6 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k u0 t0) (THead (Bind Void) u1 t1) H2 in eq_ind K (Bind Void) (\lambda (k0: K).(eq T u0 u1) \to (eq T t0 t1) \to (eq T (THead k0 u2 t2) x) \to (pr0 u0 u2) \to (pr0 t0 t2) \to or (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Void) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (pr0 t1 (lift (S O) O x))) (\lambda (H7: (eq T u0 u1)).eq_ind T u1 (\lambda (t: T).(eq T t0 t1) \to (eq T (THead (Bind Void) u2 t2) x) \to (pr0 t u2) \to (pr0 t0 t2) \to or (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Void) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (pr0 t1 (lift (S O) O x))) (\lambda (H8: (eq T t0 t1)).eq_ind T t1 (\lambda (t: T).(eq T (THead (Bind Void) u2 t2) x) \to (pr0 u1 u2) \to (pr0 t t2) \to or (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Void) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (pr0 t1 (lift (S O) O x))) (\lambda (H9: (eq T (THead (Bind Void) u2 t2) x)).eq_ind T (THead (Bind Void) u2 t2) (\lambda (t: T).(pr0 u1 u2) \to (pr0 t1 t2) \to or (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T t (THead (Bind Void) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (pr0 t1 (lift (S O) O t))) (\lambda (H10: (pr0 u1 u2)).\lambda (H11: (pr0 t1 t2)).or_introl (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T (THead (Bind Void) u2 t2) (THead (Bind Void) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (pr0 t1 (lift (S O) O (THead (Bind Void) u2 t2))) (ex3_2_intro T T (\lambda (u3: T).\lambda (t3: T).eq T (THead (Bind Void) u2 t2) (THead (Bind Void) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3) u2 t2 (refl_equal T (THead (Bind Void) u2 t2)) H10 H11)) x H9) t0 (sym_eq T t0 t1 H8)) u0 (sym_eq T u0 u1 H7)) k (sym_eq K k (Bind Void) H6)) H5) H4) H3 H0 H1) | (pr0_beta u v1 v2 H0 t0 t2 H1) \Rightarrow (\lambda (H2: (eq T (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (THead (Bind Void) u1 t1))).\lambda (H3: (eq T (THead (Bind Abbr) v2 t2) x)).(let H4 \def eq_ind T (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind Void) u1 t1) H2 in False_ind ((eq T (THead (Bind Abbr) v2 t2) x) \to (pr0 v1 v2) \to (pr0 t0 t2) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (pr0 t1 (lift (S O) O x))) H4) H3 H0 H1) | (pr0_upsilon b H0 v1 v2 H1 u0 u2 H2 t0 t2 H3) \Rightarrow (\lambda (H4: (eq T (THead (Flat Appl) v1 (THead (Bind b) u0 t0)) (THead (Bind Void) u1 t1))).\lambda (H5: (eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t2)) x)).(let H6 \def eq_ind T (THead (Flat Appl) v1 (THead (Bind b) u0 t0)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind Void) u1 t1) H4 in False_ind ((eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t2)) x) \to (not (eq B b Abst)) \to (pr0 v1 v2) \to (pr0 u0 u2) \to (pr0 t0 t2) \to or (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Void) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (pr0 t1 (lift (S O) O x))) H6) H5 H0 H1 H2 H3) | (pr0_delta u0 u2 H0 t0 t2 H1 w H2) \Rightarrow (\lambda (H3: (eq T (THead (Bind Abbr) u0 t0) (THead (Bind Void) u1 t1))).\lambda (H4: (eq T (THead (Bind Abbr) u2 w) x)).(let H5 \def eq_ind T (THead (Bind Abbr) u0 t0) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow True | Abst \Rightarrow False | Void \Rightarrow False]) | (Flat _) \Rightarrow False])]) I (THead (Bind Void) u1 t1) H3 in False_ind ((eq T (THead (Bind Abbr) u2 w) x) \to (pr0 u0 u2) \to (pr0 t0 t2) \to (subst0 O u2 t2 w) \to or (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Void) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr0 u1 u3) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (pr0 t1 (lift (S O) O x))) H5) H4 H0 H1 H2) | (pr0_zeta b H0 t0 t2 H1 u) \Rightarrow (\lambda (H2: (eq T (THead (Bind b) u (lift (S O) O t0)) (THead (Bind Void) u1 t1))).\lambda (H3: (eq T t2 x)).(let H4 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x (S O)) O t0) | (TLRef _) \Rightarrow ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x (S O)) O t0) | (THead _ _ t) \Rightarrow t]) (THead (Bind b) u (lift (S O) O t0)) (THead (Bind Void) u1 t1) H2 in (let H5 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u | (TLRef _) \Rightarrow u | (THead _ t _) \Rightarrow t]) (THead (Bind b) u (lift (S O) O t0)) (THead (Bind Void) u1 t1) H2 in (let H6 \def f_equal T B (\lambda (e: T).match e return B with [(TSort _) \Rightarrow b | (TLRef _) \Rightarrow b | (THead k _ _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow b])]) (THead (Bind b) u (lift (S O) O t0)) (THead (Bind Void) u1 t1) H2 in eq_ind B Void (\lambda (b0: B).(eq T u u1) \to (eq T (lift (S O) O t0) t1) \to (eq T t2 x) \to (not (eq B b0 Abst)) \to (pr0 t0 t2) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (pr0 t1 (lift (S O) O x))) (\lambda (H7: (eq T u u1)).eq_ind T u1 (\lambda (_: T).(eq T (lift (S O) O t0) t1) \to (eq T t2 x) \to (not (eq B Void Abst)) \to (pr0 t0 t2) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (pr0 t1 (lift (S O) O x))) (\lambda (H8: (eq T (lift (S O) O t0) t1)).eq_ind T (lift (S O) O t0) (\lambda (t: T).(eq T t2 x) \to (not (eq B Void Abst)) \to (pr0 t0 t2) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t t3)) (pr0 t (lift (S O) O x))) (\lambda (H9: (eq T t2 x)).eq_ind T x (\lambda (t: T).(not (eq B Void Abst)) \to (pr0 t0 t) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 (lift (S O) O t0) t3)) (pr0 (lift (S O) O t0) (lift (S O) O x))) (\lambda (_: (not (eq B Void Abst))).\lambda (H11: (pr0 t0 x)).or_intror (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 (lift (S O) O t0) t3)) (pr0 (lift (S O) O t0) (lift (S O) O x)) (pr0_lift t0 x H11 (S O) O)) t2 (sym_eq T t2 x H9)) t1 H8) u (sym_eq T u u1 H7)) b (sym_eq B b Void H6)) H5) H4) H3 H0 H1) | (pr0_epsilon t0 t2 H0 u) \Rightarrow (\lambda (H1: (eq T (THead (Flat Cast) u t0) (THead (Bind Void) u1 t1))).\lambda (H2: (eq T t2 x)).(let H3 \def eq_ind T (THead (Flat Cast) u t0) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind Void) u1 t1) H1 in False_ind ((eq T t2 x) \to (pr0 t0 t2) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (pr0 t1 (lift (S O) O x))) H3) H2 H0)] in H0 (refl_equal T (THead (Bind Void) u1 t1)) (refl_equal T x).
+
+theorem pr0_gen_lift: \forall (t1: T).\forall (x: T).\forall (h: nat).\forall (d: nat).(pr0 (lift h d t1) x) \to ex2 T (\lambda (t2: T).eq T x (lift h d t2)) (\lambda (t2: T).pr0 t1 t2) \def \lambda (t1: T).\lambda (x: T).\lambda (h: nat).\lambda (d: nat).\lambda (H: (pr0 (lift h d t1) x)).insert_eq T (lift h d t1) (\lambda (t: T).pr0 t x) (ex2 T (\lambda (t2: T).eq T x (lift h d t2)) (\lambda (t2: T).pr0 t1 t2)) (\lambda (y: T).\lambda (H0: (pr0 y x)).unintro nat d (\lambda (n: nat).(eq T y (lift h n t1)) \to ex2 T (\lambda (t2: T).eq T x (lift h n t2)) (\lambda (t2: T).pr0 t1 t2)) (unintro T t1 (\lambda (t: T).\forall (x0: nat).(eq T y (lift h x0 t)) \to ex2 T (\lambda (t2: T).eq T x (lift h x0 t2)) (\lambda (t2: T).pr0 t t2)) (pr0_ind (\lambda (t: T).\lambda (t0: T).\forall (x0: T).\forall (x1: nat).(eq T t (lift h x1 x0)) \to ex2 T (\lambda (t2: T).eq T t0 (lift h x1 t2)) (\lambda (t2: T).pr0 x0 t2)) (\lambda (t: T).\lambda (x0: T).\lambda (x1: nat).\lambda (H1: (eq T t (lift h x1 x0))).ex_intro2 T (\lambda (t2: T).eq T t (lift h x1 t2)) (\lambda (t2: T).pr0 x0 t2) x0 H1 (pr0_refl x0)) (\lambda (u1: T).\lambda (u2: T).\lambda (_: (pr0 u1 u2)).\lambda (H2: ((\forall (x: T).\forall (x0: nat).(eq T u1 (lift h x0 x)) \to ex2 T (\lambda (t2: T).eq T u2 (lift h x0 t2)) (\lambda (t2: T).pr0 x t2)))).\lambda (t2: T).\lambda (t3: T).\lambda (_: (pr0 t2 t3)).\lambda (H4: ((\forall (x: T).\forall (x0: nat).(eq T t2 (lift h x0 x)) \to ex2 T (\lambda (t2: T).eq T t3 (lift h x0 t2)) (\lambda (t2: T).pr0 x t2)))).\lambda (k: K).\lambda (x0: T).\lambda (x1: nat).\lambda (H5: (eq T (THead k u1 t2) (lift h x1 x0))).K_ind (\lambda (k0: K).(eq T (THead k0 u1 t2) (lift h x1 x0)) \to ex2 T (\lambda (t4: T).eq T (THead k0 u2 t3) (lift h x1 t4)) (\lambda (t4: T).pr0 x0 t4)) (\lambda (b: B).\lambda (H6: (eq T (THead (Bind b) u1 t2) (lift h x1 x0))).ex3_2_ind T T (\lambda (y0: T).\lambda (z: T).eq T x0 (THead (Bind b) y0 z)) (\lambda (y0: T).\lambda (_: T).eq T u1 (lift h x1 y0)) (\lambda (_: T).\lambda (z: T).eq T t2 (lift h (S x1) z)) (ex2 T (\lambda (t4: T).eq T (THead (Bind b) u2 t3) (lift h x1 t4)) (\lambda (t4: T).pr0 x0 t4)) (\lambda (x2: T).\lambda (x3: T).\lambda (H7: (eq T x0 (THead (Bind b) x2 x3))).\lambda (H8: (eq T u1 (lift h x1 x2))).\lambda (H9: (eq T t2 (lift h (S x1) x3))).eq_ind_r T (THead (Bind b) x2 x3) (\lambda (t: T).ex2 T (\lambda (t4: T).eq T (THead (Bind b) u2 t3) (lift h x1 t4)) (\lambda (t4: T).pr0 t t4)) (ex2_ind T (\lambda (t4: T).eq T t3 (lift h (S x1) t4)) (\lambda (t4: T).pr0 x3 t4) (ex2 T (\lambda (t4: T).eq T (THead (Bind b) u2 t3) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Bind b) x2 x3) t4)) (\lambda (x4: T).\lambda (H_x: (eq T t3 (lift h (S x1) x4))).\lambda (H10: (pr0 x3 x4)).eq_ind_r T (lift h (S x1) x4) (\lambda (t: T).ex2 T (\lambda (t4: T).eq T (THead (Bind b) u2 t) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Bind b) x2 x3) t4)) (ex2_ind T (\lambda (t4: T).eq T u2 (lift h x1 t4)) (\lambda (t4: T).pr0 x2 t4) (ex2 T (\lambda (t4: T).eq T (THead (Bind b) u2 (lift h (S x1) x4)) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Bind b) x2 x3) t4)) (\lambda (x5: T).\lambda (H_x0: (eq T u2 (lift h x1 x5))).\lambda (H11: (pr0 x2 x5)).eq_ind_r T (lift h x1 x5) (\lambda (t: T).ex2 T (\lambda (t4: T).eq T (THead (Bind b) t (lift h (S x1) x4)) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Bind b) x2 x3) t4)) (ex_intro2 T (\lambda (t4: T).eq T (THead (Bind b) (lift h x1 x5) (lift h (S x1) x4)) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Bind b) x2 x3) t4) (THead (Bind b) x5 x4) (sym_eq T (lift h x1 (THead (Bind b) x5 x4)) (THead (Bind b) (lift h x1 x5) (lift h (S x1) x4)) (lift_bind b x5 x4 h x1)) (pr0_comp x2 x5 H11 x3 x4 H10 (Bind b))) u2 H_x0) (H2 x2 x1 H8)) t3 H_x) (H4 x3 (S x1) H9)) x0 H7) (lift_gen_bind b u1 t2 x0 h x1 H6)) (\lambda (f: F).\lambda (H6: (eq T (THead (Flat f) u1 t2) (lift h x1 x0))).ex3_2_ind T T (\lambda (y0: T).\lambda (z: T).eq T x0 (THead (Flat f) y0 z)) (\lambda (y0: T).\lambda (_: T).eq T u1 (lift h x1 y0)) (\lambda (_: T).\lambda (z: T).eq T t2 (lift h x1 z)) (ex2 T (\lambda (t4: T).eq T (THead (Flat f) u2 t3) (lift h x1 t4)) (\lambda (t4: T).pr0 x0 t4)) (\lambda (x2: T).\lambda (x3: T).\lambda (H7: (eq T x0 (THead (Flat f) x2 x3))).\lambda (H8: (eq T u1 (lift h x1 x2))).\lambda (H9: (eq T t2 (lift h x1 x3))).eq_ind_r T (THead (Flat f) x2 x3) (\lambda (t: T).ex2 T (\lambda (t4: T).eq T (THead (Flat f) u2 t3) (lift h x1 t4)) (\lambda (t4: T).pr0 t t4)) (ex2_ind T (\lambda (t4: T).eq T t3 (lift h x1 t4)) (\lambda (t4: T).pr0 x3 t4) (ex2 T (\lambda (t4: T).eq T (THead (Flat f) u2 t3) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Flat f) x2 x3) t4)) (\lambda (x4: T).\lambda (H_x: (eq T t3 (lift h x1 x4))).\lambda (H10: (pr0 x3 x4)).eq_ind_r T (lift h x1 x4) (\lambda (t: T).ex2 T (\lambda (t4: T).eq T (THead (Flat f) u2 t) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Flat f) x2 x3) t4)) (ex2_ind T (\lambda (t4: T).eq T u2 (lift h x1 t4)) (\lambda (t4: T).pr0 x2 t4) (ex2 T (\lambda (t4: T).eq T (THead (Flat f) u2 (lift h x1 x4)) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Flat f) x2 x3) t4)) (\lambda (x5: T).\lambda (H_x0: (eq T u2 (lift h x1 x5))).\lambda (H11: (pr0 x2 x5)).eq_ind_r T (lift h x1 x5) (\lambda (t: T).ex2 T (\lambda (t4: T).eq T (THead (Flat f) t (lift h x1 x4)) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Flat f) x2 x3) t4)) (ex_intro2 T (\lambda (t4: T).eq T (THead (Flat f) (lift h x1 x5) (lift h x1 x4)) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Flat f) x2 x3) t4) (THead (Flat f) x5 x4) (sym_eq T (lift h x1 (THead (Flat f) x5 x4)) (THead (Flat f) (lift h x1 x5) (lift h x1 x4)) (lift_flat f x5 x4 h x1)) (pr0_comp x2 x5 H11 x3 x4 H10 (Flat f))) u2 H_x0) (H2 x2 x1 H8)) t3 H_x) (H4 x3 x1 H9)) x0 H7) (lift_gen_flat f u1 t2 x0 h x1 H6)) k H5) (\lambda (u: T).\lambda (v1: T).\lambda (v2: T).\lambda (_: (pr0 v1 v2)).\lambda (H2: ((\forall (x: T).\forall (x0: nat).(eq T v1 (lift h x0 x)) \to ex2 T (\lambda (t2: T).eq T v2 (lift h x0 t2)) (\lambda (t2: T).pr0 x t2)))).\lambda (t2: T).\lambda (t3: T).\lambda (_: (pr0 t2 t3)).\lambda (H4: ((\forall (x: T).\forall (x0: nat).(eq T t2 (lift h x0 x)) \to ex2 T (\lambda (t2: T).eq T t3 (lift h x0 t2)) (\lambda (t2: T).pr0 x t2)))).\lambda (x0: T).\lambda (x1: nat).\lambda (H5: (eq T (THead (Flat Appl) v1 (THead (Bind Abst) u t2)) (lift h x1 x0))).ex3_2_ind T T (\lambda (y0: T).\lambda (z: T).eq T x0 (THead (Flat Appl) y0 z)) (\lambda (y0: T).\lambda (_: T).eq T v1 (lift h x1 y0)) (\lambda (_: T).\lambda (z: T).eq T (THead (Bind Abst) u t2) (lift h x1 z)) (ex2 T (\lambda (t4: T).eq T (THead (Bind Abbr) v2 t3) (lift h x1 t4)) (\lambda (t4: T).pr0 x0 t4)) (\lambda (x2: T).\lambda (x3: T).\lambda (H6: (eq T x0 (THead (Flat Appl) x2 x3))).\lambda (H7: (eq T v1 (lift h x1 x2))).\lambda (H8: (eq T (THead (Bind Abst) u t2) (lift h x1 x3))).eq_ind_r T (THead (Flat Appl) x2 x3) (\lambda (t: T).ex2 T (\lambda (t4: T).eq T (THead (Bind Abbr) v2 t3) (lift h x1 t4)) (\lambda (t4: T).pr0 t t4)) (ex3_2_ind T T (\lambda (y0: T).\lambda (z: T).eq T x3 (THead (Bind Abst) y0 z)) (\lambda (y0: T).\lambda (_: T).eq T u (lift h x1 y0)) (\lambda (_: T).\lambda (z: T).eq T t2 (lift h (S x1) z)) (ex2 T (\lambda (t4: T).eq T (THead (Bind Abbr) v2 t3) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Flat Appl) x2 x3) t4)) (\lambda (x4: T).\lambda (x5: T).\lambda (H9: (eq T x3 (THead (Bind Abst) x4 x5))).\lambda (_: (eq T u (lift h x1 x4))).\lambda (H11: (eq T t2 (lift h (S x1) x5))).eq_ind_r T (THead (Bind Abst) x4 x5) (\lambda (t: T).ex2 T (\lambda (t4: T).eq T (THead (Bind Abbr) v2 t3) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Flat Appl) x2 t) t4)) (ex2_ind T (\lambda (t4: T).eq T t3 (lift h (S x1) t4)) (\lambda (t4: T).pr0 x5 t4) (ex2 T (\lambda (t4: T).eq T (THead (Bind Abbr) v2 t3) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Flat Appl) x2 (THead (Bind Abst) x4 x5)) t4)) (\lambda (x6: T).\lambda (H_x: (eq T t3 (lift h (S x1) x6))).\lambda (H12: (pr0 x5 x6)).eq_ind_r T (lift h (S x1) x6) (\lambda (t: T).ex2 T (\lambda (t4: T).eq T (THead (Bind Abbr) v2 t) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Flat Appl) x2 (THead (Bind Abst) x4 x5)) t4)) (ex2_ind T (\lambda (t4: T).eq T v2 (lift h x1 t4)) (\lambda (t4: T).pr0 x2 t4) (ex2 T (\lambda (t4: T).eq T (THead (Bind Abbr) v2 (lift h (S x1) x6)) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Flat Appl) x2 (THead (Bind Abst) x4 x5)) t4)) (\lambda (x7: T).\lambda (H_x0: (eq T v2 (lift h x1 x7))).\lambda (H13: (pr0 x2 x7)).eq_ind_r T (lift h x1 x7) (\lambda (t: T).ex2 T (\lambda (t4: T).eq T (THead (Bind Abbr) t (lift h (S x1) x6)) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Flat Appl) x2 (THead (Bind Abst) x4 x5)) t4)) (ex_intro2 T (\lambda (t4: T).eq T (THead (Bind Abbr) (lift h x1 x7) (lift h (S x1) x6)) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Flat Appl) x2 (THead (Bind Abst) x4 x5)) t4) (THead (Bind Abbr) x7 x6) (sym_eq T (lift h x1 (THead (Bind Abbr) x7 x6)) (THead (Bind Abbr) (lift h x1 x7) (lift h (S x1) x6)) (lift_bind Abbr x7 x6 h x1)) (pr0_beta x4 x2 x7 H13 x5 x6 H12)) v2 H_x0) (H2 x2 x1 H7)) t3 H_x) (H4 x5 (S x1) H11)) x3 H9) (lift_gen_bind Abst u t2 x3 h x1 H8)) x0 H6) (lift_gen_flat Appl v1 (THead (Bind Abst) u t2) x0 h x1 H5)) (\lambda (b: B).\lambda (H1: (not (eq B b Abst))).\lambda (v1: T).\lambda (v2: T).\lambda (_: (pr0 v1 v2)).\lambda (H3: ((\forall (x: T).\forall (x0: nat).(eq T v1 (lift h x0 x)) \to ex2 T (\lambda (t2: T).eq T v2 (lift h x0 t2)) (\lambda (t2: T).pr0 x t2)))).\lambda (u1: T).\lambda (u2: T).\lambda (_: (pr0 u1 u2)).\lambda (H5: ((\forall (x: T).\forall (x0: nat).(eq T u1 (lift h x0 x)) \to ex2 T (\lambda (t2: T).eq T u2 (lift h x0 t2)) (\lambda (t2: T).pr0 x t2)))).\lambda (t2: T).\lambda (t3: T).\lambda (_: (pr0 t2 t3)).\lambda (H7: ((\forall (x: T).\forall (x0: nat).(eq T t2 (lift h x0 x)) \to ex2 T (\lambda (t2: T).eq T t3 (lift h x0 t2)) (\lambda (t2: T).pr0 x t2)))).\lambda (x0: T).\lambda (x1: nat).\lambda (H8: (eq T (THead (Flat Appl) v1 (THead (Bind b) u1 t2)) (lift h x1 x0))).ex3_2_ind T T (\lambda (y0: T).\lambda (z: T).eq T x0 (THead (Flat Appl) y0 z)) (\lambda (y0: T).\lambda (_: T).eq T v1 (lift h x1 y0)) (\lambda (_: T).\lambda (z: T).eq T (THead (Bind b) u1 t2) (lift h x1 z)) (ex2 T (\lambda (t4: T).eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) (lift h x1 t4)) (\lambda (t4: T).pr0 x0 t4)) (\lambda (x2: T).\lambda (x3: T).\lambda (H9: (eq T x0 (THead (Flat Appl) x2 x3))).\lambda (H10: (eq T v1 (lift h x1 x2))).\lambda (H11: (eq T (THead (Bind b) u1 t2) (lift h x1 x3))).eq_ind_r T (THead (Flat Appl) x2 x3) (\lambda (t: T).ex2 T (\lambda (t4: T).eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) (lift h x1 t4)) (\lambda (t4: T).pr0 t t4)) (ex3_2_ind T T (\lambda (y0: T).\lambda (z: T).eq T x3 (THead (Bind b) y0 z)) (\lambda (y0: T).\lambda (_: T).eq T u1 (lift h x1 y0)) (\lambda (_: T).\lambda (z: T).eq T t2 (lift h (S x1) z)) (ex2 T (\lambda (t4: T).eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Flat Appl) x2 x3) t4)) (\lambda (x4: T).\lambda (x5: T).\lambda (H12: (eq T x3 (THead (Bind b) x4 x5))).\lambda (H13: (eq T u1 (lift h x1 x4))).\lambda (H14: (eq T t2 (lift h (S x1) x5))).eq_ind_r T (THead (Bind b) x4 x5) (\lambda (t: T).ex2 T (\lambda (t4: T).eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Flat Appl) x2 t) t4)) (ex2_ind T (\lambda (t4: T).eq T t3 (lift h (S x1) t4)) (\lambda (t4: T).pr0 x5 t4) (ex2 T (\lambda (t4: T).eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Flat Appl) x2 (THead (Bind b) x4 x5)) t4)) (\lambda (x6: T).\lambda (H_x: (eq T t3 (lift h (S x1) x6))).\lambda (H15: (pr0 x5 x6)).eq_ind_r T (lift h (S x1) x6) (\lambda (t: T).ex2 T (\lambda (t4: T).eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t)) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Flat Appl) x2 (THead (Bind b) x4 x5)) t4)) (ex2_ind T (\lambda (t4: T).eq T u2 (lift h x1 t4)) (\lambda (t4: T).pr0 x4 t4) (ex2 T (\lambda (t4: T).eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) (lift h (S x1) x6))) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Flat Appl) x2 (THead (Bind b) x4 x5)) t4)) (\lambda (x7: T).\lambda (H_x0: (eq T u2 (lift h x1 x7))).\lambda (H16: (pr0 x4 x7)).eq_ind_r T (lift h x1 x7) (\lambda (t: T).ex2 T (\lambda (t4: T).eq T (THead (Bind b) t (THead (Flat Appl) (lift (S O) O v2) (lift h (S x1) x6))) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Flat Appl) x2 (THead (Bind b) x4 x5)) t4)) (ex2_ind T (\lambda (t4: T).eq T v2 (lift h x1 t4)) (\lambda (t4: T).pr0 x2 t4) (ex2 T (\lambda (t4: T).eq T (THead (Bind b) (lift h x1 x7) (THead (Flat Appl) (lift (S O) O v2) (lift h (S x1) x6))) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Flat Appl) x2 (THead (Bind b) x4 x5)) t4)) (\lambda (x8: T).\lambda (H_x1: (eq T v2 (lift h x1 x8))).\lambda (H17: (pr0 x2 x8)).eq_ind_r T (lift h x1 x8) (\lambda (t: T).ex2 T (\lambda (t4: T).eq T (THead (Bind b) (lift h x1 x7) (THead (Flat Appl) (lift (S O) O t) (lift h (S x1) x6))) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Flat Appl) x2 (THead (Bind b) x4 x5)) t4)) (eq_ind T (lift h (plus (S O) x1) (lift (S O) O x8)) (\lambda (t: T).ex2 T (\lambda (t4: T).eq T (THead (Bind b) (lift h x1 x7) (THead (Flat Appl) t (lift h (S x1) x6))) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Flat Appl) x2 (THead (Bind b) x4 x5)) t4)) (eq_ind T (lift h (S x1) (THead (Flat Appl) (lift (S O) O x8) x6)) (\lambda (t: T).ex2 T (\lambda (t4: T).eq T (THead (Bind b) (lift h x1 x7) t) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Flat Appl) x2 (THead (Bind b) x4 x5)) t4)) (ex_intro2 T (\lambda (t4: T).eq T (THead (Bind b) (lift h x1 x7) (lift h (S x1) (THead (Flat Appl) (lift (S O) O x8) x6))) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Flat Appl) x2 (THead (Bind b) x4 x5)) t4) (THead (Bind b) x7 (THead (Flat Appl) (lift (S O) O x8) x6)) (sym_eq T (lift h x1 (THead (Bind b) x7 (THead (Flat Appl) (lift (S O) O x8) x6))) (THead (Bind b) (lift h x1 x7) (lift h (S x1) (THead (Flat Appl) (lift (S O) O x8) x6))) (lift_bind b x7 (THead (Flat Appl) (lift (S O) O x8) x6) h x1)) (pr0_upsilon b H1 x2 x8 H17 x4 x7 H16 x5 x6 H15)) (THead (Flat Appl) (lift h (S x1) (lift (S O) O x8)) (lift h (S x1) x6)) (lift_flat Appl (lift (S O) O x8) x6 h (S x1))) (lift (S O) O (lift h x1 x8)) (lift_d x8 h (S O) x1 O (le_O_n x1))) v2 H_x1) (H3 x2 x1 H10)) u2 H_x0) (H5 x4 x1 H13)) t3 H_x) (H7 x5 (S x1) H14)) x3 H12) (lift_gen_bind b u1 t2 x3 h x1 H11)) x0 H9) (lift_gen_flat Appl v1 (THead (Bind b) u1 t2) x0 h x1 H8)) (\lambda (u1: T).\lambda (u2: T).\lambda (_: (pr0 u1 u2)).\lambda (H2: ((\forall (x: T).\forall (x0: nat).(eq T u1 (lift h x0 x)) \to ex2 T (\lambda (t2: T).eq T u2 (lift h x0 t2)) (\lambda (t2: T).pr0 x t2)))).\lambda (t2: T).\lambda (t3: T).\lambda (_: (pr0 t2 t3)).\lambda (H4: ((\forall (x: T).\forall (x0: nat).(eq T t2 (lift h x0 x)) \to ex2 T (\lambda (t2: T).eq T t3 (lift h x0 t2)) (\lambda (t2: T).pr0 x t2)))).\lambda (w: T).\lambda (H5: (subst0 O u2 t3 w)).\lambda (x0: T).\lambda (x1: nat).\lambda (H6: (eq T (THead (Bind Abbr) u1 t2) (lift h x1 x0))).ex3_2_ind T T (\lambda (y0: T).\lambda (z: T).eq T x0 (THead (Bind Abbr) y0 z)) (\lambda (y0: T).\lambda (_: T).eq T u1 (lift h x1 y0)) (\lambda (_: T).\lambda (z: T).eq T t2 (lift h (S x1) z)) (ex2 T (\lambda (t4: T).eq T (THead (Bind Abbr) u2 w) (lift h x1 t4)) (\lambda (t4: T).pr0 x0 t4)) (\lambda (x2: T).\lambda (x3: T).\lambda (H7: (eq T x0 (THead (Bind Abbr) x2 x3))).\lambda (H8: (eq T u1 (lift h x1 x2))).\lambda (H9: (eq T t2 (lift h (S x1) x3))).eq_ind_r T (THead (Bind Abbr) x2 x3) (\lambda (t: T).ex2 T (\lambda (t4: T).eq T (THead (Bind Abbr) u2 w) (lift h x1 t4)) (\lambda (t4: T).pr0 t t4)) (ex2_ind T (\lambda (t4: T).eq T t3 (lift h (S x1) t4)) (\lambda (t4: T).pr0 x3 t4) (ex2 T (\lambda (t4: T).eq T (THead (Bind Abbr) u2 w) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Bind Abbr) x2 x3) t4)) (\lambda (x4: T).\lambda (H_x: (eq T t3 (lift h (S x1) x4))).\lambda (H10: (pr0 x3 x4)).let H11 \def eq_ind T t3 (\lambda (t: T).subst0 O u2 t w) H5 (lift h (S x1) x4) H_x in ex2_ind T (\lambda (t4: T).eq T u2 (lift h x1 t4)) (\lambda (t4: T).pr0 x2 t4) (ex2 T (\lambda (t4: T).eq T (THead (Bind Abbr) u2 w) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Bind Abbr) x2 x3) t4)) (\lambda (x5: T).\lambda (H_x0: (eq T u2 (lift h x1 x5))).\lambda (H12: (pr0 x2 x5)).eq_ind_r T (lift h x1 x5) (\lambda (t: T).ex2 T (\lambda (t4: T).eq T (THead (Bind Abbr) t w) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Bind Abbr) x2 x3) t4)) (let H13 \def eq_ind T u2 (\lambda (t: T).subst0 O t (lift h (S x1) x4) w) H11 (lift h x1 x5) H_x0 in let H14 \def refl_equal nat (S (plus O x1)) in let H15 \def eq_ind nat (S x1) (\lambda (n: nat).subst0 O (lift h x1 x5) (lift h n x4) w) H13 (S (plus O x1)) H14 in ex2_ind T (\lambda (t4: T).eq T w (lift h (S (plus O x1)) t4)) (\lambda (t4: T).subst0 O x5 x4 t4) (ex2 T (\lambda (t4: T).eq T (THead (Bind Abbr) (lift h x1 x5) w) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Bind Abbr) x2 x3) t4)) (\lambda (x6: T).\lambda (H16: (eq T w (lift h (S (plus O x1)) x6))).\lambda (H17: (subst0 O x5 x4 x6)).eq_ind_r T (lift h (S (plus O x1)) x6) (\lambda (t: T).ex2 T (\lambda (t4: T).eq T (THead (Bind Abbr) (lift h x1 x5) t) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Bind Abbr) x2 x3) t4)) (ex_intro2 T (\lambda (t4: T).eq T (THead (Bind Abbr) (lift h x1 x5) (lift h (S (plus O x1)) x6)) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Bind Abbr) x2 x3) t4) (THead (Bind Abbr) x5 x6) (sym_eq T (lift h x1 (THead (Bind Abbr) x5 x6)) (THead (Bind Abbr) (lift h x1 x5) (lift h (S (plus O x1)) x6)) (lift_bind Abbr x5 x6 h (plus O x1))) (pr0_delta x2 x5 H12 x3 x4 H10 x6 H17)) w H16) (subst0_gen_lift_lt x5 x4 w O h x1 H15)) u2 H_x0) (H2 x2 x1 H8)) (H4 x3 (S x1) H9)) x0 H7) (lift_gen_bind Abbr u1 t2 x0 h x1 H6)) (\lambda (b: B).\lambda (H1: (not (eq B b Abst))).\lambda (t2: T).\lambda (t3: T).\lambda (_: (pr0 t2 t3)).\lambda (H3: ((\forall (x: T).\forall (x0: nat).(eq T t2 (lift h x0 x)) \to ex2 T (\lambda (t2: T).eq T t3 (lift h x0 t2)) (\lambda (t2: T).pr0 x t2)))).\lambda (u: T).\lambda (x0: T).\lambda (x1: nat).\lambda (H4: (eq T (THead (Bind b) u (lift (S O) O t2)) (lift h x1 x0))).ex3_2_ind T T (\lambda (y0: T).\lambda (z: T).eq T x0 (THead (Bind b) y0 z)) (\lambda (y0: T).\lambda (_: T).eq T u (lift h x1 y0)) (\lambda (_: T).\lambda (z: T).eq T (lift (S O) O t2) (lift h (S x1) z)) (ex2 T (\lambda (t4: T).eq T t3 (lift h x1 t4)) (\lambda (t4: T).pr0 x0 t4)) (\lambda (x2: T).\lambda (x3: T).\lambda (H5: (eq T x0 (THead (Bind b) x2 x3))).\lambda (_: (eq T u (lift h x1 x2))).\lambda (H7: (eq T (lift (S O) O t2) (lift h (S x1) x3))).eq_ind_r T (THead (Bind b) x2 x3) (\lambda (t: T).ex2 T (\lambda (t4: T).eq T t3 (lift h x1 t4)) (\lambda (t4: T).pr0 t t4)) (let H8 \def eq_ind_r nat (plus (S O) x1) (\lambda (n: nat).eq nat (S x1) n) (refl_equal nat (plus (S O) x1)) (plus x1 (S O)) (plus_sym x1 (S O)) in let H9 \def eq_ind nat (S x1) (\lambda (n: nat).eq T (lift (S O) O t2) (lift h n x3)) H7 (plus x1 (S O)) H8 in ex2_ind T (\lambda (t4: T).eq T x3 (lift (S O) O t4)) (\lambda (t4: T).eq T t2 (lift h x1 t4)) (ex2 T (\lambda (t4: T).eq T t3 (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Bind b) x2 x3) t4)) (\lambda (x4: T).\lambda (H10: (eq T x3 (lift (S O) O x4))).\lambda (H11: (eq T t2 (lift h x1 x4))).eq_ind_r T (lift (S O) O x4) (\lambda (t: T).ex2 T (\lambda (t4: T).eq T t3 (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Bind b) x2 t) t4)) (ex2_ind T (\lambda (t4: T).eq T t3 (lift h x1 t4)) (\lambda (t4: T).pr0 x4 t4) (ex2 T (\lambda (t4: T).eq T t3 (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Bind b) x2 (lift (S O) O x4)) t4)) (\lambda (x5: T).\lambda (H_x: (eq T t3 (lift h x1 x5))).\lambda (H12: (pr0 x4 x5)).eq_ind_r T (lift h x1 x5) (\lambda (t: T).ex2 T (\lambda (t4: T).eq T t (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Bind b) x2 (lift (S O) O x4)) t4)) (ex_intro2 T (\lambda (t4: T).eq T (lift h x1 x5) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Bind b) x2 (lift (S O) O x4)) t4) x5 (refl_equal T (lift h x1 x5)) (pr0_zeta b H1 x4 x5 H12 x2)) t3 H_x) (H3 x4 x1 H11)) x3 H10) (lift_gen_lift t2 x3 (S O) h O x1 (le_O_n x1) H9)) x0 H5) (lift_gen_bind b u (lift (S O) O t2) x0 h x1 H4)) (\lambda (t2: T).\lambda (t3: T).\lambda (_: (pr0 t2 t3)).\lambda (H2: ((\forall (x: T).\forall (x0: nat).(eq T t2 (lift h x0 x)) \to ex2 T (\lambda (t2: T).eq T t3 (lift h x0 t2)) (\lambda (t2: T).pr0 x t2)))).\lambda (u: T).\lambda (x0: T).\lambda (x1: nat).\lambda (H3: (eq T (THead (Flat Cast) u t2) (lift h x1 x0))).ex3_2_ind T T (\lambda (y0: T).\lambda (z: T).eq T x0 (THead (Flat Cast) y0 z)) (\lambda (y0: T).\lambda (_: T).eq T u (lift h x1 y0)) (\lambda (_: T).\lambda (z: T).eq T t2 (lift h x1 z)) (ex2 T (\lambda (t4: T).eq T t3 (lift h x1 t4)) (\lambda (t4: T).pr0 x0 t4)) (\lambda (x2: T).\lambda (x3: T).\lambda (H4: (eq T x0 (THead (Flat Cast) x2 x3))).\lambda (_: (eq T u (lift h x1 x2))).\lambda (H6: (eq T t2 (lift h x1 x3))).eq_ind_r T (THead (Flat Cast) x2 x3) (\lambda (t: T).ex2 T (\lambda (t4: T).eq T t3 (lift h x1 t4)) (\lambda (t4: T).pr0 t t4)) (ex2_ind T (\lambda (t4: T).eq T t3 (lift h x1 t4)) (\lambda (t4: T).pr0 x3 t4) (ex2 T (\lambda (t4: T).eq T t3 (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Flat Cast) x2 x3) t4)) (\lambda (x4: T).\lambda (H_x: (eq T t3 (lift h x1 x4))).\lambda (H7: (pr0 x3 x4)).eq_ind_r T (lift h x1 x4) (\lambda (t: T).ex2 T (\lambda (t4: T).eq T t (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Flat Cast) x2 x3) t4)) (ex_intro2 T (\lambda (t4: T).eq T (lift h x1 x4) (lift h x1 t4)) (\lambda (t4: T).pr0 (THead (Flat Cast) x2 x3) t4) x4 (refl_equal T (lift h x1 x4)) (pr0_epsilon x3 x4 H7 x2)) t3 H_x) (H2 x3 x1 H6)) x0 H4) (lift_gen_flat Cast u t2 x0 h x1 H3)) y x H0))) H.
+
+theorem pr0_subst0_back: \forall (u2: T).\forall (t1: T).\forall (t2: T).\forall (i: nat).(subst0 i u2 t1 t2) \to \forall (u1: T).(pr0 u1 u2) \to ex2 T (\lambda (t: T).subst0 i u1 t1 t) (\lambda (t: T).pr0 t t2) \def \lambda (u2: T).\lambda (t1: T).\lambda (t2: T).\lambda (i: nat).\lambda (H: (subst0 i u2 t1 t2)).subst0_ind (\lambda (n: nat).\lambda (t: T).\lambda (t0: T).\lambda (t3: T).\forall (u1: T).(pr0 u1 t) \to ex2 T (\lambda (t4: T).subst0 n u1 t0 t4) (\lambda (t4: T).pr0 t4 t3)) (\lambda (v: T).\lambda (i0: nat).\lambda (u1: T).\lambda (H0: (pr0 u1 v)).ex_intro2 T (\lambda (t: T).subst0 i0 u1 (TLRef i0) t) (\lambda (t: T).pr0 t (lift (S i0) O v)) (lift (S i0) O u1) (subst0_lref u1 i0) (pr0_lift u1 v H0 (S i0) O)) (\lambda (v: T).\lambda (u0: T).\lambda (u1: T).\lambda (i0: nat).\lambda (_: (subst0 i0 v u1 u0)).\lambda (H1: ((\forall (u2: T).(pr0 u2 v) \to ex2 T (\lambda (t: T).subst0 i0 u2 u1 t) (\lambda (t: T).pr0 t u0)))).\lambda (t: T).\lambda (k: K).\lambda (u3: T).\lambda (H2: (pr0 u3 v)).ex2_ind T (\lambda (t0: T).subst0 i0 u3 u1 t0) (\lambda (t0: T).pr0 t0 u0) (ex2 T (\lambda (t0: T).subst0 i0 u3 (THead k u1 t) t0) (\lambda (t0: T).pr0 t0 (THead k u0 t))) (\lambda (x: T).\lambda (H3: (subst0 i0 u3 u1 x)).\lambda (H4: (pr0 x u0)).ex_intro2 T (\lambda (t0: T).subst0 i0 u3 (THead k u1 t) t0) (\lambda (t0: T).pr0 t0 (THead k u0 t)) (THead k x t) (subst0_fst u3 x u1 i0 H3 t k) (pr0_comp x u0 H4 t t (pr0_refl t) k)) (H1 u3 H2)) (\lambda (k: K).\lambda (v: T).\lambda (t0: T).\lambda (t3: T).\lambda (i0: nat).\lambda (_: (subst0 (s k i0) v t3 t0)).\lambda (H1: ((\forall (u1: T).(pr0 u1 v) \to ex2 T (\lambda (t: T).subst0 (s k i0) u1 t3 t) (\lambda (t: T).pr0 t t0)))).\lambda (u: T).\lambda (u1: T).\lambda (H2: (pr0 u1 v)).ex2_ind T (\lambda (t: T).subst0 (s k i0) u1 t3 t) (\lambda (t: T).pr0 t t0) (ex2 T (\lambda (t: T).subst0 i0 u1 (THead k u t3) t) (\lambda (t: T).pr0 t (THead k u t0))) (\lambda (x: T).\lambda (H3: (subst0 (s k i0) u1 t3 x)).\lambda (H4: (pr0 x t0)).ex_intro2 T (\lambda (t: T).subst0 i0 u1 (THead k u t3) t) (\lambda (t: T).pr0 t (THead k u t0)) (THead k u x) (subst0_snd k u1 x t3 i0 H3 u) (pr0_comp u u (pr0_refl u) x t0 H4 k)) (H1 u1 H2)) (\lambda (v: T).\lambda (u1: T).\lambda (u0: T).\lambda (i0: nat).\lambda (_: (subst0 i0 v u1 u0)).\lambda (H1: ((\forall (u2: T).(pr0 u2 v) \to ex2 T (\lambda (t: T).subst0 i0 u2 u1 t) (\lambda (t: T).pr0 t u0)))).\lambda (k: K).\lambda (t0: T).\lambda (t3: T).\lambda (_: (subst0 (s k i0) v t0 t3)).\lambda (H3: ((\forall (u1: T).(pr0 u1 v) \to ex2 T (\lambda (t: T).subst0 (s k i0) u1 t0 t) (\lambda (t: T).pr0 t t3)))).\lambda (u3: T).\lambda (H4: (pr0 u3 v)).ex2_ind T (\lambda (t: T).subst0 (s k i0) u3 t0 t) (\lambda (t: T).pr0 t t3) (ex2 T (\lambda (t: T).subst0 i0 u3 (THead k u1 t0) t) (\lambda (t: T).pr0 t (THead k u0 t3))) (\lambda (x: T).\lambda (H5: (subst0 (s k i0) u3 t0 x)).\lambda (H6: (pr0 x t3)).ex2_ind T (\lambda (t: T).subst0 i0 u3 u1 t) (\lambda (t: T).pr0 t u0) (ex2 T (\lambda (t: T).subst0 i0 u3 (THead k u1 t0) t) (\lambda (t: T).pr0 t (THead k u0 t3))) (\lambda (x0: T).\lambda (H7: (subst0 i0 u3 u1 x0)).\lambda (H8: (pr0 x0 u0)).ex_intro2 T (\lambda (t: T).subst0 i0 u3 (THead k u1 t0) t) (\lambda (t: T).pr0 t (THead k u0 t3)) (THead k x0 x) (subst0_both u3 u1 x0 i0 H7 k t0 x H5) (pr0_comp x0 u0 H8 x t3 H6 k)) (H1 u3 H4)) (H3 u3 H4)) i u2 t1 t2 H.
+
+theorem pr0_subst0_fwd: \forall (u2: T).\forall (t1: T).\forall (t2: T).\forall (i: nat).(subst0 i u2 t1 t2) \to \forall (u1: T).(pr0 u2 u1) \to ex2 T (\lambda (t: T).subst0 i u1 t1 t) (\lambda (t: T).pr0 t2 t) \def \lambda (u2: T).\lambda (t1: T).\lambda (t2: T).\lambda (i: nat).\lambda (H: (subst0 i u2 t1 t2)).subst0_ind (\lambda (n: nat).\lambda (t: T).\lambda (t0: T).\lambda (t3: T).\forall (u1: T).(pr0 t u1) \to ex2 T (\lambda (t4: T).subst0 n u1 t0 t4) (\lambda (t4: T).pr0 t3 t4)) (\lambda (v: T).\lambda (i0: nat).\lambda (u1: T).\lambda (H0: (pr0 v u1)).ex_intro2 T (\lambda (t: T).subst0 i0 u1 (TLRef i0) t) (\lambda (t: T).pr0 (lift (S i0) O v) t) (lift (S i0) O u1) (subst0_lref u1 i0) (pr0_lift v u1 H0 (S i0) O)) (\lambda (v: T).\lambda (u0: T).\lambda (u1: T).\lambda (i0: nat).\lambda (_: (subst0 i0 v u1 u0)).\lambda (H1: ((\forall (u2: T).(pr0 v u2) \to ex2 T (\lambda (t: T).subst0 i0 u2 u1 t) (\lambda (t: T).pr0 u0 t)))).\lambda (t: T).\lambda (k: K).\lambda (u3: T).\lambda (H2: (pr0 v u3)).ex2_ind T (\lambda (t0: T).subst0 i0 u3 u1 t0) (\lambda (t0: T).pr0 u0 t0) (ex2 T (\lambda (t0: T).subst0 i0 u3 (THead k u1 t) t0) (\lambda (t0: T).pr0 (THead k u0 t) t0)) (\lambda (x: T).\lambda (H3: (subst0 i0 u3 u1 x)).\lambda (H4: (pr0 u0 x)).ex_intro2 T (\lambda (t0: T).subst0 i0 u3 (THead k u1 t) t0) (\lambda (t0: T).pr0 (THead k u0 t) t0) (THead k x t) (subst0_fst u3 x u1 i0 H3 t k) (pr0_comp u0 x H4 t t (pr0_refl t) k)) (H1 u3 H2)) (\lambda (k: K).\lambda (v: T).\lambda (t0: T).\lambda (t3: T).\lambda (i0: nat).\lambda (_: (subst0 (s k i0) v t3 t0)).\lambda (H1: ((\forall (u1: T).(pr0 v u1) \to ex2 T (\lambda (t: T).subst0 (s k i0) u1 t3 t) (\lambda (t: T).pr0 t0 t)))).\lambda (u: T).\lambda (u1: T).\lambda (H2: (pr0 v u1)).ex2_ind T (\lambda (t: T).subst0 (s k i0) u1 t3 t) (\lambda (t: T).pr0 t0 t) (ex2 T (\lambda (t: T).subst0 i0 u1 (THead k u t3) t) (\lambda (t: T).pr0 (THead k u t0) t)) (\lambda (x: T).\lambda (H3: (subst0 (s k i0) u1 t3 x)).\lambda (H4: (pr0 t0 x)).ex_intro2 T (\lambda (t: T).subst0 i0 u1 (THead k u t3) t) (\lambda (t: T).pr0 (THead k u t0) t) (THead k u x) (subst0_snd k u1 x t3 i0 H3 u) (pr0_comp u u (pr0_refl u) t0 x H4 k)) (H1 u1 H2)) (\lambda (v: T).\lambda (u1: T).\lambda (u0: T).\lambda (i0: nat).\lambda (_: (subst0 i0 v u1 u0)).\lambda (H1: ((\forall (u2: T).(pr0 v u2) \to ex2 T (\lambda (t: T).subst0 i0 u2 u1 t) (\lambda (t: T).pr0 u0 t)))).\lambda (k: K).\lambda (t0: T).\lambda (t3: T).\lambda (_: (subst0 (s k i0) v t0 t3)).\lambda (H3: ((\forall (u1: T).(pr0 v u1) \to ex2 T (\lambda (t: T).subst0 (s k i0) u1 t0 t) (\lambda (t: T).pr0 t3 t)))).\lambda (u3: T).\lambda (H4: (pr0 v u3)).ex2_ind T (\lambda (t: T).subst0 (s k i0) u3 t0 t) (\lambda (t: T).pr0 t3 t) (ex2 T (\lambda (t: T).subst0 i0 u3 (THead k u1 t0) t) (\lambda (t: T).pr0 (THead k u0 t3) t)) (\lambda (x: T).\lambda (H5: (subst0 (s k i0) u3 t0 x)).\lambda (H6: (pr0 t3 x)).ex2_ind T (\lambda (t: T).subst0 i0 u3 u1 t) (\lambda (t: T).pr0 u0 t) (ex2 T (\lambda (t: T).subst0 i0 u3 (THead k u1 t0) t) (\lambda (t: T).pr0 (THead k u0 t3) t)) (\lambda (x0: T).\lambda (H7: (subst0 i0 u3 u1 x0)).\lambda (H8: (pr0 u0 x0)).ex_intro2 T (\lambda (t: T).subst0 i0 u3 (THead k u1 t0) t) (\lambda (t: T).pr0 (THead k u0 t3) t) (THead k x0 x) (subst0_both u3 u1 x0 i0 H7 k t0 x H5) (pr0_comp u0 x0 H8 t3 x H6 k)) (H1 u3 H4)) (H3 u3 H4)) i u2 t1 t2 H.
+
+theorem pr0_subst0: \forall (t1: T).\forall (t2: T).(pr0 t1 t2) \to \forall (v1: T).\forall (w1: T).\forall (i: nat).(subst0 i v1 t1 w1) \to \forall (v2: T).(pr0 v1 v2) \to or (pr0 w1 t2) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v2 t2 w2)) \def \lambda (t1: T).\lambda (t2: T).\lambda (H: (pr0 t1 t2)).pr0_ind (\lambda (t: T).\lambda (t0: T).\forall (v1: T).\forall (w1: T).\forall (i: nat).(subst0 i v1 t w1) \to \forall (v2: T).(pr0 v1 v2) \to or (pr0 w1 t0) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v2 t0 w2))) (\lambda (t: T).\lambda (v1: T).\lambda (w1: T).\lambda (i: nat).\lambda (H0: (subst0 i v1 t w1)).\lambda (v2: T).\lambda (H1: (pr0 v1 v2)).or_intror (pr0 w1 t) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v2 t w2)) (ex2_sym T (subst0 i v2 t) (pr0 w1) (pr0_subst0_fwd v1 t w1 i H0 v2 H1))) (\lambda (u1: T).\lambda (u2: T).\lambda (H0: (pr0 u1 u2)).\lambda (H1: ((\forall (v1: T).\forall (w1: T).\forall (i: nat).(subst0 i v1 u1 w1) \to \forall (v2: T).(pr0 v1 v2) \to or (pr0 w1 u2) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v2 u2 w2))))).\lambda (t3: T).\lambda (t4: T).\lambda (H2: (pr0 t3 t4)).\lambda (H3: ((\forall (v1: T).\forall (w1: T).\forall (i: nat).(subst0 i v1 t3 w1) \to \forall (v2: T).(pr0 v1 v2) \to or (pr0 w1 t4) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v2 t4 w2))))).\lambda (k: K).\lambda (v1: T).\lambda (w1: T).\lambda (i: nat).\lambda (H4: (subst0 i v1 (THead k u1 t3) w1)).\lambda (v2: T).\lambda (H5: (pr0 v1 v2)).or3_ind (ex2 T (\lambda (u3: T).eq T w1 (THead k u3 t3)) (\lambda (u3: T).subst0 i v1 u1 u3)) (ex2 T (\lambda (t5: T).eq T w1 (THead k u1 t5)) (\lambda (t5: T).subst0 (s k i) v1 t3 t5)) (ex3_2 T T (\lambda (u3: T).\lambda (t5: T).eq T w1 (THead k u3 t5)) (\lambda (u3: T).\lambda (_: T).subst0 i v1 u1 u3) (\lambda (_: T).\lambda (t5: T).subst0 (s k i) v1 t3 t5)) (or (pr0 w1 (THead k u2 t4)) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v2 (THead k u2 t4) w2))) (\lambda (H6: (ex2 T (\lambda (u2: T).eq T w1 (THead k u2 t3)) (\lambda (u2: T).subst0 i v1 u1 u2))).ex2_ind T (\lambda (u3: T).eq T w1 (THead k u3 t3)) (\lambda (u3: T).subst0 i v1 u1 u3) (or (pr0 w1 (THead k u2 t4)) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v2 (THead k u2 t4) w2))) (\lambda (x: T).\lambda (H7: (eq T w1 (THead k x t3))).\lambda (H8: (subst0 i v1 u1 x)).eq_ind_r T (THead k x t3) (\lambda (t: T).or (pr0 t (THead k u2 t4)) (ex2 T (\lambda (w2: T).pr0 t w2) (\lambda (w2: T).subst0 i v2 (THead k u2 t4) w2))) (or_ind (pr0 x u2) (ex2 T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 i v2 u2 w2)) (or (pr0 (THead k x t3) (THead k u2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead k x t3) w2) (\lambda (w2: T).subst0 i v2 (THead k u2 t4) w2))) (\lambda (H9: (pr0 x u2)).or_introl (pr0 (THead k x t3) (THead k u2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead k x t3) w2) (\lambda (w2: T).subst0 i v2 (THead k u2 t4) w2)) (pr0_comp x u2 H9 t3 t4 H2 k)) (\lambda (H9: (ex2 T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 i v2 u2 w2))).ex2_ind T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 i v2 u2 w2) (or (pr0 (THead k x t3) (THead k u2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead k x t3) w2) (\lambda (w2: T).subst0 i v2 (THead k u2 t4) w2))) (\lambda (x0: T).\lambda (H10: (pr0 x x0)).\lambda (H11: (subst0 i v2 u2 x0)).or_intror (pr0 (THead k x t3) (THead k u2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead k x t3) w2) (\lambda (w2: T).subst0 i v2 (THead k u2 t4) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead k x t3) w2) (\lambda (w2: T).subst0 i v2 (THead k u2 t4) w2) (THead k x0 t4) (pr0_comp x x0 H10 t3 t4 H2 k) (subst0_fst v2 x0 u2 i H11 t4 k))) H9) (H1 v1 x i H8 v2 H5)) w1 H7) H6) (\lambda (H6: (ex2 T (\lambda (t2: T).eq T w1 (THead k u1 t2)) (\lambda (t2: T).subst0 (s k i) v1 t3 t2))).ex2_ind T (\lambda (t5: T).eq T w1 (THead k u1 t5)) (\lambda (t5: T).subst0 (s k i) v1 t3 t5) (or (pr0 w1 (THead k u2 t4)) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v2 (THead k u2 t4) w2))) (\lambda (x: T).\lambda (H7: (eq T w1 (THead k u1 x))).\lambda (H8: (subst0 (s k i) v1 t3 x)).eq_ind_r T (THead k u1 x) (\lambda (t: T).or (pr0 t (THead k u2 t4)) (ex2 T (\lambda (w2: T).pr0 t w2) (\lambda (w2: T).subst0 i v2 (THead k u2 t4) w2))) (or_ind (pr0 x t4) (ex2 T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 (s k i) v2 t4 w2)) (or (pr0 (THead k u1 x) (THead k u2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead k u1 x) w2) (\lambda (w2: T).subst0 i v2 (THead k u2 t4) w2))) (\lambda (H9: (pr0 x t4)).or_introl (pr0 (THead k u1 x) (THead k u2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead k u1 x) w2) (\lambda (w2: T).subst0 i v2 (THead k u2 t4) w2)) (pr0_comp u1 u2 H0 x t4 H9 k)) (\lambda (H9: (ex2 T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 (s k i) v2 t4 w2))).ex2_ind T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 (s k i) v2 t4 w2) (or (pr0 (THead k u1 x) (THead k u2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead k u1 x) w2) (\lambda (w2: T).subst0 i v2 (THead k u2 t4) w2))) (\lambda (x0: T).\lambda (H10: (pr0 x x0)).\lambda (H11: (subst0 (s k i) v2 t4 x0)).or_intror (pr0 (THead k u1 x) (THead k u2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead k u1 x) w2) (\lambda (w2: T).subst0 i v2 (THead k u2 t4) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead k u1 x) w2) (\lambda (w2: T).subst0 i v2 (THead k u2 t4) w2) (THead k u2 x0) (pr0_comp u1 u2 H0 x x0 H10 k) (subst0_snd k v2 x0 t4 i H11 u2))) H9) (H3 v1 x (s k i) H8 v2 H5)) w1 H7) H6) (\lambda (H6: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T w1 (THead k u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i v1 u1 u2) (\lambda (_: T).\lambda (t2: T).subst0 (s k i) v1 t3 t2))).ex3_2_ind T T (\lambda (u3: T).\lambda (t5: T).eq T w1 (THead k u3 t5)) (\lambda (u3: T).\lambda (_: T).subst0 i v1 u1 u3) (\lambda (_: T).\lambda (t5: T).subst0 (s k i) v1 t3 t5) (or (pr0 w1 (THead k u2 t4)) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v2 (THead k u2 t4) w2))) (\lambda (x0: T).\lambda (x1: T).\lambda (H7: (eq T w1 (THead k x0 x1))).\lambda (H8: (subst0 i v1 u1 x0)).\lambda (H9: (subst0 (s k i) v1 t3 x1)).eq_ind_r T (THead k x0 x1) (\lambda (t: T).or (pr0 t (THead k u2 t4)) (ex2 T (\lambda (w2: T).pr0 t w2) (\lambda (w2: T).subst0 i v2 (THead k u2 t4) w2))) (or_ind (pr0 x1 t4) (ex2 T (\lambda (w2: T).pr0 x1 w2) (\lambda (w2: T).subst0 (s k i) v2 t4 w2)) (or (pr0 (THead k x0 x1) (THead k u2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead k x0 x1) w2) (\lambda (w2: T).subst0 i v2 (THead k u2 t4) w2))) (\lambda (H10: (pr0 x1 t4)).or_ind (pr0 x0 u2) (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v2 u2 w2)) (or (pr0 (THead k x0 x1) (THead k u2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead k x0 x1) w2) (\lambda (w2: T).subst0 i v2 (THead k u2 t4) w2))) (\lambda (H11: (pr0 x0 u2)).or_introl (pr0 (THead k x0 x1) (THead k u2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead k x0 x1) w2) (\lambda (w2: T).subst0 i v2 (THead k u2 t4) w2)) (pr0_comp x0 u2 H11 x1 t4 H10 k)) (\lambda (H11: (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v2 u2 w2))).ex2_ind T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v2 u2 w2) (or (pr0 (THead k x0 x1) (THead k u2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead k x0 x1) w2) (\lambda (w2: T).subst0 i v2 (THead k u2 t4) w2))) (\lambda (x: T).\lambda (H12: (pr0 x0 x)).\lambda (H13: (subst0 i v2 u2 x)).or_intror (pr0 (THead k x0 x1) (THead k u2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead k x0 x1) w2) (\lambda (w2: T).subst0 i v2 (THead k u2 t4) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead k x0 x1) w2) (\lambda (w2: T).subst0 i v2 (THead k u2 t4) w2) (THead k x t4) (pr0_comp x0 x H12 x1 t4 H10 k) (subst0_fst v2 x u2 i H13 t4 k))) H11) (H1 v1 x0 i H8 v2 H5)) (\lambda (H10: (ex2 T (\lambda (w2: T).pr0 x1 w2) (\lambda (w2: T).subst0 (s k i) v2 t4 w2))).ex2_ind T (\lambda (w2: T).pr0 x1 w2) (\lambda (w2: T).subst0 (s k i) v2 t4 w2) (or (pr0 (THead k x0 x1) (THead k u2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead k x0 x1) w2) (\lambda (w2: T).subst0 i v2 (THead k u2 t4) w2))) (\lambda (x: T).\lambda (H11: (pr0 x1 x)).\lambda (H12: (subst0 (s k i) v2 t4 x)).or_ind (pr0 x0 u2) (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v2 u2 w2)) (or (pr0 (THead k x0 x1) (THead k u2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead k x0 x1) w2) (\lambda (w2: T).subst0 i v2 (THead k u2 t4) w2))) (\lambda (H13: (pr0 x0 u2)).or_intror (pr0 (THead k x0 x1) (THead k u2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead k x0 x1) w2) (\lambda (w2: T).subst0 i v2 (THead k u2 t4) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead k x0 x1) w2) (\lambda (w2: T).subst0 i v2 (THead k u2 t4) w2) (THead k u2 x) (pr0_comp x0 u2 H13 x1 x H11 k) (subst0_snd k v2 x t4 i H12 u2))) (\lambda (H13: (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v2 u2 w2))).ex2_ind T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v2 u2 w2) (or (pr0 (THead k x0 x1) (THead k u2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead k x0 x1) w2) (\lambda (w2: T).subst0 i v2 (THead k u2 t4) w2))) (\lambda (x2: T).\lambda (H14: (pr0 x0 x2)).\lambda (H15: (subst0 i v2 u2 x2)).or_intror (pr0 (THead k x0 x1) (THead k u2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead k x0 x1) w2) (\lambda (w2: T).subst0 i v2 (THead k u2 t4) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead k x0 x1) w2) (\lambda (w2: T).subst0 i v2 (THead k u2 t4) w2) (THead k x2 x) (pr0_comp x0 x2 H14 x1 x H11 k) (subst0_both v2 u2 x2 i H15 k t4 x H12))) H13) (H1 v1 x0 i H8 v2 H5)) H10) (H3 v1 x1 (s k i) H9 v2 H5)) w1 H7) H6) (subst0_gen_head k v1 u1 t3 w1 i H4)) (\lambda (u: T).\lambda (v1: T).\lambda (v2: T).\lambda (H0: (pr0 v1 v2)).\lambda (H1: ((\forall (v3: T).\forall (w1: T).\forall (i: nat).(subst0 i v3 v1 w1) \to \forall (v4: T).(pr0 v3 v4) \to or (pr0 w1 v2) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v4 v2 w2))))).\lambda (t3: T).\lambda (t4: T).\lambda (H2: (pr0 t3 t4)).\lambda (H3: ((\forall (v1: T).\forall (w1: T).\forall (i: nat).(subst0 i v1 t3 w1) \to \forall (v2: T).(pr0 v1 v2) \to or (pr0 w1 t4) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v2 t4 w2))))).\lambda (v0: T).\lambda (w1: T).\lambda (i: nat).\lambda (H4: (subst0 i v0 (THead (Flat Appl) v1 (THead (Bind Abst) u t3)) w1)).\lambda (v3: T).\lambda (H5: (pr0 v0 v3)).or3_ind (ex2 T (\lambda (u2: T).eq T w1 (THead (Flat Appl) u2 (THead (Bind Abst) u t3))) (\lambda (u2: T).subst0 i v0 v1 u2)) (ex2 T (\lambda (t5: T).eq T w1 (THead (Flat Appl) v1 t5)) (\lambda (t5: T).subst0 (s (Flat Appl) i) v0 (THead (Bind Abst) u t3) t5)) (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T w1 (THead (Flat Appl) u2 t5)) (\lambda (u2: T).\lambda (_: T).subst0 i v0 v1 u2) (\lambda (_: T).\lambda (t5: T).subst0 (s (Flat Appl) i) v0 (THead (Bind Abst) u t3) t5)) (or (pr0 w1 (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (\lambda (H6: (ex2 T (\lambda (u2: T).eq T w1 (THead (Flat Appl) u2 (THead (Bind Abst) u t3))) (\lambda (u2: T).subst0 i v0 v1 u2))).ex2_ind T (\lambda (u2: T).eq T w1 (THead (Flat Appl) u2 (THead (Bind Abst) u t3))) (\lambda (u2: T).subst0 i v0 v1 u2) (or (pr0 w1 (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (\lambda (x: T).\lambda (H7: (eq T w1 (THead (Flat Appl) x (THead (Bind Abst) u t3)))).\lambda (H8: (subst0 i v0 v1 x)).eq_ind_r T (THead (Flat Appl) x (THead (Bind Abst) u t3)) (\lambda (t: T).or (pr0 t (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 t w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (or_ind (pr0 x v2) (ex2 T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 i v3 v2 w2)) (or (pr0 (THead (Flat Appl) x (THead (Bind Abst) u t3)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x (THead (Bind Abst) u t3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (\lambda (H9: (pr0 x v2)).or_introl (pr0 (THead (Flat Appl) x (THead (Bind Abst) u t3)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x (THead (Bind Abst) u t3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2)) (pr0_beta u x v2 H9 t3 t4 H2)) (\lambda (H9: (ex2 T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 i v3 v2 w2))).ex2_ind T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 i v3 v2 w2) (or (pr0 (THead (Flat Appl) x (THead (Bind Abst) u t3)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x (THead (Bind Abst) u t3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (\lambda (x0: T).\lambda (H10: (pr0 x x0)).\lambda (H11: (subst0 i v3 v2 x0)).or_intror (pr0 (THead (Flat Appl) x (THead (Bind Abst) u t3)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x (THead (Bind Abst) u t3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x (THead (Bind Abst) u t3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2) (THead (Bind Abbr) x0 t4) (pr0_beta u x x0 H10 t3 t4 H2) (subst0_fst v3 x0 v2 i H11 t4 (Bind Abbr)))) H9) (H1 v0 x i H8 v3 H5)) w1 H7) H6) (\lambda (H6: (ex2 T (\lambda (t2: T).eq T w1 (THead (Flat Appl) v1 t2)) (\lambda (t2: T).subst0 (s (Flat Appl) i) v0 (THead (Bind Abst) u t3) t2))).ex2_ind T (\lambda (t5: T).eq T w1 (THead (Flat Appl) v1 t5)) (\lambda (t5: T).subst0 (s (Flat Appl) i) v0 (THead (Bind Abst) u t3) t5) (or (pr0 w1 (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (\lambda (x: T).\lambda (H7: (eq T w1 (THead (Flat Appl) v1 x))).\lambda (H8: (subst0 (s (Flat Appl) i) v0 (THead (Bind Abst) u t3) x)).or3_ind (ex2 T (\lambda (u2: T).eq T x (THead (Bind Abst) u2 t3)) (\lambda (u2: T).subst0 (s (Flat Appl) i) v0 u u2)) (ex2 T (\lambda (t5: T).eq T x (THead (Bind Abst) u t5)) (\lambda (t5: T).subst0 (s (Bind Abst) (s (Flat Appl) i)) v0 t3 t5)) (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T x (THead (Bind Abst) u2 t5)) (\lambda (u2: T).\lambda (_: T).subst0 (s (Flat Appl) i) v0 u u2) (\lambda (_: T).\lambda (t5: T).subst0 (s (Bind Abst) (s (Flat Appl) i)) v0 t3 t5)) (or (pr0 w1 (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (\lambda (H9: (ex2 T (\lambda (u2: T).eq T x (THead (Bind Abst) u2 t3)) (\lambda (u2: T).subst0 (s (Flat Appl) i) v0 u u2))).ex2_ind T (\lambda (u2: T).eq T x (THead (Bind Abst) u2 t3)) (\lambda (u2: T).subst0 (s (Flat Appl) i) v0 u u2) (or (pr0 w1 (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (\lambda (x0: T).\lambda (H10: (eq T x (THead (Bind Abst) x0 t3))).\lambda (_: (subst0 (s (Flat Appl) i) v0 u x0)).eq_ind_r T (THead (Flat Appl) v1 x) (\lambda (t: T).or (pr0 t (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 t w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (eq_ind_r T (THead (Bind Abst) x0 t3) (\lambda (t: T).or (pr0 (THead (Flat Appl) v1 t) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 t) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (or_introl (pr0 (THead (Flat Appl) v1 (THead (Bind Abst) x0 t3)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind Abst) x0 t3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2)) (pr0_beta x0 v1 v2 H0 t3 t4 H2)) x H10) w1 H7) H9) (\lambda (H9: (ex2 T (\lambda (t2: T).eq T x (THead (Bind Abst) u t2)) (\lambda (t2: T).subst0 (s (Bind Abst) (s (Flat Appl) i)) v0 t3 t2))).ex2_ind T (\lambda (t5: T).eq T x (THead (Bind Abst) u t5)) (\lambda (t5: T).subst0 (s (Bind Abst) (s (Flat Appl) i)) v0 t3 t5) (or (pr0 w1 (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (\lambda (x0: T).\lambda (H10: (eq T x (THead (Bind Abst) u x0))).\lambda (H11: (subst0 (s (Bind Abst) (s (Flat Appl) i)) v0 t3 x0)).eq_ind_r T (THead (Flat Appl) v1 x) (\lambda (t: T).or (pr0 t (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 t w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (eq_ind_r T (THead (Bind Abst) u x0) (\lambda (t: T).or (pr0 (THead (Flat Appl) v1 t) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 t) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (or_ind (pr0 x0 t4) (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 (s (Bind Abst) (s (Flat Appl) i)) v3 t4 w2)) (or (pr0 (THead (Flat Appl) v1 (THead (Bind Abst) u x0)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind Abst) u x0)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (\lambda (H12: (pr0 x0 t4)).or_introl (pr0 (THead (Flat Appl) v1 (THead (Bind Abst) u x0)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind Abst) u x0)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2)) (pr0_beta u v1 v2 H0 x0 t4 H12)) (\lambda (H12: (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 (s (Bind Abst) (s (Flat Appl) i)) v3 t4 w2))).ex2_ind T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 (s (Bind Abst) (s (Flat Appl) i)) v3 t4 w2) (or (pr0 (THead (Flat Appl) v1 (THead (Bind Abst) u x0)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind Abst) u x0)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (\lambda (x1: T).\lambda (H13: (pr0 x0 x1)).\lambda (H14: (subst0 (s (Bind Abst) (s (Flat Appl) i)) v3 t4 x1)).or_intror (pr0 (THead (Flat Appl) v1 (THead (Bind Abst) u x0)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind Abst) u x0)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Flat 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(THead (Flat Appl) v1 (THead (Bind Abst) x0 x1)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2)) (pr0_beta x0 v1 v2 H0 x1 t4 H13)) (\lambda (H13: (ex2 T (\lambda (w2: T).pr0 x1 w2) (\lambda (w2: T).subst0 (s (Bind Abst) (s (Flat Appl) i)) v3 t4 w2))).ex2_ind T (\lambda (w2: T).pr0 x1 w2) (\lambda (w2: T).subst0 (s (Bind Abst) (s (Flat Appl) i)) v3 t4 w2) (or (pr0 (THead (Flat Appl) v1 (THead (Bind Abst) x0 x1)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind Abst) x0 x1)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (\lambda (x2: T).\lambda (H14: (pr0 x1 x2)).\lambda (H15: (subst0 (s (Bind Abst) (s (Flat Appl) i)) v3 t4 x2)).or_intror (pr0 (THead (Flat Appl) v1 (THead (Bind Abst) x0 x1)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind Abst) x0 x1)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind Abst) x0 x1)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2) (THead (Bind Abbr) v2 x2) (pr0_beta x0 v1 v2 H0 x1 x2 H14) (subst0_snd (Bind Abbr) v3 x2 t4 i H15 v2))) H13) (H3 v0 x1 (s (Bind Abst) (s (Flat Appl) i)) H12 v3 H5)) x H10) w1 H7) H9) (subst0_gen_head (Bind Abst) v0 u t3 x (s (Flat Appl) i) H8)) H6) (\lambda (H6: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T w1 (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i v0 v1 u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Flat Appl) i) v0 (THead (Bind Abst) u t3) t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t5: T).eq T w1 (THead (Flat Appl) u2 t5)) (\lambda (u2: T).\lambda (_: T).subst0 i v0 v1 u2) (\lambda (_: T).\lambda (t5: T).subst0 (s (Flat Appl) i) v0 (THead (Bind Abst) u t3) t5) (or (pr0 w1 (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (\lambda (x0: T).\lambda (x1: T).\lambda (H7: (eq T w1 (THead (Flat 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(\lambda (t: T).or (pr0 (THead (Flat Appl) x0 t) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 t) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (or_ind (pr0 x t4) (ex2 T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 (s (Bind Abst) (s (Flat Appl) i)) v3 t4 w2)) (or (pr0 (THead (Flat Appl) x0 (THead (Bind Abst) u x)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind Abst) u x)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (\lambda (H13: (pr0 x t4)).or_ind (pr0 x0 v2) (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2)) (or (pr0 (THead (Flat Appl) x0 (THead (Bind Abst) u x)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind Abst) u x)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (\lambda (H14: (pr0 x0 v2)).or_introl (pr0 (THead (Flat Appl) x0 (THead (Bind Abst) u x)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind Abst) u x)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2)) (pr0_beta u x0 v2 H14 x t4 H13)) (\lambda (H14: (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2))).ex2_ind T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2) (or (pr0 (THead (Flat Appl) x0 (THead (Bind Abst) u x)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind Abst) u x)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (\lambda (x2: T).\lambda (H15: (pr0 x0 x2)).\lambda (H16: (subst0 i v3 v2 x2)).or_intror (pr0 (THead (Flat Appl) x0 (THead (Bind Abst) u x)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind Abst) u x)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind Abst) u x)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2) (THead (Bind Abbr) x2 t4) (pr0_beta u x0 x2 H15 x t4 H13) (subst0_fst v3 x2 v2 i H16 t4 (Bind Abbr)))) H14) (H1 v0 x0 i H8 v3 H5)) (\lambda (H13: (ex2 T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 (s (Bind Abst) (s (Flat Appl) i)) v3 t4 w2))).ex2_ind T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 (s (Bind Abst) (s (Flat Appl) i)) v3 t4 w2) (or (pr0 (THead (Flat Appl) x0 (THead (Bind Abst) u x)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind Abst) u x)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (\lambda (x2: T).\lambda (H14: (pr0 x x2)).\lambda (H15: (subst0 (s (Bind Abst) (s (Flat Appl) i)) v3 t4 x2)).or_ind (pr0 x0 v2) (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2)) (or (pr0 (THead (Flat Appl) x0 (THead (Bind Abst) u x)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind Abst) u x)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (\lambda (H16: (pr0 x0 v2)).or_intror (pr0 (THead (Flat Appl) x0 (THead (Bind Abst) u x)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind Abst) u x)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind Abst) u x)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2) (THead (Bind Abbr) v2 x2) (pr0_beta u x0 v2 H16 x x2 H14) (subst0_snd (Bind Abbr) v3 x2 t4 i H15 v2))) (\lambda (H16: (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2))).ex2_ind T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2) (or (pr0 (THead (Flat Appl) x0 (THead (Bind Abst) u x)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind Abst) u x)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (\lambda (x3: T).\lambda (H17: (pr0 x0 x3)).\lambda (H18: (subst0 i v3 v2 x3)).or_intror (pr0 (THead (Flat Appl) x0 (THead (Bind Abst) u x)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind Abst) u x)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind Abst) u x)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2) (THead (Bind Abbr) x3 x2) (pr0_beta u x0 x3 H17 x x2 H14) (subst0_both v3 v2 x3 i H18 (Bind Abbr) t4 x2 H15))) H16) (H1 v0 x0 i H8 v3 H5)) H13) (H3 v0 x (s (Bind Abst) (s (Flat Appl) i)) H12 v3 H5)) x1 H11) w1 H7) H10) (\lambda (H10: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x1 (THead (Bind Abst) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 (s (Flat Appl) i) v0 u u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Bind Abst) (s (Flat Appl) i)) v0 t3 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t5: T).eq T x1 (THead (Bind Abst) u2 t5)) (\lambda (u2: T).\lambda (_: T).subst0 (s (Flat Appl) i) v0 u u2) (\lambda (_: T).\lambda (t5: T).subst0 (s (Bind Abst) (s (Flat Appl) i)) v0 t3 t5) (or (pr0 w1 (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (\lambda (x2: T).\lambda (x3: T).\lambda (H11: (eq T x1 (THead (Bind Abst) x2 x3))).\lambda (_: (subst0 (s (Flat Appl) i) v0 u x2)).\lambda (H13: (subst0 (s (Bind Abst) (s (Flat Appl) i)) v0 t3 x3)).eq_ind_r T (THead (Flat Appl) x0 x1) (\lambda (t: T).or (pr0 t (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 t w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (eq_ind_r T (THead (Bind Abst) x2 x3) (\lambda (t: T).or (pr0 (THead (Flat Appl) x0 t) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 t) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (or_ind (pr0 x3 t4) (ex2 T (\lambda (w2: T).pr0 x3 w2) (\lambda (w2: T).subst0 (s (Bind Abst) (s (Flat Appl) i)) v3 t4 w2)) (or (pr0 (THead (Flat Appl) x0 (THead (Bind Abst) x2 x3)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind Abst) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (\lambda (H14: (pr0 x3 t4)).or_ind (pr0 x0 v2) (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2)) (or (pr0 (THead (Flat Appl) x0 (THead (Bind Abst) x2 x3)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind Abst) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (\lambda (H15: (pr0 x0 v2)).or_introl (pr0 (THead (Flat Appl) x0 (THead (Bind Abst) x2 x3)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind Abst) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2)) (pr0_beta x2 x0 v2 H15 x3 t4 H14)) (\lambda (H15: (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2))).ex2_ind T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2) (or (pr0 (THead (Flat Appl) x0 (THead (Bind Abst) x2 x3)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind Abst) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (\lambda (x: T).\lambda (H16: (pr0 x0 x)).\lambda (H17: (subst0 i v3 v2 x)).or_intror (pr0 (THead (Flat Appl) x0 (THead (Bind Abst) x2 x3)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind Abst) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind Abst) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2) (THead (Bind Abbr) x t4) (pr0_beta x2 x0 x H16 x3 t4 H14) (subst0_fst v3 x v2 i H17 t4 (Bind Abbr)))) H15) (H1 v0 x0 i H8 v3 H5)) (\lambda (H14: (ex2 T (\lambda (w2: T).pr0 x3 w2) (\lambda (w2: T).subst0 (s (Bind Abst) (s (Flat Appl) i)) v3 t4 w2))).ex2_ind T (\lambda (w2: T).pr0 x3 w2) (\lambda (w2: T).subst0 (s (Bind Abst) (s (Flat Appl) i)) v3 t4 w2) (or (pr0 (THead (Flat Appl) x0 (THead (Bind Abst) x2 x3)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind Abst) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (\lambda (x: T).\lambda (H15: (pr0 x3 x)).\lambda (H16: (subst0 (s (Bind Abst) (s (Flat Appl) i)) v3 t4 x)).or_ind (pr0 x0 v2) (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2)) (or (pr0 (THead (Flat Appl) x0 (THead (Bind Abst) x2 x3)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind Abst) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (\lambda (H17: (pr0 x0 v2)).or_intror (pr0 (THead (Flat Appl) x0 (THead (Bind Abst) x2 x3)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind Abst) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind Abst) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2) (THead (Bind Abbr) v2 x) (pr0_beta x2 x0 v2 H17 x3 x H15) (subst0_snd (Bind Abbr) v3 x t4 i H16 v2))) (\lambda (H17: (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2))).ex2_ind T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2) (or (pr0 (THead (Flat Appl) x0 (THead (Bind Abst) x2 x3)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind Abst) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2))) (\lambda (x4: T).\lambda (H18: (pr0 x0 x4)).\lambda (H19: (subst0 i v3 v2 x4)).or_intror (pr0 (THead (Flat Appl) x0 (THead (Bind Abst) x2 x3)) (THead (Bind Abbr) v2 t4)) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind Abst) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind Abst) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind Abbr) v2 t4) w2) (THead (Bind Abbr) x4 x) (pr0_beta x2 x0 x4 H18 x3 x H15) (subst0_both v3 v2 x4 i H19 (Bind Abbr) t4 x H16))) H17) (H1 v0 x0 i H8 v3 H5)) H14) (H3 v0 x3 (s (Bind Abst) (s (Flat Appl) i)) H13 v3 H5)) x1 H11) w1 H7) H10) (subst0_gen_head (Bind Abst) v0 u t3 x1 (s (Flat Appl) i) H9)) H6) (subst0_gen_head (Flat Appl) v0 v1 (THead (Bind Abst) u t3) w1 i H4)) (\lambda (b: B).\lambda (H0: (not (eq B b Abst))).\lambda (v1: T).\lambda (v2: T).\lambda (H1: (pr0 v1 v2)).\lambda (H2: ((\forall (v3: T).\forall (w1: T).\forall (i: nat).(subst0 i v3 v1 w1) \to \forall (v4: T).(pr0 v3 v4) \to or (pr0 w1 v2) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v4 v2 w2))))).\lambda (u1: T).\lambda (u2: T).\lambda (H3: (pr0 u1 u2)).\lambda (H4: ((\forall (v1: T).\forall (w1: T).\forall (i: nat).(subst0 i v1 u1 w1) \to \forall (v2: T).(pr0 v1 v2) \to or (pr0 w1 u2) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v2 u2 w2))))).\lambda (t3: T).\lambda (t4: T).\lambda (H5: (pr0 t3 t4)).\lambda (H6: ((\forall (v1: T).\forall (w1: T).\forall (i: nat).(subst0 i v1 t3 w1) \to \forall (v2: T).(pr0 v1 v2) \to or (pr0 w1 t4) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v2 t4 w2))))).\lambda (v0: T).\lambda (w1: T).\lambda (i: nat).\lambda (H7: (subst0 i v0 (THead (Flat Appl) v1 (THead (Bind b) u1 t3)) w1)).\lambda (v3: T).\lambda (H8: (pr0 v0 v3)).or3_ind (ex2 T (\lambda (u3: T).eq T w1 (THead (Flat Appl) u3 (THead (Bind b) u1 t3))) (\lambda (u3: T).subst0 i v0 v1 u3)) (ex2 T (\lambda (t5: T).eq T w1 (THead (Flat Appl) v1 t5)) (\lambda (t5: T).subst0 (s (Flat Appl) i) v0 (THead (Bind b) u1 t3) t5)) (ex3_2 T T (\lambda (u3: T).\lambda (t5: T).eq T w1 (THead (Flat Appl) u3 t5)) (\lambda (u3: T).\lambda (_: T).subst0 i v0 v1 u3) (\lambda (_: T).\lambda (t5: T).subst0 (s (Flat Appl) i) v0 (THead (Bind b) u1 t3) t5)) (or (pr0 w1 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (H9: (ex2 T (\lambda (u2: T).eq T w1 (THead (Flat Appl) u2 (THead (Bind b) u1 t3))) (\lambda (u2: T).subst0 i v0 v1 u2))).ex2_ind T (\lambda (u3: T).eq T w1 (THead (Flat Appl) u3 (THead (Bind b) u1 t3))) (\lambda (u3: T).subst0 i v0 v1 u3) (or (pr0 w1 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (x: T).\lambda (H10: (eq T w1 (THead (Flat Appl) x (THead (Bind b) u1 t3)))).\lambda (H11: (subst0 i v0 v1 x)).eq_ind_r T (THead (Flat Appl) x (THead (Bind b) u1 t3)) (\lambda (t: T).or (pr0 t (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 t w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (or_ind (pr0 x v2) (ex2 T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 i v3 v2 w2)) (or (pr0 (THead (Flat Appl) x (THead (Bind b) u1 t3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x (THead (Bind b) u1 t3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (H12: (pr0 x v2)).or_introl (pr0 (THead (Flat Appl) x (THead (Bind b) u1 t3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x (THead (Bind b) u1 t3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2)) (pr0_upsilon b H0 x v2 H12 u1 u2 H3 t3 t4 H5)) (\lambda (H12: (ex2 T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 i v3 v2 w2))).ex2_ind T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 i v3 v2 w2) (or (pr0 (THead (Flat Appl) x (THead (Bind b) u1 t3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x (THead (Bind b) u1 t3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (x0: T).\lambda (H13: (pr0 x x0)).\lambda (H14: (subst0 i v3 v2 x0)).or_intror (pr0 (THead (Flat Appl) x (THead (Bind b) u1 t3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x (THead (Bind b) u1 t3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x (THead (Bind b) u1 t3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O x0) t4)) (pr0_upsilon b H0 x x0 H13 u1 u2 H3 t3 t4 H5) (subst0_snd (Bind b) v3 (THead (Flat Appl) (lift (S O) O x0) t4) (THead (Flat Appl) (lift (S O) O v2) t4) i (subst0_fst v3 (lift (S O) O x0) (lift (S O) O v2) (s (Bind b) i) (subst0_lift_ge_s v2 x0 v3 i H14 O (le_O_n i) b) t4 (Flat Appl)) u2))) H12) (H2 v0 x i H11 v3 H8)) w1 H10) H9) (\lambda (H9: (ex2 T (\lambda (t2: T).eq T w1 (THead (Flat Appl) v1 t2)) (\lambda (t2: T).subst0 (s (Flat Appl) i) v0 (THead (Bind b) u1 t3) t2))).ex2_ind T (\lambda (t5: T).eq T w1 (THead (Flat Appl) v1 t5)) (\lambda (t5: T).subst0 (s (Flat Appl) i) v0 (THead (Bind b) u1 t3) t5) (or (pr0 w1 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (x: T).\lambda (H10: (eq T w1 (THead (Flat Appl) v1 x))).\lambda (H11: (subst0 (s (Flat Appl) i) v0 (THead (Bind b) u1 t3) x)).or3_ind (ex2 T (\lambda (u3: T).eq T x (THead (Bind b) u3 t3)) (\lambda (u3: T).subst0 (s (Flat Appl) i) v0 u1 u3)) (ex2 T (\lambda (t5: T).eq T x (THead (Bind b) u1 t5)) (\lambda (t5: T).subst0 (s (Bind b) (s (Flat Appl) i)) v0 t3 t5)) (ex3_2 T T (\lambda (u3: T).\lambda (t5: T).eq T x (THead (Bind b) u3 t5)) (\lambda (u3: T).\lambda (_: T).subst0 (s (Flat Appl) i) v0 u1 u3) (\lambda (_: T).\lambda (t5: T).subst0 (s (Bind b) (s (Flat Appl) i)) v0 t3 t5)) (or (pr0 w1 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (H12: (ex2 T (\lambda (u2: T).eq T x (THead (Bind b) u2 t3)) (\lambda (u2: T).subst0 (s (Flat Appl) i) v0 u1 u2))).ex2_ind T (\lambda (u3: T).eq T x (THead (Bind b) u3 t3)) (\lambda (u3: T).subst0 (s (Flat Appl) i) v0 u1 u3) (or (pr0 w1 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (x0: T).\lambda (H13: (eq T x (THead (Bind b) x0 t3))).\lambda (H14: (subst0 (s (Flat Appl) i) v0 u1 x0)).eq_ind_r T (THead (Flat Appl) v1 x) (\lambda (t: T).or (pr0 t (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 t w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (eq_ind_r T (THead (Bind b) x0 t3) (\lambda (t: T).or (pr0 (THead (Flat Appl) v1 t) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 t) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (or_ind (pr0 x0 u2) (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 (s (Flat Appl) i) v3 u2 w2)) (or (pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 t3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 t3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (H15: (pr0 x0 u2)).or_introl (pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 t3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 t3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2)) (pr0_upsilon b H0 v1 v2 H1 x0 u2 H15 t3 t4 H5)) (\lambda (H15: (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 (s (Flat Appl) i) v3 u2 w2))).ex2_ind T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 (s (Flat Appl) i) v3 u2 w2) (or (pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 t3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 t3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (x1: T).\lambda (H16: (pr0 x0 x1)).\lambda (H17: (subst0 (s (Flat Appl) i) v3 u2 x1)).or_intror (pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 t3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 t3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 t3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2) (THead (Bind b) x1 (THead (Flat Appl) (lift (S O) O v2) t4)) (pr0_upsilon b H0 v1 v2 H1 x0 x1 H16 t3 t4 H5) (subst0_fst v3 x1 u2 i H17 (THead (Flat Appl) (lift (S O) O v2) t4) (Bind b)))) H15) (H4 v0 x0 (s (Flat Appl) i) H14 v3 H8)) x H13) w1 H10) H12) (\lambda (H12: (ex2 T (\lambda (t2: T).eq T x (THead (Bind b) u1 t2)) (\lambda (t2: T).subst0 (s (Bind b) (s (Flat Appl) i)) v0 t3 t2))).ex2_ind T (\lambda (t5: T).eq T x (THead (Bind b) u1 t5)) (\lambda (t5: T).subst0 (s (Bind b) (s (Flat Appl) i)) v0 t3 t5) (or (pr0 w1 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (x0: T).\lambda (H13: (eq T x (THead (Bind b) u1 x0))).\lambda (H14: (subst0 (s (Bind b) (s (Flat Appl) i)) v0 t3 x0)).eq_ind_r T (THead (Flat Appl) v1 x) (\lambda (t: T).or (pr0 t (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 t w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (eq_ind_r T (THead (Bind b) u1 x0) (\lambda (t: T).or (pr0 (THead (Flat Appl) v1 t) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 t) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (or_ind (pr0 x0 t4) (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 (s (Bind b) (s (Flat Appl) i)) v3 t4 w2)) (or (pr0 (THead (Flat Appl) v1 (THead (Bind b) u1 x0)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind b) u1 x0)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (H15: (pr0 x0 t4)).or_introl (pr0 (THead (Flat Appl) v1 (THead (Bind b) u1 x0)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind b) u1 x0)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2)) (pr0_upsilon b H0 v1 v2 H1 u1 u2 H3 x0 t4 H15)) (\lambda (H15: (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 (s (Bind b) (s (Flat Appl) i)) v3 t4 w2))).ex2_ind T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 (s (Bind b) (s (Flat Appl) i)) v3 t4 w2) (or (pr0 (THead (Flat Appl) v1 (THead (Bind b) u1 x0)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind b) u1 x0)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (x1: T).\lambda (H16: (pr0 x0 x1)).\lambda (H17: (subst0 (s (Bind b) (s (Flat Appl) i)) v3 t4 x1)).or_intror (pr0 (THead (Flat Appl) v1 (THead (Bind b) u1 x0)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind b) u1 x0)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind b) u1 x0)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) x1)) (pr0_upsilon b H0 v1 v2 H1 u1 u2 H3 x0 x1 H16) (subst0_snd (Bind b) v3 (THead (Flat Appl) (lift (S O) O v2) x1) (THead (Flat Appl) (lift (S O) O v2) t4) i (subst0_snd (Flat Appl) v3 x1 t4 (s (Bind b) i) H17 (lift (S O) O v2)) u2))) H15) (H6 v0 x0 (s (Bind b) (s (Flat Appl) i)) H14 v3 H8)) x H13) w1 H10) H12) (\lambda (H12: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind b) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 (s (Flat Appl) i) v0 u1 u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Bind b) (s (Flat Appl) i)) v0 t3 t2))).ex3_2_ind T T (\lambda (u3: T).\lambda (t5: T).eq T x (THead (Bind b) u3 t5)) (\lambda (u3: T).\lambda (_: T).subst0 (s (Flat Appl) i) v0 u1 u3) (\lambda (_: T).\lambda (t5: T).subst0 (s (Bind b) (s (Flat Appl) i)) v0 t3 t5) (or (pr0 w1 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (x0: T).\lambda (x1: T).\lambda (H13: (eq T x (THead (Bind b) x0 x1))).\lambda (H14: (subst0 (s (Flat Appl) i) v0 u1 x0)).\lambda (H15: (subst0 (s (Bind b) (s (Flat Appl) i)) v0 t3 x1)).eq_ind_r T (THead (Flat Appl) v1 x) (\lambda (t: T).or (pr0 t (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 t w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (eq_ind_r T (THead (Bind b) x0 x1) (\lambda (t: T).or (pr0 (THead (Flat Appl) v1 t) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 t) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (or_ind (pr0 x1 t4) (ex2 T (\lambda (w2: T).pr0 x1 w2) (\lambda (w2: T).subst0 (s (Bind b) (s (Flat Appl) i)) v3 t4 w2)) (or (pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 x1)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 x1)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (H16: (pr0 x1 t4)).or_ind (pr0 x0 u2) (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 (s (Flat Appl) i) v3 u2 w2)) (or (pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 x1)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 x1)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (H17: (pr0 x0 u2)).or_introl (pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 x1)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 x1)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2)) (pr0_upsilon b H0 v1 v2 H1 x0 u2 H17 x1 t4 H16)) (\lambda (H17: (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 (s (Flat Appl) i) v3 u2 w2))).ex2_ind T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 (s (Flat Appl) i) v3 u2 w2) (or (pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 x1)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 x1)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (x2: T).\lambda (H18: (pr0 x0 x2)).\lambda (H19: (subst0 (s (Flat Appl) i) v3 u2 x2)).or_intror (pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 x1)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 x1)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 x1)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2) (THead (Bind b) x2 (THead (Flat Appl) (lift (S O) O v2) t4)) (pr0_upsilon b H0 v1 v2 H1 x0 x2 H18 x1 t4 H16) (subst0_fst v3 x2 u2 i H19 (THead (Flat Appl) (lift (S O) O v2) t4) (Bind b)))) H17) (H4 v0 x0 (s (Flat Appl) i) H14 v3 H8)) (\lambda (H16: (ex2 T (\lambda (w2: T).pr0 x1 w2) (\lambda (w2: T).subst0 (s (Bind b) (s (Flat Appl) i)) v3 t4 w2))).ex2_ind T (\lambda (w2: T).pr0 x1 w2) (\lambda (w2: T).subst0 (s (Bind b) (s (Flat Appl) i)) v3 t4 w2) (or (pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 x1)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 x1)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (x2: T).\lambda (H17: (pr0 x1 x2)).\lambda (H18: (subst0 (s (Bind b) (s (Flat Appl) i)) v3 t4 x2)).or_ind (pr0 x0 u2) (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 (s (Flat Appl) i) v3 u2 w2)) (or (pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 x1)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 x1)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (H19: (pr0 x0 u2)).or_intror (pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 x1)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 x1)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 x1)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) x2)) (pr0_upsilon b H0 v1 v2 H1 x0 u2 H19 x1 x2 H17) (subst0_snd (Bind b) v3 (THead (Flat Appl) (lift (S O) O v2) x2) (THead (Flat Appl) (lift (S O) O v2) t4) i (subst0_snd (Flat Appl) v3 x2 t4 (s (Bind b) i) H18 (lift (S O) O v2)) u2))) (\lambda (H19: (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 (s (Flat Appl) i) v3 u2 w2))).ex2_ind T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 (s (Flat Appl) i) v3 u2 w2) (or (pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 x1)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 x1)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (x3: T).\lambda (H20: (pr0 x0 x3)).\lambda (H21: (subst0 (s (Flat Appl) i) v3 u2 x3)).or_intror (pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 x1)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 x1)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Flat Appl) v1 (THead (Bind b) x0 x1)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2) (THead (Bind b) x3 (THead (Flat Appl) (lift (S O) O v2) x2)) (pr0_upsilon b H0 v1 v2 H1 x0 x3 H20 x1 x2 H17) (subst0_both v3 u2 x3 i H21 (Bind b) (THead (Flat Appl) (lift (S O) O v2) t4) (THead (Flat Appl) (lift (S O) O v2) x2) (subst0_snd (Flat Appl) v3 x2 t4 (s (Bind b) i) H18 (lift (S O) O v2))))) H19) (H4 v0 x0 (s (Flat Appl) i) H14 v3 H8)) H16) (H6 v0 x1 (s (Bind b) (s (Flat Appl) i)) H15 v3 H8)) x H13) w1 H10) H12) (subst0_gen_head (Bind b) v0 u1 t3 x (s (Flat Appl) i) H11)) H9) (\lambda (H9: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T w1 (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i v0 v1 u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Flat Appl) i) v0 (THead (Bind b) u1 t3) t2))).ex3_2_ind T T (\lambda (u3: T).\lambda (t5: T).eq T w1 (THead (Flat Appl) u3 t5)) (\lambda (u3: T).\lambda (_: T).subst0 i v0 v1 u3) (\lambda (_: T).\lambda (t5: T).subst0 (s (Flat Appl) i) v0 (THead (Bind b) u1 t3) t5) (or (pr0 w1 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (x0: T).\lambda (x1: T).\lambda (H10: (eq T w1 (THead (Flat Appl) x0 x1))).\lambda (H11: (subst0 i v0 v1 x0)).\lambda (H12: (subst0 (s (Flat Appl) i) v0 (THead (Bind b) u1 t3) x1)).or3_ind (ex2 T (\lambda (u3: T).eq T x1 (THead (Bind b) u3 t3)) (\lambda (u3: T).subst0 (s (Flat Appl) i) v0 u1 u3)) (ex2 T (\lambda (t5: T).eq T x1 (THead (Bind b) u1 t5)) (\lambda (t5: T).subst0 (s (Bind b) (s (Flat Appl) i)) v0 t3 t5)) (ex3_2 T T (\lambda (u3: T).\lambda (t5: T).eq T x1 (THead (Bind b) u3 t5)) (\lambda (u3: T).\lambda (_: T).subst0 (s (Flat Appl) i) v0 u1 u3) (\lambda (_: T).\lambda (t5: T).subst0 (s (Bind b) (s (Flat Appl) i)) v0 t3 t5)) (or (pr0 w1 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (H13: (ex2 T (\lambda (u2: T).eq T x1 (THead (Bind b) u2 t3)) (\lambda (u2: T).subst0 (s (Flat Appl) i) v0 u1 u2))).ex2_ind T (\lambda (u3: T).eq T x1 (THead (Bind b) u3 t3)) (\lambda (u3: T).subst0 (s (Flat Appl) i) v0 u1 u3) (or (pr0 w1 (THead 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v2 H17 x u2 H16 t3 t4 H5)) (\lambda (H17: (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2))).ex2_ind T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2) (or (pr0 (THead (Flat Appl) x0 (THead (Bind b) x t3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x t3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (x2: T).\lambda (H18: (pr0 x0 x2)).\lambda (H19: (subst0 i v3 v2 x2)).or_intror (pr0 (THead (Flat Appl) x0 (THead (Bind b) x t3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x t3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x t3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O x2) t4)) (pr0_upsilon b H0 x0 x2 H18 x u2 H16 t3 t4 H5) (subst0_snd (Bind b) v3 (THead (Flat Appl) (lift (S O) O x2) t4) (THead (Flat Appl) (lift (S O) O v2) t4) i (subst0_fst v3 (lift (S O) O x2) (lift (S O) O v2) (s (Bind b) i) (subst0_lift_ge_s v2 x2 v3 i H19 O (le_O_n i) b) t4 (Flat Appl)) u2))) H17) (H2 v0 x0 i H11 v3 H8)) (\lambda (H16: (ex2 T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 (s (Flat Appl) i) v3 u2 w2))).ex2_ind T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 (s (Flat Appl) i) v3 u2 w2) (or (pr0 (THead (Flat Appl) x0 (THead (Bind b) x t3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x t3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (x2: T).\lambda (H17: (pr0 x x2)).\lambda (H18: (subst0 (s (Flat Appl) i) v3 u2 x2)).or_ind (pr0 x0 v2) (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2)) (or (pr0 (THead (Flat Appl) x0 (THead (Bind b) x t3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x t3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (H19: (pr0 x0 v2)).or_intror (pr0 (THead (Flat Appl) x0 (THead (Bind b) x t3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x t3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x t3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2) (THead (Bind b) x2 (THead (Flat Appl) (lift (S O) O v2) t4)) (pr0_upsilon b H0 x0 v2 H19 x x2 H17 t3 t4 H5) (subst0_fst v3 x2 u2 i H18 (THead (Flat Appl) (lift (S O) O v2) t4) (Bind b)))) (\lambda (H19: (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2))).ex2_ind T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2) (or (pr0 (THead (Flat Appl) x0 (THead (Bind b) x t3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x t3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (x3: T).\lambda (H20: (pr0 x0 x3)).\lambda (H21: (subst0 i v3 v2 x3)).or_intror (pr0 (THead (Flat Appl) x0 (THead (Bind b) x t3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x t3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x t3)) w2) (\lambda (w2: T).subst0 i v3 (THead 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T).\lambda (H14: (eq T x1 (THead (Bind b) u1 x))).\lambda (H15: (subst0 (s (Bind b) (s (Flat Appl) i)) v0 t3 x)).eq_ind_r T (THead (Flat Appl) x0 x1) (\lambda (t: T).or (pr0 t (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 t w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (eq_ind_r T (THead (Bind b) u1 x) (\lambda (t: T).or (pr0 (THead (Flat Appl) x0 t) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 t) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (or_ind (pr0 x t4) (ex2 T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 (s (Bind b) (s (Flat Appl) i)) v3 t4 w2)) (or (pr0 (THead (Flat Appl) x0 (THead (Bind b) u1 x)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) u1 x)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (H16: (pr0 x t4)).or_ind (pr0 x0 v2) (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2)) (or (pr0 (THead (Flat Appl) x0 (THead (Bind b) u1 x)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) u1 x)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (H17: (pr0 x0 v2)).or_introl (pr0 (THead (Flat Appl) x0 (THead (Bind b) u1 x)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) u1 x)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2)) (pr0_upsilon b H0 x0 v2 H17 u1 u2 H3 x t4 H16)) (\lambda (H17: (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2))).ex2_ind T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2) (or (pr0 (THead (Flat Appl) x0 (THead (Bind b) u1 x)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) u1 x)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (x2: T).\lambda (H18: (pr0 x0 x2)).\lambda (H19: (subst0 i v3 v2 x2)).or_intror (pr0 (THead (Flat Appl) x0 (THead (Bind b) u1 x)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) u1 x)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) u1 x)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O x2) t4)) (pr0_upsilon b H0 x0 x2 H18 u1 u2 H3 x t4 H16) (subst0_snd (Bind b) v3 (THead (Flat Appl) (lift (S O) O x2) t4) (THead (Flat Appl) (lift (S O) O v2) t4) i (subst0_fst v3 (lift (S O) O x2) (lift (S O) O v2) (s (Bind b) i) (subst0_lift_ge_s v2 x2 v3 i H19 O (le_O_n i) b) t4 (Flat Appl)) u2))) H17) (H2 v0 x0 i H11 v3 H8)) (\lambda (H16: (ex2 T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 (s (Bind b) (s (Flat Appl) i)) v3 t4 w2))).ex2_ind T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 (s (Bind b) (s (Flat Appl) i)) v3 t4 w2) (or (pr0 (THead (Flat Appl) x0 (THead (Bind b) u1 x)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) u1 x)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (x2: T).\lambda (H17: (pr0 x x2)).\lambda (H18: (subst0 (s (Bind b) (s (Flat Appl) i)) v3 t4 x2)).or_ind (pr0 x0 v2) (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2)) (or (pr0 (THead (Flat Appl) x0 (THead (Bind b) u1 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i) H18 (lift (S O) O v2)) u2))) (\lambda (H19: (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2))).ex2_ind T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2) (or (pr0 (THead (Flat Appl) x0 (THead (Bind b) u1 x)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) u1 x)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (x3: T).\lambda (H20: (pr0 x0 x3)).\lambda (H21: (subst0 i v3 v2 x3)).or_intror (pr0 (THead (Flat Appl) x0 (THead (Bind b) u1 x)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) u1 x)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) u1 x)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O x3) x2)) (pr0_upsilon b H0 x0 x3 H20 u1 u2 H3 x x2 H17) (subst0_snd (Bind b) v3 (THead (Flat Appl) (lift (S O) O x3) x2) (THead (Flat Appl) (lift (S O) O v2) t4) i (subst0_both v3 (lift (S O) O v2) (lift (S O) O x3) (s (Bind b) i) (subst0_lift_ge_s v2 x3 v3 i H21 O (le_O_n i) b) (Flat Appl) t4 x2 H18) u2))) H19) (H2 v0 x0 i H11 v3 H8)) H16) (H6 v0 x (s (Bind b) (s (Flat Appl) i)) H15 v3 H8)) x1 H14) w1 H10) H13) (\lambda (H13: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x1 (THead (Bind b) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 (s (Flat Appl) i) v0 u1 u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Bind b) (s (Flat Appl) i)) v0 t3 t2))).ex3_2_ind T T (\lambda (u3: T).\lambda (t5: T).eq T x1 (THead (Bind b) u3 t5)) (\lambda (u3: T).\lambda (_: T).subst0 (s (Flat Appl) i) v0 u1 u3) (\lambda (_: T).\lambda (t5: T).subst0 (s (Bind b) (s (Flat Appl) i)) v0 t3 t5) (or (pr0 w1 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (x2: T).\lambda (x3: T).\lambda (H14: (eq T x1 (THead (Bind b) x2 x3))).\lambda (H15: (subst0 (s (Flat Appl) i) v0 u1 x2)).\lambda (H16: (subst0 (s (Bind b) (s (Flat Appl) i)) v0 t3 x3)).eq_ind_r T (THead (Flat Appl) x0 x1) (\lambda (t: T).or (pr0 t (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 t w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (eq_ind_r T (THead (Bind b) x2 x3) (\lambda (t: T).or (pr0 (THead (Flat Appl) x0 t) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 t) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (or_ind (pr0 x3 t4) (ex2 T (\lambda (w2: T).pr0 x3 w2) (\lambda (w2: T).subst0 (s (Bind b) (s (Flat Appl) i)) v3 t4 w2)) (or (pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (H17: (pr0 x3 t4)).or_ind (pr0 x2 u2) (ex2 T (\lambda (w2: T).pr0 x2 w2) (\lambda (w2: T).subst0 (s (Flat Appl) i) v3 u2 w2)) (or (pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (H18: (pr0 x2 u2)).or_ind (pr0 x0 v2) (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2)) (or (pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (H19: (pr0 x0 v2)).or_introl (pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2)) (pr0_upsilon b H0 x0 v2 H19 x2 u2 H18 x3 t4 H17)) (\lambda (H19: (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2))).ex2_ind T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2) (or (pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (x: T).\lambda (H20: (pr0 x0 x)).\lambda (H21: (subst0 i v3 v2 x)).or_intror (pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O x) t4)) (pr0_upsilon b H0 x0 x H20 x2 u2 H18 x3 t4 H17) (subst0_snd (Bind b) v3 (THead (Flat Appl) (lift (S O) O x) t4) (THead (Flat Appl) (lift (S O) O v2) t4) i (subst0_fst v3 (lift (S O) O x) (lift (S O) O v2) (s (Bind b) i) (subst0_lift_ge_s v2 x v3 i H21 O (le_O_n i) b) t4 (Flat Appl)) u2))) H19) (H2 v0 x0 i H11 v3 H8)) (\lambda (H18: (ex2 T (\lambda (w2: T).pr0 x2 w2) (\lambda (w2: T).subst0 (s (Flat Appl) i) v3 u2 w2))).ex2_ind T (\lambda (w2: T).pr0 x2 w2) (\lambda (w2: T).subst0 (s (Flat Appl) i) v3 u2 w2) (or (pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (x: T).\lambda (H19: (pr0 x2 x)).\lambda (H20: (subst0 (s (Flat Appl) i) v3 u2 x)).or_ind (pr0 x0 v2) (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2)) (or (pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (H21: (pr0 x0 v2)).or_intror (pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2) (THead (Bind b) x (THead (Flat Appl) (lift (S O) O v2) t4)) (pr0_upsilon b H0 x0 v2 H21 x2 x H19 x3 t4 H17) (subst0_fst v3 x u2 i H20 (THead (Flat Appl) (lift (S O) O v2) t4) (Bind b)))) (\lambda (H21: (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2))).ex2_ind T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2) (or (pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (x4: T).\lambda (H22: (pr0 x0 x4)).\lambda (H23: (subst0 i v3 v2 x4)).or_intror (pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2) (THead (Bind b) x (THead (Flat Appl) (lift (S O) O x4) t4)) (pr0_upsilon b H0 x0 x4 H22 x2 x H19 x3 t4 H17) (subst0_both v3 u2 x i H20 (Bind b) (THead (Flat Appl) (lift (S O) O v2) t4) (THead (Flat Appl) (lift (S O) O x4) t4) (subst0_fst v3 (lift (S O) O x4) (lift (S O) O v2) (s (Bind b) i) (subst0_lift_ge_s v2 x4 v3 i H23 O (le_O_n i) b) t4 (Flat Appl))))) H21) (H2 v0 x0 i H11 v3 H8)) H18) (H4 v0 x2 (s (Flat Appl) i) H15 v3 H8)) (\lambda (H17: (ex2 T (\lambda (w2: T).pr0 x3 w2) (\lambda (w2: T).subst0 (s (Bind b) (s (Flat Appl) i)) v3 t4 w2))).ex2_ind T (\lambda (w2: T).pr0 x3 w2) (\lambda (w2: T).subst0 (s (Bind b) (s (Flat Appl) i)) v3 t4 w2) (or (pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (x: T).\lambda (H18: (pr0 x3 x)).\lambda (H19: (subst0 (s (Bind b) (s (Flat Appl) i)) v3 t4 x)).or_ind (pr0 x2 u2) (ex2 T (\lambda (w2: T).pr0 x2 w2) (\lambda (w2: T).subst0 (s (Flat Appl) i) v3 u2 w2)) (or (pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead 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O) O v2) x)) (pr0_upsilon b H0 x0 v2 H21 x2 u2 H20 x3 x H18) (subst0_snd (Bind b) v3 (THead (Flat Appl) (lift (S O) O v2) x) (THead (Flat Appl) (lift (S O) O v2) t4) i (subst0_snd (Flat Appl) v3 x t4 (s (Bind b) i) H19 (lift (S O) O v2)) u2))) (\lambda (H21: (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2))).ex2_ind T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2) (or (pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (x4: T).\lambda (H22: (pr0 x0 x4)).\lambda (H23: (subst0 i v3 v2 x4)).or_intror (pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O x4) x)) (pr0_upsilon b H0 x0 x4 H22 x2 u2 H20 x3 x H18) (subst0_snd (Bind b) v3 (THead (Flat Appl) (lift (S O) O x4) x) (THead (Flat Appl) (lift (S O) O v2) t4) i (subst0_both v3 (lift (S O) O v2) (lift (S O) O x4) (s (Bind b) i) (subst0_lift_ge_s v2 x4 v3 i H23 O (le_O_n i) b) (Flat Appl) t4 x H19) u2))) H21) (H2 v0 x0 i H11 v3 H8)) (\lambda (H20: (ex2 T (\lambda (w2: T).pr0 x2 w2) (\lambda (w2: T).subst0 (s (Flat Appl) i) v3 u2 w2))).ex2_ind T (\lambda (w2: T).pr0 x2 w2) (\lambda (w2: T).subst0 (s (Flat Appl) i) v3 u2 w2) (or (pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (x4: T).\lambda (H21: (pr0 x2 x4)).\lambda (H22: (subst0 (s (Flat Appl) i) v3 u2 x4)).or_ind (pr0 x0 v2) (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2)) (or (pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (H23: (pr0 x0 v2)).or_intror (pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2) (THead (Bind b) x4 (THead (Flat Appl) (lift (S O) O v2) x)) (pr0_upsilon b H0 x0 v2 H23 x2 x4 H21 x3 x H18) (subst0_both v3 u2 x4 i H22 (Bind b) (THead (Flat Appl) (lift (S O) O v2) t4) (THead (Flat Appl) (lift (S O) O v2) x) (subst0_snd (Flat Appl) v3 x t4 (s (Bind b) i) H19 (lift (S O) O v2))))) (\lambda (H23: (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2))).ex2_ind T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v3 v2 w2) (or (pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2))) (\lambda (x5: T).\lambda (H24: (pr0 x0 x5)).\lambda (H25: (subst0 i v3 v2 x5)).or_intror (pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4))) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Flat Appl) x0 (THead (Bind b) x2 x3)) w2) (\lambda (w2: T).subst0 i v3 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) w2) (THead (Bind b) x4 (THead (Flat Appl) (lift (S O) O x5) x)) (pr0_upsilon b H0 x0 x5 H24 x2 x4 H21 x3 x H18) (subst0_both v3 u2 x4 i H22 (Bind b) (THead (Flat Appl) (lift (S O) O v2) t4) (THead (Flat Appl) (lift (S O) O x5) x) (subst0_both v3 (lift (S O) O v2) (lift (S O) O x5) (s (Bind b) i) (subst0_lift_ge_s v2 x5 v3 i H25 O (le_O_n i) b) (Flat Appl) t4 x H19)))) H23) (H2 v0 x0 i H11 v3 H8)) H20) (H4 v0 x2 (s (Flat Appl) i) H15 v3 H8)) H17) (H6 v0 x3 (s (Bind b) (s (Flat Appl) i)) H16 v3 H8)) x1 H14) w1 H10) H13) (subst0_gen_head (Bind b) v0 u1 t3 x1 (s (Flat Appl) i) H12)) H9) (subst0_gen_head (Flat Appl) v0 v1 (THead (Bind b) u1 t3) w1 i H7)) (\lambda (u1: T).\lambda (u2: T).\lambda (H0: (pr0 u1 u2)).\lambda (H1: ((\forall (v1: T).\forall (w1: T).\forall (i: nat).(subst0 i v1 u1 w1) \to \forall (v2: T).(pr0 v1 v2) \to or (pr0 w1 u2) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v2 u2 w2))))).\lambda (t3: T).\lambda (t4: T).\lambda (H2: (pr0 t3 t4)).\lambda (H3: ((\forall (v1: T).\forall (w1: T).\forall (i: nat).(subst0 i v1 t3 w1) \to \forall (v2: T).(pr0 v1 v2) \to or (pr0 w1 t4) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v2 t4 w2))))).\lambda (w: T).\lambda (H4: (subst0 O u2 t4 w)).\lambda (v1: T).\lambda (w1: T).\lambda (i: nat).\lambda (H5: (subst0 i v1 (THead (Bind Abbr) u1 t3) w1)).\lambda (v2: T).\lambda (H6: (pr0 v1 v2)).or3_ind (ex2 T (\lambda (u3: T).eq T w1 (THead (Bind Abbr) u3 t3)) (\lambda (u3: T).subst0 i v1 u1 u3)) (ex2 T (\lambda (t5: T).eq T w1 (THead (Bind Abbr) u1 t5)) (\lambda (t5: T).subst0 (s (Bind Abbr) i) v1 t3 t5)) (ex3_2 T T (\lambda (u3: T).\lambda (t5: T).eq T w1 (THead (Bind Abbr) u3 t5)) (\lambda (u3: T).\lambda (_: T).subst0 i v1 u1 u3) (\lambda (_: T).\lambda (t5: T).subst0 (s (Bind Abbr) i) v1 t3 t5)) (or (pr0 w1 (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2))) (\lambda (H7: (ex2 T (\lambda (u2: T).eq T w1 (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).subst0 i v1 u1 u2))).ex2_ind T (\lambda (u3: T).eq T w1 (THead (Bind Abbr) u3 t3)) (\lambda (u3: T).subst0 i v1 u1 u3) (or (pr0 w1 (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2))) (\lambda (x: T).\lambda (H8: (eq T w1 (THead (Bind Abbr) x t3))).\lambda (H9: (subst0 i v1 u1 x)).eq_ind_r T (THead (Bind Abbr) x t3) (\lambda (t: T).or (pr0 t (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 t w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2))) (or_ind (pr0 x u2) (ex2 T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 i v2 u2 w2)) (or (pr0 (THead (Bind Abbr) x t3) (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 (THead (Bind Abbr) x t3) w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2))) (\lambda (H10: (pr0 x u2)).or_introl (pr0 (THead (Bind Abbr) x t3) (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 (THead (Bind Abbr) x t3) w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2)) (pr0_delta x u2 H10 t3 t4 H2 w H4)) (\lambda (H10: (ex2 T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 i v2 u2 w2))).ex2_ind T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 i v2 u2 w2) (or (pr0 (THead (Bind Abbr) x t3) (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 (THead (Bind Abbr) x t3) w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2))) (\lambda (x0: T).\lambda (H11: (pr0 x x0)).\lambda (H12: (subst0 i v2 u2 x0)).ex2_ind T (\lambda (t: T).subst0 O x0 t4 t) (\lambda (t: T).subst0 (S (plus i O)) v2 w t) (or (pr0 (THead (Bind Abbr) x t3) (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 (THead (Bind Abbr) x t3) w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2))) (\lambda (x1: T).\lambda (H13: (subst0 O x0 t4 x1)).\lambda (H14: (subst0 (S (plus i O)) v2 w x1)).let H15 \def f_equal nat nat S (plus i O) i (sym_eq nat i (plus i O) (plus_n_O i)) in let H16 \def eq_ind nat (S (plus i O)) (\lambda (n: nat).subst0 n v2 w x1) H14 (S i) H15 in or_intror (pr0 (THead (Bind Abbr) x t3) (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 (THead (Bind Abbr) x t3) w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Bind Abbr) x t3) w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2) (THead (Bind Abbr) x0 x1) (pr0_delta x x0 H11 t3 t4 H2 x1 H13) (subst0_both v2 u2 x0 i H12 (Bind Abbr) w x1 H16))) (subst0_subst0_back t4 w u2 O H4 x0 v2 i H12)) H10) (H1 v1 x i H9 v2 H6)) w1 H8) H7) (\lambda (H7: (ex2 T (\lambda (t2: T).eq T w1 (THead (Bind Abbr) u1 t2)) (\lambda (t2: T).subst0 (s (Bind Abbr) i) v1 t3 t2))).ex2_ind T (\lambda (t5: T).eq T w1 (THead (Bind Abbr) u1 t5)) (\lambda (t5: T).subst0 (s (Bind Abbr) i) v1 t3 t5) (or (pr0 w1 (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2))) (\lambda (x: T).\lambda (H8: (eq T w1 (THead (Bind Abbr) u1 x))).\lambda (H9: (subst0 (s (Bind Abbr) i) v1 t3 x)).eq_ind_r T (THead (Bind Abbr) u1 x) (\lambda (t: T).or (pr0 t (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 t w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2))) (or_ind (pr0 x t4) (ex2 T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 (s (Bind Abbr) i) v2 t4 w2)) (or (pr0 (THead (Bind Abbr) u1 x) (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 (THead (Bind Abbr) u1 x) w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2))) (\lambda (H10: (pr0 x t4)).or_introl (pr0 (THead (Bind Abbr) u1 x) (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 (THead (Bind Abbr) u1 x) w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2)) (pr0_delta u1 u2 H0 x t4 H10 w H4)) (\lambda (H10: (ex2 T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 (s (Bind Abbr) i) v2 t4 w2))).ex2_ind T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 (s (Bind Abbr) i) v2 t4 w2) (or (pr0 (THead (Bind Abbr) u1 x) (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 (THead (Bind Abbr) u1 x) w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2))) (\lambda (x0: T).\lambda (H11: (pr0 x x0)).\lambda (H12: (subst0 (s (Bind Abbr) i) v2 t4 x0)).ex2_ind T (\lambda (t: T).subst0 O u2 x0 t) (\lambda (t: T).subst0 (s (Bind Abbr) i) v2 w t) (or (pr0 (THead (Bind Abbr) u1 x) (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 (THead (Bind Abbr) u1 x) w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2))) (\lambda (x1: T).\lambda (H13: (subst0 O u2 x0 x1)).\lambda (H14: (subst0 (s (Bind Abbr) i) v2 w x1)).or_intror (pr0 (THead (Bind Abbr) u1 x) (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 (THead (Bind Abbr) u1 x) w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Bind Abbr) u1 x) w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2) (THead (Bind Abbr) u2 x1) (pr0_delta u1 u2 H0 x x0 H11 x1 H13) (subst0_snd (Bind Abbr) v2 x1 w i H14 u2))) (subst0_confluence_neq t4 x0 v2 (s (Bind Abbr) i) H12 w u2 O H4 (sym_not_eq nat O (S i) (O_S i)))) H10) (H3 v1 x (s (Bind Abbr) i) H9 v2 H6)) w1 H8) H7) (\lambda (H7: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T w1 (THead (Bind Abbr) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i v1 u1 u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Bind Abbr) i) v1 t3 t2))).ex3_2_ind T T (\lambda (u3: T).\lambda (t5: T).eq T w1 (THead (Bind Abbr) u3 t5)) (\lambda (u3: T).\lambda (_: T).subst0 i v1 u1 u3) (\lambda (_: T).\lambda (t5: T).subst0 (s (Bind Abbr) i) v1 t3 t5) (or (pr0 w1 (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2))) (\lambda (x0: T).\lambda (x1: T).\lambda (H8: (eq T w1 (THead (Bind Abbr) x0 x1))).\lambda (H9: (subst0 i v1 u1 x0)).\lambda (H10: (subst0 (s (Bind Abbr) i) v1 t3 x1)).eq_ind_r T (THead (Bind Abbr) x0 x1) (\lambda (t: T).or (pr0 t (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 t w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2))) (or_ind (pr0 x1 t4) (ex2 T (\lambda (w2: T).pr0 x1 w2) (\lambda (w2: T).subst0 (s (Bind Abbr) i) v2 t4 w2)) (or (pr0 (THead (Bind Abbr) x0 x1) (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 (THead (Bind Abbr) x0 x1) w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2))) (\lambda (H11: (pr0 x1 t4)).or_ind (pr0 x0 u2) (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v2 u2 w2)) (or (pr0 (THead (Bind Abbr) x0 x1) (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 (THead (Bind Abbr) x0 x1) w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2))) (\lambda (H12: (pr0 x0 u2)).or_introl (pr0 (THead (Bind Abbr) x0 x1) (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 (THead (Bind Abbr) x0 x1) w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2)) (pr0_delta x0 u2 H12 x1 t4 H11 w H4)) (\lambda (H12: (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v2 u2 w2))).ex2_ind T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v2 u2 w2) (or (pr0 (THead (Bind Abbr) x0 x1) (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 (THead (Bind Abbr) x0 x1) w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2))) (\lambda (x: T).\lambda (H13: (pr0 x0 x)).\lambda (H14: (subst0 i v2 u2 x)).ex2_ind T (\lambda (t: T).subst0 O x t4 t) (\lambda (t: T).subst0 (S (plus i O)) v2 w t) (or (pr0 (THead (Bind Abbr) x0 x1) (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 (THead (Bind Abbr) x0 x1) w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2))) (\lambda (x2: T).\lambda (H15: (subst0 O x t4 x2)).\lambda (H16: (subst0 (S (plus i O)) v2 w x2)).let H17 \def f_equal nat nat S (plus i O) i (sym_eq nat i (plus i O) (plus_n_O i)) in let H18 \def eq_ind nat (S (plus i O)) (\lambda (n: nat).subst0 n v2 w x2) H16 (S i) H17 in or_intror (pr0 (THead (Bind Abbr) x0 x1) (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 (THead (Bind Abbr) x0 x1) w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Bind Abbr) x0 x1) w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2) (THead (Bind Abbr) x x2) (pr0_delta x0 x H13 x1 t4 H11 x2 H15) (subst0_both v2 u2 x i H14 (Bind Abbr) w x2 H18))) (subst0_subst0_back t4 w u2 O H4 x v2 i H14)) H12) (H1 v1 x0 i H9 v2 H6)) (\lambda (H11: (ex2 T (\lambda (w2: T).pr0 x1 w2) (\lambda (w2: T).subst0 (s (Bind Abbr) i) v2 t4 w2))).ex2_ind T (\lambda (w2: T).pr0 x1 w2) (\lambda (w2: T).subst0 (s (Bind Abbr) i) v2 t4 w2) (or (pr0 (THead (Bind Abbr) x0 x1) (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 (THead (Bind Abbr) x0 x1) w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2))) (\lambda (x: T).\lambda (H12: (pr0 x1 x)).\lambda (H13: (subst0 (s (Bind Abbr) i) v2 t4 x)).or_ind (pr0 x0 u2) (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v2 u2 w2)) (or (pr0 (THead (Bind Abbr) x0 x1) (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 (THead (Bind Abbr) x0 x1) w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2))) (\lambda (H14: (pr0 x0 u2)).ex2_ind T (\lambda (t: T).subst0 O u2 x t) (\lambda (t: T).subst0 (s (Bind Abbr) i) v2 w t) (or (pr0 (THead (Bind Abbr) x0 x1) (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 (THead (Bind Abbr) x0 x1) w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2))) (\lambda (x2: T).\lambda (H15: (subst0 O u2 x x2)).\lambda (H16: (subst0 (s (Bind Abbr) i) v2 w x2)).or_intror (pr0 (THead (Bind Abbr) x0 x1) (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 (THead (Bind Abbr) x0 x1) w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Bind Abbr) x0 x1) w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2) (THead (Bind Abbr) u2 x2) (pr0_delta x0 u2 H14 x1 x H12 x2 H15) (subst0_snd (Bind Abbr) v2 x2 w i H16 u2))) (subst0_confluence_neq t4 x v2 (s (Bind Abbr) i) H13 w u2 O H4 (sym_not_eq nat O (S i) (O_S i)))) (\lambda (H14: (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v2 u2 w2))).ex2_ind T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v2 u2 w2) (or (pr0 (THead (Bind Abbr) x0 x1) (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 (THead (Bind Abbr) x0 x1) w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2))) (\lambda (x2: T).\lambda (H15: (pr0 x0 x2)).\lambda (H16: (subst0 i v2 u2 x2)).ex2_ind T (\lambda (t: T).subst0 O x2 t4 t) (\lambda (t: T).subst0 (S (plus i O)) v2 w t) (or (pr0 (THead (Bind Abbr) x0 x1) (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 (THead (Bind Abbr) x0 x1) w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2))) (\lambda (x3: T).\lambda (H17: (subst0 O x2 t4 x3)).\lambda (H18: (subst0 (S (plus i O)) v2 w x3)).let H19 \def f_equal nat nat S (plus i O) i (sym_eq nat i (plus i O) (plus_n_O i)) in let H20 \def eq_ind nat (S (plus i O)) (\lambda (n: nat).subst0 n v2 w x3) H18 (S i) H19 in ex2_ind T (\lambda (t: T).subst0 (s (Bind Abbr) i) v2 x3 t) (\lambda (t: T).subst0 O x2 x t) (or (pr0 (THead (Bind Abbr) x0 x1) (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 (THead (Bind Abbr) x0 x1) w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2))) (\lambda (x4: T).\lambda (H21: (subst0 (s (Bind Abbr) i) v2 x3 x4)).\lambda (H22: (subst0 O x2 x x4)).or_intror (pr0 (THead (Bind Abbr) x0 x1) (THead (Bind Abbr) u2 w)) (ex2 T (\lambda (w2: T).pr0 (THead (Bind Abbr) x0 x1) w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Bind Abbr) x0 x1) w2) (\lambda (w2: T).subst0 i v2 (THead (Bind Abbr) u2 w) w2) (THead (Bind Abbr) x2 x4) (pr0_delta x0 x2 H15 x1 x H12 x4 H22) (subst0_both v2 u2 x2 i H16 (Bind Abbr) w x4 (subst0_trans x3 w v2 (s (Bind Abbr) i) H20 x4 H21)))) (subst0_confluence_neq t4 x3 x2 O H17 x v2 (s (Bind Abbr) i) H13 (O_S i))) (subst0_subst0_back t4 w u2 O H4 x2 v2 i H16)) H14) (H1 v1 x0 i H9 v2 H6)) H11) (H3 v1 x1 (s (Bind Abbr) i) H10 v2 H6)) w1 H8) H7) (subst0_gen_head (Bind Abbr) v1 u1 t3 w1 i H5)) (\lambda (b: B).\lambda (H0: (not (eq B b Abst))).\lambda (t3: T).\lambda (t4: T).\lambda (H1: (pr0 t3 t4)).\lambda (H2: ((\forall (v1: T).\forall (w1: T).\forall (i: nat).(subst0 i v1 t3 w1) \to \forall (v2: T).(pr0 v1 v2) \to or (pr0 w1 t4) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v2 t4 w2))))).\lambda (u: T).\lambda (v1: T).\lambda (w1: T).\lambda (i: nat).\lambda (H3: (subst0 i v1 (THead (Bind b) u (lift (S O) O t3)) w1)).\lambda (v2: T).\lambda (H4: (pr0 v1 v2)).or3_ind (ex2 T (\lambda (u2: T).eq T w1 (THead (Bind b) u2 (lift (S O) O t3))) (\lambda (u2: T).subst0 i v1 u u2)) (ex2 T (\lambda (t5: T).eq T w1 (THead (Bind b) u t5)) (\lambda (t5: T).subst0 (s (Bind b) i) v1 (lift (S O) O t3) t5)) (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T w1 (THead (Bind b) u2 t5)) (\lambda (u2: T).\lambda (_: T).subst0 i v1 u u2) (\lambda (_: T).\lambda (t5: T).subst0 (s (Bind b) i) v1 (lift (S O) O t3) t5)) (or (pr0 w1 t4) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v2 t4 w2))) (\lambda (H5: (ex2 T (\lambda (u2: T).eq T w1 (THead (Bind b) u2 (lift (S O) O t3))) (\lambda (u2: T).subst0 i v1 u u2))).ex2_ind T (\lambda (u2: T).eq T w1 (THead (Bind b) u2 (lift (S O) O t3))) (\lambda (u2: T).subst0 i v1 u u2) (or (pr0 w1 t4) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v2 t4 w2))) (\lambda (x: T).\lambda (H6: (eq T w1 (THead (Bind b) x (lift (S O) O t3)))).\lambda (_: (subst0 i v1 u x)).eq_ind_r T (THead (Bind b) x (lift (S O) O t3)) (\lambda (t: T).or (pr0 t t4) (ex2 T (\lambda (w2: T).pr0 t w2) (\lambda (w2: T).subst0 i v2 t4 w2))) (or_introl (pr0 (THead (Bind b) x (lift (S O) O t3)) t4) (ex2 T (\lambda (w2: T).pr0 (THead (Bind b) x (lift (S O) O t3)) w2) (\lambda (w2: T).subst0 i v2 t4 w2)) (pr0_zeta b H0 t3 t4 H1 x)) w1 H6) H5) (\lambda (H5: (ex2 T (\lambda (t2: T).eq T w1 (THead (Bind b) u t2)) (\lambda (t2: T).subst0 (s (Bind b) i) v1 (lift (S O) O t3) t2))).ex2_ind T (\lambda (t5: T).eq T w1 (THead (Bind b) u t5)) (\lambda (t5: T).subst0 (s (Bind b) i) v1 (lift (S O) O t3) t5) (or (pr0 w1 t4) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v2 t4 w2))) (\lambda (x: T).\lambda (H6: (eq T w1 (THead (Bind b) u x))).\lambda (H7: (subst0 (s (Bind b) i) v1 (lift (S O) O t3) x)).ex2_ind T (\lambda (t5: T).eq T x (lift (S O) O t5)) (\lambda (t5: T).subst0 (minus (s (Bind b) i) (S O)) v1 t3 t5) (or (pr0 w1 t4) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v2 t4 w2))) (\lambda (x0: T).\lambda (H8: (eq T x (lift (S O) O x0))).\lambda (H9: (subst0 (minus (s (Bind b) i) (S O)) v1 t3 x0)).eq_ind_r T (THead (Bind b) u x) (\lambda (t: T).or (pr0 t t4) (ex2 T (\lambda (w2: T).pr0 t w2) (\lambda (w2: T).subst0 i v2 t4 w2))) (eq_ind_r T (lift (S O) O x0) (\lambda (t: T).or (pr0 (THead (Bind b) u t) t4) (ex2 T (\lambda (w2: T).pr0 (THead (Bind b) u t) w2) (\lambda (w2: T).subst0 i v2 t4 w2))) (let H10 \def eq_ind_r nat (minus i O) (\lambda (n: nat).subst0 n v1 t3 x0) H9 i (minus_n_O i) in or_ind (pr0 x0 t4) (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v2 t4 w2)) (or (pr0 (THead (Bind b) u (lift (S O) O x0)) t4) (ex2 T (\lambda (w2: T).pr0 (THead (Bind b) u (lift (S O) O x0)) w2) (\lambda (w2: T).subst0 i v2 t4 w2))) (\lambda (H11: (pr0 x0 t4)).or_introl (pr0 (THead (Bind b) u (lift (S O) O x0)) t4) (ex2 T (\lambda (w2: T).pr0 (THead (Bind b) u (lift (S O) O x0)) w2) (\lambda (w2: T).subst0 i v2 t4 w2)) (pr0_zeta b H0 x0 t4 H11 u)) (\lambda (H11: (ex2 T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v2 t4 w2))).ex2_ind T (\lambda (w2: T).pr0 x0 w2) (\lambda (w2: T).subst0 i v2 t4 w2) (or (pr0 (THead (Bind b) u (lift (S O) O x0)) t4) (ex2 T (\lambda (w2: T).pr0 (THead (Bind b) u (lift (S O) O x0)) w2) (\lambda (w2: T).subst0 i v2 t4 w2))) (\lambda (x1: T).\lambda (H12: (pr0 x0 x1)).\lambda (H13: (subst0 i v2 t4 x1)).or_intror (pr0 (THead (Bind b) u (lift (S O) O x0)) t4) (ex2 T (\lambda (w2: T).pr0 (THead (Bind b) u (lift (S O) O x0)) w2) (\lambda (w2: T).subst0 i v2 t4 w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Bind b) u (lift (S O) O x0)) w2) (\lambda (w2: T).subst0 i v2 t4 w2) x1 (pr0_zeta b H0 x0 x1 H12 u) H13)) H11) (H2 v1 x0 i H10 v2 H4)) x H8) w1 H6) (subst0_gen_lift_ge v1 t3 x (s (Bind b) i) (S O) O H7 (le_S_n (S O) (S i) (lt_le_S (S O) (S (S i)) (lt_n_S O (S i) (le_lt_n_Sm O i (le_O_n i))))))) H5) (\lambda (H5: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T w1 (THead (Bind b) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i v1 u u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Bind b) i) v1 (lift (S O) O t3) t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t5: T).eq T w1 (THead (Bind b) u2 t5)) (\lambda (u2: T).\lambda (_: T).subst0 i v1 u u2) (\lambda (_: T).\lambda (t5: T).subst0 (s (Bind b) i) v1 (lift (S O) O t3) t5) (or (pr0 w1 t4) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v2 t4 w2))) (\lambda (x0: T).\lambda (x1: T).\lambda (H6: (eq T w1 (THead (Bind b) x0 x1))).\lambda (_: (subst0 i v1 u x0)).\lambda (H8: (subst0 (s (Bind b) i) v1 (lift (S O) O t3) x1)).ex2_ind T (\lambda (t5: T).eq T x1 (lift (S O) O t5)) (\lambda (t5: T).subst0 (minus (s (Bind b) i) (S O)) v1 t3 t5) (or (pr0 w1 t4) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v2 t4 w2))) (\lambda (x: T).\lambda (H9: (eq T x1 (lift (S O) O x))).\lambda (H10: (subst0 (minus (s (Bind b) i) (S O)) v1 t3 x)).eq_ind_r T (THead (Bind b) x0 x1) (\lambda (t: T).or (pr0 t t4) (ex2 T (\lambda (w2: T).pr0 t w2) (\lambda (w2: T).subst0 i v2 t4 w2))) (eq_ind_r T (lift (S O) O x) (\lambda (t: T).or (pr0 (THead (Bind b) x0 t) t4) (ex2 T (\lambda (w2: T).pr0 (THead (Bind b) x0 t) w2) (\lambda (w2: T).subst0 i v2 t4 w2))) (let H11 \def eq_ind_r nat (minus i O) (\lambda (n: nat).subst0 n v1 t3 x) H10 i (minus_n_O i) in or_ind (pr0 x t4) (ex2 T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 i v2 t4 w2)) (or (pr0 (THead (Bind b) x0 (lift (S O) O x)) t4) (ex2 T (\lambda (w2: T).pr0 (THead (Bind b) x0 (lift (S O) O x)) w2) (\lambda (w2: T).subst0 i v2 t4 w2))) (\lambda (H12: (pr0 x t4)).or_introl (pr0 (THead (Bind b) x0 (lift (S O) O x)) t4) (ex2 T (\lambda (w2: T).pr0 (THead (Bind b) x0 (lift (S O) O x)) w2) (\lambda (w2: T).subst0 i v2 t4 w2)) (pr0_zeta b H0 x t4 H12 x0)) (\lambda (H12: (ex2 T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 i v2 t4 w2))).ex2_ind T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 i v2 t4 w2) (or (pr0 (THead (Bind b) x0 (lift (S O) O x)) t4) (ex2 T (\lambda (w2: T).pr0 (THead (Bind b) x0 (lift (S O) O x)) w2) (\lambda (w2: T).subst0 i v2 t4 w2))) (\lambda (x2: T).\lambda (H13: (pr0 x x2)).\lambda (H14: (subst0 i v2 t4 x2)).or_intror (pr0 (THead (Bind b) x0 (lift (S O) O x)) t4) (ex2 T (\lambda (w2: T).pr0 (THead (Bind b) x0 (lift (S O) O x)) w2) (\lambda (w2: T).subst0 i v2 t4 w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Bind b) x0 (lift (S O) O x)) w2) (\lambda (w2: T).subst0 i v2 t4 w2) x2 (pr0_zeta b H0 x x2 H13 x0) H14)) H12) (H2 v1 x i H11 v2 H4)) x1 H9) w1 H6) (subst0_gen_lift_ge v1 t3 x1 (s (Bind b) i) (S O) O H8 (le_S_n (S O) (S i) (lt_le_S (S O) (S (S i)) (lt_n_S O (S i) (le_lt_n_Sm O i (le_O_n i))))))) H5) (subst0_gen_head (Bind b) v1 u (lift (S O) O t3) w1 i H3)) (\lambda (t3: T).\lambda (t4: T).\lambda (H0: (pr0 t3 t4)).\lambda (H1: ((\forall (v1: T).\forall (w1: T).\forall (i: nat).(subst0 i v1 t3 w1) \to \forall (v2: T).(pr0 v1 v2) \to or (pr0 w1 t4) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v2 t4 w2))))).\lambda (u: T).\lambda (v1: T).\lambda (w1: T).\lambda (i: nat).\lambda (H2: (subst0 i v1 (THead (Flat Cast) u t3) w1)).\lambda (v2: T).\lambda (H3: (pr0 v1 v2)).or3_ind (ex2 T (\lambda (u2: T).eq T w1 (THead (Flat Cast) u2 t3)) (\lambda (u2: T).subst0 i v1 u u2)) (ex2 T (\lambda (t5: T).eq T w1 (THead (Flat Cast) u t5)) (\lambda (t5: T).subst0 (s (Flat Cast) i) v1 t3 t5)) (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T w1 (THead (Flat Cast) u2 t5)) (\lambda (u2: T).\lambda (_: T).subst0 i v1 u u2) (\lambda (_: T).\lambda (t5: T).subst0 (s (Flat Cast) i) v1 t3 t5)) (or (pr0 w1 t4) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v2 t4 w2))) (\lambda (H4: (ex2 T (\lambda (u2: T).eq T w1 (THead (Flat Cast) u2 t3)) (\lambda (u2: T).subst0 i v1 u u2))).ex2_ind T (\lambda (u2: T).eq T w1 (THead (Flat Cast) u2 t3)) (\lambda (u2: T).subst0 i v1 u u2) (or (pr0 w1 t4) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v2 t4 w2))) (\lambda (x: T).\lambda (H5: (eq T w1 (THead (Flat Cast) x t3))).\lambda (_: (subst0 i v1 u x)).eq_ind_r T (THead (Flat Cast) x t3) (\lambda (t: T).or (pr0 t t4) (ex2 T (\lambda (w2: T).pr0 t w2) (\lambda (w2: T).subst0 i v2 t4 w2))) (or_introl (pr0 (THead (Flat Cast) x t3) t4) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Cast) x t3) w2) (\lambda (w2: T).subst0 i v2 t4 w2)) (pr0_epsilon t3 t4 H0 x)) w1 H5) H4) (\lambda (H4: (ex2 T (\lambda (t2: T).eq T w1 (THead (Flat Cast) u t2)) (\lambda (t2: T).subst0 (s (Flat Cast) i) v1 t3 t2))).ex2_ind T (\lambda (t5: T).eq T w1 (THead (Flat Cast) u t5)) (\lambda (t5: T).subst0 (s (Flat Cast) i) v1 t3 t5) (or (pr0 w1 t4) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v2 t4 w2))) (\lambda (x: T).\lambda (H5: (eq T w1 (THead (Flat Cast) u x))).\lambda (H6: (subst0 (s (Flat Cast) i) v1 t3 x)).eq_ind_r T (THead (Flat Cast) u x) (\lambda (t: T).or (pr0 t t4) (ex2 T (\lambda (w2: T).pr0 t w2) (\lambda (w2: T).subst0 i v2 t4 w2))) (or_ind (pr0 x t4) (ex2 T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 (s (Flat Cast) i) v2 t4 w2)) (or (pr0 (THead (Flat Cast) u x) t4) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Cast) u x) w2) (\lambda (w2: T).subst0 i v2 t4 w2))) (\lambda (H7: (pr0 x t4)).or_introl (pr0 (THead (Flat Cast) u x) t4) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Cast) u x) w2) (\lambda (w2: T).subst0 i v2 t4 w2)) (pr0_epsilon x t4 H7 u)) (\lambda (H7: (ex2 T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 (s (Flat Cast) i) v2 t4 w2))).ex2_ind T (\lambda (w2: T).pr0 x w2) (\lambda (w2: T).subst0 (s (Flat Cast) i) v2 t4 w2) (or (pr0 (THead (Flat Cast) u x) t4) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Cast) u x) w2) (\lambda (w2: T).subst0 i v2 t4 w2))) (\lambda (x0: T).\lambda (H8: (pr0 x x0)).\lambda (H9: (subst0 (s (Flat Cast) i) v2 t4 x0)).or_intror (pr0 (THead (Flat Cast) u x) t4) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Cast) u x) w2) (\lambda (w2: T).subst0 i v2 t4 w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Flat Cast) u x) w2) (\lambda (w2: T).subst0 i v2 t4 w2) x0 (pr0_epsilon x x0 H8 u) H9)) H7) (H1 v1 x (s (Flat Cast) i) H6 v2 H3)) w1 H5) H4) (\lambda (H4: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T w1 (THead (Flat Cast) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i v1 u u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Flat Cast) i) v1 t3 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t5: T).eq T w1 (THead (Flat Cast) u2 t5)) (\lambda (u2: T).\lambda (_: T).subst0 i v1 u u2) (\lambda (_: T).\lambda (t5: T).subst0 (s (Flat Cast) i) v1 t3 t5) (or (pr0 w1 t4) (ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst0 i v2 t4 w2))) (\lambda (x0: T).\lambda (x1: T).\lambda (H5: (eq T w1 (THead (Flat Cast) x0 x1))).\lambda (_: (subst0 i v1 u x0)).\lambda (H7: (subst0 (s (Flat Cast) i) v1 t3 x1)).eq_ind_r T (THead (Flat Cast) x0 x1) (\lambda (t: T).or (pr0 t t4) (ex2 T (\lambda (w2: T).pr0 t w2) (\lambda (w2: T).subst0 i v2 t4 w2))) (or_ind (pr0 x1 t4) (ex2 T (\lambda (w2: T).pr0 x1 w2) (\lambda (w2: T).subst0 (s (Flat Cast) i) v2 t4 w2)) (or (pr0 (THead (Flat Cast) x0 x1) t4) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Cast) x0 x1) w2) (\lambda (w2: T).subst0 i v2 t4 w2))) (\lambda (H8: (pr0 x1 t4)).or_introl (pr0 (THead (Flat Cast) x0 x1) t4) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Cast) x0 x1) w2) (\lambda (w2: T).subst0 i v2 t4 w2)) (pr0_epsilon x1 t4 H8 x0)) (\lambda (H8: (ex2 T (\lambda (w2: T).pr0 x1 w2) (\lambda (w2: T).subst0 (s (Flat Cast) i) v2 t4 w2))).ex2_ind T (\lambda (w2: T).pr0 x1 w2) (\lambda (w2: T).subst0 (s (Flat Cast) i) v2 t4 w2) (or (pr0 (THead (Flat Cast) x0 x1) t4) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Cast) x0 x1) w2) (\lambda (w2: T).subst0 i v2 t4 w2))) (\lambda (x: T).\lambda (H9: (pr0 x1 x)).\lambda (H10: (subst0 (s (Flat Cast) i) v2 t4 x)).or_intror (pr0 (THead (Flat Cast) x0 x1) t4) (ex2 T (\lambda (w2: T).pr0 (THead (Flat Cast) x0 x1) w2) (\lambda (w2: T).subst0 i v2 t4 w2)) (ex_intro2 T (\lambda (w2: T).pr0 (THead (Flat Cast) x0 x1) w2) (\lambda (w2: T).subst0 i v2 t4 w2) x (pr0_epsilon x1 x H9 x0) H10)) H8) (H1 v1 x1 (s (Flat Cast) i) H7 v2 H3)) w1 H5) H4) (subst0_gen_head (Flat Cast) v1 u t3 w1 i H2)) t1 t2 H.
+
+theorem pr0_confluence.__pr0_cong_upsilon_refl: \forall (b: B).(not (eq B b Abst)) \to \forall (u0: T).\forall (u3: T).(pr0 u0 u3) \to \forall (t4: T).\forall (t5: T).(pr0 t4 t5) \to \forall (u2: T).\forall (v2: T).\forall (x: T).(pr0 u2 x) \to (pr0 v2 x) \to ex2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 (THead (Bind b) u0 t4)) t) (\lambda (t: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t) \def \lambda (b: B).\lambda (H: (not (eq B b Abst))).\lambda (u0: T).\lambda (u3: T).\lambda (H0: (pr0 u0 u3)).\lambda (t4: T).\lambda (t5: T).\lambda (H1: (pr0 t4 t5)).\lambda (u2: T).\lambda (v2: T).\lambda (x: T).\lambda (H2: (pr0 u2 x)).\lambda (H3: (pr0 v2 x)).ex_intro2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 (THead (Bind b) u0 t4)) t) (\lambda (t: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t) (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O x) t5)) (pr0_upsilon b H u2 x H2 u0 u3 H0 t4 t5 H1) (pr0_comp u3 u3 (pr0_refl u3) (THead (Flat Appl) (lift (S O) O v2) t5) (THead (Flat Appl) (lift (S O) O x) t5) (pr0_comp (lift (S O) O v2) (lift (S O) O x) (pr0_lift v2 x H3 (S O) O) t5 t5 (pr0_refl t5) (Flat Appl)) (Bind b)).
+
+theorem pr0_confluence.__pr0_cong_upsilon_cong: \forall (b: B).(not (eq B b Abst)) \to \forall (u2: T).\forall (v2: T).\forall (x: T).(pr0 u2 x) \to (pr0 v2 x) \to \forall (t2: T).\forall (t5: T).\forall (x0: T).(pr0 t2 x0) \to (pr0 t5 x0) \to \forall (u5: T).\forall (u3: T).\forall (x1: T).(pr0 u5 x1) \to (pr0 u3 x1) \to ex2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 (THead (Bind b) u5 t2)) t) (\lambda (t: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t) \def \lambda (b: B).\lambda (H: (not (eq B b Abst))).\lambda (u2: T).\lambda (v2: T).\lambda (x: T).\lambda (H0: (pr0 u2 x)).\lambda (H1: (pr0 v2 x)).\lambda (t2: T).\lambda (t5: T).\lambda (x0: T).\lambda (H2: (pr0 t2 x0)).\lambda (H3: (pr0 t5 x0)).\lambda (u5: T).\lambda (u3: T).\lambda (x1: T).\lambda (H4: (pr0 u5 x1)).\lambda (H5: (pr0 u3 x1)).ex_intro2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 (THead (Bind b) u5 t2)) t) (\lambda (t: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t) (THead (Bind b) x1 (THead (Flat Appl) (lift (S O) O x) x0)) (pr0_upsilon b H u2 x H0 u5 x1 H4 t2 x0 H2) (pr0_comp u3 x1 H5 (THead (Flat Appl) (lift (S O) O v2) t5) (THead (Flat Appl) (lift (S O) O x) x0) (pr0_comp (lift (S O) O v2) (lift (S O) O x) (pr0_lift v2 x H1 (S O) O) t5 x0 H3 (Flat Appl)) (Bind b)).
+
+theorem pr0_confluence.__pr0_cong_upsilon_delta: (not (eq B Abbr Abst)) \to \forall (u5: T).\forall (t2: T).\forall (w: T).(subst0 O u5 t2 w) \to \forall (u2: T).\forall (v2: T).\forall (x: T).(pr0 u2 x) \to (pr0 v2 x) \to \forall (t5: T).\forall (x0: T).(pr0 t2 x0) \to (pr0 t5 x0) \to \forall (u3: T).\forall (x1: T).(pr0 u5 x1) \to (pr0 u3 x1) \to ex2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 (THead (Bind Abbr) u5 w)) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t) \def \lambda (H: (not (eq B Abbr Abst))).\lambda (u5: T).\lambda (t2: T).\lambda (w: T).\lambda (H0: (subst0 O u5 t2 w)).\lambda (u2: T).\lambda (v2: T).\lambda (x: T).\lambda (H1: (pr0 u2 x)).\lambda (H2: (pr0 v2 x)).\lambda (t5: T).\lambda (x0: T).\lambda (H3: (pr0 t2 x0)).\lambda (H4: (pr0 t5 x0)).\lambda (u3: T).\lambda (x1: T).\lambda (H5: (pr0 u5 x1)).\lambda (H6: (pr0 u3 x1)).or_ind (pr0 w x0) (ex2 T (\lambda (w2: T).pr0 w w2) (\lambda (w2: T).subst0 O x1 x0 w2)) (ex2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 (THead (Bind Abbr) u5 w)) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t)) (\lambda (H7: (pr0 w x0)).ex_intro2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 (THead (Bind Abbr) u5 w)) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t) (THead (Bind Abbr) x1 (THead (Flat Appl) (lift (S O) O x) x0)) (pr0_upsilon Abbr H u2 x H1 u5 x1 H5 w x0 H7) (pr0_comp u3 x1 H6 (THead (Flat Appl) (lift (S O) O v2) t5) (THead (Flat Appl) (lift (S O) O x) x0) (pr0_comp (lift (S O) O v2) (lift (S O) O x) (pr0_lift v2 x H2 (S O) O) t5 x0 H4 (Flat Appl)) (Bind Abbr))) (\lambda (H7: (ex2 T (\lambda (w2: T).pr0 w w2) (\lambda (w2: T).subst0 O x1 x0 w2))).ex2_ind T (\lambda (w2: T).pr0 w w2) (\lambda (w2: T).subst0 O x1 x0 w2) (ex2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 (THead (Bind Abbr) u5 w)) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t)) (\lambda (x2: T).\lambda (H8: (pr0 w x2)).\lambda (H9: (subst0 O x1 x0 x2)).ex_intro2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 (THead (Bind Abbr) u5 w)) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t) (THead (Bind Abbr) x1 (THead (Flat Appl) (lift (S O) O x) x2)) (pr0_upsilon Abbr H u2 x H1 u5 x1 H5 w x2 H8) (pr0_delta u3 x1 H6 (THead (Flat Appl) (lift (S O) O v2) t5) (THead (Flat Appl) (lift (S O) O x) x0) (pr0_comp (lift (S O) O v2) (lift (S O) O x) (pr0_lift v2 x H2 (S O) O) t5 x0 H4 (Flat Appl)) (THead (Flat Appl) (lift (S O) O x) x2) (subst0_snd (Flat Appl) x1 x2 x0 O H9 (lift (S O) O x)))) H7) (pr0_subst0 t2 x0 H3 u5 w O H0 x1 H5).
+
+theorem pr0_confluence.__pr0_cong_upsilon_zeta: \forall (b: B).(not (eq B b Abst)) \to \forall (u0: T).\forall (u3: T).(pr0 u0 u3) \to \forall (u2: T).\forall (v2: T).\forall (x0: T).(pr0 u2 x0) \to (pr0 v2 x0) \to \forall (x: T).\forall (t3: T).\forall (x1: T).(pr0 x x1) \to (pr0 t3 x1) \to ex2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 t3) t) (\lambda (t: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) (lift (S O) O x))) t) \def \lambda (b: B).\lambda (H: (not (eq B b Abst))).\lambda (u0: T).\lambda (u3: T).\lambda (_: (pr0 u0 u3)).\lambda (u2: T).\lambda (v2: T).\lambda (x0: T).\lambda (H1: (pr0 u2 x0)).\lambda (H2: (pr0 v2 x0)).\lambda (x: T).\lambda (t3: T).\lambda (x1: T).\lambda (H3: (pr0 x x1)).\lambda (H4: (pr0 t3 x1)).eq_ind T (lift (S O) O (THead (Flat Appl) v2 x)) (\lambda (t: T).ex2 T (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind b) u3 t) t0)) (ex_intro2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 t3) t) (\lambda (t: T).pr0 (THead (Bind b) u3 (lift (S O) O (THead (Flat Appl) v2 x))) t) (THead (Flat Appl) x0 x1) (pr0_comp u2 x0 H1 t3 x1 H4 (Flat Appl)) (pr0_zeta b H (THead (Flat Appl) v2 x) (THead (Flat Appl) x0 x1) (pr0_comp v2 x0 H2 x x1 H3 (Flat Appl)) u3)) (THead (Flat Appl) (lift (S O) O v2) (lift (S O) O x)) (lift_flat Appl v2 x (S O) O).
+
+theorem pr0_confluence.__pr0_cong_delta: \forall (u3: T).\forall (t5: T).\forall (w: T).(subst0 O u3 t5 w) \to \forall (u2: T).\forall (x: T).(pr0 u2 x) \to (pr0 u3 x) \to \forall (t3: T).\forall (x0: T).(pr0 t3 x0) \to (pr0 t5 x0) \to ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 t3) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 w) t) \def \lambda (u3: T).\lambda (t5: T).\lambda (w: T).\lambda (H: (subst0 O u3 t5 w)).\lambda (u2: T).\lambda (x: T).\lambda (H0: (pr0 u2 x)).\lambda (H1: (pr0 u3 x)).\lambda (t3: T).\lambda (x0: T).\lambda (H2: (pr0 t3 x0)).\lambda (H3: (pr0 t5 x0)).or_ind (pr0 w x0) (ex2 T (\lambda (w2: T).pr0 w w2) (\lambda (w2: T).subst0 O x x0 w2)) (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 t3) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 w) t)) (\lambda (H4: (pr0 w x0)).ex_intro2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 t3) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 w) t) (THead (Bind Abbr) x x0) (pr0_comp u2 x H0 t3 x0 H2 (Bind Abbr)) (pr0_comp u3 x H1 w x0 H4 (Bind Abbr))) (\lambda (H4: (ex2 T (\lambda (w2: T).pr0 w w2) (\lambda (w2: T).subst0 O x x0 w2))).ex2_ind T (\lambda (w2: T).pr0 w w2) (\lambda (w2: T).subst0 O x x0 w2) (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 t3) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 w) t)) (\lambda (x1: T).\lambda (H5: (pr0 w x1)).\lambda (H6: (subst0 O x x0 x1)).ex_intro2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 t3) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 w) t) (THead (Bind Abbr) x x1) (pr0_delta u2 x H0 t3 x0 H2 x1 H6) (pr0_comp u3 x H1 w x1 H5 (Bind Abbr))) H4) (pr0_subst0 t5 x0 H3 u3 w O H x H1).
+
+theorem pr0_confluence.__pr0_upsilon_upsilon: \forall (b: B).(not (eq B b Abst)) \to \forall (v1: T).\forall (v2: T).\forall (x0: T).(pr0 v1 x0) \to (pr0 v2 x0) \to \forall (u1: T).\forall (u2: T).\forall (x1: T).(pr0 u1 x1) \to (pr0 u2 x1) \to \forall (t1: T).\forall (t2: T).\forall (x2: T).(pr0 t1 x2) \to (pr0 t2 x2) \to ex2 T (\lambda (t: T).pr0 (THead (Bind b) u1 (THead (Flat Appl) (lift (S O) O v1) t1)) t) (\lambda (t: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t2)) t) \def \lambda (b: B).\lambda (_: (not (eq B b Abst))).\lambda (v1: T).\lambda (v2: T).\lambda (x0: T).\lambda (H0: (pr0 v1 x0)).\lambda (H1: (pr0 v2 x0)).\lambda (u1: T).\lambda (u2: T).\lambda (x1: T).\lambda (H2: (pr0 u1 x1)).\lambda (H3: (pr0 u2 x1)).\lambda (t1: T).\lambda (t2: T).\lambda (x2: T).\lambda (H4: (pr0 t1 x2)).\lambda (H5: (pr0 t2 x2)).ex_intro2 T (\lambda (t: T).pr0 (THead (Bind b) u1 (THead (Flat Appl) (lift (S O) O v1) t1)) t) (\lambda (t: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t2)) t) (THead (Bind b) x1 (THead (Flat Appl) (lift (S O) O x0) x2)) (pr0_comp u1 x1 H2 (THead (Flat Appl) (lift (S O) O v1) t1) (THead (Flat Appl) (lift (S O) O x0) x2) (pr0_comp (lift (S O) O v1) (lift (S O) O x0) (pr0_lift v1 x0 H0 (S O) O) t1 x2 H4 (Flat Appl)) (Bind b)) (pr0_comp u2 x1 H3 (THead (Flat Appl) (lift (S O) O v2) t2) (THead (Flat Appl) (lift (S O) O x0) x2) (pr0_comp (lift (S O) O v2) (lift (S O) O x0) (pr0_lift v2 x0 H1 (S O) O) t2 x2 H5 (Flat Appl)) (Bind b)).
+
+theorem pr0_confluence.__pr0_delta_delta: \forall (u2: T).\forall (t3: T).\forall (w: T).(subst0 O u2 t3 w) \to \forall (u3: T).\forall (t5: T).\forall (w0: T).(subst0 O u3 t5 w0) \to \forall (x: T).(pr0 u2 x) \to (pr0 u3 x) \to \forall (x0: T).(pr0 t3 x0) \to (pr0 t5 x0) \to ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 w0) t) \def \lambda (u2: T).\lambda (t3: T).\lambda (w: T).\lambda (H: (subst0 O u2 t3 w)).\lambda (u3: T).\lambda (t5: T).\lambda (w0: T).\lambda (H0: (subst0 O u3 t5 w0)).\lambda (x: T).\lambda (H1: (pr0 u2 x)).\lambda (H2: (pr0 u3 x)).\lambda (x0: T).\lambda (H3: (pr0 t3 x0)).\lambda (H4: (pr0 t5 x0)).or_ind (pr0 w0 x0) (ex2 T (\lambda (w2: T).pr0 w0 w2) (\lambda (w2: T).subst0 O x x0 w2)) (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 w0) t)) (\lambda (H5: (pr0 w0 x0)).or_ind (pr0 w x0) (ex2 T (\lambda (w2: T).pr0 w w2) (\lambda (w2: T).subst0 O x x0 w2)) (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 w0) t)) (\lambda (H6: (pr0 w x0)).ex_intro2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 w0) t) (THead (Bind Abbr) x x0) (pr0_comp u2 x H1 w x0 H6 (Bind Abbr)) (pr0_comp u3 x H2 w0 x0 H5 (Bind Abbr))) (\lambda (H6: (ex2 T (\lambda (w2: T).pr0 w w2) (\lambda (w2: T).subst0 O x x0 w2))).ex2_ind T (\lambda (w2: T).pr0 w w2) (\lambda (w2: T).subst0 O x x0 w2) (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 w0) t)) (\lambda (x1: T).\lambda (H7: (pr0 w x1)).\lambda (H8: (subst0 O x x0 x1)).ex_intro2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 w0) t) (THead (Bind Abbr) x x1) (pr0_comp u2 x H1 w x1 H7 (Bind Abbr)) (pr0_delta u3 x H2 w0 x0 H5 x1 H8)) H6) (pr0_subst0 t3 x0 H3 u2 w O H x H1)) (\lambda (H5: (ex2 T (\lambda (w2: T).pr0 w0 w2) (\lambda (w2: T).subst0 O x x0 w2))).ex2_ind T (\lambda (w2: T).pr0 w0 w2) (\lambda (w2: T).subst0 O x x0 w2) (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 w0) t)) (\lambda (x1: T).\lambda (H6: (pr0 w0 x1)).\lambda (H7: (subst0 O x x0 x1)).or_ind (pr0 w x0) (ex2 T (\lambda (w2: T).pr0 w w2) (\lambda (w2: T).subst0 O x x0 w2)) (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 w0) t)) (\lambda (H8: (pr0 w x0)).ex_intro2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 w0) t) (THead (Bind Abbr) x x1) (pr0_delta u2 x H1 w x0 H8 x1 H7) (pr0_comp u3 x H2 w0 x1 H6 (Bind Abbr))) (\lambda (H8: (ex2 T (\lambda (w2: T).pr0 w w2) (\lambda (w2: T).subst0 O x x0 w2))).ex2_ind T (\lambda (w2: T).pr0 w w2) (\lambda (w2: T).subst0 O x x0 w2) (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 w0) t)) (\lambda (x2: T).\lambda (H9: (pr0 w x2)).\lambda (H10: (subst0 O x x0 x2)).or4_ind (eq T x2 x1) (ex2 T (\lambda (t: T).subst0 O x x2 t) (\lambda (t: T).subst0 O x x1 t)) (subst0 O x x2 x1) (subst0 O x x1 x2) (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 w0) t)) (\lambda (H11: (eq T x2 x1)).let H12 \def eq_ind T x2 (\lambda (t: T).pr0 w t) H9 x1 H11 in ex_intro2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 w0) t) (THead (Bind Abbr) x x1) (pr0_comp u2 x H1 w x1 H12 (Bind Abbr)) (pr0_comp u3 x H2 w0 x1 H6 (Bind Abbr))) (\lambda (H11: (ex2 T (\lambda (t: T).subst0 O x x2 t) (\lambda (t: T).subst0 O x x1 t))).ex2_ind T (\lambda (t: T).subst0 O x x2 t) (\lambda (t: T).subst0 O x x1 t) (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 w0) t)) (\lambda (x3: T).\lambda (H12: (subst0 O x x2 x3)).\lambda (H13: (subst0 O x x1 x3)).ex_intro2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 w0) t) (THead (Bind Abbr) x x3) (pr0_delta u2 x H1 w x2 H9 x3 H12) (pr0_delta u3 x H2 w0 x1 H6 x3 H13)) H11) (\lambda (H11: (subst0 O x x2 x1)).ex_intro2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 w0) t) (THead (Bind Abbr) x x1) (pr0_delta u2 x H1 w x2 H9 x1 H11) (pr0_comp u3 x H2 w0 x1 H6 (Bind Abbr))) (\lambda (H11: (subst0 O x x1 x2)).ex_intro2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 w0) t) (THead (Bind Abbr) x x2) (pr0_comp u2 x H1 w x2 H9 (Bind Abbr)) (pr0_delta u3 x H2 w0 x1 H6 x2 H11)) (subst0_confluence_eq x0 x2 x O H10 x1 H7)) H8) (pr0_subst0 t3 x0 H3 u2 w O H x H1)) H5) (pr0_subst0 t5 x0 H4 u3 w0 O H0 x H2).
+
+theorem pr0_confluence.__pr0_delta_epsilon: \forall (u2: T).\forall (t3: T).\forall (w: T).(subst0 O u2 t3 w) \to \forall (t4: T).(pr0 (lift (S O) O t4) t3) \to \forall (t2: T).ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 t2 t) \def \lambda (u2: T).\lambda (t3: T).\lambda (w: T).\lambda (H: (subst0 O u2 t3 w)).\lambda (t4: T).\lambda (H0: (pr0 (lift (S O) O t4) t3)).\lambda (t2: T).ex2_ind T (\lambda (t5: T).eq T t3 (lift (S O) O t5)) (\lambda (t5: T).pr0 t4 t5) (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 t2 t)) (\lambda (x: T).\lambda (H1: (eq T t3 (lift (S O) O x))).\lambda (_: (pr0 t4 x)).let H3 \def eq_ind T t3 (\lambda (t: T).subst0 O u2 t w) H (lift (S O) O x) H1 in subst0_gen_lift_false x u2 w (S O) O O (le_n O) (eq_ind_r nat (plus (S O) O) (\lambda (n: nat).lt O n) (le_n (plus (S O) O)) (plus O (S O)) (plus_sym O (S O))) H3 (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 t2 t))) (pr0_gen_lift t4 t3 (S O) O H0).
+
+theorem pr0_confluence: \forall (t0: T).\forall (t1: T).(pr0 t0 t1) \to \forall (t2: T).(pr0 t0 t2) \to ex2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 t2 t) \def \lambda (t0: T).tlt_wf_ind (\lambda (t: T).\forall (t1: T).(pr0 t t1) \to \forall (t2: T).(pr0 t t2) \to ex2 T (\lambda (t3: T).pr0 t1 t3) (\lambda (t3: T).pr0 t2 t3)) (\lambda (t: T).\lambda (H: ((\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 t2 t)))).\lambda (t1: T).\lambda (H0: (pr0 t t1)).\lambda (t2: T).\lambda (H1: (pr0 t t2)).let H2 \def match H0 return (\lambda (t0: T).\lambda (t3: T).(eq T t0 t) \to (eq T t3 t1) \to ex2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 t2 t)) with [(pr0_refl t0) \Rightarrow (\lambda (H2: (eq T t0 t)).\lambda (H3: (eq T t0 t1)).eq_ind T t (\lambda (t: T).(eq T t t1) \to ex2 T (\lambda (t2: T).pr0 t1 t2) (\lambda (t1: T).pr0 t2 t1)) (\lambda (H4: (eq T t t1)).eq_ind T t1 (\lambda (_: T).ex2 T (\lambda (t2: T).pr0 t1 t2) (\lambda (t1: T).pr0 t2 t1)) (let H5 \def match H1 return (\lambda (t0: T).\lambda (t3: T).(eq T t0 t) \to (eq T t3 t2) \to ex2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 t2 t)) with [(pr0_refl t3) \Rightarrow (\lambda (H5: (eq T t3 t)).\lambda (H6: (eq T t3 t2)).eq_ind T t (\lambda (t: T).(eq T t t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H7: (eq T t t2)).eq_ind T t2 (\lambda (_: T).ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (let H0 \def eq_ind T t (\lambda (t: T).eq T t3 t) H5 t2 H7 in let H1 \def eq_ind T t (\lambda (t: T).eq T t t1) H4 t2 H7 in let H2 \def eq_ind T t (\lambda (t: T).eq T t0 t) H2 t2 H7 in let H3 \def eq_ind T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H t2 H7 in let H4 \def eq_ind T t2 (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H3 t1 H1 in eq_ind_r T t1 (\lambda (t: T).ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t t0)) (let H8 \def eq_ind T t2 (\lambda (t: T).eq T t0 t) H2 t1 H1 in ex_intro2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 t1 t) t1 (pr0_refl t1) (pr0_refl t1)) t2 H1) t (sym_eq T t t2 H7)) t3 (sym_eq T t3 t H5) H6) | (pr0_comp u1 u2 H4 t3 t4 H5 k) \Rightarrow (\lambda (H6: (eq T (THead k u1 t3) t)).\lambda (H7: (eq T (THead k u2 t4) t2)).eq_ind T (THead k u1 t3) (\lambda (_: T).(eq T (THead k u2 t4) t2) \to (pr0 u1 u2) \to (pr0 t3 t4) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H8: (eq T (THead k u2 t4) t2)).eq_ind T (THead k u2 t4) (\lambda (t: T).(pr0 u1 u2) \to (pr0 t3 t4) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t t0)) (\lambda (H9: (pr0 u1 u2)).\lambda (H10: (pr0 t3 t4)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T t t1) H4 (THead k u1 t3) H6 in eq_ind T (THead k u1 t3) (\lambda (t: T).ex2 T (\lambda (t0: T).pr0 t t0) (\lambda (t0: T).pr0 (THead k u2 t4) t0)) (let H1 \def eq_ind_r T t (\lambda (t: T).eq T t0 t) H2 (THead k u1 t3) H6 in let H2 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead k u1 t3) H6 in ex_intro2 T (\lambda (t: T).pr0 (THead k u1 t3) t) (\lambda (t: T).pr0 (THead k u2 t4) t) (THead k u2 t4) (pr0_comp u1 u2 H9 t3 t4 H10 k) (pr0_refl (THead k u2 t4))) t1 H0) t2 H8) t H6 H7 H4 H5) | (pr0_beta u v1 v2 H4 t3 t4 H5) \Rightarrow (\lambda (H6: (eq T (THead (Flat Appl) v1 (THead (Bind Abst) u t3)) t)).\lambda (H7: (eq T (THead (Bind Abbr) v2 t4) t2)).eq_ind T (THead (Flat Appl) v1 (THead (Bind Abst) u t3)) (\lambda (_: T).(eq T (THead (Bind Abbr) v2 t4) t2) \to (pr0 v1 v2) \to (pr0 t3 t4) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H8: (eq T (THead (Bind Abbr) v2 t4) t2)).eq_ind T (THead (Bind Abbr) v2 t4) (\lambda (t: T).(pr0 v1 v2) \to (pr0 t3 t4) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t t0)) (\lambda (H9: (pr0 v1 v2)).\lambda (H10: (pr0 t3 t4)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T t t1) H4 (THead (Flat Appl) v1 (THead (Bind Abst) u t3)) H6 in eq_ind T (THead (Flat Appl) v1 (THead (Bind Abst) u t3)) (\lambda (t: T).ex2 T (\lambda (t0: T).pr0 t t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t4) t0)) (let H1 \def eq_ind_r T t (\lambda (t: T).eq T t0 t) H2 (THead (Flat Appl) v1 (THead (Bind Abst) u t3)) H6 in let H2 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Flat Appl) v1 (THead (Bind Abst) u t3)) H6 in ex_intro2 T (\lambda (t: T).pr0 (THead (Flat Appl) v1 (THead (Bind Abst) u t3)) t) (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t4) t) (THead (Bind Abbr) v2 t4) (pr0_beta u v1 v2 H9 t3 t4 H10) (pr0_refl (THead (Bind Abbr) v2 t4))) t1 H0) t2 H8) t H6 H7 H4 H5) | (pr0_upsilon b H4 v1 v2 H5 u1 u2 H6 t3 t4 H7) \Rightarrow (\lambda (H8: (eq T (THead (Flat Appl) v1 (THead (Bind b) u1 t3)) t)).\lambda (H9: (eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) t2)).eq_ind T (THead (Flat Appl) v1 (THead (Bind b) u1 t3)) (\lambda (_: T).(eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) t2) \to (not (eq B b Abst)) \to (pr0 v1 v2) \to (pr0 u1 u2) \to (pr0 t3 t4) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H10: (eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) t2)).eq_ind T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) (\lambda (t: T).(not (eq B b Abst)) \to (pr0 v1 v2) \to (pr0 u1 u2) \to (pr0 t3 t4) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t t0)) (\lambda (H11: (not (eq B b Abst))).\lambda (H12: (pr0 v1 v2)).\lambda (H13: (pr0 u1 u2)).\lambda (H14: (pr0 t3 t4)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T t t1) H4 (THead (Flat Appl) v1 (THead (Bind b) u1 t3)) H8 in eq_ind T (THead (Flat Appl) v1 (THead (Bind b) u1 t3)) (\lambda (t: T).ex2 T (\lambda (t0: T).pr0 t t0) (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) t0)) (let H1 \def eq_ind_r T t (\lambda (t: T).eq T t0 t) H2 (THead (Flat Appl) v1 (THead (Bind b) u1 t3)) H8 in let H2 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Flat Appl) v1 (THead (Bind b) u1 t3)) H8 in pr0_confluence.__pr0_cong_upsilon_refl b H11 u1 u2 H13 t3 t4 H14 v1 v2 v2 H12 (pr0_refl v2)) t1 H0) t2 H10) t H8 H9 H4 H5 H6 H7) | (pr0_delta u1 u2 H4 t3 t4 H5 w H6) \Rightarrow (\lambda (H7: (eq T (THead (Bind Abbr) u1 t3) t)).\lambda (H8: (eq T (THead (Bind Abbr) u2 w) t2)).eq_ind T (THead (Bind Abbr) u1 t3) (\lambda (_: T).(eq T (THead (Bind Abbr) u2 w) t2) \to (pr0 u1 u2) \to (pr0 t3 t4) \to (subst0 O u2 t4 w) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H9: (eq T (THead (Bind Abbr) u2 w) t2)).eq_ind T (THead (Bind Abbr) u2 w) (\lambda (t: T).(pr0 u1 u2) \to (pr0 t3 t4) \to (subst0 O u2 t4 w) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t t0)) (\lambda (H10: (pr0 u1 u2)).\lambda (H11: (pr0 t3 t4)).\lambda (H12: (subst0 O u2 t4 w)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T t t1) H4 (THead (Bind Abbr) u1 t3) H7 in eq_ind T (THead (Bind Abbr) u1 t3) (\lambda (t: T).ex2 T (\lambda (t0: T).pr0 t t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0)) (let H1 \def eq_ind_r T t (\lambda (t: T).eq T t0 t) H2 (THead (Bind Abbr) u1 t3) H7 in let H2 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Bind Abbr) u1 t3) H7 in ex_intro2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u1 t3) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (THead (Bind Abbr) u2 w) (pr0_delta u1 u2 H10 t3 t4 H11 w H12) (pr0_refl (THead (Bind Abbr) u2 w))) t1 H0) t2 H9) t H7 H8 H4 H5 H6) | (pr0_zeta b H4 t3 t4 H5 u) \Rightarrow (\lambda (H6: (eq T (THead (Bind b) u (lift (S O) O t3)) t)).\lambda (H7: (eq T t4 t2)).eq_ind T (THead (Bind b) u (lift (S O) O t3)) (\lambda (_: T).(eq T t4 t2) \to (not (eq B b Abst)) \to (pr0 t3 t4) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H8: (eq T t4 t2)).eq_ind T t2 (\lambda (t: T).(not (eq B b Abst)) \to (pr0 t3 t) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H9: (not (eq B b Abst))).\lambda (H10: (pr0 t3 t2)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T t t1) H4 (THead (Bind b) u (lift (S O) O t3)) H6 in eq_ind T (THead (Bind b) u (lift (S O) O t3)) (\lambda (t: T).ex2 T (\lambda (t0: T).pr0 t t0) (\lambda (t0: T).pr0 t2 t0)) (let H1 \def eq_ind_r T t (\lambda (t: T).eq T t0 t) H2 (THead (Bind b) u (lift (S O) O t3)) H6 in let H2 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Bind b) u (lift (S O) O t3)) H6 in ex_intro2 T (\lambda (t: T).pr0 (THead (Bind b) u (lift (S O) O t3)) t) (\lambda (t: T).pr0 t2 t) t2 (pr0_zeta b H9 t3 t2 H10 u) (pr0_refl t2)) t1 H0) t4 (sym_eq T t4 t2 H8)) t H6 H7 H4 H5) | (pr0_epsilon t3 t4 H4 u) \Rightarrow (\lambda (H5: (eq T (THead (Flat Cast) u t3) t)).\lambda (H6: (eq T t4 t2)).eq_ind T (THead (Flat Cast) u t3) (\lambda (_: T).(eq T t4 t2) \to (pr0 t3 t4) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H7: (eq T t4 t2)).eq_ind T t2 (\lambda (t: T).(pr0 t3 t) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H8: (pr0 t3 t2)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T t t1) H4 (THead (Flat Cast) u t3) H5 in eq_ind T (THead (Flat Cast) u t3) (\lambda (t: T).ex2 T (\lambda (t0: T).pr0 t t0) (\lambda (t0: T).pr0 t2 t0)) (let H1 \def eq_ind_r T t (\lambda (t: T).eq T t0 t) H2 (THead (Flat Cast) u t3) H5 in let H2 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Flat Cast) u t3) H5 in ex_intro2 T (\lambda (t: T).pr0 (THead (Flat Cast) u t3) t) (\lambda (t: T).pr0 t2 t) t2 (pr0_epsilon t3 t2 H8 u) (pr0_refl t2)) t1 H0) t4 (sym_eq T t4 t2 H7)) t H5 H6 H4)] in H5 (refl_equal T t) (refl_equal T t2)) t (sym_eq T t t1 H4)) t0 (sym_eq T t0 t H2) H3) | (pr0_comp u1 u2 H2 t0 t3 H3 k) \Rightarrow (\lambda (H4: (eq T (THead k u1 t0) t)).\lambda (H5: (eq T (THead k u2 t3) t1)).eq_ind T (THead k u1 t0) (\lambda (_: T).(eq T (THead k u2 t3) t1) \to (pr0 u1 u2) \to (pr0 t0 t3) \to ex2 T (\lambda (t2: T).pr0 t1 t2) (\lambda (t1: T).pr0 t2 t1)) (\lambda (H6: (eq T (THead k u2 t3) t1)).eq_ind T (THead k u2 t3) (\lambda (t: T).(pr0 u1 u2) \to (pr0 t0 t3) \to ex2 T (\lambda (t1: T).pr0 t t1) (\lambda (t1: T).pr0 t2 t1)) (\lambda (H7: (pr0 u1 u2)).\lambda (H8: (pr0 t0 t3)).let H9 \def match H1 return (\lambda (t0: T).\lambda (t1: T).(eq T t0 t) \to (eq T t1 t2) \to ex2 T (\lambda (t: T).pr0 (THead k u2 t3) t) (\lambda (t: T).pr0 t2 t)) with [(pr0_refl t4) \Rightarrow (\lambda (H6: (eq T t4 t)).\lambda (H9: (eq T t4 t2)).eq_ind T t (\lambda (t: T).(eq T t t2) \to ex2 T (\lambda (t0: T).pr0 (THead k u2 t3) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H10: (eq T t t2)).eq_ind T t2 (\lambda (_: T).ex2 T (\lambda (t0: T).pr0 (THead k u2 t3) t0) (\lambda (t0: T).pr0 t2 t0)) (let H0 \def eq_ind_r T t (\lambda (t: T).eq T t t2) H10 (THead k u1 t0) H4 in eq_ind T (THead k u1 t0) (\lambda (t: T).ex2 T (\lambda (t0: T).pr0 (THead k u2 t3) t0) (\lambda (t0: T).pr0 t t0)) (let H1 \def eq_ind_r T t (\lambda (t: T).eq T t4 t) H6 (THead k u1 t0) H4 in let H2 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead k u1 t0) H4 in ex_intro2 T (\lambda (t: T).pr0 (THead k u2 t3) t) (\lambda (t: T).pr0 (THead k u1 t0) t) (THead k u2 t3) (pr0_refl (THead k u2 t3)) (pr0_comp u1 u2 H7 t0 t3 H8 k)) t2 H0) t (sym_eq T t t2 H10)) t4 (sym_eq T t4 t H6) H9) | (pr0_comp u0 u3 H6 t4 t5 H7 k0) \Rightarrow (\lambda (H9: (eq T (THead k0 u0 t4) t)).\lambda (H10: (eq T (THead k0 u3 t5) t2)).eq_ind T (THead k0 u0 t4) (\lambda (_: T).(eq T (THead k0 u3 t5) t2) \to (pr0 u0 u3) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead k u2 t3) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H11: (eq T (THead k0 u3 t5) t2)).eq_ind T (THead k0 u3 t5) (\lambda (t: T).(pr0 u0 u3) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead k u2 t3) t0) (\lambda (t0: T).pr0 t t0)) (\lambda (H12: (pr0 u0 u3)).\lambda (H13: (pr0 t4 t5)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead k u1 t0) t) H4 (THead k0 u0 t4) H9 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead k0 u0 t4)) \to ex2 T (\lambda (t0: T).pr0 (THead k u2 t3) t0) (\lambda (t0: T).pr0 (THead k0 u3 t5) t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead k u1 t0) (THead k0 u0 t4))).let H1 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead k u1 t0) (THead k0 u0 t4) H0 in (let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u1 | (TLRef _) \Rightarrow u1 | (THead _ t _) \Rightarrow t]) (THead k u1 t0) (THead k0 u0 t4) H0 in (let H3 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k u1 t0) (THead k0 u0 t4) H0 in eq_ind K k0 (\lambda (k: K).(eq T u1 u0) \to (eq T t0 t4) \to ex2 T (\lambda (t: T).pr0 (THead k u2 t3) t) (\lambda (t: T).pr0 (THead k0 u3 t5) t)) (\lambda (H10: (eq T u1 u0)).eq_ind T u0 (\lambda (_: T).(eq T t0 t4) \to ex2 T (\lambda (t0: T).pr0 (THead k0 u2 t3) t0) (\lambda (t0: T).pr0 (THead k0 u3 t5) t0)) (\lambda (H11: (eq T t0 t4)).eq_ind T t4 (\lambda (_: T).ex2 T (\lambda (t0: T).pr0 (THead k0 u2 t3) t0) (\lambda (t0: T).pr0 (THead k0 u3 t5) t0)) (let H4 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead k0 u0 t4) H9 in let H5 \def eq_ind T t0 (\lambda (t: T).pr0 t t3) H8 t4 H11 in let H6 \def eq_ind T u1 (\lambda (t: T).pr0 t u2) H7 u0 H10 in ex2_ind T (\lambda (t: T).pr0 u2 t) (\lambda (t: T).pr0 u3 t) (ex2 T (\lambda (t: T).pr0 (THead k0 u2 t3) t) (\lambda (t: T).pr0 (THead k0 u3 t5) t)) (\lambda (x: T).\lambda (H7: (pr0 u2 x)).\lambda (H8: (pr0 u3 x)).ex2_ind T (\lambda (t: T).pr0 t3 t) (\lambda (t: T).pr0 t5 t) (ex2 T (\lambda (t: T).pr0 (THead k0 u2 t3) t) (\lambda (t: T).pr0 (THead k0 u3 t5) t)) (\lambda (x0: T).\lambda (H9: (pr0 t3 x0)).\lambda (H12: (pr0 t5 x0)).ex_intro2 T (\lambda (t: T).pr0 (THead k0 u2 t3) t) (\lambda (t: T).pr0 (THead k0 u3 t5) t) (THead k0 x x0) (pr0_comp u2 x H7 t3 x0 H9 k0) (pr0_comp u3 x H8 t5 x0 H12 k0)) (H4 t4 (tlt_head_dx k0 u0 t4) t3 H5 t5 H13)) (H4 u0 (tlt_head_sx k0 u0 t4) u2 H6 u3 H12)) t0 (sym_eq T t0 t4 H11)) u1 (sym_eq T u1 u0 H10)) k (sym_eq K k k0 H3)) H2) H1)] in H1 (refl_equal T (THead k0 u0 t4))) t2 H11) t H9 H10 H6 H7) | (pr0_beta u v1 v2 H6 t4 t5 H7) \Rightarrow (\lambda (H9: (eq T (THead (Flat Appl) v1 (THead (Bind Abst) u t4)) t)).\lambda (H10: (eq T (THead (Bind Abbr) v2 t5) t2)).eq_ind T (THead (Flat Appl) v1 (THead (Bind Abst) u t4)) (\lambda (_: T).(eq T (THead (Bind Abbr) v2 t5) t2) \to (pr0 v1 v2) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead k u2 t3) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H11: (eq T (THead (Bind Abbr) v2 t5) t2)).eq_ind T (THead (Bind Abbr) v2 t5) (\lambda (t: T).(pr0 v1 v2) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead k u2 t3) t0) (\lambda (t0: T).pr0 t t0)) (\lambda (H12: (pr0 v1 v2)).\lambda (H13: (pr0 t4 t5)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead k u1 t0) t) H4 (THead (Flat Appl) v1 (THead (Bind Abst) u t4)) H9 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead (Flat Appl) v1 (THead (Bind Abst) u t4))) \to ex2 T (\lambda (t0: T).pr0 (THead k u2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t5) t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead k u1 t0) (THead (Flat Appl) v1 (THead (Bind Abst) u t4)))).let H1 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead k u1 t0) (THead (Flat Appl) v1 (THead (Bind Abst) u t4)) H0 in (let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u1 | (TLRef _) \Rightarrow u1 | (THead _ t _) \Rightarrow t]) (THead k u1 t0) (THead (Flat Appl) v1 (THead (Bind Abst) u t4)) H0 in (let H3 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k u1 t0) (THead (Flat Appl) v1 (THead (Bind Abst) u t4)) H0 in eq_ind K (Flat Appl) (\lambda (k: K).(eq T u1 v1) \to (eq T t0 (THead (Bind Abst) u t4)) \to ex2 T (\lambda (t: T).pr0 (THead k u2 t3) t) (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t5) t)) (\lambda (H10: (eq T u1 v1)).eq_ind T v1 (\lambda (_: T).(eq T t0 (THead (Bind Abst) u t4)) \to ex2 T (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t5) t0)) (\lambda (H11: (eq T t0 (THead (Bind Abst) u t4))).eq_ind T (THead (Bind Abst) u t4) (\lambda (_: T).ex2 T (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t5) t0)) (let H4 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Flat Appl) v1 (THead (Bind Abst) u t4)) H9 in let H5 \def eq_ind T t0 (\lambda (t: T).pr0 t t3) H8 (THead (Bind Abst) u t4) H11 in let H6 \def match H5 return (\lambda (t: T).\lambda (t0: T).(eq T t (THead (Bind Abst) u t4)) \to (eq T t0 t3) \to ex2 T (\lambda (t1: T).pr0 (THead (Flat Appl) u2 t3) t1) (\lambda (t1: T).pr0 (THead (Bind Abbr) v2 t5) t1)) with [(pr0_refl t) \Rightarrow (\lambda (H0: (eq T t (THead (Bind Abst) u t4))).\lambda (H5: (eq T t t3)).eq_ind T (THead (Bind Abst) u t4) (\lambda (t0: T).(eq T t0 t3) \to ex2 T (\lambda (t1: T).pr0 (THead (Flat Appl) u2 t3) t1) (\lambda (t1: T).pr0 (THead (Bind Abbr) v2 t5) t1)) (\lambda (H6: (eq T (THead (Bind Abst) u t4) t3)).eq_ind T (THead (Bind Abst) u t4) (\lambda (t0: T).ex2 T (\lambda (t1: T).pr0 (THead (Flat Appl) u2 t0) t1) (\lambda (t1: T).pr0 (THead (Bind Abbr) v2 t5) t1)) (let H1 \def eq_ind T u1 (\lambda (t: T).pr0 t u2) H7 v1 H10 in ex2_ind T (\lambda (t0: T).pr0 u2 t0) (\lambda (t0: T).pr0 v2 t0) (ex2 T (\lambda (t0: T).pr0 (THead (Flat Appl) u2 (THead (Bind Abst) u t4)) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t5) t0)) (\lambda (x: T).\lambda (H2: (pr0 u2 x)).\lambda (H3: (pr0 v2 x)).ex_intro2 T (\lambda (t0: T).pr0 (THead (Flat Appl) u2 (THead (Bind Abst) u t4)) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t5) t0) (THead (Bind Abbr) x t5) (pr0_beta u u2 x H2 t4 t5 H13) (pr0_comp v2 x H3 t5 t5 (pr0_refl t5) (Bind Abbr))) (H4 v1 (tlt_head_sx (Flat Appl) v1 (THead (Bind Abst) u t4)) u2 H1 v2 H12)) t3 H6) t (sym_eq T t (THead (Bind Abst) u t4) H0) H5) | (pr0_comp u0 u3 H0 t1 t2 H4 k0) \Rightarrow (\lambda (H5: (eq T (THead k0 u0 t1) (THead (Bind Abst) u t4))).\lambda (H8: (eq T (THead k0 u3 t2) t3)).(let H1 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t1 | (TLRef _) \Rightarrow t1 | (THead _ _ t) \Rightarrow t]) (THead k0 u0 t1) (THead (Bind Abst) u t4) H5 in (let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u0 | (TLRef _) \Rightarrow u0 | (THead _ t _) \Rightarrow t]) (THead k0 u0 t1) (THead (Bind Abst) u t4) H5 in (let H3 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k0 | (TLRef _) \Rightarrow k0 | (THead k _ _) \Rightarrow k]) (THead k0 u0 t1) (THead (Bind Abst) u t4) H5 in eq_ind K (Bind Abst) (\lambda (k: K).(eq T u0 u) \to (eq T t1 t4) \to (eq T (THead k u3 t2) t3) \to (pr0 u0 u3) \to (pr0 t1 t2) \to ex2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 t3) t) (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t5) t)) (\lambda (H6: (eq T u0 u)).eq_ind T u (\lambda (t: T).(eq T t1 t4) \to (eq T (THead (Bind Abst) u3 t2) t3) \to (pr0 t u3) \to (pr0 t1 t2) \to ex2 T (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t5) t0)) (\lambda (H9: (eq T t1 t4)).eq_ind T t4 (\lambda (t: T).(eq T (THead (Bind Abst) u3 t2) t3) \to (pr0 u u3) \to (pr0 t t2) \to ex2 T (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t5) t0)) (\lambda (H11: (eq T (THead (Bind Abst) u3 t2) t3)).eq_ind T (THead (Bind Abst) u3 t2) (\lambda (t: T).(pr0 u u3) \to (pr0 t4 t2) \to ex2 T (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t5) t0)) (\lambda (_: (pr0 u u3)).\lambda (H15: (pr0 t4 t2)).let H7 \def eq_ind T u1 (\lambda (t: T).pr0 t u2) H7 v1 H10 in ex2_ind T (\lambda (t: T).pr0 u2 t) (\lambda (t: T).pr0 v2 t) (ex2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 (THead (Bind Abst) u3 t2)) t) (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t5) t)) (\lambda (x: T).\lambda (H10: (pr0 u2 x)).\lambda (H12: (pr0 v2 x)).ex2_ind T (\lambda (t: T).pr0 t2 t) (\lambda (t: T).pr0 t5 t) (ex2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 (THead (Bind Abst) u3 t2)) t) (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t5) t)) (\lambda (x0: T).\lambda (H13: (pr0 t2 x0)).\lambda (H16: (pr0 t5 x0)).ex_intro2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 (THead (Bind Abst) u3 t2)) t) (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t5) t) (THead (Bind Abbr) x x0) (pr0_beta u3 u2 x H10 t2 x0 H13) (pr0_comp v2 x H12 t5 x0 H16 (Bind Abbr))) (H4 t4 (tlt_trans (THead (Bind Abst) u t4) t4 (THead (Flat Appl) v1 (THead (Bind Abst) u t4)) (tlt_head_dx (Bind Abst) u t4) (tlt_head_dx (Flat Appl) v1 (THead (Bind Abst) u t4))) t2 H15 t5 H13)) (H4 v1 (tlt_head_sx (Flat Appl) v1 (THead (Bind Abst) u t4)) u2 H7 v2 H12)) t3 H11) t1 (sym_eq T t1 t4 H9)) u0 (sym_eq T u0 u H6)) k0 (sym_eq K k0 (Bind Abst) H3)) H2) H1) H8 H0 H4) | (pr0_beta u0 v0 v3 H0 t1 t2 H4) \Rightarrow (\lambda (H5: (eq T (THead (Flat Appl) v0 (THead (Bind Abst) u0 t1)) (THead (Bind Abst) u t4))).\lambda (H8: (eq T (THead (Bind Abbr) v3 t2) t3)).(let H1 \def eq_ind T (THead (Flat Appl) v0 (THead (Bind Abst) u0 t1)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind Abst) u t4) H5 in False_ind ((eq T (THead (Bind Abbr) v3 t2) t3) \to (pr0 v0 v3) \to (pr0 t1 t2) \to ex2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 t3) t) (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t5) t)) H1) H8 H0 H4) | (pr0_upsilon b H0 v0 v3 H4 u0 u3 H5 t1 t2 H8) \Rightarrow (\lambda (H11: (eq T (THead (Flat Appl) v0 (THead (Bind b) u0 t1)) (THead (Bind Abst) u t4))).\lambda (H12: (eq T (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v3) t2)) t3)).(let H1 \def eq_ind T (THead (Flat Appl) v0 (THead (Bind b) u0 t1)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind Abst) u t4) H11 in False_ind ((eq T (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v3) t2)) t3) \to (not (eq B b Abst)) \to (pr0 v0 v3) \to (pr0 u0 u3) \to (pr0 t1 t2) \to ex2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 t3) t) (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t5) t)) H1) H12 H0 H4 H5 H8) | (pr0_delta u0 u3 H0 t1 t2 H4 w H5) \Rightarrow (\lambda (H8: (eq T (THead (Bind Abbr) u0 t1) (THead (Bind Abst) u t4))).\lambda (H11: (eq T (THead (Bind Abbr) u3 w) t3)).(let H1 \def eq_ind T (THead (Bind Abbr) u0 t1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow True | Abst \Rightarrow False | Void \Rightarrow False]) | (Flat _) \Rightarrow False])]) I (THead (Bind Abst) u t4) H8 in False_ind ((eq T (THead (Bind Abbr) u3 w) t3) \to (pr0 u0 u3) \to (pr0 t1 t2) \to (subst0 O u3 t2 w) \to ex2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 t3) t) (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t5) t)) H1) H11 H0 H4 H5) | (pr0_zeta b H0 t1 t2 H4 u0) \Rightarrow (\lambda (H5: (eq T (THead (Bind b) u0 (lift (S O) O t1)) (THead (Bind Abst) u t4))).\lambda (H8: (eq T t2 t3)).(let H1 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x (S O)) O t1) | (TLRef _) \Rightarrow ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x (S O)) O t1) | (THead _ _ t) \Rightarrow t]) (THead (Bind b) u0 (lift (S O) O t1)) (THead (Bind Abst) u t4) H5 in (let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u0 | (TLRef _) \Rightarrow u0 | (THead _ t _) \Rightarrow t]) (THead (Bind b) u0 (lift (S O) O t1)) (THead (Bind Abst) u t4) H5 in (let H3 \def f_equal T B (\lambda (e: T).match e return B with [(TSort _) \Rightarrow b | (TLRef _) \Rightarrow b | (THead k _ _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow b])]) (THead (Bind b) u0 (lift (S O) O t1)) (THead (Bind Abst) u t4) H5 in eq_ind B Abst (\lambda (b0: B).(eq T u0 u) \to (eq T (lift (S O) O t1) t4) \to (eq T t2 t3) \to (not (eq B b0 Abst)) \to (pr0 t1 t2) \to ex2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 t3) t) (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t5) t)) (\lambda (H6: (eq T u0 u)).eq_ind T u (\lambda (_: T).(eq T (lift (S O) O t1) t4) \to (eq T t2 t3) \to (not (eq B Abst Abst)) \to (pr0 t1 t2) \to ex2 T (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t5) t0)) (\lambda (H9: (eq T (lift (S O) O t1) t4)).eq_ind T (lift (S O) O t1) (\lambda (_: T).(eq T t2 t3) \to (not (eq B Abst Abst)) \to (pr0 t1 t2) \to ex2 T (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t5) t0)) (\lambda (H7: (eq T t2 t3)).eq_ind T t3 (\lambda (t: T).(not (eq B Abst Abst)) \to (pr0 t1 t) \to ex2 T (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t5) t0)) (\lambda (H11: (not (eq B Abst Abst))).\lambda (_: (pr0 t1 t3)).let H10 \def match (H11 (refl_equal B Abst)) return (ex2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 t3) t) (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t5) t)) with [] in H10) t2 (sym_eq T t2 t3 H7)) t4 H9) u0 (sym_eq T u0 u H6)) b (sym_eq B b Abst H3)) H2) H1) H8 H0 H4) | (pr0_epsilon t1 t2 H0 u0) \Rightarrow (\lambda (H4: (eq T (THead (Flat Cast) u0 t1) (THead (Bind Abst) u t4))).\lambda (H5: (eq T t2 t3)).(let H1 \def eq_ind T (THead (Flat Cast) u0 t1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind Abst) u t4) H4 in False_ind ((eq T t2 t3) \to (pr0 t1 t2) \to ex2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 t3) t) (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t5) t)) H1) H5 H0)] in H6 (refl_equal T (THead (Bind Abst) u t4)) (refl_equal T t3)) t0 (sym_eq T t0 (THead (Bind Abst) u t4) H11)) u1 (sym_eq T u1 v1 H10)) k (sym_eq K k (Flat Appl) H3)) H2) H1)] in H1 (refl_equal T (THead (Flat Appl) v1 (THead (Bind Abst) u t4)))) t2 H11) t H9 H10 H6 H7) | (pr0_upsilon b H6 v1 v2 H7 u0 u3 H8 t4 t5 H9) \Rightarrow (\lambda (H10: (eq T (THead (Flat Appl) v1 (THead (Bind b) u0 t4)) t)).\lambda (H11: (eq T (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t2)).eq_ind T (THead (Flat Appl) v1 (THead (Bind b) u0 t4)) (\lambda (_: T).(eq T (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t2) \to (not (eq B b Abst)) \to (pr0 v1 v2) \to (pr0 u0 u3) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead k u2 t3) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H12: (eq T (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t2)).eq_ind T (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) (\lambda (t: T).(not (eq B b Abst)) \to (pr0 v1 v2) \to (pr0 u0 u3) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead k u2 t3) t0) (\lambda (t0: T).pr0 t t0)) (\lambda (H13: (not (eq B b Abst))).\lambda (H14: (pr0 v1 v2)).\lambda (H15: (pr0 u0 u3)).\lambda (H16: (pr0 t4 t5)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead k u1 t0) t) H4 (THead (Flat Appl) v1 (THead (Bind b) u0 t4)) H10 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead (Flat Appl) v1 (THead (Bind b) u0 t4))) \to ex2 T (\lambda (t0: T).pr0 (THead k u2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead k u1 t0) (THead (Flat Appl) v1 (THead (Bind b) u0 t4)))).let H1 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead k u1 t0) (THead (Flat Appl) v1 (THead (Bind b) u0 t4)) H0 in (let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u1 | (TLRef _) \Rightarrow u1 | (THead _ t _) \Rightarrow t]) (THead k u1 t0) (THead (Flat Appl) v1 (THead (Bind b) u0 t4)) H0 in (let H3 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k u1 t0) (THead (Flat Appl) v1 (THead (Bind b) u0 t4)) H0 in eq_ind K (Flat Appl) (\lambda (k: K).(eq T u1 v1) \to (eq T t0 (THead (Bind b) u0 t4)) \to ex2 T (\lambda (t: T).pr0 (THead k u2 t3) t) (\lambda (t: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t)) (\lambda (H11: (eq T u1 v1)).eq_ind T v1 (\lambda (_: T).(eq T t0 (THead (Bind b) u0 t4)) \to ex2 T (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t0)) (\lambda (H12: (eq T t0 (THead (Bind b) u0 t4))).eq_ind T (THead (Bind b) u0 t4) (\lambda (_: T).ex2 T (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t0)) (let H4 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Flat Appl) v1 (THead (Bind b) u0 t4)) H10 in let H5 \def eq_ind T t0 (\lambda (t: T).pr0 t t3) H8 (THead (Bind b) u0 t4) H12 in let H6 \def match H5 return (\lambda (t: T).\lambda (t0: T).(eq T t (THead (Bind b) u0 t4)) \to (eq T t0 t3) \to ex2 T (\lambda (t1: T).pr0 (THead (Flat Appl) u2 t3) t1) (\lambda (t1: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t1)) with [(pr0_refl t) \Rightarrow (\lambda (H0: (eq T t (THead (Bind b) u0 t4))).\lambda (H5: (eq T t t3)).eq_ind T (THead (Bind b) u0 t4) (\lambda (t0: T).(eq T t0 t3) \to ex2 T (\lambda (t1: T).pr0 (THead (Flat Appl) u2 t3) t1) (\lambda (t1: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t1)) (\lambda (H6: (eq T (THead (Bind b) u0 t4) t3)).eq_ind T (THead (Bind b) u0 t4) (\lambda (t0: T).ex2 T (\lambda (t1: T).pr0 (THead (Flat Appl) u2 t0) t1) (\lambda (t1: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t1)) (let H1 \def eq_ind T u1 (\lambda (t: T).pr0 t u2) H7 v1 H11 in ex2_ind T (\lambda (t0: T).pr0 u2 t0) (\lambda (t0: T).pr0 v2 t0) (ex2 T (\lambda (t0: T).pr0 (THead (Flat Appl) u2 (THead (Bind b) u0 t4)) t0) (\lambda (t0: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t0)) (\lambda (x: T).\lambda (H2: (pr0 u2 x)).\lambda (H3: (pr0 v2 x)).pr0_confluence.__pr0_cong_upsilon_refl b H13 u0 u3 H15 t4 t5 H16 u2 v2 x H2 H3) (H4 v1 (tlt_head_sx (Flat Appl) v1 (THead (Bind b) u0 t4)) u2 H1 v2 H14)) t3 H6) t (sym_eq T t (THead (Bind b) u0 t4) H0) H5) | (pr0_comp u4 u5 H0 t1 t2 H4 k0) \Rightarrow (\lambda (H5: (eq T (THead k0 u4 t1) (THead (Bind b) u0 t4))).\lambda (H10: (eq T (THead k0 u5 t2) t3)).(let H1 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t1 | (TLRef _) \Rightarrow t1 | (THead _ _ t) \Rightarrow t]) (THead k0 u4 t1) (THead (Bind b) u0 t4) H5 in (let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u4 | (TLRef _) \Rightarrow u4 | (THead _ t _) \Rightarrow t]) (THead k0 u4 t1) (THead (Bind b) u0 t4) H5 in (let H3 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k0 | (TLRef _) \Rightarrow k0 | (THead k _ _) \Rightarrow k]) (THead k0 u4 t1) (THead (Bind b) u0 t4) H5 in eq_ind K (Bind b) (\lambda (k: K).(eq T u4 u0) \to (eq T t1 t4) \to (eq T (THead k u5 t2) t3) \to (pr0 u4 u5) \to (pr0 t1 t2) \to ex2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 t3) t) (\lambda (t: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t)) (\lambda (H6: (eq T u4 u0)).eq_ind T u0 (\lambda (t: T).(eq T t1 t4) \to (eq T (THead (Bind b) u5 t2) t3) \to (pr0 t u5) \to (pr0 t1 t2) \to ex2 T (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t0)) (\lambda (H12: (eq T t1 t4)).eq_ind T t4 (\lambda (t: T).(eq T (THead (Bind b) u5 t2) t3) \to (pr0 u0 u5) \to (pr0 t t2) \to ex2 T (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t0)) (\lambda (H8: (eq T (THead (Bind b) u5 t2) t3)).eq_ind T (THead (Bind b) u5 t2) (\lambda (t: T).(pr0 u0 u5) \to (pr0 t4 t2) \to ex2 T (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t) t0) (\lambda (t0: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t0)) (\lambda (H17: (pr0 u0 u5)).\lambda (H18: (pr0 t4 t2)).let H7 \def eq_ind T u1 (\lambda (t: T).pr0 t u2) H7 v1 H11 in ex2_ind T (\lambda (t: T).pr0 u2 t) (\lambda (t: T).pr0 v2 t) (ex2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 (THead (Bind b) u5 t2)) t) (\lambda (t: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t)) (\lambda (x: T).\lambda (H9: (pr0 u2 x)).\lambda (H11: (pr0 v2 x)).ex2_ind T (\lambda (t: T).pr0 t2 t) (\lambda (t: T).pr0 t5 t) (ex2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 (THead (Bind b) u5 t2)) t) (\lambda (t: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t)) (\lambda (x0: T).\lambda (H14: (pr0 t2 x0)).\lambda (H16: (pr0 t5 x0)).ex2_ind T (\lambda (t: T).pr0 u5 t) (\lambda (t: T).pr0 u3 t) (ex2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 (THead (Bind b) u5 t2)) t) (\lambda (t: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t)) (\lambda (x1: T).\lambda (H15: (pr0 u5 x1)).\lambda (H19: (pr0 u3 x1)).pr0_confluence.__pr0_cong_upsilon_cong b H13 u2 v2 x H9 H11 t2 t5 x0 H14 H16 u5 u3 x1 H15 H19) (H4 u0 (tlt_trans (THead (Bind b) u0 t4) u0 (THead (Flat Appl) v1 (THead (Bind b) u0 t4)) (tlt_head_sx (Bind b) u0 t4) (tlt_head_dx (Flat Appl) v1 (THead (Bind b) u0 t4))) u5 H17 u3 H15)) (H4 t4 (tlt_trans (THead (Bind b) u0 t4) t4 (THead (Flat Appl) v1 (THead (Bind b) u0 t4)) (tlt_head_dx (Bind b) u0 t4) (tlt_head_dx (Flat Appl) v1 (THead (Bind b) u0 t4))) t2 H18 t5 H16)) (H4 v1 (tlt_head_sx (Flat Appl) v1 (THead (Bind b) u0 t4)) u2 H7 v2 H14)) t3 H8) t1 (sym_eq T t1 t4 H12)) u4 (sym_eq T u4 u0 H6)) k0 (sym_eq K k0 (Bind b) H3)) H2) H1) H10 H0 H4) | (pr0_beta u v0 v3 H0 t1 t2 H4) \Rightarrow (\lambda (H5: (eq T (THead (Flat Appl) v0 (THead (Bind Abst) u t1)) (THead (Bind b) u0 t4))).\lambda (H10: (eq T (THead (Bind Abbr) v3 t2) t3)).(let H1 \def eq_ind T (THead (Flat Appl) v0 (THead (Bind Abst) u t1)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind b) u0 t4) H5 in False_ind ((eq T (THead (Bind Abbr) v3 t2) t3) \to (pr0 v0 v3) \to (pr0 t1 t2) \to ex2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 t3) t) (\lambda (t: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t)) H1) H10 H0 H4) | (pr0_upsilon b0 H0 v0 v3 H4 u4 u5 H5 t1 t2 H10) \Rightarrow (\lambda (H13: (eq T (THead (Flat Appl) v0 (THead (Bind b0) u4 t1)) (THead (Bind b) u0 t4))).\lambda (H14: (eq T (THead (Bind b0) u5 (THead (Flat Appl) (lift (S O) O v3) t2)) t3)).(let H1 \def eq_ind T (THead (Flat Appl) v0 (THead (Bind b0) u4 t1)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind b) u0 t4) H13 in False_ind ((eq T (THead (Bind b0) u5 (THead (Flat Appl) (lift (S O) O v3) t2)) t3) \to (not (eq B b0 Abst)) \to (pr0 v0 v3) \to (pr0 u4 u5) \to (pr0 t1 t2) \to ex2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 t3) t) (\lambda (t: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t)) H1) H14 H0 H4 H5 H10) | (pr0_delta u4 u5 H0 t1 t2 H4 w H5) \Rightarrow (\lambda (H10: (eq T (THead (Bind Abbr) u4 t1) (THead (Bind b) u0 t4))).\lambda (H17: (eq T (THead (Bind Abbr) u5 w) t3)).(let H1 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t1 | (TLRef _) \Rightarrow t1 | (THead _ _ t) \Rightarrow t]) (THead (Bind Abbr) u4 t1) (THead (Bind b) u0 t4) H10 in (let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u4 | (TLRef _) \Rightarrow u4 | (THead _ t _) \Rightarrow t]) (THead (Bind Abbr) u4 t1) (THead (Bind b) u0 t4) H10 in (let H3 \def f_equal T B (\lambda (e: T).match e return B with [(TSort _) \Rightarrow Abbr | (TLRef _) \Rightarrow Abbr | (THead k _ _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (THead (Bind Abbr) u4 t1) (THead (Bind b) u0 t4) H10 in eq_ind B Abbr (\lambda (b: B).(eq T u4 u0) \to (eq T t1 t4) \to (eq T (THead (Bind Abbr) u5 w) t3) \to (pr0 u4 u5) \to (pr0 t1 t2) \to (subst0 O u5 t2 w) \to ex2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 t3) t) (\lambda (t: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t)) (\lambda (H6: (eq T u4 u0)).eq_ind T u0 (\lambda (t: T).(eq T t1 t4) \to (eq T (THead (Bind Abbr) u5 w) t3) \to (pr0 t u5) \to (pr0 t1 t2) \to (subst0 O u5 t2 w) \to ex2 T (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t0)) (\lambda (H8: (eq T t1 t4)).eq_ind T t4 (\lambda (t: T).(eq T (THead (Bind Abbr) u5 w) t3) \to (pr0 u0 u5) \to (pr0 t t2) \to (subst0 O u5 t2 w) \to ex2 T (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t0)) (\lambda (H18: (eq T (THead (Bind Abbr) u5 w) t3)).eq_ind T (THead (Bind Abbr) u5 w) (\lambda (t: T).(pr0 u0 u5) \to (pr0 t4 t2) \to (subst0 O u5 t2 w) \to ex2 T (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t0)) (\lambda (H19: (pr0 u0 u5)).\lambda (H20: (pr0 t4 t2)).\lambda (H21: (subst0 O u5 t2 w)).let H9 \def eq_ind_r B b (\lambda (b: B).\forall (v: T).(tlt v (THead (Flat Appl) v1 (THead (Bind b) u0 t4))) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 t2 t)) H4 Abbr H3 in let H12 \def eq_ind_r B b (\lambda (b: B).eq T t0 (THead (Bind b) u0 t4)) H12 Abbr H3 in let H13 \def eq_ind_r B b (\lambda (b: B).not (eq B b Abst)) H13 Abbr H3 in let H7 \def eq_ind T u1 (\lambda (t: T).pr0 t u2) H7 v1 H11 in ex2_ind T (\lambda (t: T).pr0 u2 t) (\lambda (t: T).pr0 v2 t) (ex2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 (THead (Bind Abbr) u5 w)) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t)) (\lambda (x: T).\lambda (H11: (pr0 u2 x)).\lambda (H14: (pr0 v2 x)).ex2_ind T (\lambda (t: T).pr0 t2 t) (\lambda (t: T).pr0 t5 t) (ex2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 (THead (Bind Abbr) u5 w)) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t)) (\lambda (x0: T).\lambda (H16: (pr0 t2 x0)).\lambda (H22: (pr0 t5 x0)).ex2_ind T (\lambda (t: T).pr0 u5 t) (\lambda (t: T).pr0 u3 t) (ex2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 (THead (Bind Abbr) u5 w)) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t)) (\lambda (x1: T).\lambda (H15: (pr0 u5 x1)).\lambda (H23: (pr0 u3 x1)).pr0_confluence.__pr0_cong_upsilon_delta H13 u5 t2 w H21 u2 v2 x H11 H14 t5 x0 H16 H22 u3 x1 H15 H23) (H9 u0 (tlt_trans (THead (Bind Abbr) u0 t4) u0 (THead (Flat Appl) v1 (THead (Bind Abbr) u0 t4)) (tlt_head_sx (Bind Abbr) u0 t4) (tlt_head_dx (Flat Appl) v1 (THead (Bind Abbr) u0 t4))) u5 H19 u3 H15)) (H9 t4 (tlt_trans (THead (Bind Abbr) u0 t4) t4 (THead (Flat Appl) v1 (THead (Bind Abbr) u0 t4)) (tlt_head_dx (Bind Abbr) u0 t4) (tlt_head_dx (Flat Appl) v1 (THead (Bind Abbr) u0 t4))) t2 H20 t5 H16)) (H9 v1 (tlt_head_sx (Flat Appl) v1 (THead (Bind Abbr) u0 t4)) u2 H7 v2 H14)) t3 H18) t1 (sym_eq T t1 t4 H8)) u4 (sym_eq T u4 u0 H6)) b H3) H2) H1) H17 H0 H4 H5) | (pr0_zeta b0 H0 t1 t2 H4 u) \Rightarrow (\lambda (H5: (eq T (THead (Bind b0) u (lift (S O) O t1)) (THead (Bind b) u0 t4))).\lambda (H10: (eq T t2 t3)).(let H1 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x (S O)) O t1) | (TLRef _) \Rightarrow ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x (S O)) O t1) | (THead _ _ t) \Rightarrow t]) (THead (Bind b0) u (lift (S O) O t1)) (THead (Bind b) u0 t4) H5 in (let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u | (TLRef _) \Rightarrow u | (THead _ t _) \Rightarrow t]) (THead (Bind b0) u (lift (S O) O t1)) (THead (Bind b) u0 t4) H5 in (let H3 \def f_equal T B (\lambda (e: T).match e return B with [(TSort _) \Rightarrow b0 | (TLRef _) \Rightarrow b0 | (THead k _ _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow b0])]) (THead (Bind b0) u (lift (S O) O t1)) (THead (Bind b) u0 t4) H5 in eq_ind B b (\lambda (b1: B).(eq T u u0) \to (eq T (lift (S O) O t1) t4) \to (eq T t2 t3) \to (not (eq B b1 Abst)) \to (pr0 t1 t2) \to ex2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 t3) t) (\lambda (t: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t)) (\lambda (H6: (eq T u u0)).eq_ind T u0 (\lambda (_: T).(eq T (lift (S O) O t1) t4) \to (eq T t2 t3) \to (not (eq B b Abst)) \to (pr0 t1 t2) \to ex2 T (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t0)) (\lambda (H13: (eq T (lift (S O) O t1) t4)).eq_ind T (lift (S O) O t1) (\lambda (_: T).(eq T t2 t3) \to (not (eq B b Abst)) \to (pr0 t1 t2) \to ex2 T (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t0)) (\lambda (H8: (eq T t2 t3)).eq_ind T t3 (\lambda (t: T).(not (eq B b Abst)) \to (pr0 t1 t) \to ex2 T (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t0)) (\lambda (H17: (not (eq B b Abst))).\lambda (H18: (pr0 t1 t3)).let H9 \def eq_ind_r T t4 (\lambda (t: T).\forall (v: T).(tlt v (THead (Flat Appl) v1 (THead (Bind b) u0 t))) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H4 (lift (S O) O t1) H13 in let H12 \def eq_ind_r T t4 (\lambda (t: T).eq T t0 (THead (Bind b) u0 t)) H12 (lift (S O) O t1) H13 in let H16 \def eq_ind_r T t4 (\lambda (t: T).pr0 t t5) H16 (lift (S O) O t1) H13 in ex2_ind T (\lambda (t3: T).eq T t5 (lift (S O) O t3)) (\lambda (t3: T).pr0 t1 t3) (ex2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 t3) t) (\lambda (t: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t)) (\lambda (x: T).\lambda (H19: (eq T t5 (lift (S O) O x))).\lambda (H20: (pr0 t1 x)).eq_ind_r T (lift (S O) O x) (\lambda (t: T).ex2 T (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t)) t0)) (let H7 \def eq_ind T u1 (\lambda (t: T).pr0 t u2) H7 v1 H11 in ex2_ind T (\lambda (t: T).pr0 u2 t) (\lambda (t: T).pr0 v2 t) (ex2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 t3) t) (\lambda (t: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) (lift (S O) O x))) t)) (\lambda (x0: T).\lambda (H11: (pr0 u2 x0)).\lambda (H14: (pr0 v2 x0)).ex2_ind T (\lambda (t: T).pr0 x t) (\lambda (t: T).pr0 t3 t) (ex2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 t3) t) (\lambda (t: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) (lift (S O) O x))) t)) (\lambda (x1: T).\lambda (H21: (pr0 x x1)).\lambda (H22: (pr0 t3 x1)).pr0_confluence.__pr0_cong_upsilon_zeta b H17 u0 u3 H15 u2 v2 x0 H11 H14 x t3 x1 H21 H22) (H9 t1 (tlt_trans (THead (Bind b) u0 (lift (S O) O t1)) t1 (THead (Flat Appl) v1 (THead (Bind b) u0 (lift (S O) O t1))) (lift_tlt_dx (Bind b) u0 t1 (S O) O) (tlt_head_dx (Flat Appl) v1 (THead (Bind b) u0 (lift (S O) O t1)))) x H20 t3 H18)) (H9 v1 (tlt_head_sx (Flat Appl) v1 (THead (Bind b) u0 (lift (S O) O t1))) u2 H7 v2 H14)) t5 H19) (pr0_gen_lift t1 t5 (S O) O H16)) t2 (sym_eq T t2 t3 H8)) t4 H13) u (sym_eq T u u0 H6)) b0 (sym_eq B b0 b H3)) H2) H1) H10 H0 H4) | (pr0_epsilon t1 t2 H0 u) \Rightarrow (\lambda (H4: (eq T (THead (Flat Cast) u t1) (THead (Bind b) u0 t4))).\lambda (H5: (eq T t2 t3)).(let H1 \def eq_ind T (THead (Flat Cast) u t1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind b) u0 t4) H4 in False_ind ((eq T t2 t3) \to (pr0 t1 t2) \to ex2 T (\lambda (t: T).pr0 (THead (Flat Appl) u2 t3) t) (\lambda (t: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t)) H1) H5 H0)] in H6 (refl_equal T (THead (Bind b) u0 t4)) (refl_equal T t3)) t0 (sym_eq T t0 (THead (Bind b) u0 t4) H12)) u1 (sym_eq T u1 v1 H11)) k (sym_eq K k (Flat Appl) H3)) H2) H1)] in H1 (refl_equal T (THead (Flat Appl) v1 (THead (Bind b) u0 t4)))) t2 H12) t H10 H11 H6 H7 H8 H9) | (pr0_delta u0 u3 H6 t4 t5 H7 w H8) \Rightarrow (\lambda (H9: (eq T (THead (Bind Abbr) u0 t4) t)).\lambda (H10: (eq T (THead (Bind Abbr) u3 w) t2)).eq_ind T (THead (Bind Abbr) u0 t4) (\lambda (_: T).(eq T (THead (Bind Abbr) u3 w) t2) \to (pr0 u0 u3) \to (pr0 t4 t5) \to (subst0 O u3 t5 w) \to ex2 T (\lambda (t0: T).pr0 (THead k u2 t3) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H11: (eq T (THead (Bind Abbr) u3 w) t2)).eq_ind T (THead (Bind Abbr) u3 w) (\lambda (t: T).(pr0 u0 u3) \to (pr0 t4 t5) \to (subst0 O u3 t5 w) \to ex2 T (\lambda (t0: T).pr0 (THead k u2 t3) t0) (\lambda (t0: T).pr0 t t0)) (\lambda (H12: (pr0 u0 u3)).\lambda (H13: (pr0 t4 t5)).\lambda (H14: (subst0 O u3 t5 w)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead k u1 t0) t) H4 (THead (Bind Abbr) u0 t4) H9 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead (Bind Abbr) u0 t4)) \to ex2 T (\lambda (t0: T).pr0 (THead k u2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) u3 w) t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead k u1 t0) (THead (Bind Abbr) u0 t4))).let H1 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead k u1 t0) (THead (Bind Abbr) u0 t4) H0 in (let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u1 | (TLRef _) \Rightarrow u1 | (THead _ t _) \Rightarrow t]) (THead k u1 t0) (THead (Bind Abbr) u0 t4) H0 in (let H3 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k u1 t0) (THead (Bind Abbr) u0 t4) H0 in eq_ind K (Bind Abbr) (\lambda (k: K).(eq T u1 u0) \to (eq T t0 t4) \to ex2 T (\lambda (t: T).pr0 (THead k u2 t3) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 w) t)) (\lambda (H10: (eq T u1 u0)).eq_ind T u0 (\lambda (_: T).(eq T t0 t4) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) u3 w) t0)) (\lambda (H11: (eq T t0 t4)).eq_ind T t4 (\lambda (_: T).ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) u3 w) t0)) (let H4 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Bind Abbr) u0 t4) H9 in let H5 \def eq_ind T t0 (\lambda (t: T).pr0 t t3) H8 t4 H11 in let H6 \def eq_ind T u1 (\lambda (t: T).pr0 t u2) H7 u0 H10 in ex2_ind T (\lambda (t: T).pr0 u2 t) (\lambda (t: T).pr0 u3 t) (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 t3) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 w) t)) (\lambda (x: T).\lambda (H7: (pr0 u2 x)).\lambda (H8: (pr0 u3 x)).ex2_ind T (\lambda (t: T).pr0 t3 t) (\lambda (t: T).pr0 t5 t) (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 t3) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 w) t)) (\lambda (x0: T).\lambda (H9: (pr0 t3 x0)).\lambda (H12: (pr0 t5 x0)).pr0_confluence.__pr0_cong_delta u3 t5 w H14 u2 x H7 H8 t3 x0 H9 H12) (H4 t4 (tlt_head_dx (Bind Abbr) u0 t4) t3 H5 t5 H13)) (H4 u0 (tlt_head_sx (Bind Abbr) u0 t4) u2 H6 u3 H12)) t0 (sym_eq T t0 t4 H11)) u1 (sym_eq T u1 u0 H10)) k (sym_eq K k (Bind Abbr) H3)) H2) H1)] in H1 (refl_equal T (THead (Bind Abbr) u0 t4))) t2 H11) t H9 H10 H6 H7 H8) | (pr0_zeta b H6 t4 t5 H7 u) \Rightarrow (\lambda (H9: (eq T (THead (Bind b) u (lift (S O) O t4)) t)).\lambda (H10: (eq T t5 t2)).eq_ind T (THead (Bind b) u (lift (S O) O t4)) (\lambda (_: T).(eq T t5 t2) \to (not (eq B b Abst)) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead k u2 t3) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H11: (eq T t5 t2)).eq_ind T t2 (\lambda (t: T).(not (eq B b Abst)) \to (pr0 t4 t) \to ex2 T (\lambda (t0: T).pr0 (THead k u2 t3) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H12: (not (eq B b Abst))).\lambda (H13: (pr0 t4 t2)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead k u1 t0) t) H4 (THead (Bind b) u (lift (S O) O t4)) H9 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead (Bind b) u (lift (S O) O t4))) \to ex2 T (\lambda (t0: T).pr0 (THead k u2 t3) t0) (\lambda (t0: T).pr0 t2 t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead k u1 t0) (THead (Bind b) u (lift (S O) O t4)))).let H1 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead k u1 t0) (THead (Bind b) u (lift (S O) O t4)) H0 in (let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u1 | (TLRef _) \Rightarrow u1 | (THead _ t _) \Rightarrow t]) (THead k u1 t0) (THead (Bind b) u (lift (S O) O t4)) H0 in (let H3 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k u1 t0) (THead (Bind b) u (lift (S O) O t4)) H0 in eq_ind K (Bind b) (\lambda (k: K).(eq T u1 u) \to (eq T t0 (lift (S O) O t4)) \to ex2 T (\lambda (t: T).pr0 (THead k u2 t3) t) (\lambda (t: T).pr0 t2 t)) (\lambda (H10: (eq T u1 u)).eq_ind T u (\lambda (_: T).(eq T t0 (lift (S O) O t4)) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 t3) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H11: (eq T t0 (lift (S O) O t4))).eq_ind T (lift (S O) O t4) (\lambda (_: T).ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 t3) t0) (\lambda (t0: T).pr0 t2 t0)) (let H4 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Bind b) u (lift (S O) O t4)) H9 in let H5 \def eq_ind T t0 (\lambda (t: T).pr0 t t3) H8 (lift (S O) O t4) H11 in ex2_ind T (\lambda (t2: T).eq T t3 (lift (S O) O t2)) (\lambda (t2: T).pr0 t4 t2) (ex2 T (\lambda (t: T).pr0 (THead (Bind b) u2 t3) t) (\lambda (t: T).pr0 t2 t)) (\lambda (x: T).\lambda (H6: (eq T t3 (lift (S O) O x))).\lambda (H8: (pr0 t4 x)).eq_ind_r T (lift (S O) O x) (\lambda (t: T).ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 t) t0) (\lambda (t0: T).pr0 t2 t0)) (let H7 \def eq_ind T u1 (\lambda (t: T).pr0 t u2) H7 u H10 in ex2_ind T (\lambda (t: T).pr0 x t) (\lambda (t: T).pr0 t2 t) (ex2 T (\lambda (t: T).pr0 (THead (Bind b) u2 (lift (S O) O x)) t) (\lambda (t: T).pr0 t2 t)) (\lambda (x0: T).\lambda (H9: (pr0 x x0)).\lambda (H13: (pr0 t2 x0)).ex_intro2 T (\lambda (t: T).pr0 (THead (Bind b) u2 (lift (S O) O x)) t) (\lambda (t: T).pr0 t2 t) x0 (pr0_zeta b H12 x x0 H9 u2) H13) (H4 t4 (lift_tlt_dx (Bind b) u t4 (S O) O) x H8 t2 H13)) t3 H6) (pr0_gen_lift t4 t3 (S O) O H5)) t0 (sym_eq T t0 (lift (S O) O t4) H11)) u1 (sym_eq T u1 u H10)) k (sym_eq K k (Bind b) H3)) H2) H1)] in H1 (refl_equal T (THead (Bind b) u (lift (S O) O t4)))) t5 (sym_eq T t5 t2 H11)) t H9 H10 H6 H7) | (pr0_epsilon t4 t5 H6 u) \Rightarrow (\lambda (H9: (eq T (THead (Flat Cast) u t4) t)).\lambda (H10: (eq T t5 t2)).eq_ind T (THead (Flat Cast) u t4) (\lambda (_: T).(eq T t5 t2) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead k u2 t3) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H11: (eq T t5 t2)).eq_ind T t2 (\lambda (t: T).(pr0 t4 t) \to ex2 T (\lambda (t0: T).pr0 (THead k u2 t3) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H12: (pr0 t4 t2)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead k u1 t0) t) H4 (THead (Flat Cast) u t4) H9 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead (Flat Cast) u t4)) \to ex2 T (\lambda (t0: T).pr0 (THead k u2 t3) t0) (\lambda (t0: T).pr0 t2 t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead k u1 t0) (THead (Flat Cast) u t4))).let H1 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead k u1 t0) (THead (Flat Cast) u t4) H0 in (let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u1 | (TLRef _) \Rightarrow u1 | (THead _ t _) \Rightarrow t]) (THead k u1 t0) (THead (Flat Cast) u t4) H0 in (let H3 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k u1 t0) (THead (Flat Cast) u t4) H0 in eq_ind K (Flat Cast) (\lambda (k: K).(eq T u1 u) \to (eq T t0 t4) \to ex2 T (\lambda (t: T).pr0 (THead k u2 t3) t) (\lambda (t: T).pr0 t2 t)) (\lambda (H10: (eq T u1 u)).eq_ind T u (\lambda (_: T).(eq T t0 t4) \to ex2 T (\lambda (t0: T).pr0 (THead (Flat Cast) u2 t3) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H11: (eq T t0 t4)).eq_ind T t4 (\lambda (_: T).ex2 T (\lambda (t0: T).pr0 (THead (Flat Cast) u2 t3) t0) (\lambda (t0: T).pr0 t2 t0)) (let H4 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Flat Cast) u t4) H9 in let H5 \def eq_ind T t0 (\lambda (t: T).pr0 t t3) H8 t4 H11 in let H6 \def eq_ind T u1 (\lambda (t: T).pr0 t u2) H7 u H10 in ex2_ind T (\lambda (t: T).pr0 t3 t) (\lambda (t: T).pr0 t2 t) (ex2 T (\lambda (t: T).pr0 (THead (Flat Cast) u2 t3) t) (\lambda (t: T).pr0 t2 t)) (\lambda (x: T).\lambda (H7: (pr0 t3 x)).\lambda (H8: (pr0 t2 x)).ex_intro2 T (\lambda (t: T).pr0 (THead (Flat Cast) u2 t3) t) (\lambda (t: T).pr0 t2 t) x (pr0_epsilon t3 x H7 u2) H8) (H4 t4 (tlt_head_dx (Flat Cast) u t4) t3 H5 t2 H12)) t0 (sym_eq T t0 t4 H11)) u1 (sym_eq T u1 u H10)) k (sym_eq K k (Flat Cast) H3)) H2) H1)] in H1 (refl_equal T (THead (Flat Cast) u t4))) t5 (sym_eq T t5 t2 H11)) t H9 H10 H6)] in H9 (refl_equal T t) (refl_equal T t2)) t1 H6) t H4 H5 H2 H3) | (pr0_beta u v1 v2 H2 t0 t3 H3) \Rightarrow (\lambda (H4: (eq T (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) t)).\lambda (H5: (eq T (THead (Bind Abbr) v2 t3) t1)).eq_ind T (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (\lambda (_: T).(eq T (THead (Bind Abbr) v2 t3) t1) \to (pr0 v1 v2) \to (pr0 t0 t3) \to ex2 T (\lambda (t2: T).pr0 t1 t2) (\lambda (t1: T).pr0 t2 t1)) (\lambda (H6: (eq T (THead (Bind Abbr) v2 t3) t1)).eq_ind T (THead (Bind Abbr) v2 t3) (\lambda (t: T).(pr0 v1 v2) \to (pr0 t0 t3) \to ex2 T (\lambda (t1: T).pr0 t t1) (\lambda (t1: T).pr0 t2 t1)) (\lambda (H7: (pr0 v1 v2)).\lambda (H8: (pr0 t0 t3)).let H9 \def match H1 return (\lambda (t0: T).\lambda (t1: T).(eq T t0 t) \to (eq T t1 t2) \to ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t3) t) (\lambda (t: T).pr0 t2 t)) with [(pr0_refl t4) \Rightarrow (\lambda (H6: (eq T t4 t)).\lambda (H9: (eq T t4 t2)).eq_ind T t (\lambda (t: T).(eq T t t2) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H10: (eq T t t2)).eq_ind T t2 (\lambda (_: T).ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 t2 t0)) (let H0 \def eq_ind_r T t (\lambda (t: T).eq T t t2) H10 (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) H4 in eq_ind T (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (\lambda (t: T).ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 t t0)) (let H1 \def eq_ind_r T t (\lambda (t: T).eq T t4 t) H6 (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) H4 in let H2 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) H4 in ex_intro2 T (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t3) t) (\lambda (t: T).pr0 (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) t) (THead (Bind Abbr) v2 t3) (pr0_refl (THead (Bind Abbr) v2 t3)) (pr0_beta u v1 v2 H7 t0 t3 H8)) t2 H0) t (sym_eq T t t2 H10)) t4 (sym_eq T t4 t H6) H9) | (pr0_comp u1 u2 H6 t4 t5 H7 k) \Rightarrow (\lambda (H9: (eq T (THead k u1 t4) t)).\lambda (H10: (eq T (THead k u2 t5) t2)).eq_ind T (THead k u1 t4) (\lambda (_: T).(eq T (THead k u2 t5) t2) \to (pr0 u1 u2) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H11: (eq T (THead k u2 t5) t2)).eq_ind T (THead k u2 t5) (\lambda (t: T).(pr0 u1 u2) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 t t0)) (\lambda (H12: (pr0 u1 u2)).\lambda (H13: (pr0 t4 t5)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) t) H4 (THead k u1 t4) H9 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead k u1 t4)) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 (THead k u2 t5) t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (THead k u1 t4))).let H1 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow (THead (Bind Abst) u t0) | (TLRef _) \Rightarrow (THead (Bind Abst) u t0) | (THead _ _ t) \Rightarrow t]) (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (THead k u1 t4) H0 in (let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow v1 | (TLRef _) \Rightarrow v1 | (THead _ t _) \Rightarrow t]) (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (THead k u1 t4) H0 in (let H3 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow (Flat Appl) | (TLRef _) \Rightarrow (Flat Appl) | (THead k _ _) \Rightarrow k]) (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (THead k u1 t4) H0 in eq_ind K (Flat Appl) (\lambda (k: K).(eq T v1 u1) \to (eq T (THead (Bind Abst) u t0) t4) \to ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t3) t) (\lambda (t: T).pr0 (THead k u2 t5) t)) (\lambda (H10: (eq T v1 u1)).eq_ind T u1 (\lambda (_: T).(eq T (THead (Bind Abst) u t0) t4) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t5) t0)) (\lambda (H11: (eq T (THead (Bind Abst) u t0) t4)).eq_ind T (THead (Bind Abst) u t0) (\lambda (_: T).ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t5) t0)) (let H4 \def eq_ind_r K k (\lambda (k: K).eq T (THead k u1 t4) t) H9 (Flat Appl) H3 in let H5 \def eq_ind_r T t4 (\lambda (t: T).pr0 t t5) H13 (THead (Bind Abst) u t0) H11 in let H6 \def match H5 return (\lambda (t: T).\lambda (t1: T).(eq T t (THead (Bind Abst) u t0)) \to (eq T t1 t5) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t5) t0)) with [(pr0_refl t2) \Rightarrow (\lambda (H0: (eq T t2 (THead (Bind Abst) u t0))).\lambda (H1: (eq T t2 t5)).eq_ind T (THead (Bind Abst) u t0) (\lambda (t: T).(eq T t t5) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t5) t0)) (\lambda (H2: (eq T (THead (Bind Abst) u t0) t5)).eq_ind T (THead (Bind Abst) u t0) (\lambda (t: T).ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t) t0)) (let H3 \def eq_ind_r T t4 (\lambda (t0: T).eq T (THead (Flat Appl) u1 t0) t) H4 (THead (Bind Abst) u t0) H11 in let H4 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Flat Appl) u1 (THead (Bind Abst) u t0)) H3 in let H5 \def eq_ind T v1 (\lambda (t: T).pr0 t v2) H7 u1 H10 in ex2_ind T (\lambda (t: T).pr0 v2 t) (\lambda (t: T).pr0 u2 t) (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t3) t) (\lambda (t: T).pr0 (THead (Flat Appl) u2 (THead (Bind Abst) u t0)) t)) (\lambda (x: T).\lambda (H6: (pr0 v2 x)).\lambda (H7: (pr0 u2 x)).ex_intro2 T (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t3) t) (\lambda (t: T).pr0 (THead (Flat Appl) u2 (THead (Bind Abst) u t0)) t) (THead (Bind Abbr) x t3) (pr0_comp v2 x H6 t3 t3 (pr0_refl t3) (Bind Abbr)) (pr0_beta u u2 x H7 t0 t3 H8)) (H4 u1 (tlt_head_sx (Flat Appl) u1 (THead (Bind Abst) u t0)) v2 H5 u2 H12)) t5 H2) t2 (sym_eq T t2 (THead (Bind Abst) u t0) H0) H1) | (pr0_comp u0 u3 H0 t2 t6 H1 k) \Rightarrow (\lambda (H5: (eq T (THead k u0 t2) (THead (Bind Abst) u t0))).\lambda (H13: (eq T (THead k u3 t6) t5)).(let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t2 | (TLRef _) \Rightarrow t2 | (THead _ _ t) \Rightarrow t]) (THead k u0 t2) (THead (Bind Abst) u t0) H5 in (let H3 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u0 | (TLRef _) \Rightarrow u0 | (THead _ t _) \Rightarrow t]) (THead k u0 t2) (THead (Bind Abst) u t0) H5 in (let H6 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k u0 t2) (THead (Bind Abst) u t0) H5 in eq_ind K (Bind Abst) (\lambda (k0: K).(eq T u0 u) \to (eq T t2 t0) \to (eq T (THead k0 u3 t6) t5) \to (pr0 u0 u3) \to (pr0 t2 t6) \to ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t3) t) (\lambda (t: T).pr0 (THead (Flat Appl) u2 t5) t)) (\lambda (H9: (eq T u0 u)).eq_ind T u (\lambda (t: T).(eq T t2 t0) \to (eq T (THead (Bind Abst) u3 t6) t5) \to (pr0 t u3) \to (pr0 t2 t6) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t5) t0)) (\lambda (H14: (eq T t2 t0)).eq_ind T t0 (\lambda (t: T).(eq T (THead (Bind Abst) u3 t6) t5) \to (pr0 u u3) \to (pr0 t t6) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t5) t0)) (\lambda (H15: (eq T (THead (Bind Abst) u3 t6) t5)).eq_ind T (THead (Bind Abst) u3 t6) (\lambda (t: T).(pr0 u u3) \to (pr0 t0 t6) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t) t0)) (\lambda (_: (pr0 u u3)).\lambda (H17: (pr0 t0 t6)).let H4 \def eq_ind_r T t4 (\lambda (t0: T).eq T (THead (Flat Appl) u1 t0) t) H4 (THead (Bind Abst) u t0) H11 in let H11 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Flat Appl) u1 (THead (Bind Abst) u t0)) H4 in let H7 \def eq_ind T v1 (\lambda (t: T).pr0 t v2) H7 u1 H10 in ex2_ind T (\lambda (t: T).pr0 v2 t) (\lambda (t: T).pr0 u2 t) (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t3) t) (\lambda (t: T).pr0 (THead (Flat Appl) u2 (THead (Bind Abst) u3 t6)) t)) (\lambda (x: T).\lambda (H10: (pr0 v2 x)).\lambda (H12: (pr0 u2 x)).ex2_ind T (\lambda (t: T).pr0 t6 t) (\lambda (t: T).pr0 t3 t) (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t3) t) (\lambda (t: T).pr0 (THead (Flat Appl) u2 (THead (Bind Abst) u3 t6)) t)) (\lambda (x0: T).\lambda (H8: (pr0 t6 x0)).\lambda (H18: (pr0 t3 x0)).ex_intro2 T (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t3) t) (\lambda (t: T).pr0 (THead (Flat Appl) u2 (THead (Bind Abst) u3 t6)) t) (THead (Bind Abbr) x x0) (pr0_comp v2 x H10 t3 x0 H18 (Bind Abbr)) (pr0_beta u3 u2 x H12 t6 x0 H8)) (H11 t0 (tlt_trans (THead (Bind Abst) u t0) t0 (THead (Flat Appl) u1 (THead (Bind Abst) u t0)) (tlt_head_dx (Bind Abst) u t0) (tlt_head_dx (Flat Appl) u1 (THead (Bind Abst) u t0))) t6 H17 t3 H8)) (H11 u1 (tlt_head_sx (Flat Appl) u1 (THead (Bind Abst) u t0)) v2 H7 u2 H12)) t5 H15) t2 (sym_eq T t2 t0 H14)) u0 (sym_eq T u0 u H9)) k (sym_eq K k (Bind Abst) H6)) H3) H2) H13 H0 H1) | (pr0_beta u0 v0 v3 H0 t2 t6 H1) \Rightarrow (\lambda (H4: (eq T (THead (Flat Appl) v0 (THead (Bind Abst) u0 t2)) (THead (Bind Abst) u t0))).\lambda (H11: (eq T (THead (Bind Abbr) v3 t6) t5)).(let H2 \def eq_ind T (THead (Flat Appl) v0 (THead (Bind Abst) u0 t2)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind Abst) u t0) H4 in False_ind ((eq T (THead (Bind Abbr) v3 t6) t5) \to (pr0 v0 v3) \to (pr0 t2 t6) \to ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t3) t) (\lambda (t: T).pr0 (THead (Flat Appl) u2 t5) t)) H2) H11 H0 H1) | (pr0_upsilon b H0 v0 v3 H1 u0 u3 H4 t2 t6 H11) \Rightarrow (\lambda (H12: (eq T (THead (Flat Appl) v0 (THead (Bind b) u0 t2)) (THead (Bind Abst) u t0))).\lambda (H13: (eq T (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v3) t6)) t5)).(let H2 \def eq_ind T (THead (Flat Appl) v0 (THead (Bind b) u0 t2)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind Abst) u t0) H12 in False_ind ((eq T (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v3) t6)) t5) \to (not (eq B b Abst)) \to (pr0 v0 v3) \to (pr0 u0 u3) \to (pr0 t2 t6) \to ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t3) t) (\lambda (t: T).pr0 (THead (Flat Appl) u2 t5) t)) H2) H13 H0 H1 H4 H11) | (pr0_delta u0 u3 H0 t2 t6 H1 w H4) \Rightarrow (\lambda (H11: (eq T (THead (Bind Abbr) u0 t2) (THead (Bind Abst) u t0))).\lambda (H12: (eq T (THead (Bind Abbr) u3 w) t5)).(let H2 \def eq_ind T (THead (Bind Abbr) u0 t2) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow True | Abst \Rightarrow False | Void \Rightarrow False]) | (Flat _) \Rightarrow False])]) I (THead (Bind Abst) u t0) H11 in False_ind ((eq T (THead (Bind Abbr) u3 w) t5) \to (pr0 u0 u3) \to (pr0 t2 t6) \to (subst0 O u3 t6 w) \to ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t3) t) (\lambda (t: T).pr0 (THead (Flat Appl) u2 t5) t)) H2) H12 H0 H1 H4) | (pr0_zeta b H0 t2 t6 H1 u0) \Rightarrow (\lambda (H4: (eq T (THead (Bind b) u0 (lift (S O) O t2)) (THead (Bind Abst) u t0))).\lambda (H11: (eq T t6 t5)).(let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x (S O)) O t2) | (TLRef _) \Rightarrow ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x (S O)) O t2) | (THead _ _ t) \Rightarrow t]) (THead (Bind b) u0 (lift (S O) O t2)) (THead (Bind Abst) u t0) H4 in (let H3 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u0 | (TLRef _) \Rightarrow u0 | (THead _ t _) \Rightarrow t]) (THead (Bind b) u0 (lift (S O) O t2)) (THead (Bind Abst) u t0) H4 in (let H5 \def f_equal T B (\lambda (e: T).match e return B with [(TSort _) \Rightarrow b | (TLRef _) \Rightarrow b | (THead k _ _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow b])]) (THead (Bind b) u0 (lift (S O) O t2)) (THead (Bind Abst) u t0) H4 in eq_ind B Abst (\lambda (b0: B).(eq T u0 u) \to (eq T (lift (S O) O t2) t0) \to (eq T t6 t5) \to (not (eq B b0 Abst)) \to (pr0 t2 t6) \to ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t3) t) (\lambda (t: T).pr0 (THead (Flat Appl) u2 t5) t)) (\lambda (H6: (eq T u0 u)).eq_ind T u (\lambda (_: T).(eq T (lift (S O) O t2) t0) \to (eq T t6 t5) \to (not (eq B Abst Abst)) \to (pr0 t2 t6) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t5) t0)) (\lambda (H12: (eq T (lift (S O) O t2) t0)).eq_ind T (lift (S O) O t2) (\lambda (_: T).(eq T t6 t5) \to (not (eq B Abst Abst)) \to (pr0 t2 t6) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t5) t0)) (\lambda (H7: (eq T t6 t5)).eq_ind T t5 (\lambda (t: T).(not (eq B Abst Abst)) \to (pr0 t2 t) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 (THead (Flat Appl) u2 t5) t0)) (\lambda (H13: (not (eq B Abst Abst))).\lambda (_: (pr0 t2 t5)).let H8 \def match (H13 (refl_equal B Abst)) return (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t3) t) (\lambda (t: T).pr0 (THead (Flat Appl) u2 t5) t)) with [] in H8) t6 (sym_eq T t6 t5 H7)) t0 H12) u0 (sym_eq T u0 u H6)) b (sym_eq B b Abst H5)) H3) H2) H11 H0 H1) | (pr0_epsilon t2 t6 H0 u0) \Rightarrow (\lambda (H1: (eq T (THead (Flat Cast) u0 t2) (THead (Bind Abst) u t0))).\lambda (H4: (eq T t6 t5)).(let H2 \def eq_ind T (THead (Flat Cast) u0 t2) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind Abst) u t0) H1 in False_ind ((eq T t6 t5) \to (pr0 t2 t6) \to ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t3) t) (\lambda (t: T).pr0 (THead (Flat Appl) u2 t5) t)) H2) H4 H0)] in H6 (refl_equal T (THead (Bind Abst) u t0)) (refl_equal T t5)) t4 H11) v1 (sym_eq T v1 u1 H10)) k H3) H2) H1)] in H1 (refl_equal T (THead k u1 t4))) t2 H11) t H9 H10 H6 H7) | (pr0_beta u0 v0 v3 H6 t4 t5 H7) \Rightarrow (\lambda (H9: (eq T (THead (Flat Appl) v0 (THead (Bind Abst) u0 t4)) t)).\lambda (H10: (eq T (THead (Bind Abbr) v3 t5) t2)).eq_ind T (THead (Flat Appl) v0 (THead (Bind Abst) u0 t4)) (\lambda (_: T).(eq T (THead (Bind Abbr) v3 t5) t2) \to (pr0 v0 v3) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H11: (eq T (THead (Bind Abbr) v3 t5) t2)).eq_ind T (THead (Bind Abbr) v3 t5) (\lambda (t: T).(pr0 v0 v3) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 t t0)) (\lambda (H12: (pr0 v0 v3)).\lambda (H13: (pr0 t4 t5)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) t) H4 (THead (Flat Appl) v0 (THead (Bind Abst) u0 t4)) H9 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead (Flat Appl) v0 (THead (Bind Abst) u0 t4))) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) v3 t5) t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (THead (Flat Appl) v0 (THead (Bind Abst) u0 t4)))).let H1 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow (match t return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t0) \Rightarrow t0])]) (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (THead (Flat Appl) v0 (THead (Bind Abst) u0 t4)) H0 in (let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u | (TLRef _) \Rightarrow u | (THead _ _ t) \Rightarrow (match t return T with [(TSort _) \Rightarrow u | (TLRef _) \Rightarrow u | (THead _ t0 _) \Rightarrow t0])]) (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (THead (Flat Appl) v0 (THead (Bind Abst) u0 t4)) H0 in (let H3 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow v1 | (TLRef _) \Rightarrow v1 | (THead _ t _) \Rightarrow t]) (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (THead (Flat Appl) v0 (THead (Bind Abst) u0 t4)) H0 in eq_ind T v0 (\lambda (_: T).(eq T u u0) \to (eq T t0 t4) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) v3 t5) t0)) (\lambda (H10: (eq T u u0)).eq_ind T u0 (\lambda (_: T).(eq T t0 t4) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) v3 t5) t0)) (\lambda (H11: (eq T t0 t4)).eq_ind T t4 (\lambda (_: T).ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) v3 t5) t0)) (let H4 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Flat Appl) v0 (THead (Bind Abst) u0 t4)) H9 in let H5 \def eq_ind T t0 (\lambda (t: T).pr0 t t3) H8 t4 H11 in let H6 \def eq_ind T v1 (\lambda (t: T).pr0 t v2) H7 v0 H3 in ex2_ind T (\lambda (t: T).pr0 v2 t) (\lambda (t: T).pr0 v3 t) (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t3) t) (\lambda (t: T).pr0 (THead (Bind Abbr) v3 t5) t)) (\lambda (x: T).\lambda (H7: (pr0 v2 x)).\lambda (H8: (pr0 v3 x)).ex2_ind T (\lambda (t: T).pr0 t3 t) (\lambda (t: T).pr0 t5 t) (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t3) t) (\lambda (t: T).pr0 (THead (Bind Abbr) v3 t5) t)) (\lambda (x0: T).\lambda (H9: (pr0 t3 x0)).\lambda (H12: (pr0 t5 x0)).ex_intro2 T (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t3) t) (\lambda (t: T).pr0 (THead (Bind Abbr) v3 t5) t) (THead (Bind Abbr) x x0) (pr0_comp v2 x H7 t3 x0 H9 (Bind Abbr)) (pr0_comp v3 x H8 t5 x0 H12 (Bind Abbr))) (H4 t4 (tlt_trans (THead (Bind Abst) u0 t4) t4 (THead (Flat Appl) v0 (THead (Bind Abst) u0 t4)) (tlt_head_dx (Bind Abst) u0 t4) (tlt_head_dx (Flat Appl) v0 (THead (Bind Abst) u0 t4))) t3 H5 t5 H13)) (H4 v0 (tlt_head_sx (Flat Appl) v0 (THead (Bind Abst) u0 t4)) v2 H6 v3 H12)) t0 (sym_eq T t0 t4 H11)) u (sym_eq T u u0 H10)) v1 (sym_eq T v1 v0 H3)) H2) H1)] in H1 (refl_equal T (THead (Flat Appl) v0 (THead (Bind Abst) u0 t4)))) t2 H11) t H9 H10 H6 H7) | (pr0_upsilon b H6 v0 v3 H7 u1 u2 H8 t4 t5 H9) \Rightarrow (\lambda (H10: (eq T (THead (Flat Appl) v0 (THead (Bind b) u1 t4)) t)).\lambda (H11: (eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v3) t5)) t2)).eq_ind T (THead (Flat Appl) v0 (THead (Bind b) u1 t4)) (\lambda (_: T).(eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v3) t5)) t2) \to (not (eq B b Abst)) \to (pr0 v0 v3) \to (pr0 u1 u2) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H12: (eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v3) t5)) t2)).eq_ind T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v3) t5)) (\lambda (t: T).(not (eq B b Abst)) \to (pr0 v0 v3) \to (pr0 u1 u2) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 t t0)) (\lambda (H13: (not (eq B b Abst))).\lambda (_: (pr0 v0 v3)).\lambda (_: (pr0 u1 u2)).\lambda (_: (pr0 t4 t5)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) t) H4 (THead (Flat Appl) v0 (THead (Bind b) u1 t4)) H10 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead (Flat Appl) v0 (THead (Bind b) u1 t4))) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v3) t5)) t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (THead (Flat Appl) v0 (THead (Bind b) u1 t4)))).let H1 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow (match t return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t0) \Rightarrow t0])]) (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (THead (Flat Appl) v0 (THead (Bind b) u1 t4)) H0 in (let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u | (TLRef _) \Rightarrow u | (THead _ _ t) \Rightarrow (match t return T with [(TSort _) \Rightarrow u | (TLRef _) \Rightarrow u | (THead _ t0 _) \Rightarrow t0])]) (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (THead (Flat Appl) v0 (THead (Bind b) u1 t4)) H0 in (let H3 \def f_equal T B (\lambda (e: T).match e return B with [(TSort _) \Rightarrow Abst | (TLRef _) \Rightarrow Abst | (THead _ _ t) \Rightarrow (match t return B with [(TSort _) \Rightarrow Abst | (TLRef _) \Rightarrow Abst | (THead k _ _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abst])])]) (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (THead (Flat Appl) v0 (THead (Bind b) u1 t4)) H0 in (let H4 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow v1 | (TLRef _) \Rightarrow v1 | (THead _ t _) \Rightarrow t]) (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (THead (Flat Appl) v0 (THead (Bind b) u1 t4)) H0 in eq_ind T v0 (\lambda (_: T).(eq B Abst b) \to (eq T u u1) \to (eq T t0 t4) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v3) t5)) t0)) (\lambda (H11: (eq B Abst b)).eq_ind B Abst (\lambda (b: B).(eq T u u1) \to (eq T t0 t4) \to ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t3) t) (\lambda (t: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v3) t5)) t)) (\lambda (H12: (eq T u u1)).eq_ind T u1 (\lambda (_: T).(eq T t0 t4) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind Abst) u2 (THead (Flat Appl) (lift (S O) O v3) t5)) t0)) (\lambda (H14: (eq T t0 t4)).eq_ind T t4 (\lambda (_: T).ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind Abst) u2 (THead (Flat Appl) (lift (S O) O v3) t5)) t0)) (let H5 \def eq_ind_r B b (\lambda (b: B).not (eq B b Abst)) H13 Abst H11 in let H6 \def match (H5 (refl_equal B Abst)) return (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t3) t) (\lambda (t: T).pr0 (THead (Bind Abst) u2 (THead (Flat Appl) (lift (S O) O v3) t5)) t)) with [] in H6) t0 (sym_eq T t0 t4 H14)) u (sym_eq T u u1 H12)) b H11) v1 (sym_eq T v1 v0 H4)) H3) H2) H1)] in H1 (refl_equal T (THead (Flat Appl) v0 (THead (Bind b) u1 t4)))) t2 H12) t H10 H11 H6 H7 H8 H9) | (pr0_delta u1 u2 H6 t4 t5 H7 w H8) \Rightarrow (\lambda (H9: (eq T (THead (Bind Abbr) u1 t4) t)).\lambda (H10: (eq T (THead (Bind Abbr) u2 w) t2)).eq_ind T (THead (Bind Abbr) u1 t4) (\lambda (_: T).(eq T (THead (Bind Abbr) u2 w) t2) \to (pr0 u1 u2) \to (pr0 t4 t5) \to (subst0 O u2 t5 w) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H11: (eq T (THead (Bind Abbr) u2 w) t2)).eq_ind T (THead (Bind Abbr) u2 w) (\lambda (t: T).(pr0 u1 u2) \to (pr0 t4 t5) \to (subst0 O u2 t5 w) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 t t0)) (\lambda (_: (pr0 u1 u2)).\lambda (_: (pr0 t4 t5)).\lambda (_: (subst0 O u2 t5 w)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) t) H4 (THead (Bind Abbr) u1 t4) H9 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead (Bind Abbr) u1 t4)) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (THead (Bind Abbr) u1 t4))).let H1 \def eq_ind T (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind Abbr) u1 t4) H0 in False_ind (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t3) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t)) H1)] in H1 (refl_equal T (THead (Bind Abbr) u1 t4))) t2 H11) t H9 H10 H6 H7 H8) | (pr0_zeta b H6 t4 t5 H7 u0) \Rightarrow (\lambda (H8: (eq T (THead (Bind b) u0 (lift (S O) O t4)) t)).\lambda (H9: (eq T t5 t2)).eq_ind T (THead (Bind b) u0 (lift (S O) O t4)) (\lambda (_: T).(eq T t5 t2) \to (not (eq B b Abst)) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H10: (eq T t5 t2)).eq_ind T t2 (\lambda (t: T).(not (eq B b Abst)) \to (pr0 t4 t) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (_: (not (eq B b Abst))).\lambda (_: (pr0 t4 t2)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) t) H4 (THead (Bind b) u0 (lift (S O) O t4)) H8 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead (Bind b) u0 (lift (S O) O t4))) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 t2 t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (THead (Bind b) u0 (lift (S O) O t4)))).let H1 \def eq_ind T (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind b) u0 (lift (S O) O t4)) H0 in False_ind (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t3) t) (\lambda (t: T).pr0 t2 t)) H1)] in H1 (refl_equal T (THead (Bind b) u0 (lift (S O) O t4)))) t5 (sym_eq T t5 t2 H10)) t H8 H9 H6 H7) | (pr0_epsilon t4 t5 H6 u0) \Rightarrow (\lambda (H7: (eq T (THead (Flat Cast) u0 t4) t)).\lambda (H8: (eq T t5 t2)).eq_ind T (THead (Flat Cast) u0 t4) (\lambda (_: T).(eq T t5 t2) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H9: (eq T t5 t2)).eq_ind T t2 (\lambda (t: T).(pr0 t4 t) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (_: (pr0 t4 t2)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) t) H4 (THead (Flat Cast) u0 t4) H7 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead (Flat Cast) u0 t4)) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t3) t0) (\lambda (t0: T).pr0 t2 t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (THead (Flat Cast) u0 t4))).let H1 \def eq_ind T (THead (Flat Appl) v1 (THead (Bind Abst) u t0)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat f) \Rightarrow (match f return (Prop) with [Appl \Rightarrow True | Cast \Rightarrow False])])]) I (THead (Flat Cast) u0 t4) H0 in False_ind (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t3) t) (\lambda (t: T).pr0 t2 t)) H1)] in H1 (refl_equal T (THead (Flat Cast) u0 t4))) t5 (sym_eq T t5 t2 H9)) t H7 H8 H6)] in H9 (refl_equal T t) (refl_equal T t2)) t1 H6) t H4 H5 H2 H3) | (pr0_upsilon b H2 v1 v2 H3 u1 u2 H4 t0 t3 H5) \Rightarrow (\lambda (H6: (eq T (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) t)).\lambda (H7: (eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t1)).eq_ind T (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) (\lambda (_: T).(eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t1) \to (not (eq B b Abst)) \to (pr0 v1 v2) \to (pr0 u1 u2) \to (pr0 t0 t3) \to ex2 T (\lambda (t2: T).pr0 t1 t2) (\lambda (t1: T).pr0 t2 t1)) (\lambda (H8: (eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t1)).eq_ind T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) (\lambda (t: T).(not (eq B b Abst)) \to (pr0 v1 v2) \to (pr0 u1 u2) \to (pr0 t0 t3) \to ex2 T (\lambda (t1: T).pr0 t t1) (\lambda (t1: T).pr0 t2 t1)) (\lambda (H9: (not (eq B b Abst))).\lambda (H10: (pr0 v1 v2)).\lambda (H11: (pr0 u1 u2)).\lambda (H12: (pr0 t0 t3)).let H13 \def match H1 return (\lambda (t0: T).\lambda (t1: T).(eq T t0 t) \to (eq T t1 t2) \to ex2 T (\lambda (t: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t) (\lambda (t: T).pr0 t2 t)) with [(pr0_refl t4) \Rightarrow (\lambda (H8: (eq T t4 t)).\lambda (H13: (eq T t4 t2)).eq_ind T t (\lambda (t: T).(eq T t t2) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H14: (eq T t t2)).eq_ind T t2 (\lambda (_: T).ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 t2 t0)) (let H0 \def eq_ind_r T t (\lambda (t: T).eq T t t2) H14 (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) H6 in eq_ind T (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) (\lambda (t: T).ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 t t0)) (let H1 \def eq_ind_r T t (\lambda (t: T).eq T t4 t) H8 (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) H6 in let H2 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) H6 in ex2_sym T (pr0 (THead (Flat Appl) v1 (THead (Bind b) u1 t0))) (pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3))) (pr0_confluence.__pr0_cong_upsilon_refl b H9 u1 u2 H11 t0 t3 H12 v1 v2 v2 H10 (pr0_refl v2))) t2 H0) t (sym_eq T t t2 H14)) t4 (sym_eq T t4 t H8) H13) | (pr0_comp u0 u3 H8 t4 t5 H9 k) \Rightarrow (\lambda (H13: (eq T (THead k u0 t4) t)).\lambda (H14: (eq T (THead k u3 t5) t2)).eq_ind T (THead k u0 t4) (\lambda (_: T).(eq T (THead k u3 t5) t2) \to (pr0 u0 u3) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H15: (eq T (THead k u3 t5) t2)).eq_ind T (THead k u3 t5) (\lambda (t: T).(pr0 u0 u3) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 t t0)) (\lambda (H16: (pr0 u0 u3)).\lambda (H17: (pr0 t4 t5)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) t) H6 (THead k u0 t4) H13 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead k u0 t4)) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 (THead k u3 t5) t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) (THead k u0 t4))).let H1 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow (THead (Bind b) u1 t0) | (TLRef _) \Rightarrow (THead (Bind b) u1 t0) | (THead _ _ t) \Rightarrow t]) (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) (THead k u0 t4) H0 in (let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow v1 | (TLRef _) \Rightarrow v1 | (THead _ t _) \Rightarrow t]) (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) (THead k u0 t4) H0 in (let H3 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow (Flat Appl) | (TLRef _) \Rightarrow (Flat Appl) | (THead k _ _) \Rightarrow k]) (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) (THead k u0 t4) H0 in eq_ind K (Flat Appl) (\lambda (k: K).(eq T v1 u0) \to (eq T (THead (Bind b) u1 t0) t4) \to ex2 T (\lambda (t: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t) (\lambda (t: T).pr0 (THead k u3 t5) t)) (\lambda (H14: (eq T v1 u0)).eq_ind T u0 (\lambda (_: T).(eq T (THead (Bind b) u1 t0) t4) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 (THead (Flat Appl) u3 t5) t0)) (\lambda (H15: (eq T (THead (Bind b) u1 t0) t4)).eq_ind T (THead (Bind b) u1 t0) (\lambda (_: T).ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 (THead (Flat Appl) u3 t5) t0)) (let H4 \def eq_ind_r K k (\lambda (k: K).eq T (THead k u0 t4) t) H13 (Flat Appl) H3 in let H5 \def eq_ind_r T t4 (\lambda (t: T).pr0 t t5) H17 (THead (Bind b) u1 t0) H15 in let H6 \def match H5 return (\lambda (t: T).\lambda (t1: T).(eq T t (THead (Bind b) u1 t0)) \to (eq T t1 t5) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 (THead (Flat Appl) u3 t5) t0)) with [(pr0_refl t2) \Rightarrow (\lambda (H0: (eq T t2 (THead (Bind b) u1 t0))).\lambda (H1: (eq T t2 t5)).eq_ind T (THead (Bind b) u1 t0) (\lambda (t: T).(eq T t t5) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 (THead (Flat Appl) u3 t5) t0)) (\lambda (H2: (eq T (THead (Bind b) u1 t0) t5)).eq_ind T (THead (Bind b) u1 t0) (\lambda (t: T).ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 (THead (Flat Appl) u3 t) t0)) (let H3 \def eq_ind_r T t4 (\lambda (t0: T).eq T (THead (Flat Appl) u0 t0) t) H4 (THead (Bind b) u1 t0) H15 in let H4 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Flat Appl) u0 (THead (Bind b) u1 t0)) H3 in let H5 \def eq_ind T v1 (\lambda (t: T).pr0 t v2) H10 u0 H14 in ex2_ind T (\lambda (t: T).pr0 v2 t) (\lambda (t: T).pr0 u3 t) (ex2 T (\lambda (t: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t) (\lambda (t: T).pr0 (THead (Flat Appl) u3 (THead (Bind b) u1 t0)) t)) (\lambda (x: T).\lambda (H6: (pr0 v2 x)).\lambda (H7: (pr0 u3 x)).ex2_sym T (pr0 (THead (Flat Appl) u3 (THead (Bind b) u1 t0))) (pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3))) (pr0_confluence.__pr0_cong_upsilon_refl b H9 u1 u2 H11 t0 t3 H12 u3 v2 x H7 H6)) (H4 u0 (tlt_head_sx (Flat Appl) u0 (THead (Bind b) u1 t0)) v2 H5 u3 H16)) t5 H2) t2 (sym_eq T t2 (THead (Bind b) u1 t0) H0) H1) | (pr0_comp u4 u5 H0 t2 t6 H1 k) \Rightarrow (\lambda (H6: (eq T (THead k u4 t2) (THead (Bind b) u1 t0))).\lambda (H13: (eq T (THead k u5 t6) t5)).(let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t2 | (TLRef _) \Rightarrow t2 | (THead _ _ t) \Rightarrow t]) (THead k u4 t2) (THead (Bind b) u1 t0) H6 in (let H3 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u4 | (TLRef _) \Rightarrow u4 | (THead _ t _) \Rightarrow t]) (THead k u4 t2) (THead (Bind b) u1 t0) H6 in (let H5 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k u4 t2) (THead (Bind b) u1 t0) H6 in eq_ind K (Bind b) (\lambda (k0: K).(eq T u4 u1) \to (eq T t2 t0) \to (eq T (THead k0 u5 t6) t5) \to (pr0 u4 u5) \to (pr0 t2 t6) \to ex2 T (\lambda (t: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t) (\lambda (t: T).pr0 (THead (Flat Appl) u3 t5) t)) (\lambda (H7: (eq T u4 u1)).eq_ind T u1 (\lambda (t: T).(eq T t2 t0) \to (eq T (THead (Bind b) u5 t6) t5) \to (pr0 t u5) \to (pr0 t2 t6) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 (THead (Flat Appl) u3 t5) t0)) (\lambda (H17: (eq T t2 t0)).eq_ind T t0 (\lambda (t: T).(eq T (THead (Bind b) u5 t6) t5) \to (pr0 u1 u5) \to (pr0 t t6) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 (THead (Flat Appl) u3 t5) t0)) (\lambda (H8: (eq T (THead (Bind b) u5 t6) t5)).eq_ind T (THead (Bind b) u5 t6) (\lambda (t: T).(pr0 u1 u5) \to (pr0 t0 t6) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 (THead (Flat Appl) u3 t) t0)) (\lambda (H18: (pr0 u1 u5)).\lambda (H19: (pr0 t0 t6)).let H15 \def eq_ind_r T t4 (\lambda (t0: T).eq T (THead (Flat Appl) u0 t0) t) H4 (THead (Bind b) u1 t0) H15 in let H20 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Flat Appl) u0 (THead (Bind b) u1 t0)) H15 in let H4 \def eq_ind T v1 (\lambda (t: T).pr0 t v2) H10 u0 H14 in ex2_ind T (\lambda (t: T).pr0 v2 t) (\lambda (t: T).pr0 u3 t) (ex2 T (\lambda (t: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t) (\lambda (t: T).pr0 (THead (Flat Appl) u3 (THead (Bind b) u5 t6)) t)) (\lambda (x: T).\lambda (H10: (pr0 v2 x)).\lambda (H14: (pr0 u3 x)).ex2_ind T (\lambda (t: T).pr0 t6 t) (\lambda (t: T).pr0 t3 t) (ex2 T (\lambda (t: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t) (\lambda (t: T).pr0 (THead (Flat Appl) u3 (THead (Bind b) u5 t6)) t)) (\lambda (x0: T).\lambda (H12: (pr0 t6 x0)).\lambda (H16: (pr0 t3 x0)).ex2_ind T (\lambda (t: T).pr0 u5 t) (\lambda (t: T).pr0 u2 t) (ex2 T (\lambda (t: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t) (\lambda (t: T).pr0 (THead (Flat Appl) u3 (THead (Bind b) u5 t6)) t)) (\lambda (x1: T).\lambda (H11: (pr0 u5 x1)).\lambda (H21: (pr0 u2 x1)).ex2_sym T (pr0 (THead (Flat Appl) u3 (THead (Bind b) u5 t6))) (pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3))) (pr0_confluence.__pr0_cong_upsilon_cong b H9 u3 v2 x H14 H10 t6 t3 x0 H12 H16 u5 u2 x1 H11 H21)) (H20 u1 (tlt_trans (THead (Bind b) u1 t0) u1 (THead (Flat Appl) u0 (THead (Bind b) u1 t0)) (tlt_head_sx (Bind b) u1 t0) (tlt_head_dx (Flat Appl) u0 (THead (Bind b) u1 t0))) u5 H18 u2 H11)) (H20 t0 (tlt_trans (THead (Bind b) u1 t0) t0 (THead (Flat Appl) u0 (THead (Bind b) u1 t0)) (tlt_head_dx (Bind b) u1 t0) (tlt_head_dx (Flat Appl) u0 (THead (Bind b) u1 t0))) t6 H19 t3 H12)) (H20 u0 (tlt_head_sx (Flat Appl) u0 (THead (Bind b) u1 t0)) v2 H4 u3 H16)) t5 H8) t2 (sym_eq T t2 t0 H17)) u4 (sym_eq T u4 u1 H7)) k (sym_eq K k (Bind b) H5)) H3) H2) H13 H0 H1) | (pr0_beta u v0 v3 H0 t2 t6 H1) \Rightarrow (\lambda (H6: (eq T (THead (Flat Appl) v0 (THead (Bind Abst) u t2)) (THead (Bind b) u1 t0))).\lambda (H13: (eq T (THead (Bind Abbr) v3 t6) t5)).(let H2 \def eq_ind T (THead (Flat Appl) v0 (THead (Bind Abst) u t2)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind b) u1 t0) H6 in False_ind ((eq T (THead (Bind Abbr) v3 t6) t5) \to (pr0 v0 v3) \to (pr0 t2 t6) \to ex2 T (\lambda (t: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t) (\lambda (t: T).pr0 (THead (Flat Appl) u3 t5) t)) H2) H13 H0 H1) | (pr0_upsilon b0 H0 v0 v3 H1 u4 u5 H6 t2 t6 H13) \Rightarrow (\lambda (H14: (eq T (THead (Flat Appl) v0 (THead (Bind b0) u4 t2)) (THead (Bind b) u1 t0))).\lambda (H15: (eq T (THead (Bind b0) u5 (THead (Flat Appl) (lift (S O) O v3) t6)) t5)).(let H2 \def eq_ind T (THead (Flat Appl) v0 (THead (Bind b0) u4 t2)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind b) u1 t0) H14 in False_ind ((eq T (THead (Bind b0) u5 (THead (Flat Appl) (lift (S O) O v3) t6)) t5) \to (not (eq B b0 Abst)) \to (pr0 v0 v3) \to (pr0 u4 u5) \to (pr0 t2 t6) \to ex2 T (\lambda (t: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t) (\lambda (t: T).pr0 (THead (Flat Appl) u3 t5) t)) H2) H15 H0 H1 H6 H13) | (pr0_delta u4 u5 H0 t2 t6 H1 w H6) \Rightarrow (\lambda (H13: (eq T (THead (Bind Abbr) u4 t2) (THead (Bind b) u1 t0))).\lambda (H17: (eq T (THead (Bind Abbr) u5 w) t5)).(let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t2 | (TLRef _) \Rightarrow t2 | (THead _ _ t) \Rightarrow t]) (THead (Bind Abbr) u4 t2) (THead (Bind b) u1 t0) H13 in (let H3 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u4 | (TLRef _) \Rightarrow u4 | (THead _ t _) \Rightarrow t]) (THead (Bind Abbr) u4 t2) (THead (Bind b) u1 t0) H13 in (let H5 \def f_equal T B (\lambda (e: T).match e return B with [(TSort _) \Rightarrow Abbr | (TLRef _) \Rightarrow Abbr | (THead k _ _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (THead (Bind Abbr) u4 t2) (THead (Bind b) u1 t0) H13 in eq_ind B Abbr (\lambda (b: B).(eq T u4 u1) \to (eq T t2 t0) \to (eq T (THead (Bind Abbr) u5 w) t5) \to (pr0 u4 u5) \to (pr0 t2 t6) \to (subst0 O u5 t6 w) \to ex2 T (\lambda (t: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t) (\lambda (t: T).pr0 (THead (Flat Appl) u3 t5) t)) (\lambda (H7: (eq T u4 u1)).eq_ind T u1 (\lambda (t: T).(eq T t2 t0) \to (eq T (THead (Bind Abbr) u5 w) t5) \to (pr0 t u5) \to (pr0 t2 t6) \to (subst0 O u5 t6 w) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 (THead (Flat Appl) u3 t5) t0)) (\lambda (H18: (eq T t2 t0)).eq_ind T t0 (\lambda (t: T).(eq T (THead (Bind Abbr) u5 w) t5) \to (pr0 u1 u5) \to (pr0 t t6) \to (subst0 O u5 t6 w) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 (THead (Flat Appl) u3 t5) t0)) (\lambda (H19: (eq T (THead (Bind Abbr) u5 w) t5)).eq_ind T (THead (Bind Abbr) u5 w) (\lambda (t: T).(pr0 u1 u5) \to (pr0 t0 t6) \to (subst0 O u5 t6 w) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 (THead (Flat Appl) u3 t) t0)) (\lambda (H20: (pr0 u1 u5)).\lambda (H21: (pr0 t0 t6)).\lambda (H22: (subst0 O u5 t6 w)).let H15 \def eq_ind_r B b (\lambda (b: B).eq T (THead (Bind b) u1 t0) t4) H15 Abbr H5 in let H9 \def eq_ind_r B b (\lambda (b: B).not (eq B b Abst)) H9 Abbr H5 in let H23 \def eq_ind_r B b (\lambda (b: B).eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t1) H8 Abbr H5 in let H4 \def eq_ind_r T t4 (\lambda (t0: T).eq T (THead (Flat Appl) u0 t0) t) H4 (THead (Bind Abbr) u1 t0) H15 in let H8 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Flat Appl) u0 (THead (Bind Abbr) u1 t0)) H4 in let H10 \def eq_ind T v1 (\lambda (t: T).pr0 t v2) H10 u0 H14 in ex2_ind T (\lambda (t: T).pr0 v2 t) (\lambda (t: T).pr0 u3 t) (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t) (\lambda (t: T).pr0 (THead (Flat Appl) u3 (THead (Bind Abbr) u5 w)) t)) (\lambda (x: T).\lambda (H14: (pr0 v2 x)).\lambda (H16: (pr0 u3 x)).ex2_ind T (\lambda (t: T).pr0 t6 t) (\lambda (t: T).pr0 t3 t) (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t) (\lambda (t: T).pr0 (THead (Flat Appl) u3 (THead (Bind Abbr) u5 w)) t)) (\lambda (x0: T).\lambda (H12: (pr0 t6 x0)).\lambda (H24: (pr0 t3 x0)).ex2_ind T (\lambda (t: T).pr0 u5 t) (\lambda (t: T).pr0 u2 t) (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t) (\lambda (t: T).pr0 (THead (Flat Appl) u3 (THead (Bind Abbr) u5 w)) t)) (\lambda (x1: T).\lambda (H11: (pr0 u5 x1)).\lambda (H25: (pr0 u2 x1)).ex2_sym T (pr0 (THead (Flat Appl) u3 (THead (Bind Abbr) u5 w))) (pr0 (THead (Bind Abbr) u2 (THead (Flat Appl) (lift (S O) O v2) t3))) (pr0_confluence.__pr0_cong_upsilon_delta H9 u5 t6 w H22 u3 v2 x H16 H14 t3 x0 H12 H24 u2 x1 H11 H25)) (H8 u1 (tlt_trans (THead (Bind Abbr) u1 t0) u1 (THead (Flat Appl) u0 (THead (Bind Abbr) u1 t0)) (tlt_head_sx (Bind Abbr) u1 t0) (tlt_head_dx (Flat Appl) u0 (THead (Bind Abbr) u1 t0))) u5 H20 u2 H11)) (H8 t0 (tlt_trans (THead (Bind Abbr) u1 t0) t0 (THead (Flat Appl) u0 (THead (Bind Abbr) u1 t0)) (tlt_head_dx (Bind Abbr) u1 t0) (tlt_head_dx (Flat Appl) u0 (THead (Bind Abbr) u1 t0))) t6 H21 t3 H12)) (H8 u0 (tlt_head_sx (Flat Appl) u0 (THead (Bind Abbr) u1 t0)) v2 H10 u3 H16)) t5 H19) t2 (sym_eq T t2 t0 H18)) u4 (sym_eq T u4 u1 H7)) b H5) H3) H2) H17 H0 H1 H6) | (pr0_zeta b0 H0 t2 t6 H1 u) \Rightarrow (\lambda (H6: (eq T (THead (Bind b0) u (lift (S O) O t2)) (THead (Bind b) u1 t0))).\lambda (H13: (eq T t6 t5)).(let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x (S O)) O t2) | (TLRef _) \Rightarrow ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x (S O)) O t2) | (THead _ _ t) \Rightarrow t]) (THead (Bind b0) u (lift (S O) O t2)) (THead (Bind b) u1 t0) H6 in (let H3 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u | (TLRef _) \Rightarrow u | (THead _ t _) \Rightarrow t]) (THead (Bind b0) u (lift (S O) O t2)) (THead (Bind b) u1 t0) H6 in (let H5 \def f_equal T B (\lambda (e: T).match e return B with [(TSort _) \Rightarrow b0 | (TLRef _) \Rightarrow b0 | (THead k _ _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow b0])]) (THead (Bind b0) u (lift (S O) O t2)) (THead (Bind b) u1 t0) H6 in eq_ind B b (\lambda (b1: B).(eq T u u1) \to (eq T (lift (S O) O t2) t0) \to (eq T t6 t5) \to (not (eq B b1 Abst)) \to (pr0 t2 t6) \to ex2 T (\lambda (t: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t) (\lambda (t: T).pr0 (THead (Flat Appl) u3 t5) t)) (\lambda (H7: (eq T u u1)).eq_ind T u1 (\lambda (_: T).(eq T (lift (S O) O t2) t0) \to (eq T t6 t5) \to (not (eq B b Abst)) \to (pr0 t2 t6) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 (THead (Flat Appl) u3 t5) t0)) (\lambda (H17: (eq T (lift (S O) O t2) t0)).eq_ind T (lift (S O) O t2) (\lambda (_: T).(eq T t6 t5) \to (not (eq B b Abst)) \to (pr0 t2 t6) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 (THead (Flat Appl) u3 t5) t0)) (\lambda (H8: (eq T t6 t5)).eq_ind T t5 (\lambda (t: T).(not (eq B b Abst)) \to (pr0 t2 t) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 (THead (Flat Appl) u3 t5) t0)) (\lambda (H18: (not (eq B b Abst))).\lambda (H19: (pr0 t2 t5)).let H9 \def eq_ind_r T t0 (\lambda (t: T).eq T (THead (Bind b) u1 t) t4) H15 (lift (S O) O t2) H17 in let H15 \def eq_ind_r T t4 (\lambda (t0: T).eq T (THead (Flat Appl) u0 t0) t) H4 (THead (Bind b) u1 (lift (S O) O t2)) H9 in let H20 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Flat Appl) u0 (THead (Bind b) u1 (lift (S O) O t2))) H15 in let H12 \def eq_ind_r T t0 (\lambda (t: T).pr0 t t3) H12 (lift (S O) O t2) H17 in ex2_ind T (\lambda (t4: T).eq T t3 (lift (S O) O t4)) (\lambda (t3: T).pr0 t2 t3) (ex2 T (\lambda (t: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t) (\lambda (t: T).pr0 (THead (Flat Appl) u3 t5) t)) (\lambda (x: T).\lambda (H21: (eq T t3 (lift (S O) O x))).\lambda (H22: (pr0 t2 x)).eq_ind_r T (lift (S O) O x) (\lambda (t: T).ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t)) t0) (\lambda (t0: T).pr0 (THead (Flat Appl) u3 t5) t0)) (let H4 \def eq_ind T v1 (\lambda (t: T).pr0 t v2) H10 u0 H14 in ex2_ind T (\lambda (t: T).pr0 v2 t) (\lambda (t: T).pr0 u3 t) (ex2 T (\lambda (t: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) (lift (S O) O x))) t) (\lambda (t: T).pr0 (THead (Flat Appl) u3 t5) t)) (\lambda (x0: T).\lambda (H10: (pr0 v2 x0)).\lambda (H14: (pr0 u3 x0)).ex2_ind T (\lambda (t: T).pr0 x t) (\lambda (t: T).pr0 t5 t) (ex2 T (\lambda (t: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) (lift (S O) O x))) t) (\lambda (t: T).pr0 (THead (Flat Appl) u3 t5) t)) (\lambda (x1: T).\lambda (H16: (pr0 x x1)).\lambda (H23: (pr0 t5 x1)).ex2_sym T (pr0 (THead (Flat Appl) u3 t5)) (pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) (lift (S O) O x)))) (pr0_confluence.__pr0_cong_upsilon_zeta b H18 u1 u2 H11 u3 v2 x0 H14 H10 x t5 x1 H16 H23)) (H20 t2 (tlt_trans (THead (Bind b) u1 (lift (S O) O t2)) t2 (THead (Flat Appl) u0 (THead (Bind b) u1 (lift (S O) O t2))) (lift_tlt_dx (Bind b) u1 t2 (S O) O) (tlt_head_dx (Flat Appl) u0 (THead (Bind b) u1 (lift (S O) O t2)))) x H22 t5 H19)) (H20 u0 (tlt_head_sx (Flat Appl) u0 (THead (Bind b) u1 (lift (S O) O t2))) v2 H4 u3 H16)) t3 H21) (pr0_gen_lift t2 t3 (S O) O H12)) t6 (sym_eq T t6 t5 H8)) t0 H17) u (sym_eq T u u1 H7)) b0 (sym_eq B b0 b H5)) H3) H2) H13 H0 H1) | (pr0_epsilon t2 t6 H0 u) \Rightarrow (\lambda (H1: (eq T (THead (Flat Cast) u t2) (THead (Bind b) u1 t0))).\lambda (H6: (eq T t6 t5)).(let H2 \def eq_ind T (THead (Flat Cast) u t2) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind b) u1 t0) H1 in False_ind ((eq T t6 t5) \to (pr0 t2 t6) \to ex2 T (\lambda (t: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t) (\lambda (t: T).pr0 (THead (Flat Appl) u3 t5) t)) H2) H6 H0)] in H6 (refl_equal T (THead (Bind b) u1 t0)) (refl_equal T t5)) t4 H15) v1 (sym_eq T v1 u0 H14)) k H3) H2) H1)] in H1 (refl_equal T (THead k u0 t4))) t2 H15) t H13 H14 H8 H9) | (pr0_beta u v0 v3 H8 t4 t5 H9) \Rightarrow (\lambda (H10: (eq T (THead (Flat Appl) v0 (THead (Bind Abst) u t4)) t)).\lambda (H13: (eq T (THead (Bind Abbr) v3 t5) t2)).eq_ind T (THead (Flat Appl) v0 (THead (Bind Abst) u t4)) (\lambda (_: T).(eq T (THead (Bind Abbr) v3 t5) t2) \to (pr0 v0 v3) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H14: (eq T (THead (Bind Abbr) v3 t5) t2)).eq_ind T (THead (Bind Abbr) v3 t5) (\lambda (t: T).(pr0 v0 v3) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 t t0)) (\lambda (_: (pr0 v0 v3)).\lambda (_: (pr0 t4 t5)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) t) H6 (THead (Flat Appl) v0 (THead (Bind Abst) u t4)) H10 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead (Flat Appl) v0 (THead (Bind Abst) u t4))) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) v3 t5) t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) (THead (Flat Appl) v0 (THead (Bind Abst) u t4)))).let H1 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow (match t return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t0) \Rightarrow t0])]) (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) (THead (Flat Appl) v0 (THead (Bind Abst) u t4)) H0 in (let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u1 | (TLRef _) \Rightarrow u1 | (THead _ _ t) \Rightarrow (match t return T with [(TSort _) \Rightarrow u1 | (TLRef _) \Rightarrow u1 | (THead _ t0 _) \Rightarrow t0])]) (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) (THead (Flat Appl) v0 (THead (Bind Abst) u t4)) H0 in (let H3 \def f_equal T B (\lambda (e: T).match e return B with [(TSort _) \Rightarrow b | (TLRef _) \Rightarrow b | (THead _ _ t) \Rightarrow (match t return B with [(TSort _) \Rightarrow b | (TLRef _) \Rightarrow b | (THead k _ _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow b])])]) (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) (THead (Flat Appl) v0 (THead (Bind Abst) u t4)) H0 in (let H4 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow v1 | (TLRef _) \Rightarrow v1 | (THead _ t _) \Rightarrow t]) (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) (THead (Flat Appl) v0 (THead (Bind Abst) u t4)) H0 in eq_ind T v0 (\lambda (_: T).(eq B b Abst) \to (eq T u1 u) \to (eq T t0 t4) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) v3 t5) t0)) (\lambda (H13: (eq B b Abst)).eq_ind B Abst (\lambda (b: B).(eq T u1 u) \to (eq T t0 t4) \to ex2 T (\lambda (t: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t) (\lambda (t: T).pr0 (THead (Bind Abbr) v3 t5) t)) (\lambda (H14: (eq T u1 u)).eq_ind T u (\lambda (_: T).(eq T t0 t4) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abst) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) v3 t5) t0)) (\lambda (H15: (eq T t0 t4)).eq_ind T t4 (\lambda (_: T).ex2 T (\lambda (t0: T).pr0 (THead (Bind Abst) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) v3 t5) t0)) (let H5 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Flat Appl) v0 (THead (Bind Abst) u t4)) H10 in let H6 \def eq_ind T t0 (\lambda (t: T).pr0 t t3) H12 t4 H15 in let H7 \def eq_ind T u1 (\lambda (t: T).pr0 t u2) H11 u H14 in let H8 \def eq_ind B b (\lambda (b: B).not (eq B b Abst)) H9 Abst H13 in let H9 \def match (H8 (refl_equal B Abst)) return (ex2 T (\lambda (t: T).pr0 (THead (Bind Abst) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t) (\lambda (t: T).pr0 (THead (Bind Abbr) v3 t5) t)) with [] in H9) t0 (sym_eq T t0 t4 H15)) u1 (sym_eq T u1 u H14)) b (sym_eq B b Abst H13)) v1 (sym_eq T v1 v0 H4)) H3) H2) H1)] in H1 (refl_equal T (THead (Flat Appl) v0 (THead (Bind Abst) u t4)))) t2 H14) t H10 H13 H8 H9) | (pr0_upsilon b0 H8 v0 v3 H9 u0 u3 H10 t4 t5 H11) \Rightarrow (\lambda (H13: (eq T (THead (Flat Appl) v0 (THead (Bind b0) u0 t4)) t)).\lambda (H14: (eq T (THead (Bind b0) u3 (THead (Flat Appl) (lift (S O) O v3) t5)) t2)).eq_ind T (THead (Flat Appl) v0 (THead (Bind b0) u0 t4)) (\lambda (_: T).(eq T (THead (Bind b0) u3 (THead (Flat Appl) (lift (S O) O v3) t5)) t2) \to (not (eq B b0 Abst)) \to (pr0 v0 v3) \to (pr0 u0 u3) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H15: (eq T (THead (Bind b0) u3 (THead (Flat Appl) (lift (S O) O v3) t5)) t2)).eq_ind T (THead (Bind b0) u3 (THead (Flat Appl) (lift (S O) O v3) t5)) (\lambda (t: T).(not (eq B b0 Abst)) \to (pr0 v0 v3) \to (pr0 u0 u3) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 t t0)) (\lambda (_: (not (eq B b0 Abst))).\lambda (H17: (pr0 v0 v3)).\lambda (H18: (pr0 u0 u3)).\lambda (H19: (pr0 t4 t5)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) t) H6 (THead (Flat Appl) v0 (THead (Bind b0) u0 t4)) H13 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead (Flat Appl) v0 (THead (Bind b0) u0 t4))) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 (THead (Bind b0) u3 (THead (Flat Appl) (lift (S O) O v3) t5)) t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) (THead (Flat Appl) v0 (THead (Bind b0) u0 t4)))).let H1 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow (match t return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t0) \Rightarrow t0])]) (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) (THead (Flat Appl) v0 (THead (Bind b0) u0 t4)) H0 in (let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u1 | (TLRef _) \Rightarrow u1 | (THead _ _ t) \Rightarrow (match t return T with [(TSort _) \Rightarrow u1 | (TLRef _) \Rightarrow u1 | (THead _ t0 _) \Rightarrow t0])]) (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) (THead (Flat Appl) v0 (THead (Bind b0) u0 t4)) H0 in (let H3 \def f_equal T B (\lambda (e: T).match e return B with [(TSort _) \Rightarrow b | (TLRef _) \Rightarrow b | (THead _ _ t) \Rightarrow (match t return B with [(TSort _) \Rightarrow b | (TLRef _) \Rightarrow b | (THead k _ _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow b])])]) (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) (THead (Flat Appl) v0 (THead (Bind b0) u0 t4)) H0 in (let H4 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow v1 | (TLRef _) \Rightarrow v1 | (THead _ t _) \Rightarrow t]) (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) (THead (Flat Appl) v0 (THead (Bind b0) u0 t4)) H0 in eq_ind T v0 (\lambda (_: T).(eq B b b0) \to (eq T u1 u0) \to (eq T t0 t4) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 (THead (Bind b0) u3 (THead (Flat Appl) (lift (S O) O v3) t5)) t0)) (\lambda (H14: (eq B b b0)).eq_ind B b0 (\lambda (b: B).(eq T u1 u0) \to (eq T t0 t4) \to ex2 T (\lambda (t: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t) (\lambda (t: T).pr0 (THead (Bind b0) u3 (THead (Flat Appl) (lift (S O) O v3) t5)) t)) (\lambda (H15: (eq T u1 u0)).eq_ind T u0 (\lambda (_: T).(eq T t0 t4) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b0) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 (THead (Bind b0) u3 (THead (Flat Appl) (lift (S O) O v3) t5)) t0)) (\lambda (H16: (eq T t0 t4)).eq_ind T t4 (\lambda (_: T).ex2 T (\lambda (t0: T).pr0 (THead (Bind b0) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 (THead (Bind b0) u3 (THead (Flat Appl) (lift (S O) O v3) t5)) t0)) (let H5 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Flat Appl) v0 (THead (Bind b0) u0 t4)) H13 in let H6 \def eq_ind T t0 (\lambda (t: T).pr0 t t3) H12 t4 H16 in let H7 \def eq_ind T u1 (\lambda (t: T).pr0 t u2) H11 u0 H15 in let H8 \def eq_ind B b (\lambda (b: B).not (eq B b Abst)) H9 b0 H14 in let H9 \def eq_ind T v1 (\lambda (t: T).pr0 t v2) H10 v0 H4 in ex2_ind T (\lambda (t: T).pr0 v2 t) (\lambda (t: T).pr0 v3 t) (ex2 T (\lambda (t: T).pr0 (THead (Bind b0) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t) (\lambda (t: T).pr0 (THead (Bind b0) u3 (THead (Flat Appl) (lift (S O) O v3) t5)) t)) (\lambda (x: T).\lambda (H10: (pr0 v2 x)).\lambda (H11: (pr0 v3 x)).ex2_ind T (\lambda (t: T).pr0 u2 t) (\lambda (t: T).pr0 u3 t) (ex2 T (\lambda (t: T).pr0 (THead (Bind b0) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t) (\lambda (t: T).pr0 (THead (Bind b0) u3 (THead (Flat Appl) (lift (S O) O v3) t5)) t)) (\lambda (x0: T).\lambda (H12: (pr0 u2 x0)).\lambda (H13: (pr0 u3 x0)).ex2_ind T (\lambda (t: T).pr0 t3 t) (\lambda (t: T).pr0 t5 t) (ex2 T (\lambda (t: T).pr0 (THead (Bind b0) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t) (\lambda (t: T).pr0 (THead (Bind b0) u3 (THead (Flat Appl) (lift (S O) O v3) t5)) t)) (\lambda (x1: T).\lambda (H17: (pr0 t3 x1)).\lambda (H18: (pr0 t5 x1)).pr0_confluence.__pr0_upsilon_upsilon b0 H8 v2 v3 x H10 H11 u2 u3 x0 H12 H13 t3 t5 x1 H17 H18) (H5 t4 (tlt_trans (THead (Bind b0) u0 t4) t4 (THead (Flat Appl) v0 (THead (Bind b0) u0 t4)) (tlt_head_dx (Bind b0) u0 t4) (tlt_head_dx (Flat Appl) v0 (THead (Bind b0) u0 t4))) t3 H6 t5 H19)) (H5 u0 (tlt_trans (THead (Bind b0) u0 t4) u0 (THead (Flat Appl) v0 (THead (Bind b0) u0 t4)) (tlt_head_sx (Bind b0) u0 t4) (tlt_head_dx (Flat Appl) v0 (THead (Bind b0) u0 t4))) u2 H7 u3 H18)) (H5 v0 (tlt_head_sx (Flat Appl) v0 (THead (Bind b0) u0 t4)) v2 H9 v3 H17)) t0 (sym_eq T t0 t4 H16)) u1 (sym_eq T u1 u0 H15)) b (sym_eq B b b0 H14)) v1 (sym_eq T v1 v0 H4)) H3) H2) H1)] in H1 (refl_equal T (THead (Flat Appl) v0 (THead (Bind b0) u0 t4)))) t2 H15) t H13 H14 H8 H9 H10 H11) | (pr0_delta u0 u3 H8 t4 t5 H9 w H10) \Rightarrow (\lambda (H11: (eq T (THead (Bind Abbr) u0 t4) t)).\lambda (H12: (eq T (THead (Bind Abbr) u3 w) t2)).eq_ind T (THead (Bind Abbr) u0 t4) (\lambda (_: T).(eq T (THead (Bind Abbr) u3 w) t2) \to (pr0 u0 u3) \to (pr0 t4 t5) \to (subst0 O u3 t5 w) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H13: (eq T (THead (Bind Abbr) u3 w) t2)).eq_ind T (THead (Bind Abbr) u3 w) (\lambda (t: T).(pr0 u0 u3) \to (pr0 t4 t5) \to (subst0 O u3 t5 w) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 t t0)) (\lambda (_: (pr0 u0 u3)).\lambda (_: (pr0 t4 t5)).\lambda (_: (subst0 O u3 t5 w)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) t) H6 (THead (Bind Abbr) u0 t4) H11 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead (Bind Abbr) u0 t4)) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) u3 w) t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) (THead (Bind Abbr) u0 t4))).let H1 \def eq_ind T (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind Abbr) u0 t4) H0 in False_ind (ex2 T (\lambda (t: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 w) t)) H1)] in H1 (refl_equal T (THead (Bind Abbr) u0 t4))) t2 H13) t H11 H12 H8 H9 H10) | (pr0_zeta b0 H8 t4 t5 H9 u) \Rightarrow (\lambda (H10: (eq T (THead (Bind b0) u (lift (S O) O t4)) t)).\lambda (H11: (eq T t5 t2)).eq_ind T (THead (Bind b0) u (lift (S O) O t4)) (\lambda (_: T).(eq T t5 t2) \to (not (eq B b0 Abst)) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H12: (eq T t5 t2)).eq_ind T t2 (\lambda (t: T).(not (eq B b0 Abst)) \to (pr0 t4 t) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (_: (not (eq B b0 Abst))).\lambda (_: (pr0 t4 t2)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) t) H6 (THead (Bind b0) u (lift (S O) O t4)) H10 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead (Bind b0) u (lift (S O) O t4))) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 t2 t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) (THead (Bind b0) u (lift (S O) O t4)))).let H1 \def eq_ind T (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind b0) u (lift (S O) O t4)) H0 in False_ind (ex2 T (\lambda (t: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t) (\lambda (t: T).pr0 t2 t)) H1)] in H1 (refl_equal T (THead (Bind b0) u (lift (S O) O t4)))) t5 (sym_eq T t5 t2 H12)) t H10 H11 H8 H9) | (pr0_epsilon t4 t5 H8 u) \Rightarrow (\lambda (H9: (eq T (THead (Flat Cast) u t4) t)).\lambda (H10: (eq T t5 t2)).eq_ind T (THead (Flat Cast) u t4) (\lambda (_: T).(eq T t5 t2) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H11: (eq T t5 t2)).eq_ind T t2 (\lambda (t: T).(pr0 t4 t) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (_: (pr0 t4 t2)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) t) H6 (THead (Flat Cast) u t4) H9 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead (Flat Cast) u t4)) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t0) (\lambda (t0: T).pr0 t2 t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) (THead (Flat Cast) u t4))).let H1 \def eq_ind T (THead (Flat Appl) v1 (THead (Bind b) u1 t0)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat f) \Rightarrow (match f return (Prop) with [Appl \Rightarrow True | Cast \Rightarrow False])])]) I (THead (Flat Cast) u t4) H0 in False_ind (ex2 T (\lambda (t: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t3)) t) (\lambda (t: T).pr0 t2 t)) H1)] in H1 (refl_equal T (THead (Flat Cast) u t4))) t5 (sym_eq T t5 t2 H11)) t H9 H10 H8)] in H13 (refl_equal T t) (refl_equal T t2)) t1 H8) t H6 H7 H2 H3 H4 H5) | (pr0_delta u1 u2 H2 t0 t3 H3 w H4) \Rightarrow (\lambda (H5: (eq T (THead (Bind Abbr) u1 t0) t)).\lambda (H6: (eq T (THead (Bind Abbr) u2 w) t1)).eq_ind T (THead (Bind Abbr) u1 t0) (\lambda (_: T).(eq T (THead (Bind Abbr) u2 w) t1) \to (pr0 u1 u2) \to (pr0 t0 t3) \to (subst0 O u2 t3 w) \to ex2 T (\lambda (t2: T).pr0 t1 t2) (\lambda (t1: T).pr0 t2 t1)) (\lambda (H7: (eq T (THead (Bind Abbr) u2 w) t1)).eq_ind T (THead (Bind Abbr) u2 w) (\lambda (t: T).(pr0 u1 u2) \to (pr0 t0 t3) \to (subst0 O u2 t3 w) \to ex2 T (\lambda (t1: T).pr0 t t1) (\lambda (t1: T).pr0 t2 t1)) (\lambda (H8: (pr0 u1 u2)).\lambda (H9: (pr0 t0 t3)).\lambda (H10: (subst0 O u2 t3 w)).let H11 \def match H1 return (\lambda (t0: T).\lambda (t1: T).(eq T t0 t) \to (eq T t1 t2) \to ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 t2 t)) with [(pr0_refl t4) \Rightarrow (\lambda (H7: (eq T t4 t)).\lambda (H11: (eq T t4 t2)).eq_ind T t (\lambda (t: T).(eq T t t2) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H12: (eq T t t2)).eq_ind T t2 (\lambda (_: T).ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0) (\lambda (t0: T).pr0 t2 t0)) (let H0 \def eq_ind_r T t (\lambda (t: T).eq T t t2) H12 (THead (Bind Abbr) u1 t0) H5 in eq_ind T (THead (Bind Abbr) u1 t0) (\lambda (t: T).ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0) (\lambda (t0: T).pr0 t t0)) (let H1 \def eq_ind_r T t (\lambda (t: T).eq T t4 t) H7 (THead (Bind Abbr) u1 t0) H5 in let H2 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Bind Abbr) u1 t0) H5 in ex_intro2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u1 t0) t) (THead (Bind Abbr) u2 w) (pr0_refl (THead (Bind Abbr) u2 w)) (pr0_delta u1 u2 H8 t0 t3 H9 w H10)) t2 H0) t (sym_eq T t t2 H12)) t4 (sym_eq T t4 t H7) H11) | (pr0_comp u0 u3 H7 t4 t5 H8 k) \Rightarrow (\lambda (H11: (eq T (THead k u0 t4) t)).\lambda (H12: (eq T (THead k u3 t5) t2)).eq_ind T (THead k u0 t4) (\lambda (_: T).(eq T (THead k u3 t5) t2) \to (pr0 u0 u3) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H13: (eq T (THead k u3 t5) t2)).eq_ind T (THead k u3 t5) (\lambda (t: T).(pr0 u0 u3) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0) (\lambda (t0: T).pr0 t t0)) (\lambda (H14: (pr0 u0 u3)).\lambda (H15: (pr0 t4 t5)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead (Bind Abbr) u1 t0) t) H5 (THead k u0 t4) H11 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead k u0 t4)) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0) (\lambda (t0: T).pr0 (THead k u3 t5) t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Bind Abbr) u1 t0) (THead k u0 t4))).let H1 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead (Bind Abbr) u1 t0) (THead k u0 t4) H0 in (let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u1 | (TLRef _) \Rightarrow u1 | (THead _ t _) \Rightarrow t]) (THead (Bind Abbr) u1 t0) (THead k u0 t4) H0 in (let H3 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow (Bind Abbr) | (TLRef _) \Rightarrow (Bind Abbr) | (THead k _ _) \Rightarrow k]) (THead (Bind Abbr) u1 t0) (THead k u0 t4) H0 in eq_ind K (Bind Abbr) (\lambda (k: K).(eq T u1 u0) \to (eq T t0 t4) \to ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 (THead k u3 t5) t)) (\lambda (H12: (eq T u1 u0)).eq_ind T u0 (\lambda (_: T).(eq T t0 t4) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) u3 t5) t0)) (\lambda (H13: (eq T t0 t4)).eq_ind T t4 (\lambda (_: T).ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) u3 t5) t0)) (let H4 \def eq_ind_r K k (\lambda (k: K).eq T (THead k u0 t4) t) H11 (Bind Abbr) H3 in let H5 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Bind Abbr) u0 t4) H4 in let H6 \def eq_ind T t0 (\lambda (t: T).pr0 t t3) H9 t4 H13 in let H7 \def eq_ind T u1 (\lambda (t: T).pr0 t u2) H8 u0 H12 in ex2_ind T (\lambda (t: T).pr0 u2 t) (\lambda (t: T).pr0 u3 t) (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 t5) t)) (\lambda (x: T).\lambda (H8: (pr0 u2 x)).\lambda (H9: (pr0 u3 x)).ex2_ind T (\lambda (t: T).pr0 t3 t) (\lambda (t: T).pr0 t5 t) (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 t5) t)) (\lambda (x0: T).\lambda (H11: (pr0 t3 x0)).\lambda (H14: (pr0 t5 x0)).ex2_sym T (pr0 (THead (Bind Abbr) u3 t5)) (pr0 (THead (Bind Abbr) u2 w)) (pr0_confluence.__pr0_cong_delta u2 t3 w H10 u3 x H9 H8 t5 x0 H14 H11)) (H5 t4 (tlt_head_dx (Bind Abbr) u0 t4) t3 H6 t5 H15)) (H5 u0 (tlt_head_sx (Bind Abbr) u0 t4) u2 H7 u3 H14)) t0 (sym_eq T t0 t4 H13)) u1 (sym_eq T u1 u0 H12)) k H3) H2) H1)] in H1 (refl_equal T (THead k u0 t4))) t2 H13) t H11 H12 H7 H8) | (pr0_beta u v1 v2 H7 t4 t5 H8) \Rightarrow (\lambda (H9: (eq T (THead (Flat Appl) v1 (THead (Bind Abst) u t4)) t)).\lambda (H10: (eq T (THead (Bind Abbr) v2 t5) t2)).eq_ind T (THead (Flat Appl) v1 (THead (Bind Abst) u t4)) (\lambda (_: T).(eq T (THead (Bind Abbr) v2 t5) t2) \to (pr0 v1 v2) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H11: (eq T (THead (Bind Abbr) v2 t5) t2)).eq_ind T (THead (Bind Abbr) v2 t5) (\lambda (t: T).(pr0 v1 v2) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0) (\lambda (t0: T).pr0 t t0)) (\lambda (_: (pr0 v1 v2)).\lambda (_: (pr0 t4 t5)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead (Bind Abbr) u1 t0) t) H5 (THead (Flat Appl) v1 (THead (Bind Abst) u t4)) H9 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead (Flat Appl) v1 (THead (Bind Abst) u t4))) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t5) t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Bind Abbr) u1 t0) (THead (Flat Appl) v1 (THead (Bind Abst) u t4)))).let H1 \def eq_ind T (THead (Bind Abbr) u1 t0) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (THead (Flat Appl) v1 (THead (Bind Abst) u t4)) H0 in False_ind (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t5) t)) H1)] in H1 (refl_equal T (THead (Flat Appl) v1 (THead (Bind Abst) u t4)))) t2 H11) t H9 H10 H7 H8) | (pr0_upsilon b H7 v1 v2 H8 u0 u3 H9 t4 t5 H10) \Rightarrow (\lambda (H11: (eq T (THead (Flat Appl) v1 (THead (Bind b) u0 t4)) t)).\lambda (H12: (eq T (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t2)).eq_ind T (THead (Flat Appl) v1 (THead (Bind b) u0 t4)) (\lambda (_: T).(eq T (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t2) \to (not (eq B b Abst)) \to (pr0 v1 v2) \to (pr0 u0 u3) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H13: (eq T (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t2)).eq_ind T (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) (\lambda (t: T).(not (eq B b Abst)) \to (pr0 v1 v2) \to (pr0 u0 u3) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0) (\lambda (t0: T).pr0 t t0)) (\lambda (_: (not (eq B b Abst))).\lambda (_: (pr0 v1 v2)).\lambda (_: (pr0 u0 u3)).\lambda (_: (pr0 t4 t5)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead (Bind Abbr) u1 t0) t) H5 (THead (Flat Appl) v1 (THead (Bind b) u0 t4)) H11 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead (Flat Appl) v1 (THead (Bind b) u0 t4))) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0) (\lambda (t0: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Bind Abbr) u1 t0) (THead (Flat Appl) v1 (THead (Bind b) u0 t4)))).let H1 \def eq_ind T (THead (Bind Abbr) u1 t0) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (THead (Flat Appl) v1 (THead (Bind b) u0 t4)) H0 in False_ind (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 (THead (Bind b) u3 (THead (Flat Appl) (lift (S O) O v2) t5)) t)) H1)] in H1 (refl_equal T (THead (Flat Appl) v1 (THead (Bind b) u0 t4)))) t2 H13) t H11 H12 H7 H8 H9 H10) | (pr0_delta u0 u3 H7 t4 t5 H8 w0 H9) \Rightarrow (\lambda (H11: (eq T (THead (Bind Abbr) u0 t4) t)).\lambda (H12: (eq T (THead (Bind Abbr) u3 w0) t2)).eq_ind T (THead (Bind Abbr) u0 t4) (\lambda (_: T).(eq T (THead (Bind Abbr) u3 w0) t2) \to (pr0 u0 u3) \to (pr0 t4 t5) \to (subst0 O u3 t5 w0) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H13: (eq T (THead (Bind Abbr) u3 w0) t2)).eq_ind T (THead (Bind Abbr) u3 w0) (\lambda (t: T).(pr0 u0 u3) \to (pr0 t4 t5) \to (subst0 O u3 t5 w0) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0) (\lambda (t0: T).pr0 t t0)) (\lambda (H14: (pr0 u0 u3)).\lambda (H15: (pr0 t4 t5)).\lambda (H16: (subst0 O u3 t5 w0)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead (Bind Abbr) u1 t0) t) H5 (THead (Bind Abbr) u0 t4) H11 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead (Bind Abbr) u0 t4)) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) u3 w0) t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Bind Abbr) u1 t0) (THead (Bind Abbr) u0 t4))).let H1 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead (Bind Abbr) u1 t0) (THead (Bind Abbr) u0 t4) H0 in (let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u1 | (TLRef _) \Rightarrow u1 | (THead _ t _) \Rightarrow t]) (THead (Bind Abbr) u1 t0) (THead (Bind Abbr) u0 t4) H0 in eq_ind T u0 (\lambda (_: T).(eq T t0 t4) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) u3 w0) t0)) (\lambda (H12: (eq T t0 t4)).eq_ind T t4 (\lambda (_: T).ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) u3 w0) t0)) (let H3 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Bind Abbr) u0 t4) H11 in let H4 \def eq_ind T t0 (\lambda (t: T).pr0 t t3) H9 t4 H12 in let H5 \def eq_ind T u1 (\lambda (t: T).pr0 t u2) H8 u0 H2 in ex2_ind T (\lambda (t: T).pr0 u2 t) (\lambda (t: T).pr0 u3 t) (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 w0) t)) (\lambda (x: T).\lambda (H6: (pr0 u2 x)).\lambda (H7: (pr0 u3 x)).ex2_ind T (\lambda (t: T).pr0 t3 t) (\lambda (t: T).pr0 t5 t) (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 (THead (Bind Abbr) u3 w0) t)) (\lambda (x0: T).\lambda (H8: (pr0 t3 x0)).\lambda (H9: (pr0 t5 x0)).pr0_confluence.__pr0_delta_delta u2 t3 w H10 u3 t5 w0 H16 x H6 H7 x0 H8 H9) (H3 t4 (tlt_head_dx (Bind Abbr) u0 t4) t3 H4 t5 H15)) (H3 u0 (tlt_head_sx (Bind Abbr) u0 t4) u2 H5 u3 H14)) t0 (sym_eq T t0 t4 H12)) u1 (sym_eq T u1 u0 H2)) H1)] in H1 (refl_equal T (THead (Bind Abbr) u0 t4))) t2 H13) t H11 H12 H7 H8 H9) | (pr0_zeta b H7 t4 t5 H8 u) \Rightarrow (\lambda (H11: (eq T (THead (Bind b) u (lift (S O) O t4)) t)).\lambda (H12: (eq T t5 t2)).eq_ind T (THead (Bind b) u (lift (S O) O t4)) (\lambda (_: T).(eq T t5 t2) \to (not (eq B b Abst)) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H13: (eq T t5 t2)).eq_ind T t2 (\lambda (t: T).(not (eq B b Abst)) \to (pr0 t4 t) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H14: (not (eq B b Abst))).\lambda (H15: (pr0 t4 t2)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead (Bind Abbr) u1 t0) t) H5 (THead (Bind b) u (lift (S O) O t4)) H11 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead (Bind b) u (lift (S O) O t4))) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0) (\lambda (t0: T).pr0 t2 t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Bind Abbr) u1 t0) (THead (Bind b) u (lift (S O) O t4)))).let H1 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead (Bind Abbr) u1 t0) (THead (Bind b) u (lift (S O) O t4)) H0 in (let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u1 | (TLRef _) \Rightarrow u1 | (THead _ t _) \Rightarrow t]) (THead (Bind Abbr) u1 t0) (THead (Bind b) u (lift (S O) O t4)) H0 in (let H3 \def f_equal T B (\lambda (e: T).match e return B with [(TSort _) \Rightarrow Abbr | (TLRef _) \Rightarrow Abbr | (THead k _ _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (THead (Bind Abbr) u1 t0) (THead (Bind b) u (lift (S O) O t4)) H0 in eq_ind B Abbr (\lambda (_: B).(eq T u1 u) \to (eq T t0 (lift (S O) O t4)) \to ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 t2 t)) (\lambda (H12: (eq T u1 u)).eq_ind T u (\lambda (_: T).(eq T t0 (lift (S O) O t4)) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H13: (eq T t0 (lift (S O) O t4))).eq_ind T (lift (S O) O t4) (\lambda (_: T).ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0) (\lambda (t0: T).pr0 t2 t0)) (let H4 \def eq_ind_r B b (\lambda (b: B).not (eq B b Abst)) H14 Abbr H3 in let H5 \def eq_ind_r B b (\lambda (b: B).eq T (THead (Bind b) u (lift (S O) O t4)) t) H11 Abbr H3 in let H6 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Bind Abbr) u (lift (S O) O t4)) H5 in let H7 \def eq_ind T t0 (\lambda (t: T).pr0 t t3) H9 (lift (S O) O t4) H13 in ex2_ind T (\lambda (t2: T).eq T t3 (lift (S O) O t2)) (\lambda (t2: T).pr0 t4 t2) (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 t2 t)) (\lambda (x: T).\lambda (H9: (eq T t3 (lift (S O) O x))).\lambda (H11: (pr0 t4 x)).let H10 \def eq_ind T t3 (\lambda (t: T).subst0 O u2 t w) H10 (lift (S O) O x) H9 in let H8 \def eq_ind T u1 (\lambda (t: T).pr0 t u2) H8 u H12 in ex2_ind T (\lambda (t: T).pr0 x t) (\lambda (t: T).pr0 t2 t) (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 t2 t)) (\lambda (x0: T).\lambda (_: (pr0 x x0)).\lambda (_: (pr0 t2 x0)).pr0_confluence.__pr0_delta_epsilon u2 (lift (S O) O x) w H10 x (pr0_refl (lift (S O) O x)) t2) (H6 t4 (lift_tlt_dx (Bind Abbr) u t4 (S O) O) x H11 t2 H15)) (pr0_gen_lift t4 t3 (S O) O H7)) t0 (sym_eq T t0 (lift (S O) O t4) H13)) u1 (sym_eq T u1 u H12)) b H3) H2) H1)] in H1 (refl_equal T (THead (Bind b) u (lift (S O) O t4)))) t5 (sym_eq T t5 t2 H13)) t H11 H12 H7 H8) | (pr0_epsilon t4 t5 H7 u) \Rightarrow (\lambda (H8: (eq T (THead (Flat Cast) u t4) t)).\lambda (H9: (eq T t5 t2)).eq_ind T (THead (Flat Cast) u t4) (\lambda (_: T).(eq T t5 t2) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H10: (eq T t5 t2)).eq_ind T t2 (\lambda (t: T).(pr0 t4 t) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (_: (pr0 t4 t2)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead (Bind Abbr) u1 t0) t) H5 (THead (Flat Cast) u t4) H8 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead (Flat Cast) u t4)) \to ex2 T (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0) (\lambda (t0: T).pr0 t2 t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Bind Abbr) u1 t0) (THead (Flat Cast) u t4))).let H1 \def eq_ind T (THead (Bind Abbr) u1 t0) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (THead (Flat Cast) u t4) H0 in False_ind (ex2 T (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t) (\lambda (t: T).pr0 t2 t)) H1)] in H1 (refl_equal T (THead (Flat Cast) u t4))) t5 (sym_eq T t5 t2 H10)) t H8 H9 H7)] in H11 (refl_equal T t) (refl_equal T t2)) t1 H7) t H5 H6 H2 H3 H4) | (pr0_zeta b H2 t0 t3 H3 u) \Rightarrow (\lambda (H4: (eq T (THead (Bind b) u (lift (S O) O t0)) t)).\lambda (H5: (eq T t3 t1)).eq_ind T (THead (Bind b) u (lift (S O) O t0)) (\lambda (_: T).(eq T t3 t1) \to (not (eq B b Abst)) \to (pr0 t0 t3) \to ex2 T (\lambda (t2: T).pr0 t1 t2) (\lambda (t1: T).pr0 t2 t1)) (\lambda (H6: (eq T t3 t1)).eq_ind T t1 (\lambda (t: T).(not (eq B b Abst)) \to (pr0 t0 t) \to ex2 T (\lambda (t2: T).pr0 t1 t2) (\lambda (t1: T).pr0 t2 t1)) (\lambda (H7: (not (eq B b Abst))).\lambda (H8: (pr0 t0 t1)).let H9 \def match H1 return (\lambda (t0: T).\lambda (t3: T).(eq T t0 t) \to (eq T t3 t2) \to ex2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 t2 t)) with [(pr0_refl t4) \Rightarrow (\lambda (H6: (eq T t4 t)).\lambda (H9: (eq T t4 t2)).eq_ind T t (\lambda (t: T).(eq T t t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H10: (eq T t t2)).eq_ind T t2 (\lambda (_: T).ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (let H0 \def eq_ind_r T t (\lambda (t: T).eq T t t2) H10 (THead (Bind b) u (lift (S O) O t0)) H4 in eq_ind T (THead (Bind b) u (lift (S O) O t0)) (\lambda (t: T).ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t t0)) (let H1 \def eq_ind_r T t (\lambda (t: T).eq T t4 t) H6 (THead (Bind b) u (lift (S O) O t0)) H4 in let H2 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Bind b) u (lift (S O) O t0)) H4 in ex_intro2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 (THead (Bind b) u (lift (S O) O t0)) t) t1 (pr0_refl t1) (pr0_zeta b H7 t0 t1 H8 u)) t2 H0) t (sym_eq T t t2 H10)) t4 (sym_eq T t4 t H6) H9) | (pr0_comp u1 u2 H6 t4 t5 H7 k) \Rightarrow (\lambda (H9: (eq T (THead k u1 t4) t)).\lambda (H10: (eq T (THead k u2 t5) t2)).eq_ind T (THead k u1 t4) (\lambda (_: T).(eq T (THead k u2 t5) t2) \to (pr0 u1 u2) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H11: (eq T (THead k u2 t5) t2)).eq_ind T (THead k u2 t5) (\lambda (t: T).(pr0 u1 u2) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t t0)) (\lambda (_: (pr0 u1 u2)).\lambda (H13: (pr0 t4 t5)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead (Bind b) u (lift (S O) O t0)) t) H4 (THead k u1 t4) H9 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead k u1 t4)) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 (THead k u2 t5) t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Bind b) u (lift (S O) O t0)) (THead k u1 t4))).let H1 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x (S O)) O t0) | (TLRef _) \Rightarrow ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x (S O)) O t0) | (THead _ _ t) \Rightarrow t]) (THead (Bind b) u (lift (S O) O t0)) (THead k u1 t4) H0 in (let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u | (TLRef _) \Rightarrow u | (THead _ t _) \Rightarrow t]) (THead (Bind b) u (lift (S O) O t0)) (THead k u1 t4) H0 in (let H3 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow (Bind b) | (TLRef _) \Rightarrow (Bind b) | (THead k _ _) \Rightarrow k]) (THead (Bind b) u (lift (S O) O t0)) (THead k u1 t4) H0 in eq_ind K (Bind b) (\lambda (k: K).(eq T u u1) \to (eq T (lift (S O) O t0) t4) \to ex2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 (THead k u2 t5) t)) (\lambda (H10: (eq T u u1)).eq_ind T u1 (\lambda (_: T).(eq T (lift (S O) O t0) t4) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 (THead (Bind b) u2 t5) t0)) (\lambda (H11: (eq T (lift (S O) O t0) t4)).eq_ind T (lift (S O) O t0) (\lambda (_: T).ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 (THead (Bind b) u2 t5) t0)) (let H4 \def eq_ind_r K k (\lambda (k: K).eq T (THead k u1 t4) t) H9 (Bind b) H3 in let H5 \def eq_ind_r T t4 (\lambda (t: T).pr0 t t5) H13 (lift (S O) O t0) H11 in ex2_ind T (\lambda (t2: T).eq T t5 (lift (S O) O t2)) (\lambda (t2: T).pr0 t0 t2) (ex2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 (THead (Bind b) u2 t5) t)) (\lambda (x: T).\lambda (H6: (eq T t5 (lift (S O) O x))).\lambda (H9: (pr0 t0 x)).let H12 \def eq_ind_r T t4 (\lambda (t0: T).eq T (THead (Bind b) u1 t0) t) H4 (lift (S O) O t0) H11 in let H13 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Bind b) u1 (lift (S O) O t0)) H12 in eq_ind_r T (lift (S O) O x) (\lambda (t: T).ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 (THead (Bind b) u2 t) t0)) (ex2_ind T (\lambda (t: T).pr0 x t) (\lambda (t: T).pr0 t1 t) (ex2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 (THead (Bind b) u2 (lift (S O) O x)) t)) (\lambda (x0: T).\lambda (H8: (pr0 x x0)).\lambda (H14: (pr0 t1 x0)).ex_intro2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 (THead (Bind b) u2 (lift (S O) O x)) t) x0 H14 (pr0_zeta b H7 x x0 H8 u2)) (H13 t0 (lift_tlt_dx (Bind b) u1 t0 (S O) O) x H9 t1 H8)) t5 H6) (pr0_gen_lift t0 t5 (S O) O H5)) t4 H11) u (sym_eq T u u1 H10)) k H3) H2) H1)] in H1 (refl_equal T (THead k u1 t4))) t2 H11) t H9 H10 H6 H7) | (pr0_beta u0 v1 v2 H6 t4 t5 H7) \Rightarrow (\lambda (H8: (eq T (THead (Flat Appl) v1 (THead (Bind Abst) u0 t4)) t)).\lambda (H9: (eq T (THead (Bind Abbr) v2 t5) t2)).eq_ind T (THead (Flat Appl) v1 (THead (Bind Abst) u0 t4)) (\lambda (_: T).(eq T (THead (Bind Abbr) v2 t5) t2) \to (pr0 v1 v2) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H10: (eq T (THead (Bind Abbr) v2 t5) t2)).eq_ind T (THead (Bind Abbr) v2 t5) (\lambda (t: T).(pr0 v1 v2) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t t0)) (\lambda (_: (pr0 v1 v2)).\lambda (_: (pr0 t4 t5)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead (Bind b) u (lift (S O) O t0)) t) H4 (THead (Flat Appl) v1 (THead (Bind Abst) u0 t4)) H8 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead (Flat Appl) v1 (THead (Bind Abst) u0 t4))) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t5) t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Bind b) u (lift (S O) O t0)) (THead (Flat Appl) v1 (THead (Bind Abst) u0 t4)))).let H1 \def eq_ind T (THead (Bind b) u (lift (S O) O t0)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (THead (Flat Appl) v1 (THead (Bind Abst) u0 t4)) H0 in False_ind (ex2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t5) t)) H1)] in H1 (refl_equal T (THead (Flat Appl) v1 (THead (Bind Abst) u0 t4)))) t2 H10) t H8 H9 H6 H7) | (pr0_upsilon b0 H6 v1 v2 H7 u1 u2 H8 t4 t5 H9) \Rightarrow (\lambda (H10: (eq T (THead (Flat Appl) v1 (THead (Bind b0) u1 t4)) t)).\lambda (H11: (eq T (THead (Bind b0) u2 (THead (Flat Appl) (lift (S O) O v2) t5)) t2)).eq_ind T (THead (Flat Appl) v1 (THead (Bind b0) u1 t4)) (\lambda (_: T).(eq T (THead (Bind b0) u2 (THead (Flat Appl) (lift (S O) O v2) t5)) t2) \to (not (eq B b0 Abst)) \to (pr0 v1 v2) \to (pr0 u1 u2) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H12: (eq T (THead (Bind b0) u2 (THead (Flat Appl) (lift (S O) O v2) t5)) t2)).eq_ind T (THead (Bind b0) u2 (THead (Flat Appl) (lift (S O) O v2) t5)) (\lambda (t: T).(not (eq B b0 Abst)) \to (pr0 v1 v2) \to (pr0 u1 u2) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t t0)) (\lambda (_: (not (eq B b0 Abst))).\lambda (_: (pr0 v1 v2)).\lambda (_: (pr0 u1 u2)).\lambda (_: (pr0 t4 t5)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead (Bind b) u (lift (S O) O t0)) t) H4 (THead (Flat Appl) v1 (THead (Bind b0) u1 t4)) H10 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead (Flat Appl) v1 (THead (Bind b0) u1 t4))) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 (THead (Bind b0) u2 (THead (Flat Appl) (lift (S O) O v2) t5)) t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Bind b) u (lift (S O) O t0)) (THead (Flat Appl) v1 (THead (Bind b0) u1 t4)))).let H1 \def eq_ind T (THead (Bind b) u (lift (S O) O t0)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (THead (Flat Appl) v1 (THead (Bind b0) u1 t4)) H0 in False_ind (ex2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 (THead (Bind b0) u2 (THead (Flat Appl) (lift (S O) O v2) t5)) t)) H1)] in H1 (refl_equal T (THead (Flat Appl) v1 (THead (Bind b0) u1 t4)))) t2 H12) t H10 H11 H6 H7 H8 H9) | (pr0_delta u1 u2 H6 t4 t5 H7 w H8) \Rightarrow (\lambda (H9: (eq T (THead (Bind Abbr) u1 t4) t)).\lambda (H10: (eq T (THead (Bind Abbr) u2 w) t2)).eq_ind T (THead (Bind Abbr) u1 t4) (\lambda (_: T).(eq T (THead (Bind Abbr) u2 w) t2) \to (pr0 u1 u2) \to (pr0 t4 t5) \to (subst0 O u2 t5 w) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H11: (eq T (THead (Bind Abbr) u2 w) t2)).eq_ind T (THead (Bind Abbr) u2 w) (\lambda (t: T).(pr0 u1 u2) \to (pr0 t4 t5) \to (subst0 O u2 t5 w) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t t0)) (\lambda (_: (pr0 u1 u2)).\lambda (H13: (pr0 t4 t5)).\lambda (H14: (subst0 O u2 t5 w)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead (Bind b) u (lift (S O) O t0)) t) H4 (THead (Bind Abbr) u1 t4) H9 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead (Bind Abbr) u1 t4)) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Bind b) u (lift (S O) O t0)) (THead (Bind Abbr) u1 t4))).let H1 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x (S O)) O t0) | (TLRef _) \Rightarrow ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x (S O)) O t0) | (THead _ _ t) \Rightarrow t]) (THead (Bind b) u (lift (S O) O t0)) (THead (Bind Abbr) u1 t4) H0 in (let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u | (TLRef _) \Rightarrow u | (THead _ t _) \Rightarrow t]) (THead (Bind b) u (lift (S O) O t0)) (THead (Bind Abbr) u1 t4) H0 in (let H3 \def f_equal T B (\lambda (e: T).match e return B with [(TSort _) \Rightarrow b | (TLRef _) \Rightarrow b | (THead k _ _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow b])]) (THead (Bind b) u (lift (S O) O t0)) (THead (Bind Abbr) u1 t4) H0 in eq_ind B Abbr (\lambda (_: B).(eq T u u1) \to (eq T (lift (S O) O t0) t4) \to ex2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t)) (\lambda (H10: (eq T u u1)).eq_ind T u1 (\lambda (_: T).(eq T (lift (S O) O t0) t4) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0)) (\lambda (H11: (eq T (lift (S O) O t0) t4)).eq_ind T (lift (S O) O t0) (\lambda (_: T).ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0)) (let H4 \def eq_ind_r T t4 (\lambda (t: T).pr0 t t5) H13 (lift (S O) O t0) H11 in ex2_ind T (\lambda (t2: T).eq T t5 (lift (S O) O t2)) (\lambda (t2: T).pr0 t0 t2) (ex2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t)) (\lambda (x: T).\lambda (H5: (eq T t5 (lift (S O) O x))).\lambda (H6: (pr0 t0 x)).let H9 \def eq_ind_r T t4 (\lambda (t0: T).eq T (THead (Bind Abbr) u1 t0) t) H9 (lift (S O) O t0) H11 in let H12 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Bind Abbr) u1 (lift (S O) O t0)) H9 in let H13 \def eq_ind T t5 (\lambda (t: T).subst0 O u2 t w) H14 (lift (S O) O x) H5 in let H7 \def eq_ind B b (\lambda (b: B).not (eq B b Abst)) H7 Abbr H3 in ex2_ind T (\lambda (t: T).pr0 x t) (\lambda (t: T).pr0 t1 t) (ex2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t)) (\lambda (x0: T).\lambda (_: (pr0 x x0)).\lambda (_: (pr0 t1 x0)).ex2_sym T (pr0 (THead (Bind Abbr) u2 w)) (pr0 t1) (pr0_confluence.__pr0_delta_epsilon u2 (lift (S O) O x) w H13 x (pr0_refl (lift (S O) O x)) t1)) (H12 t0 (lift_tlt_dx (Bind Abbr) u1 t0 (S O) O) x H6 t1 H8)) (pr0_gen_lift t0 t5 (S O) O H4)) t4 H11) u (sym_eq T u u1 H10)) b (sym_eq B b Abbr H3)) H2) H1)] in H1 (refl_equal T (THead (Bind Abbr) u1 t4))) t2 H11) t H9 H10 H6 H7 H8) | (pr0_zeta b0 H6 t4 t5 H7 u0) \Rightarrow (\lambda (H9: (eq T (THead (Bind b0) u0 (lift (S O) O t4)) t)).\lambda (H10: (eq T t5 t2)).eq_ind T (THead (Bind b0) u0 (lift (S O) O t4)) (\lambda (_: T).(eq T t5 t2) \to (not (eq B b0 Abst)) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H11: (eq T t5 t2)).eq_ind T t2 (\lambda (t: T).(not (eq B b0 Abst)) \to (pr0 t4 t) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (_: (not (eq B b0 Abst))).\lambda (H13: (pr0 t4 t2)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead (Bind b) u (lift (S O) O t0)) t) H4 (THead (Bind b0) u0 (lift (S O) O t4)) H9 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead (Bind b0) u0 (lift (S O) O t4))) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Bind b) u (lift (S O) O t0)) (THead (Bind b0) u0 (lift (S O) O t4)))).let H1 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x (S O)) O t0) | (TLRef _) \Rightarrow ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x (S O)) O t0) | (THead _ _ t) \Rightarrow t]) (THead (Bind b) u (lift (S O) O t0)) (THead (Bind b0) u0 (lift (S O) O t4)) H0 in (let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u | (TLRef _) \Rightarrow u | (THead _ t _) \Rightarrow t]) (THead (Bind b) u (lift (S O) O t0)) (THead (Bind b0) u0 (lift (S O) O t4)) H0 in (let H3 \def f_equal T B (\lambda (e: T).match e return B with [(TSort _) \Rightarrow b | (TLRef _) \Rightarrow b | (THead k _ _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow b])]) (THead (Bind b) u (lift (S O) O t0)) (THead (Bind b0) u0 (lift (S O) O t4)) H0 in eq_ind B b0 (\lambda (_: B).(eq T u u0) \to (eq T (lift (S O) O t0) (lift (S O) O t4)) \to ex2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 t2 t)) (\lambda (H10: (eq T u u0)).eq_ind T u0 (\lambda (_: T).(eq T (lift (S O) O t0) (lift (S O) O t4)) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H11: (eq T (lift (S O) O t0) (lift (S O) O t4))).eq_ind T (lift (S O) O t0) (\lambda (_: T).ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (let H4 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Bind b0) u0 (lift (S O) O t4)) H9 in let H5 \def eq_ind T t0 (\lambda (t: T).pr0 t t1) H8 t4 (lift_inj t0 t4 (S O) O H11) in let H6 \def eq_ind B b (\lambda (b: B).not (eq B b Abst)) H7 b0 H3 in ex2_ind T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 t2 t) (ex2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 t2 t)) (\lambda (x: T).\lambda (H7: (pr0 t1 x)).\lambda (H8: (pr0 t2 x)).ex_intro2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 t2 t) x H7 H8) (H4 t4 (lift_tlt_dx (Bind b0) u0 t4 (S O) O) t1 H5 t2 H13)) (lift (S O) O t4) H11) u (sym_eq T u u0 H10)) b (sym_eq B b b0 H3)) H2) H1)] in H1 (refl_equal T (THead (Bind b0) u0 (lift (S O) O t4)))) t5 (sym_eq T t5 t2 H11)) t H9 H10 H6 H7) | (pr0_epsilon t4 t5 H6 u0) \Rightarrow (\lambda (H7: (eq T (THead (Flat Cast) u0 t4) t)).\lambda (H8: (eq T t5 t2)).eq_ind T (THead (Flat Cast) u0 t4) (\lambda (_: T).(eq T t5 t2) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H9: (eq T t5 t2)).eq_ind T t2 (\lambda (t: T).(pr0 t4 t) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (_: (pr0 t4 t2)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead (Bind b) u (lift (S O) O t0)) t) H4 (THead (Flat Cast) u0 t4) H7 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead (Flat Cast) u0 t4)) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Bind b) u (lift (S O) O t0)) (THead (Flat Cast) u0 t4))).let H1 \def eq_ind T (THead (Bind b) u (lift (S O) O t0)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (THead (Flat Cast) u0 t4) H0 in False_ind (ex2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 t2 t)) H1)] in H1 (refl_equal T (THead (Flat Cast) u0 t4))) t5 (sym_eq T t5 t2 H9)) t H7 H8 H6)] in H9 (refl_equal T t) (refl_equal T t2)) t3 (sym_eq T t3 t1 H6)) t H4 H5 H2 H3) | (pr0_epsilon t0 t3 H2 u) \Rightarrow (\lambda (H3: (eq T (THead (Flat Cast) u t0) t)).\lambda (H4: (eq T t3 t1)).eq_ind T (THead (Flat Cast) u t0) (\lambda (_: T).(eq T t3 t1) \to (pr0 t0 t3) \to ex2 T (\lambda (t2: T).pr0 t1 t2) (\lambda (t1: T).pr0 t2 t1)) (\lambda (H5: (eq T t3 t1)).eq_ind T t1 (\lambda (t: T).(pr0 t0 t) \to ex2 T (\lambda (t2: T).pr0 t1 t2) (\lambda (t1: T).pr0 t2 t1)) (\lambda (H6: (pr0 t0 t1)).let H7 \def match H1 return (\lambda (t0: T).\lambda (t3: T).(eq T t0 t) \to (eq T t3 t2) \to ex2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 t2 t)) with [(pr0_refl t4) \Rightarrow (\lambda (H5: (eq T t4 t)).\lambda (H7: (eq T t4 t2)).eq_ind T t (\lambda (t: T).(eq T t t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H8: (eq T t t2)).eq_ind T t2 (\lambda (_: T).ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (let H0 \def eq_ind_r T t (\lambda (t: T).eq T t t2) H8 (THead (Flat Cast) u t0) H3 in eq_ind T (THead (Flat Cast) u t0) (\lambda (t: T).ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t t0)) (let H1 \def eq_ind_r T t (\lambda (t: T).eq T t4 t) H5 (THead (Flat Cast) u t0) H3 in let H2 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Flat Cast) u t0) H3 in ex_intro2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 (THead (Flat Cast) u t0) t) t1 (pr0_refl t1) (pr0_epsilon t0 t1 H6 u)) t2 H0) t (sym_eq T t t2 H8)) t4 (sym_eq T t4 t H5) H7) | (pr0_comp u1 u2 H5 t4 t5 H6 k) \Rightarrow (\lambda (H7: (eq T (THead k u1 t4) t)).\lambda (H8: (eq T (THead k u2 t5) t2)).eq_ind T (THead k u1 t4) (\lambda (_: T).(eq T (THead k u2 t5) t2) \to (pr0 u1 u2) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H9: (eq T (THead k u2 t5) t2)).eq_ind T (THead k u2 t5) (\lambda (t: T).(pr0 u1 u2) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t t0)) (\lambda (_: (pr0 u1 u2)).\lambda (H11: (pr0 t4 t5)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead (Flat Cast) u t0) t) H3 (THead k u1 t4) H7 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead k u1 t4)) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 (THead k u2 t5) t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Flat Cast) u t0) (THead k u1 t4))).let H1 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead (Flat Cast) u t0) (THead k u1 t4) H0 in (let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u | (TLRef _) \Rightarrow u | (THead _ t _) \Rightarrow t]) (THead (Flat Cast) u t0) (THead k u1 t4) H0 in (let H3 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow (Flat Cast) | (TLRef _) \Rightarrow (Flat Cast) | (THead k _ _) \Rightarrow k]) (THead (Flat Cast) u t0) (THead k u1 t4) H0 in eq_ind K (Flat Cast) (\lambda (k: K).(eq T u u1) \to (eq T t0 t4) \to ex2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 (THead k u2 t5) t)) (\lambda (H8: (eq T u u1)).eq_ind T u1 (\lambda (_: T).(eq T t0 t4) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 (THead (Flat Cast) u2 t5) t0)) (\lambda (H9: (eq T t0 t4)).eq_ind T t4 (\lambda (_: T).ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 (THead (Flat Cast) u2 t5) t0)) (let H4 \def eq_ind_r K k (\lambda (k: K).eq T (THead k u1 t4) t) H7 (Flat Cast) H3 in let H5 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Flat Cast) u1 t4) H4 in let H6 \def eq_ind T t0 (\lambda (t: T).pr0 t t1) H6 t4 H9 in ex2_ind T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 t5 t) (ex2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 (THead (Flat Cast) u2 t5) t)) (\lambda (x: T).\lambda (H7: (pr0 t1 x)).\lambda (H10: (pr0 t5 x)).ex_intro2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 (THead (Flat Cast) u2 t5) t) x H7 (pr0_epsilon t5 x H10 u2)) (H5 t4 (tlt_head_dx (Flat Cast) u1 t4) t1 H6 t5 H11)) t0 (sym_eq T t0 t4 H9)) u (sym_eq T u u1 H8)) k H3) H2) H1)] in H1 (refl_equal T (THead k u1 t4))) t2 H9) t H7 H8 H5 H6) | (pr0_beta u0 v1 v2 H5 t4 t5 H6) \Rightarrow (\lambda (H7: (eq T (THead (Flat Appl) v1 (THead (Bind Abst) u0 t4)) t)).\lambda (H8: (eq T (THead (Bind Abbr) v2 t5) t2)).eq_ind T (THead (Flat Appl) v1 (THead (Bind Abst) u0 t4)) (\lambda (_: T).(eq T (THead (Bind Abbr) v2 t5) t2) \to (pr0 v1 v2) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H9: (eq T (THead (Bind Abbr) v2 t5) t2)).eq_ind T (THead (Bind Abbr) v2 t5) (\lambda (t: T).(pr0 v1 v2) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t t0)) (\lambda (_: (pr0 v1 v2)).\lambda (_: (pr0 t4 t5)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead (Flat Cast) u t0) t) H3 (THead (Flat Appl) v1 (THead (Bind Abst) u0 t4)) H7 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead (Flat Appl) v1 (THead (Bind Abst) u0 t4))) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) v2 t5) t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Flat Cast) u t0) (THead (Flat Appl) v1 (THead (Bind Abst) u0 t4)))).let H1 \def eq_ind T (THead (Flat Cast) u t0) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat f) \Rightarrow (match f return (Prop) with [Appl \Rightarrow False | Cast \Rightarrow True])])]) I (THead (Flat Appl) v1 (THead (Bind Abst) u0 t4)) H0 in False_ind (ex2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 (THead (Bind Abbr) v2 t5) t)) H1)] in H1 (refl_equal T (THead (Flat Appl) v1 (THead (Bind Abst) u0 t4)))) t2 H9) t H7 H8 H5 H6) | (pr0_upsilon b H5 v1 v2 H6 u1 u2 H7 t4 t5 H8) \Rightarrow (\lambda (H9: (eq T (THead (Flat Appl) v1 (THead (Bind b) u1 t4)) t)).\lambda (H10: (eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t5)) t2)).eq_ind T (THead (Flat Appl) v1 (THead (Bind b) u1 t4)) (\lambda (_: T).(eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t5)) t2) \to (not (eq B b Abst)) \to (pr0 v1 v2) \to (pr0 u1 u2) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H11: (eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t5)) t2)).eq_ind T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t5)) (\lambda (t: T).(not (eq B b Abst)) \to (pr0 v1 v2) \to (pr0 u1 u2) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t t0)) (\lambda (_: (not (eq B b Abst))).\lambda (_: (pr0 v1 v2)).\lambda (_: (pr0 u1 u2)).\lambda (_: (pr0 t4 t5)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead (Flat Cast) u t0) t) H3 (THead (Flat Appl) v1 (THead (Bind b) u1 t4)) H9 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead (Flat Appl) v1 (THead (Bind b) u1 t4))) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t5)) t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Flat Cast) u t0) (THead (Flat Appl) v1 (THead (Bind b) u1 t4)))).let H1 \def eq_ind T (THead (Flat Cast) u t0) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat f) \Rightarrow (match f return (Prop) with [Appl \Rightarrow False | Cast \Rightarrow True])])]) I (THead (Flat Appl) v1 (THead (Bind b) u1 t4)) H0 in False_ind (ex2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t5)) t)) H1)] in H1 (refl_equal T (THead (Flat Appl) v1 (THead (Bind b) u1 t4)))) t2 H11) t H9 H10 H5 H6 H7 H8) | (pr0_delta u1 u2 H5 t4 t5 H6 w H7) \Rightarrow (\lambda (H8: (eq T (THead (Bind Abbr) u1 t4) t)).\lambda (H9: (eq T (THead (Bind Abbr) u2 w) t2)).eq_ind T (THead (Bind Abbr) u1 t4) (\lambda (_: T).(eq T (THead (Bind Abbr) u2 w) t2) \to (pr0 u1 u2) \to (pr0 t4 t5) \to (subst0 O u2 t5 w) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H10: (eq T (THead (Bind Abbr) u2 w) t2)).eq_ind T (THead (Bind Abbr) u2 w) (\lambda (t: T).(pr0 u1 u2) \to (pr0 t4 t5) \to (subst0 O u2 t5 w) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t t0)) (\lambda (_: (pr0 u1 u2)).\lambda (_: (pr0 t4 t5)).\lambda (_: (subst0 O u2 t5 w)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead (Flat Cast) u t0) t) H3 (THead (Bind Abbr) u1 t4) H8 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead (Bind Abbr) u1 t4)) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 (THead (Bind Abbr) u2 w) t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Flat Cast) u t0) (THead (Bind Abbr) u1 t4))).let H1 \def eq_ind T (THead (Flat Cast) u t0) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind Abbr) u1 t4) H0 in False_ind (ex2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 (THead (Bind Abbr) u2 w) t)) H1)] in H1 (refl_equal T (THead (Bind Abbr) u1 t4))) t2 H10) t H8 H9 H5 H6 H7) | (pr0_zeta b H5 t4 t5 H6 u0) \Rightarrow (\lambda (H7: (eq T (THead (Bind b) u0 (lift (S O) O t4)) t)).\lambda (H8: (eq T t5 t2)).eq_ind T (THead (Bind b) u0 (lift (S O) O t4)) (\lambda (_: T).(eq T t5 t2) \to (not (eq B b Abst)) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H9: (eq T t5 t2)).eq_ind T t2 (\lambda (t: T).(not (eq B b Abst)) \to (pr0 t4 t) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (_: (not (eq B b Abst))).\lambda (_: (pr0 t4 t2)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead (Flat Cast) u t0) t) H3 (THead (Bind b) u0 (lift (S O) O t4)) H7 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead (Bind b) u0 (lift (S O) O t4))) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Flat Cast) u t0) (THead (Bind b) u0 (lift (S O) O t4)))).let H1 \def eq_ind T (THead (Flat Cast) u t0) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind b) u0 (lift (S O) O t4)) H0 in False_ind (ex2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 t2 t)) H1)] in H1 (refl_equal T (THead (Bind b) u0 (lift (S O) O t4)))) t5 (sym_eq T t5 t2 H9)) t H7 H8 H5 H6) | (pr0_epsilon t4 t5 H5 u0) \Rightarrow (\lambda (H7: (eq T (THead (Flat Cast) u0 t4) t)).\lambda (H8: (eq T t5 t2)).eq_ind T (THead (Flat Cast) u0 t4) (\lambda (_: T).(eq T t5 t2) \to (pr0 t4 t5) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H9: (eq T t5 t2)).eq_ind T t2 (\lambda (t: T).(pr0 t4 t) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H10: (pr0 t4 t2)).let H0 \def eq_ind_r T t (\lambda (t: T).eq T (THead (Flat Cast) u t0) t) H3 (THead (Flat Cast) u0 t4) H7 in let H1 \def match H0 return (\lambda (t: T).(eq T t (THead (Flat Cast) u0 t4)) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) with [refl_equal \Rightarrow (\lambda (H0: (eq T (THead (Flat Cast) u t0) (THead (Flat Cast) u0 t4))).let H1 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead (Flat Cast) u t0) (THead (Flat Cast) u0 t4) H0 in (let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u | (TLRef _) \Rightarrow u | (THead _ t _) \Rightarrow t]) (THead (Flat Cast) u t0) (THead (Flat Cast) u0 t4) H0 in eq_ind T u0 (\lambda (_: T).(eq T t0 t4) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (\lambda (H8: (eq T t0 t4)).eq_ind T t4 (\lambda (_: T).ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) (let H3 \def eq_ind_r T t (\lambda (t: T).\forall (v: T).(tlt v t) \to \forall (t1: T).(pr0 v t1) \to \forall (t2: T).(pr0 v t2) \to ex2 T (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).pr0 t2 t0)) H (THead (Flat Cast) u0 t4) H7 in let H4 \def eq_ind T t0 (\lambda (t: T).pr0 t t1) H6 t4 H8 in ex2_ind T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 t2 t) (ex2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 t2 t)) (\lambda (x: T).\lambda (H5: (pr0 t1 x)).\lambda (H6: (pr0 t2 x)).ex_intro2 T (\lambda (t: T).pr0 t1 t) (\lambda (t: T).pr0 t2 t) x H5 H6) (H3 t4 (tlt_head_dx (Flat Cast) u0 t4) t1 H4 t2 H10)) t0 (sym_eq T t0 t4 H8)) u (sym_eq T u u0 H2)) H1)] in H1 (refl_equal T (THead (Flat Cast) u0 t4))) t5 (sym_eq T t5 t2 H9)) t H7 H8 H5)] in H7 (refl_equal T t) (refl_equal T t2)) t3 (sym_eq T t3 t1 H5)) t H3 H4 H2)] in H2 (refl_equal T t) (refl_equal T t1)) t0.
+
+theorem pr0_delta1: \forall (u1: T).\forall (u2: T).(pr0 u1 u2) \to \forall (t1: T).\forall (t2: T).(pr0 t1 t2) \to \forall (w: T).(subst1 O u2 t2 w) \to pr0 (THead (Bind Abbr) u1 t1) (THead (Bind Abbr) u2 w) \def \lambda (u1: T).\lambda (u2: T).\lambda (H: (pr0 u1 u2)).\lambda (t1: T).\lambda (t2: T).\lambda (H0: (pr0 t1 t2)).\lambda (w: T).\lambda (H1: (subst1 O u2 t2 w)).subst1_ind O u2 t2 (\lambda (t: T).pr0 (THead (Bind Abbr) u1 t1) (THead (Bind Abbr) u2 t)) (pr0_comp u1 u2 H t1 t2 H0 (Bind Abbr)) (\lambda (t0: T).\lambda (H2: (subst0 O u2 t2 t0)).pr0_delta u1 u2 H t1 t2 H0 t0 H2) w H1.
+
+theorem pr0_subst1_back: \forall (u2: T).\forall (t1: T).\forall (t2: T).\forall (i: nat).(subst1 i u2 t1 t2) \to \forall (u1: T).(pr0 u1 u2) \to ex2 T (\lambda (t: T).subst1 i u1 t1 t) (\lambda (t: T).pr0 t t2) \def \lambda (u2: T).\lambda (t1: T).\lambda (t2: T).\lambda (i: nat).\lambda (H: (subst1 i u2 t1 t2)).subst1_ind i u2 t1 (\lambda (t: T).\forall (u1: T).(pr0 u1 u2) \to ex2 T (\lambda (t0: T).subst1 i u1 t1 t0) (\lambda (t0: T).pr0 t0 t)) (\lambda (u1: T).\lambda (_: (pr0 u1 u2)).ex_intro2 T (\lambda (t: T).subst1 i u1 t1 t) (\lambda (t: T).pr0 t t1) t1 (subst1_refl i u1 t1) (pr0_refl t1)) (\lambda (t0: T).\lambda (H0: (subst0 i u2 t1 t0)).\lambda (u1: T).\lambda (H1: (pr0 u1 u2)).ex2_ind T (\lambda (t: T).subst0 i u1 t1 t) (\lambda (t: T).pr0 t t0) (ex2 T (\lambda (t: T).subst1 i u1 t1 t) (\lambda (t: T).pr0 t t0)) (\lambda (x: T).\lambda (H2: (subst0 i u1 t1 x)).\lambda (H3: (pr0 x t0)).ex_intro2 T (\lambda (t: T).subst1 i u1 t1 t) (\lambda (t: T).pr0 t t0) x (subst1_single i u1 t1 x H2) H3) (pr0_subst0_back u2 t1 t0 i H0 u1 H1)) t2 H.
+
+theorem pr0_subst1_fwd: \forall (u2: T).\forall (t1: T).\forall (t2: T).\forall (i: nat).(subst1 i u2 t1 t2) \to \forall (u1: T).(pr0 u2 u1) \to ex2 T (\lambda (t: T).subst1 i u1 t1 t) (\lambda (t: T).pr0 t2 t) \def \lambda (u2: T).\lambda (t1: T).\lambda (t2: T).\lambda (i: nat).\lambda (H: (subst1 i u2 t1 t2)).subst1_ind i u2 t1 (\lambda (t: T).\forall (u1: T).(pr0 u2 u1) \to ex2 T (\lambda (t0: T).subst1 i u1 t1 t0) (\lambda (t0: T).pr0 t t0)) (\lambda (u1: T).\lambda (_: (pr0 u2 u1)).ex_intro2 T (\lambda (t: T).subst1 i u1 t1 t) (\lambda (t: T).pr0 t1 t) t1 (subst1_refl i u1 t1) (pr0_refl t1)) (\lambda (t0: T).\lambda (H0: (subst0 i u2 t1 t0)).\lambda (u1: T).\lambda (H1: (pr0 u2 u1)).ex2_ind T (\lambda (t: T).subst0 i u1 t1 t) (\lambda (t: T).pr0 t0 t) (ex2 T (\lambda (t: T).subst1 i u1 t1 t) (\lambda (t: T).pr0 t0 t)) (\lambda (x: T).\lambda (H2: (subst0 i u1 t1 x)).\lambda (H3: (pr0 t0 x)).ex_intro2 T (\lambda (t: T).subst1 i u1 t1 t) (\lambda (t: T).pr0 t0 t) x (subst1_single i u1 t1 x H2) H3) (pr0_subst0_fwd u2 t1 t0 i H0 u1 H1)) t2 H.
+
+theorem pr0_subst1: \forall (t1: T).\forall (t2: T).(pr0 t1 t2) \to \forall (v1: T).\forall (w1: T).\forall (i: nat).(subst1 i v1 t1 w1) \to \forall (v2: T).(pr0 v1 v2) \to ex2 T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst1 i v2 t2 w2) \def \lambda (t1: T).\lambda (t2: T).\lambda (H: (pr0 t1 t2)).\lambda (v1: T).\lambda (w1: T).\lambda (i: nat).\lambda (H0: (subst1 i v1 t1 w1)).subst1_ind i v1 t1 (\lambda (t: T).\forall (v2: T).(pr0 v1 v2) \to ex2 T (\lambda (w2: T).pr0 t w2) (\lambda (w2: T).subst1 i v2 t2 w2)) (\lambda (v2: T).\lambda (_: (pr0 v1 v2)).ex_intro2 T (\lambda (w2: T).pr0 t1 w2) (\lambda (w2: T).subst1 i v2 t2 w2) t2 H (subst1_refl i v2 t2)) (\lambda (t0: T).\lambda (H1: (subst0 i v1 t1 t0)).\lambda (v2: T).\lambda (H2: (pr0 v1 v2)).or_ind (pr0 t0 t2) (ex2 T (\lambda (w2: T).pr0 t0 w2) (\lambda (w2: T).subst0 i v2 t2 w2)) (ex2 T (\lambda (w2: T).pr0 t0 w2) (\lambda (w2: T).subst1 i v2 t2 w2)) (\lambda (H3: (pr0 t0 t2)).ex_intro2 T (\lambda (w2: T).pr0 t0 w2) (\lambda (w2: T).subst1 i v2 t2 w2) t2 H3 (subst1_refl i v2 t2)) (\lambda (H3: (ex2 T (\lambda (w2: T).pr0 t0 w2) (\lambda (w2: T).subst0 i v2 t2 w2))).ex2_ind T (\lambda (w2: T).pr0 t0 w2) (\lambda (w2: T).subst0 i v2 t2 w2) (ex2 T (\lambda (w2: T).pr0 t0 w2) (\lambda (w2: T).subst1 i v2 t2 w2)) (\lambda (x: T).\lambda (H4: (pr0 t0 x)).\lambda (H5: (subst0 i v2 t2 x)).ex_intro2 T (\lambda (w2: T).pr0 t0 w2) (\lambda (w2: T).subst1 i v2 t2 w2) x H4 (subst1_single i v2 t2 x H5)) H3) (pr0_subst0 t1 t2 H v1 t0 i H1 v2 H2)) w1 H0.
+
+theorem nf0_dec: \forall (t1: T).or (\forall (t2: T).(pr0 t1 t2) \to eq T t1 t2) (ex2 T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 t1 t2)) \def \lambda (t1: T).T_ind (\lambda (t: T).or (\forall (t2: T).(pr0 t t2) \to eq T t t2) (ex2 T (\lambda (t2: T).(eq T t t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 t t2))) (\lambda (n: nat).or_introl (\forall (t2: T).(pr0 (TSort n) t2) \to eq T (TSort n) t2) (ex2 T (\lambda (t2: T).(eq T (TSort n) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (TSort n) t2)) (\lambda (t2: T).\lambda (H: (pr0 (TSort n) t2)).eq_ind_r T (TSort n) (\lambda (t: T).eq T (TSort n) t) (refl_equal T (TSort n)) t2 (pr0_gen_sort t2 n H))) (\lambda (n: nat).or_introl (\forall (t2: T).(pr0 (TLRef n) t2) \to eq T (TLRef n) t2) (ex2 T (\lambda (t2: T).(eq T (TLRef n) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (TLRef n) t2)) (\lambda (t2: T).\lambda (H: (pr0 (TLRef n) t2)).eq_ind_r T (TLRef n) (\lambda (t: T).eq T (TLRef n) t) (refl_equal T (TLRef n)) t2 (pr0_gen_lref t2 n H))) (\lambda (k: K).\lambda (t: T).\lambda (H: (or (\forall (t2: T).(pr0 t t2) \to eq T t t2) (ex2 T (\lambda (t2: T).(eq T t t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 t t2)))).\lambda (t0: T).\lambda (H0: (or (\forall (t2: T).(pr0 t0 t2) \to eq T t0 t2) (ex2 T (\lambda (t2: T).(eq T t0 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 t0 t2)))).match k return (\lambda (k0: K).or (\forall (t2: T).(pr0 (THead k0 t t0) t2) \to eq T (THead k0 t t0) t2) (ex2 T (\lambda (t2: T).(eq T (THead k0 t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead k0 t t0) t2))) with [(Bind b) \Rightarrow (match b return (\lambda (b0: B).or (\forall (t2: T).(pr0 (THead (Bind b0) t t0) t2) \to eq T (THead (Bind b0) t t0) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Bind b0) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind b0) t t0) t2))) with [Abbr \Rightarrow (or_intror (\forall (t2: T).(pr0 (THead (Bind Abbr) t t0) t2) \to eq T (THead (Bind Abbr) t t0) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Bind Abbr) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind Abbr) t t0) t2)) (let H_x \def dnf_dec t t0 O in let H1 \def H_x in ex_ind T (\lambda (v: T).or (subst0 O t t0 (lift (S O) O v)) (eq T t0 (lift (S O) O v))) (ex2 T (\lambda (t2: T).(eq T (THead (Bind Abbr) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind Abbr) t t0) t2)) (\lambda (x: T).\lambda (H2: (or (subst0 O t t0 (lift (S O) O x)) (eq T t0 (lift (S O) O x)))).or_ind (subst0 O t t0 (lift (S O) O x)) (eq T t0 (lift (S O) O x)) (ex2 T (\lambda (t2: T).(eq T (THead (Bind Abbr) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind Abbr) t t0) t2)) (\lambda (H3: (subst0 O t t0 (lift (S O) O x))).ex_intro2 T (\lambda (t2: T).(eq T (THead (Bind Abbr) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind Abbr) t t0) t2) (THead (Bind Abbr) t (lift (S O) O x)) (\lambda (H4: (eq T (THead (Bind Abbr) t t0) (THead (Bind Abbr) t (lift (S O) O x)))).\lambda (P: (Prop)).let H5 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead (Bind Abbr) t t0) (THead (Bind Abbr) t (lift (S O) O x)) H4 in let H6 \def eq_ind T t0 (\lambda (t0: T).subst0 O t t0 (lift (S O) O x)) H3 (lift (S O) O x) H5 in subst0_refl t (lift (S O) O x) O H6 P) (pr0_delta t t (pr0_refl t) t0 t0 (pr0_refl t0) (lift (S O) O x) H3)) (\lambda (H3: (eq T t0 (lift (S O) O x))).eq_ind_r T (lift (S O) O x) (\lambda (t2: T).ex2 T (\lambda (t3: T).(eq T (THead (Bind Abbr) t t2) t3) \to \forall (P: (Prop)).P) (\lambda (t3: T).pr0 (THead (Bind Abbr) t t2) t3)) (ex_intro2 T (\lambda (t2: T).(eq T (THead (Bind Abbr) t (lift (S O) O x)) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind Abbr) t (lift (S O) O x)) t2) x (\lambda (H4: (eq T (THead (Bind Abbr) t (lift (S O) O x)) x)).\lambda (P: (Prop)).thead_x_lift_y_y (Bind Abbr) x t (S O) O H4 P) (pr0_zeta Abbr not_abbr_abst x x (pr0_refl x) t)) t0 H3) H2) H1)) | Abst \Rightarrow (let H1 \def H in or_ind (\forall (t2: T).(pr0 t t2) \to eq T t t2) (ex2 T (\lambda (t2: T).(eq T t t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 t t2)) (or (\forall (t2: T).(pr0 (THead (Bind Abst) t t0) t2) \to eq T (THead (Bind Abst) t t0) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Bind Abst) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind Abst) t t0) t2))) (\lambda (H2: ((\forall (t2: T).(pr0 t t2) \to eq T t t2))).let H3 \def H0 in or_ind (\forall (t2: T).(pr0 t0 t2) \to eq T t0 t2) (ex2 T (\lambda (t2: T).(eq T t0 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 t0 t2)) (or (\forall (t2: T).(pr0 (THead (Bind Abst) t t0) t2) \to eq T (THead (Bind Abst) t t0) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Bind Abst) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind Abst) t t0) t2))) (\lambda (H4: ((\forall (t2: T).(pr0 t0 t2) \to eq T t0 t2))).or_introl (\forall (t2: T).(pr0 (THead (Bind Abst) t t0) t2) \to eq T (THead (Bind Abst) t t0) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Bind Abst) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind Abst) t t0) t2)) (\lambda (t2: T).\lambda (H5: (pr0 (THead (Bind Abst) t t0) t2)).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 t u2) (\lambda (_: T).\lambda (t3: T).pr0 t0 t3) (eq T (THead (Bind Abst) t t0) t2) (\lambda (x0: T).\lambda (x1: T).\lambda (H6: (eq T t2 (THead (Bind Abst) x0 x1))).\lambda (H7: (pr0 t x0)).\lambda (H8: (pr0 t0 x1)).let H_y \def H4 x1 H8 in let H_y0 \def H2 x0 H7 in let H9 \def eq_ind_r T x1 (\lambda (t: T).pr0 t0 t) H8 t0 H_y in let H10 \def eq_ind_r T x1 (\lambda (t: T).eq T t2 (THead (Bind Abst) x0 t)) H6 t0 H_y in let H11 \def eq_ind_r T x0 (\lambda (t0: T).pr0 t t0) H7 t H_y0 in let H12 \def eq_ind_r T x0 (\lambda (t: T).eq T t2 (THead (Bind Abst) t t0)) H10 t H_y0 in eq_ind_r T (THead (Bind Abst) t t0) (\lambda (t3: T).eq T (THead (Bind Abst) t t0) t3) (refl_equal T (THead (Bind Abst) t t0)) t2 H12) (pr0_gen_abst t t0 t2 H5))) (\lambda (H4: (ex2 T (\lambda (t2: T).(eq T t0 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 t0 t2))).ex2_ind T (\lambda (t2: T).(eq T t0 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 t0 t2) (or (\forall (t2: T).(pr0 (THead (Bind Abst) t t0) t2) \to eq T (THead (Bind Abst) t t0) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Bind Abst) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind Abst) t t0) t2))) (\lambda (x: T).\lambda (H5: (((eq T t0 x) \to \forall (P: (Prop)).P))).\lambda (H6: (pr0 t0 x)).or_intror (\forall (t2: T).(pr0 (THead (Bind Abst) t t0) t2) \to eq T (THead (Bind Abst) t t0) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Bind Abst) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind Abst) t t0) t2)) (ex_intro2 T (\lambda (t2: T).(eq T (THead (Bind Abst) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind Abst) t t0) t2) (THead (Bind Abst) t x) (\lambda (H7: (eq T (THead (Bind Abst) t t0) (THead (Bind Abst) t x))).\lambda (P: (Prop)).let H8 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead (Bind Abst) t t0) (THead (Bind Abst) t x) H7 in let H9 \def eq_ind_r T x (\lambda (t: T).pr0 t0 t) H6 t0 H8 in let H10 \def eq_ind_r T x (\lambda (t: T).(eq T t0 t) \to \forall (P: (Prop)).P) H5 t0 H8 in H10 (refl_equal T t0) P) (pr0_comp t t (pr0_refl t) t0 x H6 (Bind Abst)))) H4) H3) (\lambda (H2: (ex2 T (\lambda (t2: T).(eq T t t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 t t2))).ex2_ind T (\lambda (t2: T).(eq T t t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 t t2) (or (\forall (t2: T).(pr0 (THead (Bind Abst) t t0) t2) \to eq T (THead (Bind Abst) t t0) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Bind Abst) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind Abst) t t0) t2))) (\lambda (x: T).\lambda (H3: (((eq T t x) \to \forall (P: (Prop)).P))).\lambda (H4: (pr0 t x)).or_intror (\forall (t2: T).(pr0 (THead (Bind Abst) t t0) t2) \to eq T (THead (Bind Abst) t t0) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Bind Abst) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind Abst) t t0) t2)) (ex_intro2 T (\lambda (t2: T).(eq T (THead (Bind Abst) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind Abst) t t0) t2) (THead (Bind Abst) x t0) (\lambda (H5: (eq T (THead (Bind Abst) t t0) (THead (Bind Abst) x t0))).\lambda (P: (Prop)).let H6 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t | (TLRef _) \Rightarrow t | (THead _ t _) \Rightarrow t]) (THead (Bind Abst) t t0) (THead (Bind Abst) x t0) H5 in let H7 \def eq_ind_r T x (\lambda (t0: T).pr0 t t0) H4 t H6 in let H8 \def eq_ind_r T x (\lambda (t0: T).(eq T t t0) \to \forall (P: (Prop)).P) H3 t H6 in H8 (refl_equal T t) P) (pr0_comp t x H4 t0 t0 (pr0_refl t0) (Bind Abst)))) H2) H1) | Void \Rightarrow (let H_x \def dnf_dec t t0 O in let H1 \def H_x in ex_ind T (\lambda (v: T).or (subst0 O t t0 (lift (S O) O v)) (eq T t0 (lift (S O) O v))) (or (\forall (t2: T).(pr0 (THead (Bind Void) t t0) t2) \to eq T (THead (Bind Void) t t0) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Bind Void) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind Void) t t0) t2))) (\lambda (x: T).\lambda (H2: (or (subst0 O t t0 (lift (S O) O x)) (eq T t0 (lift (S O) O x)))).or_ind (subst0 O t t0 (lift (S O) O x)) (eq T t0 (lift (S O) O x)) (or (\forall (t2: T).(pr0 (THead (Bind Void) t t0) t2) \to eq T (THead (Bind Void) t t0) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Bind Void) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind Void) t t0) t2))) (\lambda (H3: (subst0 O t t0 (lift (S O) O x))).let H4 \def H in or_ind (\forall (t2: T).(pr0 t t2) \to eq T t t2) (ex2 T (\lambda (t2: T).(eq T t t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 t t2)) (or (\forall (t2: T).(pr0 (THead (Bind Void) t t0) t2) \to eq T (THead (Bind Void) t t0) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Bind Void) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind Void) t t0) t2))) (\lambda (H5: ((\forall (t2: T).(pr0 t t2) \to eq T t t2))).let H6 \def H0 in or_ind (\forall (t2: T).(pr0 t0 t2) \to eq T t0 t2) (ex2 T (\lambda (t2: T).(eq T t0 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 t0 t2)) (or (\forall (t2: T).(pr0 (THead (Bind Void) t t0) t2) \to eq T (THead (Bind Void) t t0) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Bind Void) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind Void) t t0) t2))) (\lambda (H7: ((\forall (t2: T).(pr0 t0 t2) \to eq T t0 t2))).or_introl (\forall (t2: T).(pr0 (THead (Bind Void) t t0) t2) \to eq T (THead (Bind Void) t t0) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Bind Void) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind Void) t t0) t2)) (\lambda (t2: T).\lambda (H8: (pr0 (THead (Bind Void) t t0) t2)).or_ind (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 t u2) (\lambda (_: T).\lambda (t3: T).pr0 t0 t3)) (pr0 t0 (lift (S O) O t2)) (eq T (THead (Bind Void) t t0) t2) (\lambda (H9: (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 t u2) (\lambda (_: T).\lambda (t2: T).pr0 t0 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 t u2) (\lambda (_: T).\lambda (t3: T).pr0 t0 t3) (eq T (THead (Bind Void) t t0) t2) (\lambda (x0: T).\lambda (x1: T).\lambda (H10: (eq T t2 (THead (Bind Void) x0 x1))).\lambda (H11: (pr0 t x0)).\lambda (H12: (pr0 t0 x1)).let H_y \def H7 x1 H12 in let H_y0 \def H5 x0 H11 in let H13 \def eq_ind_r T x1 (\lambda (t: T).pr0 t0 t) H12 t0 H_y in let H14 \def eq_ind_r T x1 (\lambda (t: T).eq T t2 (THead (Bind Void) x0 t)) H10 t0 H_y in let H15 \def eq_ind_r T x0 (\lambda (t0: T).pr0 t t0) H11 t H_y0 in let H16 \def eq_ind_r T x0 (\lambda (t: T).eq T t2 (THead (Bind Void) t t0)) H14 t H_y0 in eq_ind_r T (THead (Bind Void) t t0) (\lambda (t3: T).eq T (THead (Bind Void) t t0) t3) (refl_equal T (THead (Bind Void) t t0)) t2 H16) H9) (\lambda (H9: (pr0 t0 (lift (S O) O t2))).let H_y \def H7 (lift (S O) O t2) H9 in let H10 \def eq_ind T t0 (\lambda (t0: T).subst0 O t t0 (lift (S O) O x)) H3 (lift (S O) O t2) H_y in eq_ind_r T (lift (S O) O t2) (\lambda (t3: T).eq T (THead (Bind Void) t t3) t2) (subst0_gen_lift_false t2 t (lift (S O) O x) (S O) O O (le_n O) (eq_ind_r nat (plus (S O) O) (\lambda (n: nat).lt O n) (le_n (plus (S O) O)) (plus O (S O)) (plus_sym O (S O))) H10 (eq T (THead (Bind Void) t (lift (S O) O t2)) t2)) t0 H_y) (pr0_gen_void t t0 t2 H8))) (\lambda (H7: (ex2 T (\lambda (t2: T).(eq T t0 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 t0 t2))).ex2_ind T (\lambda (t2: T).(eq T t0 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 t0 t2) (or (\forall (t2: T).(pr0 (THead (Bind Void) t t0) t2) \to eq T (THead (Bind Void) t t0) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Bind Void) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind Void) t t0) t2))) (\lambda (x0: T).\lambda (H8: (((eq T t0 x0) \to \forall (P: (Prop)).P))).\lambda (H9: (pr0 t0 x0)).or_intror (\forall (t2: T).(pr0 (THead (Bind Void) t t0) t2) \to eq T (THead (Bind Void) t t0) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Bind Void) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind Void) t t0) t2)) (ex_intro2 T (\lambda (t2: T).(eq T (THead (Bind Void) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind Void) t t0) t2) (THead (Bind Void) t x0) (\lambda (H10: (eq T (THead (Bind Void) t t0) (THead (Bind Void) t x0))).\lambda (P: (Prop)).let H11 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead (Bind Void) t t0) (THead (Bind Void) t x0) H10 in let H12 \def eq_ind_r T x0 (\lambda (t: T).pr0 t0 t) H9 t0 H11 in let H13 \def eq_ind_r T x0 (\lambda (t: T).(eq T t0 t) \to \forall (P: (Prop)).P) H8 t0 H11 in H13 (refl_equal T t0) P) (pr0_comp t t (pr0_refl t) t0 x0 H9 (Bind Void)))) H7) H6) (\lambda (H5: (ex2 T (\lambda (t2: T).(eq T t t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 t t2))).ex2_ind T (\lambda (t2: T).(eq T t t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 t t2) (or (\forall (t2: T).(pr0 (THead (Bind Void) t t0) t2) \to eq T (THead (Bind Void) t t0) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Bind Void) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind Void) t t0) t2))) (\lambda (x0: T).\lambda (H6: (((eq T t x0) \to \forall (P: (Prop)).P))).\lambda (H7: (pr0 t x0)).or_intror (\forall (t2: T).(pr0 (THead (Bind Void) t t0) t2) \to eq T (THead (Bind Void) t t0) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Bind Void) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind Void) t t0) t2)) (ex_intro2 T (\lambda (t2: T).(eq T (THead (Bind Void) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind Void) t t0) t2) (THead (Bind Void) x0 t0) (\lambda (H8: (eq T (THead (Bind Void) t t0) (THead (Bind Void) x0 t0))).\lambda (P: (Prop)).let H9 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t | (TLRef _) \Rightarrow t | (THead _ t _) \Rightarrow t]) (THead (Bind Void) t t0) (THead (Bind Void) x0 t0) H8 in let H10 \def eq_ind_r T x0 (\lambda (t0: T).pr0 t t0) H7 t H9 in let H11 \def eq_ind_r T x0 (\lambda (t0: T).(eq T t t0) \to \forall (P: (Prop)).P) H6 t H9 in H11 (refl_equal T t) P) (pr0_comp t x0 H7 t0 t0 (pr0_refl t0) (Bind Void)))) H5) H4) (\lambda (H3: (eq T t0 (lift (S O) O x))).let H4 \def eq_ind T t0 (\lambda (t: T).or (\forall (t2: T).(pr0 t t2) \to eq T t t2) (ex2 T (\lambda (t2: T).(eq T t t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 t t2))) H0 (lift (S O) O x) H3 in eq_ind_r T (lift (S O) O x) (\lambda (t2: T).or (\forall (t3: T).(pr0 (THead (Bind Void) t t2) t3) \to eq T (THead (Bind Void) t t2) t3) (ex2 T (\lambda (t3: T).(eq T (THead (Bind Void) t t2) t3) \to \forall (P: (Prop)).P) (\lambda (t3: T).pr0 (THead (Bind Void) t t2) t3))) (or_intror (\forall (t2: T).(pr0 (THead (Bind Void) t (lift (S O) O x)) t2) \to eq T (THead (Bind Void) t (lift (S O) O x)) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Bind Void) t (lift (S O) O x)) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind Void) t (lift (S O) O x)) t2)) (ex_intro2 T (\lambda (t2: T).(eq T (THead (Bind Void) t (lift (S O) O x)) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind Void) t (lift (S O) O x)) t2) x (\lambda (H5: (eq T (THead (Bind Void) t (lift (S O) O x)) x)).\lambda (P: (Prop)).thead_x_lift_y_y (Bind Void) x t (S O) O H5 P) (pr0_zeta Void not_void_abst x x (pr0_refl x) t))) t0 H3) H2) H1)]) | (Flat f) \Rightarrow (match f return (\lambda (f0: F).or (\forall (t2: T).(pr0 (THead (Flat f0) t t0) t2) \to eq T (THead (Flat f0) t t0) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Flat f0) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Flat f0) t t0) t2))) with [Appl \Rightarrow (let H_x \def binder_dec t0 in let H1 \def H_x in or_ind (ex_3 B T T (\lambda (b: B).\lambda (w: T).\lambda (u: T).eq T t0 (THead (Bind b) w u))) (\forall (b: B).\forall (w: T).\forall (u: T).(eq T t0 (THead (Bind b) w u)) \to \forall (P: (Prop)).P) (or (\forall (t2: T).(pr0 (THead (Flat Appl) t t0) t2) \to eq T (THead (Flat Appl) t t0) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Flat Appl) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Flat Appl) t t0) t2))) (\lambda (H2: (ex_3 B T T (\lambda (b: B).\lambda (w: T).\lambda (u: T).eq T t0 (THead (Bind b) w u)))).ex_3_ind B T T (\lambda (b: B).\lambda (w: T).\lambda (u: T).eq T t0 (THead (Bind b) w u)) (or (\forall (t2: T).(pr0 (THead (Flat Appl) t t0) t2) \to eq T (THead (Flat Appl) t t0) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Flat Appl) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Flat Appl) t t0) t2))) (\lambda (x0: B).\lambda (x1: T).\lambda (x2: T).\lambda (H3: (eq T t0 (THead (Bind x0) x1 x2))).let H4 \def eq_ind T t0 (\lambda (t: T).or (\forall (t2: T).(pr0 t t2) \to eq T t t2) (ex2 T (\lambda (t2: T).(eq T t t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 t t2))) H0 (THead (Bind x0) x1 x2) H3 in eq_ind_r T (THead (Bind x0) x1 x2) (\lambda (t2: T).or (\forall (t3: T).(pr0 (THead (Flat Appl) t t2) t3) \to eq T (THead (Flat Appl) t t2) t3) (ex2 T (\lambda (t3: T).(eq T (THead (Flat Appl) t t2) t3) \to \forall (P: (Prop)).P) (\lambda (t3: T).pr0 (THead (Flat Appl) t t2) t3))) ((match x0 return (\lambda (b: B).(or (\forall (t2: T).(pr0 (THead (Bind b) x1 x2) t2) \to eq T (THead (Bind b) x1 x2) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Bind b) x1 x2) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind b) x1 x2) t2))) \to or (\forall (t2: T).(pr0 (THead (Flat Appl) t (THead (Bind b) x1 x2)) t2) \to eq T (THead (Flat Appl) t (THead (Bind b) x1 x2)) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Flat Appl) t (THead (Bind b) x1 x2)) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Flat Appl) t (THead (Bind b) x1 x2)) t2))) with [Abbr \Rightarrow (\lambda (_: (or (\forall (t2: T).(pr0 (THead (Bind Abbr) x1 x2) t2) \to eq T (THead (Bind Abbr) x1 x2) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Bind Abbr) x1 x2) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind Abbr) x1 x2) t2)))).or_intror (\forall (t2: T).(pr0 (THead (Flat Appl) t (THead (Bind Abbr) x1 x2)) t2) \to eq T (THead (Flat Appl) t (THead (Bind Abbr) x1 x2)) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Flat Appl) t (THead (Bind Abbr) x1 x2)) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Flat Appl) t (THead (Bind Abbr) x1 x2)) t2)) (ex_intro2 T (\lambda (t2: T).(eq T (THead (Flat Appl) t (THead (Bind Abbr) x1 x2)) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Flat Appl) t (THead (Bind Abbr) x1 x2)) t2) (THead (Bind Abbr) x1 (THead (Flat Appl) (lift (S O) O t) x2)) (\lambda (H6: (eq T (THead (Flat Appl) t (THead (Bind Abbr) x1 x2)) (THead (Bind Abbr) x1 (THead (Flat Appl) (lift (S O) O t) x2)))).\lambda (P: (Prop)).let H7 \def eq_ind T (THead (Flat Appl) t (THead (Bind Abbr) x1 x2)) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ t) \Rightarrow (match t return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])])]) I (THead (Bind Abbr) x1 (THead (Flat Appl) (lift (S O) O t) x2)) H6 in False_ind P H7) (pr0_upsilon Abbr not_abbr_abst t t (pr0_refl t) x1 x1 (pr0_refl x1) x2 x2 (pr0_refl x2)))) | Abst \Rightarrow (\lambda (_: (or (\forall (t2: T).(pr0 (THead (Bind Abst) x1 x2) t2) \to eq T (THead (Bind Abst) x1 x2) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Bind Abst) x1 x2) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind Abst) x1 x2) t2)))).or_intror (\forall (t2: T).(pr0 (THead (Flat Appl) t (THead (Bind Abst) x1 x2)) t2) \to eq T (THead (Flat Appl) t (THead (Bind Abst) x1 x2)) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Flat Appl) t (THead (Bind Abst) x1 x2)) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Flat Appl) t (THead (Bind Abst) x1 x2)) t2)) (ex_intro2 T (\lambda (t2: T).(eq T (THead (Flat Appl) t (THead (Bind Abst) x1 x2)) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Flat Appl) t (THead (Bind Abst) x1 x2)) t2) (THead (Bind Abbr) t x2) (\lambda (H6: (eq T (THead (Flat Appl) t (THead (Bind Abst) x1 x2)) (THead (Bind Abbr) t x2))).\lambda (P: (Prop)).let H7 \def eq_ind T (THead (Flat Appl) t (THead (Bind Abst) x1 x2)) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind Abbr) t x2) H6 in False_ind P H7) (pr0_beta x1 t t (pr0_refl t) x2 x2 (pr0_refl x2)))) | Void \Rightarrow (\lambda (_: (or (\forall (t2: T).(pr0 (THead (Bind Void) x1 x2) t2) \to eq T (THead (Bind Void) x1 x2) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Bind Void) x1 x2) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Bind Void) x1 x2) t2)))).or_intror (\forall (t2: T).(pr0 (THead (Flat Appl) t (THead (Bind Void) x1 x2)) t2) \to eq T (THead (Flat Appl) t (THead (Bind Void) x1 x2)) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Flat Appl) t (THead (Bind Void) x1 x2)) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Flat Appl) t (THead (Bind Void) x1 x2)) t2)) (ex_intro2 T (\lambda (t2: T).(eq T (THead (Flat Appl) t (THead (Bind Void) x1 x2)) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Flat Appl) t (THead (Bind Void) x1 x2)) t2) (THead (Bind Void) x1 (THead (Flat Appl) (lift (S O) O t) x2)) (\lambda (H6: (eq T (THead (Flat Appl) t (THead (Bind Void) x1 x2)) (THead (Bind Void) x1 (THead (Flat Appl) (lift (S O) O t) x2)))).\lambda (P: (Prop)).let H7 \def eq_ind T (THead (Flat Appl) t (THead (Bind Void) x1 x2)) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ t) \Rightarrow (match t return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])])]) I (THead (Bind Void) x1 (THead (Flat Appl) (lift (S O) O t) x2)) H6 in False_ind P H7) (pr0_upsilon Void not_void_abst t t (pr0_refl t) x1 x1 (pr0_refl x1) x2 x2 (pr0_refl x2))))]) H4) t0 H3) H2) (\lambda (H2: ((\forall (b: B).\forall (w: T).\forall (u: T).(eq T t0 (THead (Bind b) w u)) \to \forall (P: (Prop)).P))).let H3 \def H in or_ind (\forall (t2: T).(pr0 t t2) \to eq T t t2) (ex2 T (\lambda (t2: T).(eq T t t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 t t2)) (or (\forall (t2: T).(pr0 (THead (Flat Appl) t t0) t2) \to eq T (THead (Flat Appl) t t0) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Flat Appl) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Flat Appl) t t0) t2))) (\lambda (H4: ((\forall (t2: T).(pr0 t t2) \to eq T t t2))).let H5 \def H0 in or_ind (\forall (t2: T).(pr0 t0 t2) \to eq T t0 t2) (ex2 T (\lambda (t2: T).(eq T t0 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 t0 t2)) (or (\forall (t2: T).(pr0 (THead (Flat Appl) t t0) t2) \to eq T (THead (Flat Appl) t t0) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Flat Appl) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Flat Appl) t t0) t2))) (\lambda (H6: ((\forall (t2: T).(pr0 t0 t2) \to eq T t0 t2))).or_introl (\forall (t2: T).(pr0 (THead (Flat Appl) t t0) t2) \to eq T (THead (Flat Appl) t t0) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Flat Appl) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Flat Appl) t t0) t2)) (\lambda (t2: T).\lambda (H7: (pr0 (THead (Flat Appl) t t0) t2)).or3_ind (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 t u2) (\lambda (_: T).\lambda (t3: T).pr0 t0 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t0 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr0 t u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t0 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (v2: T).\lambda (t3: T).eq T t2 (THead (Bind b) v2 (THead (Flat Appl) (lift (S O) O u2) t3))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).\lambda (_: T).pr0 t u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v2: T).\lambda (_: T).pr0 y1 v2) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3)) (eq T (THead (Flat Appl) t t0) t2) (\lambda (H8: (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 t u2) (\lambda (_: T).\lambda (t2: T).pr0 t0 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 t u2) (\lambda (_: T).\lambda (t3: T).pr0 t0 t3) (eq T (THead (Flat Appl) t t0) t2) (\lambda (x0: T).\lambda (x1: T).\lambda (H9: (eq T t2 (THead (Flat Appl) x0 x1))).\lambda (H10: (pr0 t x0)).\lambda (H11: (pr0 t0 x1)).let H_y \def H6 x1 H11 in let H_y0 \def H4 x0 H10 in let H12 \def eq_ind_r T x1 (\lambda (t: T).pr0 t0 t) H11 t0 H_y in let H13 \def eq_ind_r T x1 (\lambda (t: T).eq T t2 (THead (Flat Appl) x0 t)) H9 t0 H_y in let H14 \def eq_ind_r T x0 (\lambda (t0: T).pr0 t t0) H10 t H_y0 in let H15 \def eq_ind_r T x0 (\lambda (t: T).eq T t2 (THead (Flat Appl) t t0)) H13 t H_y0 in eq_ind_r T (THead (Flat Appl) t t0) (\lambda (t3: T).eq T (THead (Flat Appl) t t0) t3) (refl_equal T (THead (Flat Appl) t t0)) t2 H15) H8) (\lambda (H8: (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t0 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr0 t u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).pr0 z1 t2))).ex4_4_ind T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t0 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr0 t u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3) (eq T (THead (Flat Appl) t t0) t2) (\lambda (x0: T).\lambda (x1: T).\lambda (x2: T).\lambda (x3: T).\lambda (H9: (eq T t0 (THead (Bind Abst) x0 x1))).\lambda (H10: (eq T t2 (THead (Bind Abbr) x2 x3))).\lambda (_: (pr0 t x2)).\lambda (_: (pr0 x1 x3)).eq_ind_r T (THead (Bind Abbr) x2 x3) (\lambda (t3: T).eq T (THead (Flat Appl) t t0) t3) (let H13 \def eq_ind T t0 (\lambda (t: T).\forall (t2: T).(pr0 t t2) \to eq T t t2) H6 (THead (Bind Abst) x0 x1) H9 in let H14 \def eq_ind T t0 (\lambda (t: T).\forall (b: B).\forall (w: T).\forall (u: T).(eq T t (THead (Bind b) w u)) \to \forall (P: (Prop)).P) H2 (THead (Bind Abst) x0 x1) H9 in eq_ind_r T (THead (Bind Abst) x0 x1) (\lambda (t3: T).eq T (THead (Flat Appl) t t3) (THead (Bind Abbr) x2 x3)) (H14 Abst x0 x1 (H13 (THead (Bind Abst) x0 x1) (pr0_refl (THead (Bind Abst) x0 x1))) (eq T (THead (Flat Appl) t (THead (Bind Abst) x0 x1)) (THead (Bind Abbr) x2 x3))) t0 H9) t2 H10) H8) (\lambda (H8: (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t0 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (v2: T).\lambda (t3: T).eq T t2 (THead (Bind b) v2 (THead (Flat Appl) (lift (S O) O u2) t3))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).\lambda (_: T).pr0 t u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v2: T).\lambda (_: T).pr0 y1 v2) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t2: T).pr0 z1 t2))).ex6_6_ind B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t0 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (v2: T).\lambda (t3: T).eq T t2 (THead (Bind b) v2 (THead (Flat Appl) (lift (S O) O u2) t3))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).\lambda (_: T).pr0 t u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v2: T).\lambda (_: T).pr0 y1 v2) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3) (eq T (THead (Flat Appl) t t0) t2) (\lambda (x0: B).\lambda (x1: T).\lambda (x2: T).\lambda (x3: T).\lambda (x4: T).\lambda (x5: T).\lambda (_: (not (eq B x0 Abst))).\lambda (H10: (eq T t0 (THead (Bind x0) x1 x2))).\lambda (H11: (eq T t2 (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x3) x5)))).\lambda (_: (pr0 t x3)).\lambda (_: (pr0 x1 x4)).\lambda (_: (pr0 x2 x5)).eq_ind_r T (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x3) x5)) (\lambda (t3: T).eq T (THead (Flat Appl) t t0) t3) (let H15 \def eq_ind T t0 (\lambda (t: T).\forall (t2: T).(pr0 t t2) \to eq T t t2) H6 (THead (Bind x0) x1 x2) H10 in let H16 \def eq_ind T t0 (\lambda (t: T).\forall (b: B).\forall (w: T).\forall (u: T).(eq T t (THead (Bind b) w u)) \to \forall (P: (Prop)).P) H2 (THead (Bind x0) x1 x2) H10 in eq_ind_r T (THead (Bind x0) x1 x2) (\lambda (t3: T).eq T (THead (Flat Appl) t t3) (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x3) x5))) (H16 x0 x1 x2 (H15 (THead (Bind x0) x1 x2) (pr0_refl (THead (Bind x0) x1 x2))) (eq T (THead (Flat Appl) t (THead (Bind x0) x1 x2)) (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x3) x5)))) t0 H10) t2 H11) H8) (pr0_gen_appl t t0 t2 H7))) (\lambda (H6: (ex2 T (\lambda (t2: T).(eq T t0 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 t0 t2))).ex2_ind T (\lambda (t2: T).(eq T t0 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 t0 t2) (or (\forall (t2: T).(pr0 (THead (Flat Appl) t t0) t2) \to eq T (THead (Flat Appl) t t0) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Flat Appl) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Flat Appl) t t0) t2))) (\lambda (x: T).\lambda (H7: (((eq T t0 x) \to \forall (P: (Prop)).P))).\lambda (H8: (pr0 t0 x)).or_intror (\forall (t2: T).(pr0 (THead (Flat Appl) t t0) t2) \to eq T (THead (Flat Appl) t t0) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Flat Appl) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Flat Appl) t t0) t2)) (ex_intro2 T (\lambda (t2: T).(eq T (THead (Flat Appl) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Flat Appl) t t0) t2) (THead (Flat Appl) t x) (\lambda (H9: (eq T (THead (Flat Appl) t t0) (THead (Flat Appl) t x))).\lambda (P: (Prop)).let H10 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead (Flat Appl) t t0) (THead (Flat Appl) t x) H9 in let H11 \def eq_ind_r T x (\lambda (t: T).pr0 t0 t) H8 t0 H10 in let H12 \def eq_ind_r T x (\lambda (t: T).(eq T t0 t) \to \forall (P: (Prop)).P) H7 t0 H10 in H12 (refl_equal T t0) P) (pr0_comp t t (pr0_refl t) t0 x H8 (Flat Appl)))) H6) H5) (\lambda (H4: (ex2 T (\lambda (t2: T).(eq T t t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 t t2))).ex2_ind T (\lambda (t2: T).(eq T t t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 t t2) (or (\forall (t2: T).(pr0 (THead (Flat Appl) t t0) t2) \to eq T (THead (Flat Appl) t t0) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Flat Appl) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Flat Appl) t t0) t2))) (\lambda (x: T).\lambda (H5: (((eq T t x) \to \forall (P: (Prop)).P))).\lambda (H6: (pr0 t x)).or_intror (\forall (t2: T).(pr0 (THead (Flat Appl) t t0) t2) \to eq T (THead (Flat Appl) t t0) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Flat Appl) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Flat Appl) t t0) t2)) (ex_intro2 T (\lambda (t2: T).(eq T (THead (Flat Appl) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Flat Appl) t t0) t2) (THead (Flat Appl) x t0) (\lambda (H7: (eq T (THead (Flat Appl) t t0) (THead (Flat Appl) x t0))).\lambda (P: (Prop)).let H8 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t | (TLRef _) \Rightarrow t | (THead _ t _) \Rightarrow t]) (THead (Flat Appl) t t0) (THead (Flat Appl) x t0) H7 in let H9 \def eq_ind_r T x (\lambda (t0: T).pr0 t t0) H6 t H8 in let H10 \def eq_ind_r T x (\lambda (t0: T).(eq T t t0) \to \forall (P: (Prop)).P) H5 t H8 in H10 (refl_equal T t) P) (pr0_comp t x H6 t0 t0 (pr0_refl t0) (Flat Appl)))) H4) H3) H1) | Cast \Rightarrow (or_intror (\forall (t2: T).(pr0 (THead (Flat Cast) t t0) t2) \to eq T (THead (Flat Cast) t t0) t2) (ex2 T (\lambda (t2: T).(eq T (THead (Flat Cast) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Flat Cast) t t0) t2)) (ex_intro2 T (\lambda (t2: T).(eq T (THead (Flat Cast) t t0) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 (THead (Flat Cast) t t0) t2) t0 (\lambda (H1: (eq T (THead (Flat Cast) t t0) t0)).\lambda (P: (Prop)).thead_x_y_y (Flat Cast) t t0 H1 P) (pr0_epsilon t0 t0 (pr0_refl t0) t)))])]) t1.
+
+inductive pr1: T \to T \to Prop \def
+| pr1_r: \forall (t: T).pr1 t t
+| pr1_u: \forall (t2: T).\forall (t1: T).(pr0 t1 t2) \to \forall (t3: T).(pr1 t2 t3) \to pr1 t1 t3.
+
+theorem pr1_pr0: \forall (t1: T).\forall (t2: T).(pr0 t1 t2) \to pr1 t1 t2 \def \lambda (t1: T).\lambda (t2: T).\lambda (H: (pr0 t1 t2)).pr1_u t2 t1 H t2 (pr1_r t2).
+
+theorem pr1_t: \forall (t2: T).\forall (t1: T).(pr1 t1 t2) \to \forall (t3: T).(pr1 t2 t3) \to pr1 t1 t3 \def \lambda (t2: T).\lambda (t1: T).\lambda (H: (pr1 t1 t2)).pr1_ind (\lambda (t: T).\lambda (t0: T).\forall (t3: T).(pr1 t0 t3) \to pr1 t t3) (\lambda (t: T).\lambda (t3: T).\lambda (H0: (pr1 t t3)).H0) (\lambda (t0: T).\lambda (t3: T).\lambda (H0: (pr0 t3 t0)).\lambda (t4: T).\lambda (_: (pr1 t0 t4)).\lambda (H2: ((\forall (t3: T).(pr1 t4 t3) \to pr1 t0 t3))).\lambda (t5: T).\lambda (H3: (pr1 t4 t5)).pr1_u t0 t3 H0 t5 (H2 t5 H3)) t1 t2 H.
+
+theorem pr1_head_1: \forall (u1: T).\forall (u2: T).(pr1 u1 u2) \to \forall (t: T).\forall (k: K).pr1 (THead k u1 t) (THead k u2 t) \def \lambda (u1: T).\lambda (u2: T).\lambda (H: (pr1 u1 u2)).\lambda (t: T).\lambda (k: K).pr1_ind (\lambda (t0: T).\lambda (t1: T).pr1 (THead k t0 t) (THead k t1 t)) (\lambda (t0: T).pr1_r (THead k t0 t)) (\lambda (t2: T).\lambda (t1: T).\lambda (H0: (pr0 t1 t2)).\lambda (t3: T).\lambda (_: (pr1 t2 t3)).\lambda (H2: (pr1 (THead k t2 t) (THead k t3 t))).pr1_u (THead k t2 t) (THead k t1 t) (pr0_comp t1 t2 H0 t t (pr0_refl t) k) (THead k t3 t) H2) u1 u2 H.
+
+theorem pr1_head_2: \forall (t1: T).\forall (t2: T).(pr1 t1 t2) \to \forall (u: T).\forall (k: K).pr1 (THead k u t1) (THead k u t2) \def \lambda (t1: T).\lambda (t2: T).\lambda (H: (pr1 t1 t2)).\lambda (u: T).\lambda (k: K).pr1_ind (\lambda (t: T).\lambda (t0: T).pr1 (THead k u t) (THead k u t0)) (\lambda (t: T).pr1_r (THead k u t)) (\lambda (t0: T).\lambda (t3: T).\lambda (H0: (pr0 t3 t0)).\lambda (t4: T).\lambda (_: (pr1 t0 t4)).\lambda (H2: (pr1 (THead k u t0) (THead k u t4))).pr1_u (THead k u t0) (THead k u t3) (pr0_comp u u (pr0_refl u) t3 t0 H0 k) (THead k u t4) H2) t1 t2 H.
+
+theorem pr1_strip: \forall (t0: T).\forall (t1: T).(pr1 t0 t1) \to \forall (t2: T).(pr0 t0 t2) \to ex2 T (\lambda (t: T).pr1 t1 t) (\lambda (t: T).pr1 t2 t) \def \lambda (t0: T).\lambda (t1: T).\lambda (H: (pr1 t0 t1)).pr1_ind (\lambda (t: T).\lambda (t2: T).\forall (t3: T).(pr0 t t3) \to ex2 T (\lambda (t4: T).pr1 t2 t4) (\lambda (t4: T).pr1 t3 t4)) (\lambda (t: T).\lambda (t2: T).\lambda (H0: (pr0 t t2)).ex_intro2 T (\lambda (t3: T).pr1 t t3) (\lambda (t3: T).pr1 t2 t3) t2 (pr1_pr0 t t2 H0) (pr1_r t2)) (\lambda (t2: T).\lambda (t3: T).\lambda (H0: (pr0 t3 t2)).\lambda (t4: T).\lambda (_: (pr1 t2 t4)).\lambda (H2: ((\forall (t3: T).(pr0 t2 t3) \to ex2 T (\lambda (t: T).pr1 t4 t) (\lambda (t: T).pr1 t3 t)))).\lambda (t5: T).\lambda (H3: (pr0 t3 t5)).ex2_ind T (\lambda (t: T).pr0 t5 t) (\lambda (t: T).pr0 t2 t) (ex2 T (\lambda (t: T).pr1 t4 t) (\lambda (t: T).pr1 t5 t)) (\lambda (x: T).\lambda (H4: (pr0 t5 x)).\lambda (H5: (pr0 t2 x)).ex2_ind T (\lambda (t: T).pr1 t4 t) (\lambda (t: T).pr1 x t) (ex2 T (\lambda (t: T).pr1 t4 t) (\lambda (t: T).pr1 t5 t)) (\lambda (x0: T).\lambda (H6: (pr1 t4 x0)).\lambda (H7: (pr1 x x0)).ex_intro2 T (\lambda (t: T).pr1 t4 t) (\lambda (t: T).pr1 t5 t) x0 H6 (pr1_u x t5 H4 x0 H7)) (H2 x H5)) (pr0_confluence t3 t5 H3 t2 H0)) t0 t1 H.
+
+theorem pr1_confluence: \forall (t0: T).\forall (t1: T).(pr1 t0 t1) \to \forall (t2: T).(pr1 t0 t2) \to ex2 T (\lambda (t: T).pr1 t1 t) (\lambda (t: T).pr1 t2 t) \def \lambda (t0: T).\lambda (t1: T).\lambda (H: (pr1 t0 t1)).pr1_ind (\lambda (t: T).\lambda (t2: T).\forall (t3: T).(pr1 t t3) \to ex2 T (\lambda (t4: T).pr1 t2 t4) (\lambda (t4: T).pr1 t3 t4)) (\lambda (t: T).\lambda (t2: T).\lambda (H0: (pr1 t t2)).ex_intro2 T (\lambda (t3: T).pr1 t t3) (\lambda (t3: T).pr1 t2 t3) t2 H0 (pr1_r t2)) (\lambda (t2: T).\lambda (t3: T).\lambda (H0: (pr0 t3 t2)).\lambda (t4: T).\lambda (_: (pr1 t2 t4)).\lambda (H2: ((\forall (t3: T).(pr1 t2 t3) \to ex2 T (\lambda (t: T).pr1 t4 t) (\lambda (t: T).pr1 t3 t)))).\lambda (t5: T).\lambda (H3: (pr1 t3 t5)).ex2_ind T (\lambda (t: T).pr1 t5 t) (\lambda (t: T).pr1 t2 t) (ex2 T (\lambda (t: T).pr1 t4 t) (\lambda (t: T).pr1 t5 t)) (\lambda (x: T).\lambda (H4: (pr1 t5 x)).\lambda (H5: (pr1 t2 x)).ex2_ind T (\lambda (t: T).pr1 t4 t) (\lambda (t: T).pr1 x t) (ex2 T (\lambda (t: T).pr1 t4 t) (\lambda (t: T).pr1 t5 t)) (\lambda (x0: T).\lambda (H6: (pr1 t4 x0)).\lambda (H7: (pr1 x x0)).ex_intro2 T (\lambda (t: T).pr1 t4 t) (\lambda (t: T).pr1 t5 t) x0 H6 (pr1_t x t5 H4 x0 H7)) (H2 x H5)) (pr1_strip t3 t5 H3 t2 H0)) t0 t1 H.
+
+inductive wcpr0: C \to C \to Prop \def
+| wcpr0_refl: \forall (c: C).wcpr0 c c
+| wcpr0_comp: \forall (c1: C).\forall (c2: C).(wcpr0 c1 c2) \to \forall (u1: T).\forall (u2: T).(pr0 u1 u2) \to \forall (k: K).wcpr0 (CHead c1 k u1) (CHead c2 k u2).
+
+theorem wcpr0_gen_sort: \forall (x: C).\forall (n: nat).(wcpr0 (CSort n) x) \to eq C x (CSort n) \def \lambda (x: C).\lambda (n: nat).\lambda (H: (wcpr0 (CSort n) x)).let H0 \def match H return (\lambda (c: C).\lambda (c0: C).(eq C c (CSort n)) \to (eq C c0 x) \to eq C x (CSort n)) with [(wcpr0_refl c) \Rightarrow (\lambda (H0: (eq C c (CSort n))).\lambda (H1: (eq C c x)).eq_ind C (CSort n) (\lambda (c0: C).(eq C c0 x) \to eq C x (CSort n)) (\lambda (H2: (eq C (CSort n) x)).eq_ind C (CSort n) (\lambda (c0: C).eq C c0 (CSort n)) (refl_equal C (CSort n)) x H2) c (sym_eq C c (CSort n) H0) H1) | (wcpr0_comp c1 c2 H0 u1 u2 H1 k) \Rightarrow (\lambda (H2: (eq C (CHead c1 k u1) (CSort n))).\lambda (H3: (eq C (CHead c2 k u2) x)).(let H4 \def eq_ind C (CHead c1 k u1) (\lambda (e: C).match e return (Prop) with [(CSort _) \Rightarrow False | (CHead _ _ _) \Rightarrow True]) I (CSort n) H2 in False_ind ((eq C (CHead c2 k u2) x) \to (wcpr0 c1 c2) \to (pr0 u1 u2) \to eq C x (CSort n)) H4) H3 H0 H1)] in H0 (refl_equal C (CSort n)) (refl_equal C x).
+
+theorem wcpr0_gen_head: \forall (k: K).\forall (c1: C).\forall (x: C).\forall (u1: T).(wcpr0 (CHead c1 k u1) x) \to or (eq C x (CHead c1 k u1)) (ex3_2 C T (\lambda (c2: C).\lambda (u2: T).eq C x (CHead c2 k u2)) (\lambda (c2: C).\lambda (_: T).wcpr0 c1 c2) (\lambda (_: C).\lambda (u2: T).pr0 u1 u2)) \def \lambda (k: K).\lambda (c1: C).\lambda (x: C).\lambda (u1: T).\lambda (H: (wcpr0 (CHead c1 k u1) x)).let H0 \def match H return (\lambda (c: C).\lambda (c0: C).(eq C c (CHead c1 k u1)) \to (eq C c0 x) \to or (eq C x (CHead c1 k u1)) (ex3_2 C T (\lambda (c2: C).\lambda (u2: T).eq C x (CHead c2 k u2)) (\lambda (c2: C).\lambda (_: T).wcpr0 c1 c2) (\lambda (_: C).\lambda (u2: T).pr0 u1 u2))) with [(wcpr0_refl c) \Rightarrow (\lambda (H0: (eq C c (CHead c1 k u1))).\lambda (H1: (eq C c x)).eq_ind C (CHead c1 k u1) (\lambda (c0: C).(eq C c0 x) \to or (eq C x (CHead c1 k u1)) (ex3_2 C T (\lambda (c2: C).\lambda (u2: T).eq C x (CHead c2 k u2)) (\lambda (c2: C).\lambda (_: T).wcpr0 c1 c2) (\lambda (_: C).\lambda (u2: T).pr0 u1 u2))) (\lambda (H2: (eq C (CHead c1 k u1) x)).eq_ind C (CHead c1 k u1) (\lambda (c0: C).or (eq C c0 (CHead c1 k u1)) (ex3_2 C T (\lambda (c2: C).\lambda (u2: T).eq C c0 (CHead c2 k u2)) (\lambda (c2: C).\lambda (_: T).wcpr0 c1 c2) (\lambda (_: C).\lambda (u2: T).pr0 u1 u2))) (or_introl (eq C (CHead c1 k u1) (CHead c1 k u1)) (ex3_2 C T (\lambda (c2: C).\lambda (u2: T).eq C (CHead c1 k u1) (CHead c2 k u2)) (\lambda (c2: C).\lambda (_: T).wcpr0 c1 c2) (\lambda (_: C).\lambda (u2: T).pr0 u1 u2)) (refl_equal C (CHead c1 k u1))) x H2) c (sym_eq C c (CHead c1 k u1) H0) H1) | (wcpr0_comp c0 c2 H0 u0 u2 H1 k0) \Rightarrow (\lambda (H2: (eq C (CHead c0 k0 u0) (CHead c1 k u1))).\lambda (H3: (eq C (CHead c2 k0 u2) x)).(let H4 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u0 | (CHead _ _ t) \Rightarrow t]) (CHead c0 k0 u0) (CHead c1 k u1) H2 in (let H5 \def f_equal C K (\lambda (e: C).match e return K with [(CSort _) \Rightarrow k0 | (CHead _ k _) \Rightarrow k]) (CHead c0 k0 u0) (CHead c1 k u1) H2 in (let H6 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c0 | (CHead c _ _) \Rightarrow c]) (CHead c0 k0 u0) (CHead c1 k u1) H2 in eq_ind C c1 (\lambda (c: C).(eq K k0 k) \to (eq T u0 u1) \to (eq C (CHead c2 k0 u2) x) \to (wcpr0 c c2) \to (pr0 u0 u2) \to or (eq C x (CHead c1 k u1)) (ex3_2 C T (\lambda (c3: C).\lambda (u3: T).eq C x (CHead c3 k u3)) (\lambda (c3: C).\lambda (_: T).wcpr0 c1 c3) (\lambda (_: C).\lambda (u3: T).pr0 u1 u3))) (\lambda (H7: (eq K k0 k)).eq_ind K k (\lambda (k1: K).(eq T u0 u1) \to (eq C (CHead c2 k1 u2) x) \to (wcpr0 c1 c2) \to (pr0 u0 u2) \to or (eq C x (CHead c1 k u1)) (ex3_2 C T (\lambda (c3: C).\lambda (u3: T).eq C x (CHead c3 k u3)) (\lambda (c3: C).\lambda (_: T).wcpr0 c1 c3) (\lambda (_: C).\lambda (u3: T).pr0 u1 u3))) (\lambda (H8: (eq T u0 u1)).eq_ind T u1 (\lambda (t: T).(eq C (CHead c2 k u2) x) \to (wcpr0 c1 c2) \to (pr0 t u2) \to or (eq C x (CHead c1 k u1)) (ex3_2 C T (\lambda (c3: C).\lambda (u3: T).eq C x (CHead c3 k u3)) (\lambda (c3: C).\lambda (_: T).wcpr0 c1 c3) (\lambda (_: C).\lambda (u3: T).pr0 u1 u3))) (\lambda (H9: (eq C (CHead c2 k u2) x)).eq_ind C (CHead c2 k u2) (\lambda (c: C).(wcpr0 c1 c2) \to (pr0 u1 u2) \to or (eq C c (CHead c1 k u1)) (ex3_2 C T (\lambda (c3: C).\lambda (u3: T).eq C c (CHead c3 k u3)) (\lambda (c3: C).\lambda (_: T).wcpr0 c1 c3) (\lambda (_: C).\lambda (u3: T).pr0 u1 u3))) (\lambda (H10: (wcpr0 c1 c2)).\lambda (H11: (pr0 u1 u2)).or_intror (eq C (CHead c2 k u2) (CHead c1 k u1)) (ex3_2 C T (\lambda (c3: C).\lambda (u3: T).eq C (CHead c2 k u2) (CHead c3 k u3)) (\lambda (c3: C).\lambda (_: T).wcpr0 c1 c3) (\lambda (_: C).\lambda (u3: T).pr0 u1 u3)) (ex3_2_intro C T (\lambda (c3: C).\lambda (u3: T).eq C (CHead c2 k u2) (CHead c3 k u3)) (\lambda (c3: C).\lambda (_: T).wcpr0 c1 c3) (\lambda (_: C).\lambda (u3: T).pr0 u1 u3) c2 u2 (refl_equal C (CHead c2 k u2)) H10 H11)) x H9) u0 (sym_eq T u0 u1 H8)) k0 (sym_eq K k0 k H7)) c0 (sym_eq C c0 c1 H6)) H5) H4) H3 H0 H1)] in H0 (refl_equal C (CHead c1 k u1)) (refl_equal C x).
+
+theorem wcpr0_drop: \forall (c1: C).\forall (c2: C).(wcpr0 c1 c2) \to \forall (h: nat).\forall (e1: C).\forall (u1: T).\forall (k: K).(drop h O c1 (CHead e1 k u1)) \to ex3_2 C T (\lambda (e2: C).\lambda (u2: T).drop h O c2 (CHead e2 k u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u2: T).pr0 u1 u2) \def \lambda (c1: C).\lambda (c2: C).\lambda (H: (wcpr0 c1 c2)).wcpr0_ind (\lambda (c: C).\lambda (c0: C).\forall (h: nat).\forall (e1: C).\forall (u1: T).\forall (k: K).(drop h O c (CHead e1 k u1)) \to ex3_2 C T (\lambda (e2: C).\lambda (u2: T).drop h O c0 (CHead e2 k u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u2: T).pr0 u1 u2)) (\lambda (c: C).\lambda (h: nat).\lambda (e1: C).\lambda (u1: T).\lambda (k: K).\lambda (H0: (drop h O c (CHead e1 k u1))).ex3_2_intro C T (\lambda (e2: C).\lambda (u2: T).drop h O c (CHead e2 k u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u2: T).pr0 u1 u2) e1 u1 H0 (wcpr0_refl e1) (pr0_refl u1)) (\lambda (c0: C).\lambda (c3: C).\lambda (H0: (wcpr0 c0 c3)).\lambda (H1: ((\forall (h: nat).\forall (e1: C).\forall (u1: T).\forall (k: K).(drop h O c0 (CHead e1 k u1)) \to ex3_2 C T (\lambda (e2: C).\lambda (u2: T).drop h O c3 (CHead e2 k u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u2: T).pr0 u1 u2)))).\lambda (u1: T).\lambda (u2: T).\lambda (H2: (pr0 u1 u2)).\lambda (k: K).\lambda (h: nat).nat_ind (\lambda (n: nat).\forall (e1: C).\forall (u3: T).\forall (k0: K).(drop n O (CHead c0 k u1) (CHead e1 k0 u3)) \to ex3_2 C T (\lambda (e2: C).\lambda (u4: T).drop n O (CHead c3 k u2) (CHead e2 k0 u4)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u4: T).pr0 u3 u4)) (\lambda (e1: C).\lambda (u0: T).\lambda (k0: K).\lambda (H3: (drop O O (CHead c0 k u1) (CHead e1 k0 u0))).let H4 \def match (drop_gen_refl (CHead c0 k u1) (CHead e1 k0 u0) H3) return (\lambda (c: C).(eq C c (CHead e1 k0 u0)) \to ex3_2 C T (\lambda (e2: C).\lambda (u3: T).drop O O (CHead c3 k u2) (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u2: T).pr0 u0 u2)) with [refl_equal \Rightarrow (\lambda (H3: (eq C (CHead c0 k u1) (CHead e1 k0 u0))).let H4 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u1 | (CHead _ _ t) \Rightarrow t]) (CHead c0 k u1) (CHead e1 k0 u0) H3 in (let H5 \def f_equal C K (\lambda (e: C).match e return K with [(CSort _) \Rightarrow k | (CHead _ k _) \Rightarrow k]) (CHead c0 k u1) (CHead e1 k0 u0) H3 in (let H6 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c0 | (CHead c _ _) \Rightarrow c]) (CHead c0 k u1) (CHead e1 k0 u0) H3 in eq_ind C e1 (\lambda (_: C).(eq K k k0) \to (eq T u1 u0) \to ex3_2 C T (\lambda (e2: C).\lambda (u3: T).drop O O (CHead c3 k u2) (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u2: T).pr0 u0 u2)) (\lambda (H7: (eq K k k0)).eq_ind K k0 (\lambda (k: K).(eq T u1 u0) \to ex3_2 C T (\lambda (e2: C).\lambda (u3: T).drop O O (CHead c3 k u2) (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u2: T).pr0 u0 u2)) (\lambda (H8: (eq T u1 u0)).eq_ind T u0 (\lambda (_: T).ex3_2 C T (\lambda (e2: C).\lambda (u3: T).drop O O (CHead c3 k0 u2) (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u2: T).pr0 u0 u2)) (let H9 \def eq_ind T u1 (\lambda (t: T).pr0 t u2) H2 u0 H8 in let H10 \def eq_ind C c0 (\lambda (c: C).wcpr0 c c3) H0 e1 H6 in ex3_2_intro C T (\lambda (e2: C).\lambda (u3: T).drop O O (CHead c3 k0 u2) (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u2: T).pr0 u0 u2) c3 u2 (drop_refl (CHead c3 k0 u2)) H10 H9) u1 (sym_eq T u1 u0 H8)) k (sym_eq K k k0 H7)) c0 (sym_eq C c0 e1 H6)) H5) H4)] in H4 (refl_equal C (CHead e1 k0 u0))) (K_ind (\lambda (k0: K).\forall (n: nat).((\forall (e1: C).\forall (u3: T).\forall (k: K).(drop n O (CHead c0 k0 u1) (CHead e1 k u3)) \to ex3_2 C T (\lambda (e2: C).\lambda (u4: T).drop n O (CHead c3 k0 u2) (CHead e2 k u4)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u2: T).pr0 u3 u2))) \to \forall (e1: C).\forall (u3: T).\forall (k1: K).(drop (S n) O (CHead c0 k0 u1) (CHead e1 k1 u3)) \to ex3_2 C T (\lambda (e2: C).\lambda (u4: T).drop (S n) O (CHead c3 k0 u2) (CHead e2 k1 u4)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u4: T).pr0 u3 u4)) (\lambda (b: B).\lambda (n: nat).\lambda (_: ((\forall (e1: C).\forall (u3: T).\forall (k: K).(drop n O (CHead c0 (Bind b) u1) (CHead e1 k u3)) \to ex3_2 C T (\lambda (e2: C).\lambda (u4: T).drop n O (CHead c3 (Bind b) u2) (CHead e2 k u4)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u2: T).pr0 u3 u2)))).\lambda (e1: C).\lambda (u0: T).\lambda (k0: K).\lambda (H4: (drop (S n) O (CHead c0 (Bind b) u1) (CHead e1 k0 u0))).ex3_2_ind C T (\lambda (e2: C).\lambda (u3: T).drop n O c3 (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u3: T).pr0 u0 u3) (ex3_2 C T (\lambda (e2: C).\lambda (u3: T).drop (S n) O (CHead c3 (Bind b) u2) (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u3: T).pr0 u0 u3)) (\lambda (x0: C).\lambda (x1: T).\lambda (H5: (drop n O c3 (CHead x0 k0 x1))).\lambda (H6: (wcpr0 e1 x0)).\lambda (H7: (pr0 u0 x1)).ex3_2_intro C T (\lambda (e2: C).\lambda (u3: T).drop (S n) O (CHead c3 (Bind b) u2) (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u3: T).pr0 u0 u3) x0 x1 (drop_drop (Bind b) n c3 (CHead x0 k0 x1) H5 u2) H6 H7) (H1 n e1 u0 k0 (drop_gen_drop (Bind b) c0 (CHead e1 k0 u0) u1 n H4))) (\lambda (f: F).\lambda (n: nat).\lambda (_: ((\forall (e1: C).\forall (u3: T).\forall (k: K).(drop n O (CHead c0 (Flat f) u1) (CHead e1 k u3)) \to ex3_2 C T (\lambda (e2: C).\lambda (u4: T).drop n O (CHead c3 (Flat f) u2) (CHead e2 k u4)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u2: T).pr0 u3 u2)))).\lambda (e1: C).\lambda (u0: T).\lambda (k0: K).\lambda (H4: (drop (S n) O (CHead c0 (Flat f) u1) (CHead e1 k0 u0))).ex3_2_ind C T (\lambda (e2: C).\lambda (u3: T).drop (S n) O c3 (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u3: T).pr0 u0 u3) (ex3_2 C T (\lambda (e2: C).\lambda (u3: T).drop (S n) O (CHead c3 (Flat f) u2) (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u3: T).pr0 u0 u3)) (\lambda (x0: C).\lambda (x1: T).\lambda (H5: (drop (S n) O c3 (CHead x0 k0 x1))).\lambda (H6: (wcpr0 e1 x0)).\lambda (H7: (pr0 u0 x1)).ex3_2_intro C T (\lambda (e2: C).\lambda (u3: T).drop (S n) O (CHead c3 (Flat f) u2) (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u3: T).pr0 u0 u3) x0 x1 (drop_drop (Flat f) n c3 (CHead x0 k0 x1) H5 u2) H6 H7) (H1 (S n) e1 u0 k0 (drop_gen_drop (Flat f) c0 (CHead e1 k0 u0) u1 n H4))) k) h) c1 c2 H.
+
+theorem wcpr0_drop_back: \forall (c1: C).\forall (c2: C).(wcpr0 c2 c1) \to \forall (h: nat).\forall (e1: C).\forall (u1: T).\forall (k: K).(drop h O c1 (CHead e1 k u1)) \to ex3_2 C T (\lambda (e2: C).\lambda (u2: T).drop h O c2 (CHead e2 k u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u2: T).pr0 u2 u1) \def \lambda (c1: C).\lambda (c2: C).\lambda (H: (wcpr0 c2 c1)).wcpr0_ind (\lambda (c: C).\lambda (c0: C).\forall (h: nat).\forall (e1: C).\forall (u1: T).\forall (k: K).(drop h O c0 (CHead e1 k u1)) \to ex3_2 C T (\lambda (e2: C).\lambda (u2: T).drop h O c (CHead e2 k u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u2: T).pr0 u2 u1)) (\lambda (c: C).\lambda (h: nat).\lambda (e1: C).\lambda (u1: T).\lambda (k: K).\lambda (H0: (drop h O c (CHead e1 k u1))).ex3_2_intro C T (\lambda (e2: C).\lambda (u2: T).drop h O c (CHead e2 k u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u2: T).pr0 u2 u1) e1 u1 H0 (wcpr0_refl e1) (pr0_refl u1)) (\lambda (c0: C).\lambda (c3: C).\lambda (H0: (wcpr0 c0 c3)).\lambda (H1: ((\forall (h: nat).\forall (e1: C).\forall (u1: T).\forall (k: K).(drop h O c3 (CHead e1 k u1)) \to ex3_2 C T (\lambda (e2: C).\lambda (u2: T).drop h O c0 (CHead e2 k u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u2: T).pr0 u2 u1)))).\lambda (u1: T).\lambda (u2: T).\lambda (H2: (pr0 u1 u2)).\lambda (k: K).\lambda (h: nat).nat_ind (\lambda (n: nat).\forall (e1: C).\forall (u3: T).\forall (k0: K).(drop n O (CHead c3 k u2) (CHead e1 k0 u3)) \to ex3_2 C T (\lambda (e2: C).\lambda (u4: T).drop n O (CHead c0 k u1) (CHead e2 k0 u4)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u4: T).pr0 u4 u3)) (\lambda (e1: C).\lambda (u0: T).\lambda (k0: K).\lambda (H3: (drop O O (CHead c3 k u2) (CHead e1 k0 u0))).let H4 \def match (drop_gen_refl (CHead c3 k u2) (CHead e1 k0 u0) H3) return (\lambda (c: C).(eq C c (CHead e1 k0 u0)) \to ex3_2 C T (\lambda (e2: C).\lambda (u2: T).drop O O (CHead c0 k u1) (CHead e2 k0 u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u2: T).pr0 u2 u0)) with [refl_equal \Rightarrow (\lambda (H3: (eq C (CHead c3 k u2) (CHead e1 k0 u0))).let H4 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u2 | (CHead _ _ t) \Rightarrow t]) (CHead c3 k u2) (CHead e1 k0 u0) H3 in (let H5 \def f_equal C K (\lambda (e: C).match e return K with [(CSort _) \Rightarrow k | (CHead _ k _) \Rightarrow k]) (CHead c3 k u2) (CHead e1 k0 u0) H3 in (let H6 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c3 | (CHead c _ _) \Rightarrow c]) (CHead c3 k u2) (CHead e1 k0 u0) H3 in eq_ind C e1 (\lambda (_: C).(eq K k k0) \to (eq T u2 u0) \to ex3_2 C T (\lambda (e2: C).\lambda (u2: T).drop O O (CHead c0 k u1) (CHead e2 k0 u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u2: T).pr0 u2 u0)) (\lambda (H7: (eq K k k0)).eq_ind K k0 (\lambda (k: K).(eq T u2 u0) \to ex3_2 C T (\lambda (e2: C).\lambda (u2: T).drop O O (CHead c0 k u1) (CHead e2 k0 u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u2: T).pr0 u2 u0)) (\lambda (H8: (eq T u2 u0)).eq_ind T u0 (\lambda (_: T).ex3_2 C T (\lambda (e2: C).\lambda (u2: T).drop O O (CHead c0 k0 u1) (CHead e2 k0 u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u2: T).pr0 u2 u0)) (let H9 \def eq_ind T u2 (\lambda (t: T).pr0 u1 t) H2 u0 H8 in let H10 \def eq_ind C c3 (\lambda (c: C).wcpr0 c0 c) H0 e1 H6 in ex3_2_intro C T (\lambda (e2: C).\lambda (u2: T).drop O O (CHead c0 k0 u1) (CHead e2 k0 u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u2: T).pr0 u2 u0) c0 u1 (drop_refl (CHead c0 k0 u1)) H10 H9) u2 (sym_eq T u2 u0 H8)) k (sym_eq K k k0 H7)) c3 (sym_eq C c3 e1 H6)) H5) H4)] in H4 (refl_equal C (CHead e1 k0 u0))) (K_ind (\lambda (k0: K).\forall (n: nat).((\forall (e1: C).\forall (u3: T).\forall (k: K).(drop n O (CHead c3 k0 u2) (CHead e1 k u3)) \to ex3_2 C T (\lambda (e2: C).\lambda (u2: T).drop n O (CHead c0 k0 u1) (CHead e2 k u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u2: T).pr0 u2 u3))) \to \forall (e1: C).\forall (u3: T).\forall (k1: K).(drop (S n) O (CHead c3 k0 u2) (CHead e1 k1 u3)) \to ex3_2 C T (\lambda (e2: C).\lambda (u4: T).drop (S n) O (CHead c0 k0 u1) (CHead e2 k1 u4)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u4: T).pr0 u4 u3)) (\lambda (b: B).\lambda (n: nat).\lambda (_: ((\forall (e1: C).\forall (u3: T).\forall (k: K).(drop n O (CHead c3 (Bind b) u2) (CHead e1 k u3)) \to ex3_2 C T (\lambda (e2: C).\lambda (u2: T).drop n O (CHead c0 (Bind b) u1) (CHead e2 k u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u2: T).pr0 u2 u3)))).\lambda (e1: C).\lambda (u0: T).\lambda (k0: K).\lambda (H4: (drop (S n) O (CHead c3 (Bind b) u2) (CHead e1 k0 u0))).ex3_2_ind C T (\lambda (e2: C).\lambda (u3: T).drop n O c0 (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u3: T).pr0 u3 u0) (ex3_2 C T (\lambda (e2: C).\lambda (u3: T).drop (S n) O (CHead c0 (Bind b) u1) (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u3: T).pr0 u3 u0)) (\lambda (x0: C).\lambda (x1: T).\lambda (H5: (drop n O c0 (CHead x0 k0 x1))).\lambda (H6: (wcpr0 x0 e1)).\lambda (H7: (pr0 x1 u0)).ex3_2_intro C T (\lambda (e2: C).\lambda (u3: T).drop (S n) O (CHead c0 (Bind b) u1) (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u3: T).pr0 u3 u0) x0 x1 (drop_drop (Bind b) n c0 (CHead x0 k0 x1) H5 u1) H6 H7) (H1 n e1 u0 k0 (drop_gen_drop (Bind b) c3 (CHead e1 k0 u0) u2 n H4))) (\lambda (f: F).\lambda (n: nat).\lambda (_: ((\forall (e1: C).\forall (u3: T).\forall (k: K).(drop n O (CHead c3 (Flat f) u2) (CHead e1 k u3)) \to ex3_2 C T (\lambda (e2: C).\lambda (u2: T).drop n O (CHead c0 (Flat f) u1) (CHead e2 k u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u2: T).pr0 u2 u3)))).\lambda (e1: C).\lambda (u0: T).\lambda (k0: K).\lambda (H4: (drop (S n) O (CHead c3 (Flat f) u2) (CHead e1 k0 u0))).ex3_2_ind C T (\lambda (e2: C).\lambda (u3: T).drop (S n) O c0 (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u3: T).pr0 u3 u0) (ex3_2 C T (\lambda (e2: C).\lambda (u3: T).drop (S n) O (CHead c0 (Flat f) u1) (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u3: T).pr0 u3 u0)) (\lambda (x0: C).\lambda (x1: T).\lambda (H5: (drop (S n) O c0 (CHead x0 k0 x1))).\lambda (H6: (wcpr0 x0 e1)).\lambda (H7: (pr0 x1 u0)).ex3_2_intro C T (\lambda (e2: C).\lambda (u3: T).drop (S n) O (CHead c0 (Flat f) u1) (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u3: T).pr0 u3 u0) x0 x1 (drop_drop (Flat f) n c0 (CHead x0 k0 x1) H5 u1) H6 H7) (H1 (S n) e1 u0 k0 (drop_gen_drop (Flat f) c3 (CHead e1 k0 u0) u2 n H4))) k) h) c2 c1 H.
+
+theorem wcpr0_getl: \forall (c1: C).\forall (c2: C).(wcpr0 c1 c2) \to \forall (h: nat).\forall (e1: C).\forall (u1: T).\forall (k: K).(getl h c1 (CHead e1 k u1)) \to ex3_2 C T (\lambda (e2: C).\lambda (u2: T).getl h c2 (CHead e2 k u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u2: T).pr0 u1 u2) \def \lambda (c1: C).\lambda (c2: C).\lambda (H: (wcpr0 c1 c2)).wcpr0_ind (\lambda (c: C).\lambda (c0: C).\forall (h: nat).\forall (e1: C).\forall (u1: T).\forall (k: K).(getl h c (CHead e1 k u1)) \to ex3_2 C T (\lambda (e2: C).\lambda (u2: T).getl h c0 (CHead e2 k u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u2: T).pr0 u1 u2)) (\lambda (c: C).\lambda (h: nat).\lambda (e1: C).\lambda (u1: T).\lambda (k: K).\lambda (H0: (getl h c (CHead e1 k u1))).ex3_2_intro C T (\lambda (e2: C).\lambda (u2: T).getl h c (CHead e2 k u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u2: T).pr0 u1 u2) e1 u1 H0 (wcpr0_refl e1) (pr0_refl u1)) (\lambda (c0: C).\lambda (c3: C).\lambda (H0: (wcpr0 c0 c3)).\lambda (H1: ((\forall (h: nat).\forall (e1: C).\forall (u1: T).\forall (k: K).(getl h c0 (CHead e1 k u1)) \to ex3_2 C T (\lambda (e2: C).\lambda (u2: T).getl h c3 (CHead e2 k u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u2: T).pr0 u1 u2)))).\lambda (u1: T).\lambda (u2: T).\lambda (H2: (pr0 u1 u2)).\lambda (k: K).\lambda (h: nat).nat_ind (\lambda (n: nat).\forall (e1: C).\forall (u3: T).\forall (k0: K).(getl n (CHead c0 k u1) (CHead e1 k0 u3)) \to ex3_2 C T (\lambda (e2: C).\lambda (u4: T).getl n (CHead c3 k u2) (CHead e2 k0 u4)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u4: T).pr0 u3 u4)) (\lambda (e1: C).\lambda (u0: T).\lambda (k0: K).\lambda (H3: (getl O (CHead c0 k u1) (CHead e1 k0 u0))).(match k return (\lambda (k1: K).(clear (CHead c0 k1 u1) (CHead e1 k0 u0)) \to ex3_2 C T (\lambda (e2: C).\lambda (u3: T).getl O (CHead c3 k1 u2) (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u3: T).pr0 u0 u3)) with [(Bind b) \Rightarrow (\lambda (H4: (clear (CHead c0 (Bind b) u1) (CHead e1 k0 u0))).let H5 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow e1 | (CHead c _ _) \Rightarrow c]) (CHead e1 k0 u0) (CHead c0 (Bind b) u1) (clear_gen_bind b c0 (CHead e1 k0 u0) u1 H4) in (let H6 \def f_equal C K (\lambda (e: C).match e return K with [(CSort _) \Rightarrow k0 | (CHead _ k _) \Rightarrow k]) (CHead e1 k0 u0) (CHead c0 (Bind b) u1) (clear_gen_bind b c0 (CHead e1 k0 u0) u1 H4) in (let H7 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u0 | (CHead _ _ t) \Rightarrow t]) (CHead e1 k0 u0) (CHead c0 (Bind b) u1) (clear_gen_bind b c0 (CHead e1 k0 u0) u1 H4) in \lambda (H8: (eq K k0 (Bind b))).\lambda (H9: (eq C e1 c0)).eq_ind_r K (Bind b) (\lambda (k1: K).ex3_2 C T (\lambda (e2: C).\lambda (u3: T).getl O (CHead c3 (Bind b) u2) (CHead e2 k1 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u3: T).pr0 u0 u3)) (eq_ind_r T u1 (\lambda (t: T).ex3_2 C T (\lambda (e2: C).\lambda (u3: T).getl O (CHead c3 (Bind b) u2) (CHead e2 (Bind b) u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u3: T).pr0 t u3)) (eq_ind_r C c0 (\lambda (c: C).ex3_2 C T (\lambda (e2: C).\lambda (u3: T).getl O (CHead c3 (Bind b) u2) (CHead e2 (Bind b) u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 c e2) (\lambda (_: C).\lambda (u3: T).pr0 u1 u3)) (ex3_2_intro C T (\lambda (e2: C).\lambda (u3: T).getl O (CHead c3 (Bind b) u2) (CHead e2 (Bind b) u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 c0 e2) (\lambda (_: C).\lambda (u3: T).pr0 u1 u3) c3 u2 (getl_refl b c3 u2) H0 H2) e1 H9) u0 H7) k0 H8) H6) H5) | (Flat f) \Rightarrow (\lambda (H4: (clear (CHead c0 (Flat f) u1) (CHead e1 k0 u0))).let H5 \def H1 O e1 u0 k0 (getl_intro O c0 (CHead e1 k0 u0) c0 (drop_refl c0) (clear_gen_flat f c0 (CHead e1 k0 u0) u1 H4)) in ex3_2_ind C T (\lambda (e2: C).\lambda (u3: T).getl O c3 (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u3: T).pr0 u0 u3) (ex3_2 C T (\lambda (e2: C).\lambda (u3: T).getl O (CHead c3 (Flat f) u2) (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u3: T).pr0 u0 u3)) (\lambda (x0: C).\lambda (x1: T).\lambda (H6: (getl O c3 (CHead x0 k0 x1))).\lambda (H7: (wcpr0 e1 x0)).\lambda (H8: (pr0 u0 x1)).ex3_2_intro C T (\lambda (e2: C).\lambda (u3: T).getl O (CHead c3 (Flat f) u2) (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u3: T).pr0 u0 u3) x0 x1 (getl_flat c3 (CHead x0 k0 x1) O H6 f u2) H7 H8) H5)]) (getl_gen_O (CHead c0 k u1) (CHead e1 k0 u0) H3)) (K_ind (\lambda (k0: K).\forall (n: nat).((\forall (e1: C).\forall (u3: T).\forall (k: K).(getl n (CHead c0 k0 u1) (CHead e1 k u3)) \to ex3_2 C T (\lambda (e2: C).\lambda (u4: T).getl n (CHead c3 k0 u2) (CHead e2 k u4)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u2: T).pr0 u3 u2))) \to \forall (e1: C).\forall (u3: T).\forall (k1: K).(getl (S n) (CHead c0 k0 u1) (CHead e1 k1 u3)) \to ex3_2 C T (\lambda (e2: C).\lambda (u4: T).getl (S n) (CHead c3 k0 u2) (CHead e2 k1 u4)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u4: T).pr0 u3 u4)) (\lambda (b: B).\lambda (n: nat).\lambda (_: ((\forall (e1: C).\forall (u3: T).\forall (k: K).(getl n (CHead c0 (Bind b) u1) (CHead e1 k u3)) \to ex3_2 C T (\lambda (e2: C).\lambda (u4: T).getl n (CHead c3 (Bind b) u2) (CHead e2 k u4)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u2: T).pr0 u3 u2)))).\lambda (e1: C).\lambda (u0: T).\lambda (k0: K).\lambda (H4: (getl (S n) (CHead c0 (Bind b) u1) (CHead e1 k0 u0))).let H5 \def H1 n e1 u0 k0 (getl_gen_S (Bind b) c0 (CHead e1 k0 u0) u1 n H4) in ex3_2_ind C T (\lambda (e2: C).\lambda (u3: T).getl n c3 (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u3: T).pr0 u0 u3) (ex3_2 C T (\lambda (e2: C).\lambda (u3: T).getl (S n) (CHead c3 (Bind b) u2) (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u3: T).pr0 u0 u3)) (\lambda (x0: C).\lambda (x1: T).\lambda (H6: (getl n c3 (CHead x0 k0 x1))).\lambda (H7: (wcpr0 e1 x0)).\lambda (H8: (pr0 u0 x1)).ex3_2_intro C T (\lambda (e2: C).\lambda (u3: T).getl (S n) (CHead c3 (Bind b) u2) (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u3: T).pr0 u0 u3) x0 x1 (getl_head (Bind b) n c3 (CHead x0 k0 x1) H6 u2) H7 H8) H5) (\lambda (f: F).\lambda (n: nat).\lambda (_: ((\forall (e1: C).\forall (u3: T).\forall (k: K).(getl n (CHead c0 (Flat f) u1) (CHead e1 k u3)) \to ex3_2 C T (\lambda (e2: C).\lambda (u4: T).getl n (CHead c3 (Flat f) u2) (CHead e2 k u4)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u2: T).pr0 u3 u2)))).\lambda (e1: C).\lambda (u0: T).\lambda (k0: K).\lambda (H4: (getl (S n) (CHead c0 (Flat f) u1) (CHead e1 k0 u0))).let H5 \def H1 (S n) e1 u0 k0 (getl_gen_S (Flat f) c0 (CHead e1 k0 u0) u1 n H4) in ex3_2_ind C T (\lambda (e2: C).\lambda (u3: T).getl (S n) c3 (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u3: T).pr0 u0 u3) (ex3_2 C T (\lambda (e2: C).\lambda (u3: T).getl (S n) (CHead c3 (Flat f) u2) (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u3: T).pr0 u0 u3)) (\lambda (x0: C).\lambda (x1: T).\lambda (H6: (getl (S n) c3 (CHead x0 k0 x1))).\lambda (H7: (wcpr0 e1 x0)).\lambda (H8: (pr0 u0 x1)).ex3_2_intro C T (\lambda (e2: C).\lambda (u3: T).getl (S n) (CHead c3 (Flat f) u2) (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e1 e2) (\lambda (_: C).\lambda (u3: T).pr0 u0 u3) x0 x1 (getl_head (Flat f) n c3 (CHead x0 k0 x1) H6 u2) H7 H8) H5) k) h) c1 c2 H.
+
+theorem wcpr0_getl_back: \forall (c1: C).\forall (c2: C).(wcpr0 c2 c1) \to \forall (h: nat).\forall (e1: C).\forall (u1: T).\forall (k: K).(getl h c1 (CHead e1 k u1)) \to ex3_2 C T (\lambda (e2: C).\lambda (u2: T).getl h c2 (CHead e2 k u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u2: T).pr0 u2 u1) \def \lambda (c1: C).\lambda (c2: C).\lambda (H: (wcpr0 c2 c1)).wcpr0_ind (\lambda (c: C).\lambda (c0: C).\forall (h: nat).\forall (e1: C).\forall (u1: T).\forall (k: K).(getl h c0 (CHead e1 k u1)) \to ex3_2 C T (\lambda (e2: C).\lambda (u2: T).getl h c (CHead e2 k u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u2: T).pr0 u2 u1)) (\lambda (c: C).\lambda (h: nat).\lambda (e1: C).\lambda (u1: T).\lambda (k: K).\lambda (H0: (getl h c (CHead e1 k u1))).ex3_2_intro C T (\lambda (e2: C).\lambda (u2: T).getl h c (CHead e2 k u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u2: T).pr0 u2 u1) e1 u1 H0 (wcpr0_refl e1) (pr0_refl u1)) (\lambda (c0: C).\lambda (c3: C).\lambda (H0: (wcpr0 c0 c3)).\lambda (H1: ((\forall (h: nat).\forall (e1: C).\forall (u1: T).\forall (k: K).(getl h c3 (CHead e1 k u1)) \to ex3_2 C T (\lambda (e2: C).\lambda (u2: T).getl h c0 (CHead e2 k u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u2: T).pr0 u2 u1)))).\lambda (u1: T).\lambda (u2: T).\lambda (H2: (pr0 u1 u2)).\lambda (k: K).\lambda (h: nat).nat_ind (\lambda (n: nat).\forall (e1: C).\forall (u3: T).\forall (k0: K).(getl n (CHead c3 k u2) (CHead e1 k0 u3)) \to ex3_2 C T (\lambda (e2: C).\lambda (u4: T).getl n (CHead c0 k u1) (CHead e2 k0 u4)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u4: T).pr0 u4 u3)) (\lambda (e1: C).\lambda (u0: T).\lambda (k0: K).\lambda (H3: (getl O (CHead c3 k u2) (CHead e1 k0 u0))).(match k return (\lambda (k1: K).(clear (CHead c3 k1 u2) (CHead e1 k0 u0)) \to ex3_2 C T (\lambda (e2: C).\lambda (u3: T).getl O (CHead c0 k1 u1) (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u3: T).pr0 u3 u0)) with [(Bind b) \Rightarrow (\lambda (H4: (clear (CHead c3 (Bind b) u2) (CHead e1 k0 u0))).let H5 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow e1 | (CHead c _ _) \Rightarrow c]) (CHead e1 k0 u0) (CHead c3 (Bind b) u2) (clear_gen_bind b c3 (CHead e1 k0 u0) u2 H4) in (let H6 \def f_equal C K (\lambda (e: C).match e return K with [(CSort _) \Rightarrow k0 | (CHead _ k _) \Rightarrow k]) (CHead e1 k0 u0) (CHead c3 (Bind b) u2) (clear_gen_bind b c3 (CHead e1 k0 u0) u2 H4) in (let H7 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u0 | (CHead _ _ t) \Rightarrow t]) (CHead e1 k0 u0) (CHead c3 (Bind b) u2) (clear_gen_bind b c3 (CHead e1 k0 u0) u2 H4) in \lambda (H8: (eq K k0 (Bind b))).\lambda (H9: (eq C e1 c3)).eq_ind_r K (Bind b) (\lambda (k1: K).ex3_2 C T (\lambda (e2: C).\lambda (u3: T).getl O (CHead c0 (Bind b) u1) (CHead e2 k1 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u3: T).pr0 u3 u0)) (eq_ind_r T u2 (\lambda (t: T).ex3_2 C T (\lambda (e2: C).\lambda (u3: T).getl O (CHead c0 (Bind b) u1) (CHead e2 (Bind b) u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u3: T).pr0 u3 t)) (eq_ind_r C c3 (\lambda (c: C).ex3_2 C T (\lambda (e2: C).\lambda (u3: T).getl O (CHead c0 (Bind b) u1) (CHead e2 (Bind b) u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 c) (\lambda (_: C).\lambda (u3: T).pr0 u3 u2)) (ex3_2_intro C T (\lambda (e2: C).\lambda (u3: T).getl O (CHead c0 (Bind b) u1) (CHead e2 (Bind b) u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 c3) (\lambda (_: C).\lambda (u3: T).pr0 u3 u2) c0 u1 (getl_refl b c0 u1) H0 H2) e1 H9) u0 H7) k0 H8) H6) H5) | (Flat f) \Rightarrow (\lambda (H4: (clear (CHead c3 (Flat f) u2) (CHead e1 k0 u0))).let H5 \def H1 O e1 u0 k0 (getl_intro O c3 (CHead e1 k0 u0) c3 (drop_refl c3) (clear_gen_flat f c3 (CHead e1 k0 u0) u2 H4)) in ex3_2_ind C T (\lambda (e2: C).\lambda (u3: T).getl O c0 (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u3: T).pr0 u3 u0) (ex3_2 C T (\lambda (e2: C).\lambda (u3: T).getl O (CHead c0 (Flat f) u1) (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u3: T).pr0 u3 u0)) (\lambda (x0: C).\lambda (x1: T).\lambda (H6: (getl O c0 (CHead x0 k0 x1))).\lambda (H7: (wcpr0 x0 e1)).\lambda (H8: (pr0 x1 u0)).ex3_2_intro C T (\lambda (e2: C).\lambda (u3: T).getl O (CHead c0 (Flat f) u1) (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u3: T).pr0 u3 u0) x0 x1 (getl_flat c0 (CHead x0 k0 x1) O H6 f u1) H7 H8) H5)]) (getl_gen_O (CHead c3 k u2) (CHead e1 k0 u0) H3)) (K_ind (\lambda (k0: K).\forall (n: nat).((\forall (e1: C).\forall (u3: T).\forall (k: K).(getl n (CHead c3 k0 u2) (CHead e1 k u3)) \to ex3_2 C T (\lambda (e2: C).\lambda (u2: T).getl n (CHead c0 k0 u1) (CHead e2 k u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u2: T).pr0 u2 u3))) \to \forall (e1: C).\forall (u3: T).\forall (k1: K).(getl (S n) (CHead c3 k0 u2) (CHead e1 k1 u3)) \to ex3_2 C T (\lambda (e2: C).\lambda (u4: T).getl (S n) (CHead c0 k0 u1) (CHead e2 k1 u4)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u4: T).pr0 u4 u3)) (\lambda (b: B).\lambda (n: nat).\lambda (_: ((\forall (e1: C).\forall (u3: T).\forall (k: K).(getl n (CHead c3 (Bind b) u2) (CHead e1 k u3)) \to ex3_2 C T (\lambda (e2: C).\lambda (u2: T).getl n (CHead c0 (Bind b) u1) (CHead e2 k u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u2: T).pr0 u2 u3)))).\lambda (e1: C).\lambda (u0: T).\lambda (k0: K).\lambda (H4: (getl (S n) (CHead c3 (Bind b) u2) (CHead e1 k0 u0))).let H5 \def H1 n e1 u0 k0 (getl_gen_S (Bind b) c3 (CHead e1 k0 u0) u2 n H4) in ex3_2_ind C T (\lambda (e2: C).\lambda (u3: T).getl n c0 (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u3: T).pr0 u3 u0) (ex3_2 C T (\lambda (e2: C).\lambda (u3: T).getl (S n) (CHead c0 (Bind b) u1) (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u3: T).pr0 u3 u0)) (\lambda (x0: C).\lambda (x1: T).\lambda (H6: (getl n c0 (CHead x0 k0 x1))).\lambda (H7: (wcpr0 x0 e1)).\lambda (H8: (pr0 x1 u0)).ex3_2_intro C T (\lambda (e2: C).\lambda (u3: T).getl (S n) (CHead c0 (Bind b) u1) (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u3: T).pr0 u3 u0) x0 x1 (getl_head (Bind b) n c0 (CHead x0 k0 x1) H6 u1) H7 H8) H5) (\lambda (f: F).\lambda (n: nat).\lambda (_: ((\forall (e1: C).\forall (u3: T).\forall (k: K).(getl n (CHead c3 (Flat f) u2) (CHead e1 k u3)) \to ex3_2 C T (\lambda (e2: C).\lambda (u2: T).getl n (CHead c0 (Flat f) u1) (CHead e2 k u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u2: T).pr0 u2 u3)))).\lambda (e1: C).\lambda (u0: T).\lambda (k0: K).\lambda (H4: (getl (S n) (CHead c3 (Flat f) u2) (CHead e1 k0 u0))).let H5 \def H1 (S n) e1 u0 k0 (getl_gen_S (Flat f) c3 (CHead e1 k0 u0) u2 n H4) in ex3_2_ind C T (\lambda (e2: C).\lambda (u3: T).getl (S n) c0 (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u3: T).pr0 u3 u0) (ex3_2 C T (\lambda (e2: C).\lambda (u3: T).getl (S n) (CHead c0 (Flat f) u1) (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u3: T).pr0 u3 u0)) (\lambda (x0: C).\lambda (x1: T).\lambda (H6: (getl (S n) c0 (CHead x0 k0 x1))).\lambda (H7: (wcpr0 x0 e1)).\lambda (H8: (pr0 x1 u0)).ex3_2_intro C T (\lambda (e2: C).\lambda (u3: T).getl (S n) (CHead c0 (Flat f) u1) (CHead e2 k0 u3)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 e1) (\lambda (_: C).\lambda (u3: T).pr0 u3 u0) x0 x1 (getl_head (Flat f) n c0 (CHead x0 k0 x1) H6 u1) H7 H8) H5) k) h) c2 c1 H.
+
+inductive pr2: C \to T \to T \to Prop \def
+| pr2_free: \forall (c: C).\forall (t1: T).\forall (t2: T).(pr0 t1 t2) \to pr2 c t1 t2
+| pr2_delta: \forall (c: C).\forall (d: C).\forall (u: T).\forall (i: nat).(getl i c (CHead d (Bind Abbr) u)) \to \forall (t1: T).\forall (t2: T).(pr0 t1 t2) \to \forall (t: T).(subst0 i u t2 t) \to pr2 c t1 t.
+
+theorem pr2_gen_sort: \forall (c: C).\forall (x: T).\forall (n: nat).(pr2 c (TSort n) x) \to eq T x (TSort n) \def \lambda (c: C).\lambda (x: T).\lambda (n: nat).\lambda (H: (pr2 c (TSort n) x)).let H0 \def match H return (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).(eq C c0 c) \to (eq T t (TSort n)) \to (eq T t0 x) \to eq T x (TSort n)) with [(pr2_free c0 t1 t2 H0) \Rightarrow (\lambda (H1: (eq C c0 c)).\lambda (H2: (eq T t1 (TSort n))).\lambda (H3: (eq T t2 x)).eq_ind C c (\lambda (_: C).(eq T t1 (TSort n)) \to (eq T t2 x) \to (pr0 t1 t2) \to eq T x (TSort n)) (\lambda (H4: (eq T t1 (TSort n))).eq_ind T (TSort n) (\lambda (t: T).(eq T t2 x) \to (pr0 t t2) \to eq T x (TSort n)) (\lambda (H5: (eq T t2 x)).eq_ind T x (\lambda (t: T).(pr0 (TSort n) t) \to eq T x (TSort n)) (\lambda (H6: (pr0 (TSort n) x)).let H7 \def eq_ind T x (\lambda (t: T).pr2 c (TSort n) t) H (TSort n) (pr0_gen_sort x n H6) in eq_ind_r T (TSort n) (\lambda (t: T).eq T t (TSort n)) (refl_equal T (TSort n)) x (pr0_gen_sort x n H6)) t2 (sym_eq T t2 x H5)) t1 (sym_eq T t1 (TSort n) H4)) c0 (sym_eq C c0 c H1) H2 H3 H0) | (pr2_delta c0 d u i H0 t1 t2 H1 t H2) \Rightarrow (\lambda (H3: (eq C c0 c)).\lambda (H4: (eq T t1 (TSort n))).\lambda (H5: (eq T t x)).eq_ind C c (\lambda (c: C).(eq T t1 (TSort n)) \to (eq T t x) \to (getl i c (CHead d (Bind Abbr) u)) \to (pr0 t1 t2) \to (subst0 i u t2 t) \to eq T x (TSort n)) (\lambda (H6: (eq T t1 (TSort n))).eq_ind T (TSort n) (\lambda (t0: T).(eq T t x) \to (getl i c (CHead d (Bind Abbr) u)) \to (pr0 t0 t2) \to (subst0 i u t2 t) \to eq T x (TSort n)) (\lambda (H7: (eq T t x)).eq_ind T x (\lambda (t0: T).(getl i c (CHead d (Bind Abbr) u)) \to (pr0 (TSort n) t2) \to (subst0 i u t2 t0) \to eq T x (TSort n)) (\lambda (_: (getl i c (CHead d (Bind Abbr) u))).\lambda (H9: (pr0 (TSort n) t2)).\lambda (H10: (subst0 i u t2 x)).let H11 \def eq_ind T t2 (\lambda (t: T).subst0 i u t x) H10 (TSort n) (pr0_gen_sort t2 n H9) in subst0_gen_sort u x i n H11 (eq T x (TSort n))) t (sym_eq T t x H7)) t1 (sym_eq T t1 (TSort n) H6)) c0 (sym_eq C c0 c H3) H4 H5 H0 H1 H2)] in H0 (refl_equal C c) (refl_equal T (TSort n)) (refl_equal T x).
+
+theorem pr2_gen_lref: \forall (c: C).\forall (x: T).\forall (n: nat).(pr2 c (TLRef n) x) \to or (eq T x (TLRef n)) (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl n c (CHead d (Bind Abbr) u)) (\lambda (_: C).\lambda (u: T).eq T x (lift (S n) O u))) \def \lambda (c: C).\lambda (x: T).\lambda (n: nat).\lambda (H: (pr2 c (TLRef n) x)).let H0 \def match H return (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).(eq C c0 c) \to (eq T t (TLRef n)) \to (eq T t0 x) \to or (eq T x (TLRef n)) (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl n c (CHead d (Bind Abbr) u)) (\lambda (_: C).\lambda (u: T).eq T x (lift (S n) O u)))) with [(pr2_free c0 t1 t2 H0) \Rightarrow (\lambda (H1: (eq C c0 c)).\lambda (H2: (eq T t1 (TLRef n))).\lambda (H3: (eq T t2 x)).eq_ind C c (\lambda (_: C).(eq T t1 (TLRef n)) \to (eq T t2 x) \to (pr0 t1 t2) \to or (eq T x (TLRef n)) (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl n c (CHead d (Bind Abbr) u)) (\lambda (_: C).\lambda (u: T).eq T x (lift (S n) O u)))) (\lambda (H4: (eq T t1 (TLRef n))).eq_ind T (TLRef n) (\lambda (t: T).(eq T t2 x) \to (pr0 t t2) \to or (eq T x (TLRef n)) (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl n c (CHead d (Bind Abbr) u)) (\lambda (_: C).\lambda (u: T).eq T x (lift (S n) O u)))) (\lambda (H5: (eq T t2 x)).eq_ind T x (\lambda (t: T).(pr0 (TLRef n) t) \to or (eq T x (TLRef n)) (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl n c (CHead d (Bind Abbr) u)) (\lambda (_: C).\lambda (u: T).eq T x (lift (S n) O u)))) (\lambda (H6: (pr0 (TLRef n) x)).let H7 \def eq_ind T x (\lambda (t: T).pr2 c (TLRef n) t) H (TLRef n) (pr0_gen_lref x n H6) in eq_ind_r T (TLRef n) (\lambda (t: T).or (eq T t (TLRef n)) (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl n c (CHead d (Bind Abbr) u)) (\lambda (_: C).\lambda (u: T).eq T t (lift (S n) O u)))) (or_introl (eq T (TLRef n) (TLRef n)) (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl n c (CHead d (Bind Abbr) u)) (\lambda (_: C).\lambda (u: T).eq T (TLRef n) (lift (S n) O u))) (refl_equal T (TLRef n))) x (pr0_gen_lref x n H6)) t2 (sym_eq T t2 x H5)) t1 (sym_eq T t1 (TLRef n) H4)) c0 (sym_eq C c0 c H1) H2 H3 H0) | (pr2_delta c0 d u i H0 t1 t2 H1 t H2) \Rightarrow (\lambda (H3: (eq C c0 c)).\lambda (H4: (eq T t1 (TLRef n))).\lambda (H5: (eq T t x)).eq_ind C c (\lambda (c1: C).(eq T t1 (TLRef n)) \to (eq T t x) \to (getl i c1 (CHead d (Bind Abbr) u)) \to (pr0 t1 t2) \to (subst0 i u t2 t) \to or (eq T x (TLRef n)) (ex2_2 C T (\lambda (d0: C).\lambda (u0: T).getl n c (CHead d0 (Bind Abbr) u0)) (\lambda (_: C).\lambda (u0: T).eq T x (lift (S n) O u0)))) (\lambda (H6: (eq T t1 (TLRef n))).eq_ind T (TLRef n) (\lambda (t0: T).(eq T t x) \to (getl i c (CHead d (Bind Abbr) u)) \to (pr0 t0 t2) \to (subst0 i u t2 t) \to or (eq T x (TLRef n)) (ex2_2 C T (\lambda (d0: C).\lambda (u0: T).getl n c (CHead d0 (Bind Abbr) u0)) (\lambda (_: C).\lambda (u0: T).eq T x (lift (S n) O u0)))) (\lambda (H7: (eq T t x)).eq_ind T x (\lambda (t0: T).(getl i c (CHead d (Bind Abbr) u)) \to (pr0 (TLRef n) t2) \to (subst0 i u t2 t0) \to or (eq T x (TLRef n)) (ex2_2 C T (\lambda (d0: C).\lambda (u0: T).getl n c (CHead d0 (Bind Abbr) u0)) (\lambda (_: C).\lambda (u0: T).eq T x (lift (S n) O u0)))) (\lambda (H8: (getl i c (CHead d (Bind Abbr) u))).\lambda (H9: (pr0 (TLRef n) t2)).\lambda (H10: (subst0 i u t2 x)).let H11 \def eq_ind T t2 (\lambda (t: T).subst0 i u t x) H10 (TLRef n) (pr0_gen_lref t2 n H9) in and_ind (eq nat n i) (eq T x (lift (S n) O u)) (or (eq T x (TLRef n)) (ex2_2 C T (\lambda (d0: C).\lambda (u0: T).getl n c (CHead d0 (Bind Abbr) u0)) (\lambda (_: C).\lambda (u0: T).eq T x (lift (S n) O u0)))) (\lambda (H12: (eq nat n i)).\lambda (H13: (eq T x (lift (S n) O u))).let H14 \def eq_ind_r nat i (\lambda (n: nat).getl n c (CHead d (Bind Abbr) u)) H8 n H12 in let H15 \def eq_ind T x (\lambda (t: T).pr2 c (TLRef n) t) H (lift (S n) O u) H13 in eq_ind_r T (lift (S n) O u) (\lambda (t0: T).or (eq T t0 (TLRef n)) (ex2_2 C T (\lambda (d0: C).\lambda (u0: T).getl n c (CHead d0 (Bind Abbr) u0)) (\lambda (_: C).\lambda (u0: T).eq T t0 (lift (S n) O u0)))) (or_intror (eq T (lift (S n) O u) (TLRef n)) (ex2_2 C T (\lambda (d0: C).\lambda (u0: T).getl n c (CHead d0 (Bind Abbr) u0)) (\lambda (_: C).\lambda (u0: T).eq T (lift (S n) O u) (lift (S n) O u0))) (ex2_2_intro C T (\lambda (d0: C).\lambda (u0: T).getl n c (CHead d0 (Bind Abbr) u0)) (\lambda (_: C).\lambda (u0: T).eq T (lift (S n) O u) (lift (S n) O u0)) d u H14 (refl_equal T (lift (S n) O u)))) x H13) (subst0_gen_lref u x i n H11)) t (sym_eq T t x H7)) t1 (sym_eq T t1 (TLRef n) H6)) c0 (sym_eq C c0 c H3) H4 H5 H0 H1 H2)] in H0 (refl_equal C c) (refl_equal T (TLRef n)) (refl_equal T x).
+
+theorem pr2_gen_abst: \forall (c: C).\forall (u1: T).\forall (t1: T).\forall (x: T).(pr2 c (THead (Bind Abst) u1 t1) x) \to ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Abst) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t2) \def \lambda (c: C).\lambda (u1: T).\lambda (t1: T).\lambda (x: T).\lambda (H: (pr2 c (THead (Bind Abst) u1 t1) x)).let H0 \def match H return (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).(eq C c0 c) \to (eq T t (THead (Bind Abst) u1 t1)) \to (eq T t0 x) \to ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Abst) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t2)) with [(pr2_free c0 t0 t2 H0) \Rightarrow (\lambda (H1: (eq C c0 c)).\lambda (H2: (eq T t0 (THead (Bind Abst) u1 t1))).\lambda (H3: (eq T t2 x)).eq_ind C c (\lambda (_: C).(eq T t0 (THead (Bind Abst) u1 t1)) \to (eq T t2 x) \to (pr0 t0 t2) \to ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t3)) (\lambda (H4: (eq T t0 (THead (Bind Abst) u1 t1))).eq_ind T (THead (Bind Abst) u1 t1) (\lambda (t: T).(eq T t2 x) \to (pr0 t t2) \to ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t3)) (\lambda (H5: (eq T t2 x)).eq_ind T x (\lambda (t: T).(pr0 (THead (Bind Abst) u1 t1) t) \to ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t3)) (\lambda (H6: (pr0 (THead (Bind Abst) u1 t1) x)).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t3)) (\lambda (x0: T).\lambda (x1: T).\lambda (H7: (eq T x (THead (Bind Abst) x0 x1))).\lambda (H8: (pr0 u1 x0)).\lambda (H9: (pr0 t1 x1)).let H10 \def eq_ind T x (\lambda (t: T).pr2 c (THead (Bind Abst) u1 t1) t) H (THead (Bind Abst) x0 x1) H7 in eq_ind_r T (THead (Bind Abst) x0 x1) (\lambda (t: T).ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t3)) (ex3_2_intro T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind Abst) x0 x1) (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t3) x0 x1 (refl_equal T (THead (Bind Abst) x0 x1)) (pr2_free c u1 x0 H8) (\lambda (b: B).\lambda (u: T).pr2_free (CHead c (Bind b) u) t1 x1 H9)) x H7) (pr0_gen_abst u1 t1 x H6)) t2 (sym_eq T t2 x H5)) t0 (sym_eq T t0 (THead (Bind Abst) u1 t1) H4)) c0 (sym_eq C c0 c H1) H2 H3 H0) | (pr2_delta c0 d u i H0 t0 t2 H1 t H2) \Rightarrow (\lambda (H3: (eq C c0 c)).\lambda (H4: (eq T t0 (THead (Bind Abst) u1 t1))).\lambda (H5: (eq T t x)).eq_ind C c (\lambda (c1: C).(eq T t0 (THead (Bind Abst) u1 t1)) \to (eq T t x) \to (getl i c1 (CHead d (Bind Abbr) u)) \to (pr0 t0 t2) \to (subst0 i u t2 t) \to ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3)) (\lambda (H6: (eq T t0 (THead (Bind Abst) u1 t1))).eq_ind T (THead (Bind Abst) u1 t1) (\lambda (t3: T).(eq T t x) \to (getl i c (CHead d (Bind Abbr) u)) \to (pr0 t3 t2) \to (subst0 i u t2 t) \to ex3_2 T T (\lambda (u2: T).\lambda (t4: T).eq T x (THead (Bind Abst) u2 t4)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t4: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t4)) (\lambda (H7: (eq T t x)).eq_ind T x (\lambda (t3: T).(getl i c (CHead d (Bind Abbr) u)) \to (pr0 (THead (Bind Abst) u1 t1) t2) \to (subst0 i u t2 t3) \to ex3_2 T T (\lambda (u2: T).\lambda (t4: T).eq T x (THead (Bind Abst) u2 t4)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t4: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t4)) (\lambda (H8: (getl i c (CHead d (Bind Abbr) u))).\lambda (H9: (pr0 (THead (Bind Abst) u1 t1) t2)).\lambda (H10: (subst0 i u t2 x)).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3)) (\lambda (x0: T).\lambda (x1: T).\lambda (H11: (eq T t2 (THead (Bind Abst) x0 x1))).\lambda (H12: (pr0 u1 x0)).\lambda (H13: (pr0 t1 x1)).let H14 \def eq_ind T t2 (\lambda (t: T).subst0 i u t x) H10 (THead (Bind Abst) x0 x1) H11 in or3_ind (ex2 T (\lambda (u2: T).eq T x (THead (Bind Abst) u2 x1)) (\lambda (u2: T).subst0 i u x0 u2)) (ex2 T (\lambda (t3: T).eq T x (THead (Bind Abst) x0 t3)) (\lambda (t3: T).subst0 (s (Bind Abst) i) u x1 t3)) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u x0 u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Bind Abst) i) u x1 t3)) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3)) (\lambda (H15: (ex2 T (\lambda (u2: T).eq T x (THead (Bind Abst) u2 x1)) (\lambda (u2: T).subst0 i u x0 u2))).ex2_ind T (\lambda (u2: T).eq T x (THead (Bind Abst) u2 x1)) (\lambda (u2: T).subst0 i u x0 u2) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3)) (\lambda (x2: T).\lambda (H16: (eq T x (THead (Bind Abst) x2 x1))).\lambda (H17: (subst0 i u x0 x2)).let H18 \def eq_ind T x (\lambda (t: T).pr2 c (THead (Bind Abst) u1 t1) t) H (THead (Bind Abst) x2 x1) H16 in eq_ind_r T (THead (Bind Abst) x2 x1) (\lambda (t3: T).ex3_2 T T (\lambda (u2: T).\lambda (t4: T).eq T t3 (THead (Bind Abst) u2 t4)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t4: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t4)) (ex3_2_intro T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind Abst) x2 x1) (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3) x2 x1 (refl_equal T (THead (Bind Abst) x2 x1)) (pr2_delta c d u i H8 u1 x0 H12 x2 H17) (\lambda (b: B).\lambda (u0: T).pr2_free (CHead c (Bind b) u0) t1 x1 H13)) x H16) H15) (\lambda (H15: (ex2 T (\lambda (t2: T).eq T x (THead (Bind Abst) x0 t2)) (\lambda (t2: T).subst0 (s (Bind Abst) i) u x1 t2))).ex2_ind T (\lambda (t3: T).eq T x (THead (Bind Abst) x0 t3)) (\lambda (t3: T).subst0 (s (Bind Abst) i) u x1 t3) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3)) (\lambda (x2: T).\lambda (H16: (eq T x (THead (Bind Abst) x0 x2))).\lambda (H17: (subst0 (s (Bind Abst) i) u x1 x2)).let H18 \def eq_ind T x (\lambda (t: T).pr2 c (THead (Bind Abst) u1 t1) t) H (THead (Bind Abst) x0 x2) H16 in eq_ind_r T (THead (Bind Abst) x0 x2) (\lambda (t3: T).ex3_2 T T (\lambda (u2: T).\lambda (t4: T).eq T t3 (THead (Bind Abst) u2 t4)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t4: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t4)) (ex3_2_intro T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind Abst) x0 x2) (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3) x0 x2 (refl_equal T (THead (Bind Abst) x0 x2)) (pr2_free c u1 x0 H12) (\lambda (b: B).\lambda (u0: T).pr2_delta (CHead c (Bind b) u0) d u (S i) (getl_head (Bind b) i c (CHead d (Bind Abbr) u) H8 u0) t1 x1 H13 x2 H17)) x H16) H15) (\lambda (H15: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Abst) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i u x0 u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Bind Abst) i) u x1 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u x0 u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Bind Abst) i) u x1 t3) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3)) (\lambda (x2: T).\lambda (x3: T).\lambda (H16: (eq T x (THead (Bind Abst) x2 x3))).\lambda (H17: (subst0 i u x0 x2)).\lambda (H18: (subst0 (s (Bind Abst) i) u x1 x3)).let H19 \def eq_ind T x (\lambda (t: T).pr2 c (THead (Bind Abst) u1 t1) t) H (THead (Bind Abst) x2 x3) H16 in eq_ind_r T (THead (Bind Abst) x2 x3) (\lambda (t3: T).ex3_2 T T (\lambda (u2: T).\lambda (t4: T).eq T t3 (THead (Bind Abst) u2 t4)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t4: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t4)) (ex3_2_intro T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind Abst) x2 x3) (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3) x2 x3 (refl_equal T (THead (Bind Abst) x2 x3)) (pr2_delta c d u i H8 u1 x0 H12 x2 H17) (\lambda (b: B).\lambda (u0: T).pr2_delta (CHead c (Bind b) u0) d u (S i) (getl_head (Bind b) i c (CHead d (Bind Abbr) u) H8 u0) t1 x1 H13 x3 H18)) x H16) H15) (subst0_gen_head (Bind Abst) u x0 x1 x i H14)) (pr0_gen_abst u1 t1 t2 H9)) t (sym_eq T t x H7)) t0 (sym_eq T t0 (THead (Bind Abst) u1 t1) H6)) c0 (sym_eq C c0 c H3) H4 H5 H0 H1 H2)] in H0 (refl_equal C c) (refl_equal T (THead (Bind Abst) u1 t1)) (refl_equal T x).
+
+theorem pr2_gen_cast: \forall (c: C).\forall (u1: T).\forall (t1: T).\forall (x: T).(pr2 c (THead (Flat Cast) u1 t1) x) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Flat Cast) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t2: T).pr2 c t1 t2)) (pr2 c t1 x) \def \lambda (c: C).\lambda (u1: T).\lambda (t1: T).\lambda (x: T).\lambda (H: (pr2 c (THead (Flat Cast) u1 t1) x)).let H0 \def match H return (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).(eq C c0 c) \to (eq T t (THead (Flat Cast) u1 t1)) \to (eq T t0 x) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Flat Cast) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t2: T).pr2 c t1 t2)) (pr2 c t1 x)) with [(pr2_free c0 t0 t2 H0) \Rightarrow (\lambda (H1: (eq C c0 c)).\lambda (H2: (eq T t0 (THead (Flat Cast) u1 t1))).\lambda (H3: (eq T t2 x)).eq_ind C c (\lambda (_: C).(eq T t0 (THead (Flat Cast) u1 t1)) \to (eq T t2 x) \to (pr0 t0 t2) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (pr2 c t1 x)) (\lambda (H4: (eq T t0 (THead (Flat Cast) u1 t1))).eq_ind T (THead (Flat Cast) u1 t1) (\lambda (t: T).(eq T t2 x) \to (pr0 t t2) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (pr2 c t1 x)) (\lambda (H5: (eq T t2 x)).eq_ind T x (\lambda (t: T).(pr0 (THead (Flat Cast) u1 t1) t) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (pr2 c t1 x)) (\lambda (H6: (pr0 (THead (Flat Cast) u1 t1) x)).or_ind (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (pr0 t1 x) (or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (pr2 c t1 x)) (\lambda (H7: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Flat Cast) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t2: T).pr0 t1 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3) (or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (pr2 c t1 x)) (\lambda (x0: T).\lambda (x1: T).\lambda (H8: (eq T x (THead (Flat Cast) x0 x1))).\lambda (H9: (pr0 u1 x0)).\lambda (H10: (pr0 t1 x1)).let H11 \def eq_ind T x (\lambda (t: T).pr2 c (THead (Flat Cast) u1 t1) t) H (THead (Flat Cast) x0 x1) H8 in eq_ind_r T (THead (Flat Cast) x0 x1) (\lambda (t: T).or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (pr2 c t1 t)) (or_introl (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Flat Cast) x0 x1) (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (pr2 c t1 (THead (Flat Cast) x0 x1)) (ex3_2_intro T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Flat Cast) x0 x1) (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3) x0 x1 (refl_equal T (THead (Flat Cast) x0 x1)) (pr2_free c u1 x0 H9) (pr2_free c t1 x1 H10))) x H8) H7) (\lambda (H7: (pr0 t1 x)).or_intror (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (pr2 c t1 x) (pr2_free c t1 x H7)) (pr0_gen_cast u1 t1 x H6)) t2 (sym_eq T t2 x H5)) t0 (sym_eq T t0 (THead (Flat Cast) u1 t1) H4)) c0 (sym_eq C c0 c H1) H2 H3 H0) | (pr2_delta c0 d u i H0 t0 t2 H1 t H2) \Rightarrow (\lambda (H3: (eq C c0 c)).\lambda (H4: (eq T t0 (THead (Flat Cast) u1 t1))).\lambda (H5: (eq T t x)).eq_ind C c (\lambda (c1: C).(eq T t0 (THead (Flat Cast) u1 t1)) \to (eq T t x) \to (getl i c1 (CHead d (Bind Abbr) u)) \to (pr0 t0 t2) \to (subst0 i u t2 t) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (pr2 c t1 x)) (\lambda (H6: (eq T t0 (THead (Flat Cast) u1 t1))).eq_ind T (THead (Flat Cast) u1 t1) (\lambda (t3: T).(eq T t x) \to (getl i c (CHead d (Bind Abbr) u)) \to (pr0 t3 t2) \to (subst0 i u t2 t) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t4: T).eq T x (THead (Flat Cast) u2 t4)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t4: T).pr2 c t1 t4)) (pr2 c t1 x)) (\lambda (H7: (eq T t x)).eq_ind T x (\lambda (t3: T).(getl i c (CHead d (Bind Abbr) u)) \to (pr0 (THead (Flat Cast) u1 t1) t2) \to (subst0 i u t2 t3) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t4: T).eq T x (THead (Flat Cast) u2 t4)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t4: T).pr2 c t1 t4)) (pr2 c t1 x)) (\lambda (H8: (getl i c (CHead d (Bind Abbr) u))).\lambda (H9: (pr0 (THead (Flat Cast) u1 t1) t2)).\lambda (H10: (subst0 i u t2 x)).or_ind (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (pr0 t1 t2) (or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (pr2 c t1 x)) (\lambda (H11: (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t2: T).pr0 t1 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3) (or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (pr2 c t1 x)) (\lambda (x0: T).\lambda (x1: T).\lambda (H12: (eq T t2 (THead (Flat Cast) x0 x1))).\lambda (H13: (pr0 u1 x0)).\lambda (H14: (pr0 t1 x1)).let H15 \def eq_ind T t2 (\lambda (t: T).subst0 i u t x) H10 (THead (Flat Cast) x0 x1) H12 in or3_ind (ex2 T (\lambda (u2: T).eq T x (THead (Flat Cast) u2 x1)) (\lambda (u2: T).subst0 i u x0 u2)) (ex2 T (\lambda (t3: T).eq T x (THead (Flat Cast) x0 t3)) (\lambda (t3: T).subst0 (s (Flat Cast) i) u x1 t3)) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u x0 u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Flat Cast) i) u x1 t3)) (or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (pr2 c t1 x)) (\lambda (H16: (ex2 T (\lambda (u2: T).eq T x (THead (Flat Cast) u2 x1)) (\lambda (u2: T).subst0 i u x0 u2))).ex2_ind T (\lambda (u2: T).eq T x (THead (Flat Cast) u2 x1)) (\lambda (u2: T).subst0 i u x0 u2) (or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (pr2 c t1 x)) (\lambda (x2: T).\lambda (H17: (eq T x (THead (Flat Cast) x2 x1))).\lambda (H18: (subst0 i u x0 x2)).or_introl (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (pr2 c t1 x) (ex3_2_intro T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3) x2 x1 H17 (pr2_delta c d u i H8 u1 x0 H13 x2 H18) (pr2_free c t1 x1 H14))) H16) (\lambda (H16: (ex2 T (\lambda (t2: T).eq T x (THead (Flat Cast) x0 t2)) (\lambda (t2: T).subst0 (s (Flat Cast) i) u x1 t2))).ex2_ind T (\lambda (t3: T).eq T x (THead (Flat Cast) x0 t3)) (\lambda (t3: T).subst0 (s (Flat Cast) i) u x1 t3) (or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (pr2 c t1 x)) (\lambda (x2: T).\lambda (H17: (eq T x (THead (Flat Cast) x0 x2))).\lambda (H18: (subst0 (s (Flat Cast) i) u x1 x2)).or_introl (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (pr2 c t1 x) (ex3_2_intro T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3) x0 x2 H17 (pr2_free c u1 x0 H13) (pr2_delta c d u i H8 t1 x1 H14 x2 H18))) H16) (\lambda (H16: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Flat Cast) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i u x0 u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Flat Cast) i) u x1 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u x0 u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Flat Cast) i) u x1 t3) (or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (pr2 c t1 x)) (\lambda (x2: T).\lambda (x3: T).\lambda (H17: (eq T x (THead (Flat Cast) x2 x3))).\lambda (H18: (subst0 i u x0 x2)).\lambda (H19: (subst0 (s (Flat Cast) i) u x1 x3)).or_introl (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (pr2 c t1 x) (ex3_2_intro T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3) x2 x3 H17 (pr2_delta c d u i H8 u1 x0 H13 x2 H18) (pr2_delta c d u i H8 t1 x1 H14 x3 H19))) H16) (subst0_gen_head (Flat Cast) u x0 x1 x i H15)) H11) (\lambda (H11: (pr0 t1 t2)).or_intror (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (pr2 c t1 x) (pr2_delta c d u i H8 t1 t2 H11 x H10)) (pr0_gen_cast u1 t1 t2 H9)) t (sym_eq T t x H7)) t0 (sym_eq T t0 (THead (Flat Cast) u1 t1) H6)) c0 (sym_eq C c0 c H3) H4 H5 H0 H1 H2)] in H0 (refl_equal C c) (refl_equal T (THead (Flat Cast) u1 t1)) (refl_equal T x).
+
+theorem pr2_gen_csort: \forall (t1: T).\forall (t2: T).\forall (n: nat).(pr2 (CSort n) t1 t2) \to pr0 t1 t2 \def \lambda (t1: T).\lambda (t2: T).\lambda (n: nat).\lambda (H: (pr2 (CSort n) t1 t2)).let H0 \def match H return (\lambda (c: C).\lambda (t: T).\lambda (t0: T).(eq C c (CSort n)) \to (eq T t t1) \to (eq T t0 t2) \to pr0 t1 t2) with [(pr2_free c t0 t3 H0) \Rightarrow (\lambda (H1: (eq C c (CSort n))).\lambda (H2: (eq T t0 t1)).\lambda (H3: (eq T t3 t2)).eq_ind C (CSort n) (\lambda (_: C).(eq T t0 t1) \to (eq T t3 t2) \to (pr0 t0 t3) \to pr0 t1 t2) (\lambda (H4: (eq T t0 t1)).eq_ind T t1 (\lambda (t: T).(eq T t3 t2) \to (pr0 t t3) \to pr0 t1 t2) (\lambda (H5: (eq T t3 t2)).eq_ind T t2 (\lambda (t: T).(pr0 t1 t) \to pr0 t1 t2) (\lambda (H6: (pr0 t1 t2)).H6) t3 (sym_eq T t3 t2 H5)) t0 (sym_eq T t0 t1 H4)) c (sym_eq C c (CSort n) H1) H2 H3 H0) | (pr2_delta c d u i H0 t0 t3 H1 t H2) \Rightarrow (\lambda (H3: (eq C c (CSort n))).\lambda (H4: (eq T t0 t1)).\lambda (H5: (eq T t t2)).eq_ind C (CSort n) (\lambda (c0: C).(eq T t0 t1) \to (eq T t t2) \to (getl i c0 (CHead d (Bind Abbr) u)) \to (pr0 t0 t3) \to (subst0 i u t3 t) \to pr0 t1 t2) (\lambda (H6: (eq T t0 t1)).eq_ind T t1 (\lambda (t4: T).(eq T t t2) \to (getl i (CSort n) (CHead d (Bind Abbr) u)) \to (pr0 t4 t3) \to (subst0 i u t3 t) \to pr0 t1 t2) (\lambda (H7: (eq T t t2)).eq_ind T t2 (\lambda (t4: T).(getl i (CSort n) (CHead d (Bind Abbr) u)) \to (pr0 t1 t3) \to (subst0 i u t3 t4) \to pr0 t1 t2) (\lambda (H8: (getl i (CSort n) (CHead d (Bind Abbr) u))).\lambda (_: (pr0 t1 t3)).\lambda (_: (subst0 i u t3 t2)).getl_gen_sort n i (CHead d (Bind Abbr) u) H8 (pr0 t1 t2)) t (sym_eq T t t2 H7)) t0 (sym_eq T t0 t1 H6)) c (sym_eq C c (CSort n) H3) H4 H5 H0 H1 H2)] in H0 (refl_equal C (CSort n)) (refl_equal T t1) (refl_equal T t2).
+
+theorem pr2_gen_ctail: \forall (k: K).\forall (c: C).\forall (u: T).\forall (t1: T).\forall (t2: T).(pr2 (CTail k u c) t1 t2) \to or (pr2 c t1 t2) (ex3 T (\lambda (_: T).eq K k (Bind Abbr)) (\lambda (t: T).pr0 t1 t) (\lambda (t: T).subst0 (clen c) u t t2)) \def \lambda (k: K).\lambda (c: C).\lambda (u: T).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pr2 (CTail k u c) t1 t2)).insert_eq C (CTail k u c) (\lambda (c0: C).pr2 c0 t1 t2) (or (pr2 c t1 t2) (ex3 T (\lambda (_: T).eq K k (Bind Abbr)) (\lambda (t: T).pr0 t1 t) (\lambda (t: T).subst0 (clen c) u t t2))) (\lambda (y: C).\lambda (H0: (pr2 y t1 t2)).pr2_ind (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).(eq C c0 (CTail k u c)) \to or (pr2 c t t0) (ex3 T (\lambda (_: T).eq K k (Bind Abbr)) (\lambda (t3: T).pr0 t t3) (\lambda (t3: T).subst0 (clen c) u t3 t0))) (\lambda (c0: C).\lambda (t3: T).\lambda (t4: T).\lambda (H1: (pr0 t3 t4)).\lambda (_: (eq C c0 (CTail k u c))).or_introl (pr2 c t3 t4) (ex3 T (\lambda (_: T).eq K k (Bind Abbr)) (\lambda (t: T).pr0 t3 t) (\lambda (t: T).subst0 (clen c) u t t4)) (pr2_free c t3 t4 H1)) (\lambda (c0: C).\lambda (d: C).\lambda (u0: T).\lambda (i: nat).\lambda (H1: (getl i c0 (CHead d (Bind Abbr) u0))).\lambda (t3: T).\lambda (t4: T).\lambda (H2: (pr0 t3 t4)).\lambda (t: T).\lambda (H3: (subst0 i u0 t4 t)).\lambda (H4: (eq C c0 (CTail k u c))).let H5 \def eq_ind C c0 (\lambda (c: C).getl i c (CHead d (Bind Abbr) u0)) H1 (CTail k u c) H4 in let H_x \def getl_gen_tail k Abbr u u0 d c i H5 in let H6 \def H_x in or_ind (ex2 C (\lambda (e: C).eq C d (CTail k u e)) (\lambda (e: C).getl i c (CHead e (Bind Abbr) u0))) (ex4 nat (\lambda (_: nat).eq nat i (clen c)) (\lambda (_: nat).eq K k (Bind Abbr)) (\lambda (_: nat).eq T u u0) (\lambda (n: nat).eq C d (CSort n))) (or (pr2 c t3 t) (ex3 T (\lambda (_: T).eq K k (Bind Abbr)) (\lambda (t0: T).pr0 t3 t0) (\lambda (t0: T).subst0 (clen c) u t0 t))) (\lambda (H7: (ex2 C (\lambda (e: C).eq C d (CTail k u e)) (\lambda (e: C).getl i c (CHead e (Bind Abbr) u0)))).ex2_ind C (\lambda (e: C).eq C d (CTail k u e)) (\lambda (e: C).getl i c (CHead e (Bind Abbr) u0)) (or (pr2 c t3 t) (ex3 T (\lambda (_: T).eq K k (Bind Abbr)) (\lambda (t0: T).pr0 t3 t0) (\lambda (t0: T).subst0 (clen c) u t0 t))) (\lambda (x: C).\lambda (_: (eq C d (CTail k u x))).\lambda (H9: (getl i c (CHead x (Bind Abbr) u0))).or_introl (pr2 c t3 t) (ex3 T (\lambda (_: T).eq K k (Bind Abbr)) (\lambda (t0: T).pr0 t3 t0) (\lambda (t0: T).subst0 (clen c) u t0 t)) (pr2_delta c x u0 i H9 t3 t4 H2 t H3)) H7) (\lambda (H7: (ex4 nat (\lambda (_: nat).eq nat i (clen c)) (\lambda (_: nat).eq K k (Bind Abbr)) (\lambda (_: nat).eq T u u0) (\lambda (n: nat).eq C d (CSort n)))).ex4_ind nat (\lambda (_: nat).eq nat i (clen c)) (\lambda (_: nat).eq K k (Bind Abbr)) (\lambda (_: nat).eq T u u0) (\lambda (n: nat).eq C d (CSort n)) (or (pr2 c t3 t) (ex3 T (\lambda (_: T).eq K k (Bind Abbr)) (\lambda (t0: T).pr0 t3 t0) (\lambda (t0: T).subst0 (clen c) u t0 t))) (\lambda (x0: nat).\lambda (H8: (eq nat i (clen c))).\lambda (H9: (eq K k (Bind Abbr))).\lambda (H10: (eq T u u0)).\lambda (_: (eq C d (CSort x0))).let H12 \def eq_ind nat i (\lambda (n: nat).subst0 n u0 t4 t) H3 (clen c) H8 in let H13 \def eq_ind_r T u0 (\lambda (t0: T).subst0 (clen c) t0 t4 t) H12 u H10 in eq_ind_r K (Bind Abbr) (\lambda (k0: K).or (pr2 c t3 t) (ex3 T (\lambda (_: T).eq K k0 (Bind Abbr)) (\lambda (t0: T).pr0 t3 t0) (\lambda (t0: T).subst0 (clen c) u t0 t))) (or_intror (pr2 c t3 t) (ex3 T (\lambda (_: T).eq K (Bind Abbr) (Bind Abbr)) (\lambda (t0: T).pr0 t3 t0) (\lambda (t0: T).subst0 (clen c) u t0 t)) (ex3_intro T (\lambda (_: T).eq K (Bind Abbr) (Bind Abbr)) (\lambda (t0: T).pr0 t3 t0) (\lambda (t0: T).subst0 (clen c) u t0 t) t4 (refl_equal K (Bind Abbr)) H2 H13)) k H9) H7) H6) y t1 t2 H0) H.
+
+theorem pr2_thin_dx: \forall (c: C).\forall (t1: T).\forall (t2: T).(pr2 c t1 t2) \to \forall (u: T).\forall (f: F).pr2 c (THead (Flat f) u t1) (THead (Flat f) u t2) \def \lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pr2 c t1 t2)).\lambda (u: T).\lambda (f: F).pr2_ind (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).pr2 c0 (THead (Flat f) u t) (THead (Flat f) u t0)) (\lambda (c0: C).\lambda (t0: T).\lambda (t3: T).\lambda (H0: (pr0 t0 t3)).pr2_free c0 (THead (Flat f) u t0) (THead (Flat f) u t3) (pr0_comp u u (pr0_refl u) t0 t3 H0 (Flat f))) (\lambda (c0: C).\lambda (d: C).\lambda (u0: T).\lambda (i: nat).\lambda (H0: (getl i c0 (CHead d (Bind Abbr) u0))).\lambda (t0: T).\lambda (t3: T).\lambda (H1: (pr0 t0 t3)).\lambda (t: T).\lambda (H2: (subst0 i u0 t3 t)).pr2_delta c0 d u0 i H0 (THead (Flat f) u t0) (THead (Flat f) u t3) (pr0_comp u u (pr0_refl u) t0 t3 H1 (Flat f)) (THead (Flat f) u t) (subst0_snd (Flat f) u0 t t3 i H2 u)) c t1 t2 H.
+
+theorem pr2_head_1: \forall (c: C).\forall (u1: T).\forall (u2: T).(pr2 c u1 u2) \to \forall (k: K).\forall (t: T).pr2 c (THead k u1 t) (THead k u2 t) \def \lambda (c: C).\lambda (u1: T).\lambda (u2: T).\lambda (H: (pr2 c u1 u2)).\lambda (k: K).\lambda (t: T).pr2_ind (\lambda (c0: C).\lambda (t0: T).\lambda (t1: T).pr2 c0 (THead k t0 t) (THead k t1 t)) (\lambda (c0: C).\lambda (t1: T).\lambda (t2: T).\lambda (H0: (pr0 t1 t2)).pr2_free c0 (THead k t1 t) (THead k t2 t) (pr0_comp t1 t2 H0 t t (pr0_refl t) k)) (\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c0 (CHead d (Bind Abbr) u))).\lambda (t1: T).\lambda (t2: T).\lambda (H1: (pr0 t1 t2)).\lambda (t0: T).\lambda (H2: (subst0 i u t2 t0)).pr2_delta c0 d u i H0 (THead k t1 t) (THead k t2 t) (pr0_comp t1 t2 H1 t t (pr0_refl t) k) (THead k t0 t) (subst0_fst u t0 t2 i H2 t k)) c u1 u2 H.
+
+theorem pr2_head_2: \forall (c: C).\forall (u: T).\forall (t1: T).\forall (t2: T).\forall (k: K).(pr2 (CHead c k u) t1 t2) \to pr2 c (THead k u t1) (THead k u t2) \def \lambda (c: C).\lambda (u: T).\lambda (t1: T).\lambda (t2: T).\lambda (k: K).K_ind (\lambda (k0: K).(pr2 (CHead c k0 u) t1 t2) \to pr2 c (THead k0 u t1) (THead k0 u t2)) (\lambda (b: B).\lambda (H: (pr2 (CHead c (Bind b) u) t1 t2)).let H0 \def match H return (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).(eq C c0 (CHead c (Bind b) u)) \to (eq T t t1) \to (eq T t0 t2) \to pr2 c (THead (Bind b) u t1) (THead (Bind b) u t2)) with [(pr2_free c0 t0 t3 H0) \Rightarrow (\lambda (H1: (eq C c0 (CHead c (Bind b) u))).\lambda (H2: (eq T t0 t1)).\lambda (H3: (eq T t3 t2)).eq_ind C (CHead c (Bind b) u) (\lambda (_: C).(eq T t0 t1) \to (eq T t3 t2) \to (pr0 t0 t3) \to pr2 c (THead (Bind b) u t1) (THead (Bind b) u t2)) (\lambda (H4: (eq T t0 t1)).eq_ind T t1 (\lambda (t: T).(eq T t3 t2) \to (pr0 t t3) \to pr2 c (THead (Bind b) u t1) (THead (Bind b) u t2)) (\lambda (H5: (eq T t3 t2)).eq_ind T t2 (\lambda (t: T).(pr0 t1 t) \to pr2 c (THead (Bind b) u t1) (THead (Bind b) u t2)) (\lambda (H6: (pr0 t1 t2)).pr2_free c (THead (Bind b) u t1) (THead (Bind b) u t2) (pr0_comp u u (pr0_refl u) t1 t2 H6 (Bind b))) t3 (sym_eq T t3 t2 H5)) t0 (sym_eq T t0 t1 H4)) c0 (sym_eq C c0 (CHead c (Bind b) u) H1) H2 H3 H0) | (pr2_delta c0 d u0 i H0 t0 t3 H1 t H2) \Rightarrow (\lambda (H3: (eq C c0 (CHead c (Bind b) u))).\lambda (H4: (eq T t0 t1)).\lambda (H5: (eq T t t2)).eq_ind C (CHead c (Bind b) u) (\lambda (c1: C).(eq T t0 t1) \to (eq T t t2) \to (getl i c1 (CHead d (Bind Abbr) u0)) \to (pr0 t0 t3) \to (subst0 i u0 t3 t) \to pr2 c (THead (Bind b) u t1) (THead (Bind b) u t2)) (\lambda (H6: (eq T t0 t1)).eq_ind T t1 (\lambda (t4: T).(eq T t t2) \to (getl i (CHead c (Bind b) u) (CHead d (Bind Abbr) u0)) \to (pr0 t4 t3) \to (subst0 i u0 t3 t) \to pr2 c (THead (Bind b) u t1) (THead (Bind b) u t2)) (\lambda (H7: (eq T t t2)).eq_ind T t2 (\lambda (t4: T).(getl i (CHead c (Bind b) u) (CHead d (Bind Abbr) u0)) \to (pr0 t1 t3) \to (subst0 i u0 t3 t4) \to pr2 c (THead (Bind b) u t1) (THead (Bind b) u t2)) (\lambda (H8: (getl i (CHead c (Bind b) u) (CHead d (Bind Abbr) u0))).\lambda (H9: (pr0 t1 t3)).\lambda (H10: (subst0 i u0 t3 t2)).(match i return (\lambda (n: nat).(getl n (CHead c (Bind b) u) (CHead d (Bind Abbr) u0)) \to (subst0 n u0 t3 t2) \to pr2 c (THead (Bind b) u t1) (THead (Bind b) u t2)) with [O \Rightarrow (\lambda (H11: (getl O (CHead c (Bind b) u) (CHead d (Bind Abbr) u0))).\lambda (H12: (subst0 O u0 t3 t2)).let H \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u0) (CHead c (Bind b) u) (clear_gen_bind b c (CHead d (Bind Abbr) u0) u (getl_gen_O (CHead c (Bind b) u) (CHead d (Bind Abbr) u0) H11)) in (let H13 \def f_equal C B (\lambda (e: C).match e return B with [(CSort _) \Rightarrow Abbr | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (CHead d (Bind Abbr) u0) (CHead c (Bind b) u) (clear_gen_bind b c (CHead d (Bind Abbr) u0) u (getl_gen_O (CHead c (Bind b) u) (CHead d (Bind Abbr) u0) H11)) in (let H14 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u0 | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u0) (CHead c (Bind b) u) (clear_gen_bind b c (CHead d (Bind Abbr) u0) u (getl_gen_O (CHead c (Bind b) u) (CHead d (Bind Abbr) u0) H11)) in \lambda (H15: (eq B Abbr b)).\lambda (_: (eq C d c)).let H17 \def eq_ind T u0 (\lambda (t: T).subst0 O t t3 t2) H12 u H14 in eq_ind B Abbr (\lambda (b: B).pr2 c (THead (Bind b) u t1) (THead (Bind b) u t2)) (pr2_free c (THead (Bind Abbr) u t1) (THead (Bind Abbr) u t2) (pr0_delta u u (pr0_refl u) t1 t3 H9 t2 H17)) b H15) H13) H) | (S n) \Rightarrow (\lambda (H11: (getl (S n) (CHead c (Bind b) u) (CHead d (Bind Abbr) u0))).\lambda (H12: (subst0 (S n) u0 t3 t2)).pr2_delta c d u0 (r (Bind b) n) (getl_gen_S (Bind b) c (CHead d (Bind Abbr) u0) u n H11) (THead (Bind b) u t1) (THead (Bind b) u t3) (pr0_comp u u (pr0_refl u) t1 t3 H9 (Bind b)) (THead (Bind b) u t2) (subst0_snd (Bind b) u0 t2 t3 (r (Bind b) n) H12 u))]) H8 H10) t (sym_eq T t t2 H7)) t0 (sym_eq T t0 t1 H6)) c0 (sym_eq C c0 (CHead c (Bind b) u) H3) H4 H5 H0 H1 H2)] in H0 (refl_equal C (CHead c (Bind b) u)) (refl_equal T t1) (refl_equal T t2)) (\lambda (f: F).\lambda (H: (pr2 (CHead c (Flat f) u) t1 t2)).let H0 \def match H return (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).(eq C c0 (CHead c (Flat f) u)) \to (eq T t t1) \to (eq T t0 t2) \to pr2 c (THead (Flat f) u t1) (THead (Flat f) u t2)) with [(pr2_free c0 t0 t3 H0) \Rightarrow (\lambda (H1: (eq C c0 (CHead c (Flat f) u))).\lambda (H2: (eq T t0 t1)).\lambda (H3: (eq T t3 t2)).eq_ind C (CHead c (Flat f) u) (\lambda (_: C).(eq T t0 t1) \to (eq T t3 t2) \to (pr0 t0 t3) \to pr2 c (THead (Flat f) u t1) (THead (Flat f) u t2)) (\lambda (H4: (eq T t0 t1)).eq_ind T t1 (\lambda (t: T).(eq T t3 t2) \to (pr0 t t3) \to pr2 c (THead (Flat f) u t1) (THead (Flat f) u t2)) (\lambda (H5: (eq T t3 t2)).eq_ind T t2 (\lambda (t: T).(pr0 t1 t) \to pr2 c (THead (Flat f) u t1) (THead (Flat f) u t2)) (\lambda (H6: (pr0 t1 t2)).pr2_free c (THead (Flat f) u t1) (THead (Flat f) u t2) (pr0_comp u u (pr0_refl u) t1 t2 H6 (Flat f))) t3 (sym_eq T t3 t2 H5)) t0 (sym_eq T t0 t1 H4)) c0 (sym_eq C c0 (CHead c (Flat f) u) H1) H2 H3 H0) | (pr2_delta c0 d u0 i H0 t0 t3 H1 t H2) \Rightarrow (\lambda (H3: (eq C c0 (CHead c (Flat f) u))).\lambda (H4: (eq T t0 t1)).\lambda (H5: (eq T t t2)).eq_ind C (CHead c (Flat f) u) (\lambda (c1: C).(eq T t0 t1) \to (eq T t t2) \to (getl i c1 (CHead d (Bind Abbr) u0)) \to (pr0 t0 t3) \to (subst0 i u0 t3 t) \to pr2 c (THead (Flat f) u t1) (THead (Flat f) u t2)) (\lambda (H6: (eq T t0 t1)).eq_ind T t1 (\lambda (t4: T).(eq T t t2) \to (getl i (CHead c (Flat f) u) (CHead d (Bind Abbr) u0)) \to (pr0 t4 t3) \to (subst0 i u0 t3 t) \to pr2 c (THead (Flat f) u t1) (THead (Flat f) u t2)) (\lambda (H7: (eq T t t2)).eq_ind T t2 (\lambda (t4: T).(getl i (CHead c (Flat f) u) (CHead d (Bind Abbr) u0)) \to (pr0 t1 t3) \to (subst0 i u0 t3 t4) \to pr2 c (THead (Flat f) u t1) (THead (Flat f) u t2)) (\lambda (H8: (getl i (CHead c (Flat f) u) (CHead d (Bind Abbr) u0))).\lambda (H9: (pr0 t1 t3)).\lambda (H10: (subst0 i u0 t3 t2)).(match i return (\lambda (n: nat).(getl n (CHead c (Flat f) u) (CHead d (Bind Abbr) u0)) \to (subst0 n u0 t3 t2) \to pr2 c (THead (Flat f) u t1) (THead (Flat f) u t2)) with [O \Rightarrow (\lambda (H11: (getl O (CHead c (Flat f) u) (CHead d (Bind Abbr) u0))).\lambda (H12: (subst0 O u0 t3 t2)).pr2_delta c d u0 O (getl_intro O c (CHead d (Bind Abbr) u0) c (drop_refl c) (clear_gen_flat f c (CHead d (Bind Abbr) u0) u (getl_gen_O (CHead c (Flat f) u) (CHead d (Bind Abbr) u0) H11))) (THead (Flat f) u t1) (THead (Flat f) u t3) (pr0_comp u u (pr0_refl u) t1 t3 H9 (Flat f)) (THead (Flat f) u t2) (subst0_snd (Flat f) u0 t2 t3 O H12 u)) | (S n) \Rightarrow (\lambda (H11: (getl (S n) (CHead c (Flat f) u) (CHead d (Bind Abbr) u0))).\lambda (H12: (subst0 (S n) u0 t3 t2)).pr2_delta c d u0 (r (Flat f) n) (getl_gen_S (Flat f) c (CHead d (Bind Abbr) u0) u n H11) (THead (Flat f) u t1) (THead (Flat f) u t3) (pr0_comp u u (pr0_refl u) t1 t3 H9 (Flat f)) (THead (Flat f) u t2) (subst0_snd (Flat f) u0 t2 t3 (r (Flat f) n) H12 u))]) H8 H10) t (sym_eq T t t2 H7)) t0 (sym_eq T t0 t1 H6)) c0 (sym_eq C c0 (CHead c (Flat f) u) H3) H4 H5 H0 H1 H2)] in H0 (refl_equal C (CHead c (Flat f) u)) (refl_equal T t1) (refl_equal T t2)) k.
+
+theorem clear_pr2_trans: \forall (c2: C).\forall (t1: T).\forall (t2: T).(pr2 c2 t1 t2) \to \forall (c1: C).(clear c1 c2) \to pr2 c1 t1 t2 \def \lambda (c2: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pr2 c2 t1 t2)).\lambda (c1: C).\lambda (H0: (clear c1 c2)).let H1 \def match H return (\lambda (c: C).\lambda (t: T).\lambda (t0: T).(eq C c c2) \to (eq T t t1) \to (eq T t0 t2) \to pr2 c1 t1 t2) with [(pr2_free c t0 t3 H1) \Rightarrow (\lambda (H2: (eq C c c2)).\lambda (H3: (eq T t0 t1)).\lambda (H4: (eq T t3 t2)).eq_ind C c2 (\lambda (_: C).(eq T t0 t1) \to (eq T t3 t2) \to (pr0 t0 t3) \to pr2 c1 t1 t2) (\lambda (H5: (eq T t0 t1)).eq_ind T t1 (\lambda (t: T).(eq T t3 t2) \to (pr0 t t3) \to pr2 c1 t1 t2) (\lambda (H6: (eq T t3 t2)).eq_ind T t2 (\lambda (t: T).(pr0 t1 t) \to pr2 c1 t1 t2) (\lambda (H7: (pr0 t1 t2)).pr2_free c1 t1 t2 H7) t3 (sym_eq T t3 t2 H6)) t0 (sym_eq T t0 t1 H5)) c (sym_eq C c c2 H2) H3 H4 H1) | (pr2_delta c d u i H1 t0 t3 H2 t H3) \Rightarrow (\lambda (H4: (eq C c c2)).\lambda (H5: (eq T t0 t1)).\lambda (H6: (eq T t t2)).eq_ind C c2 (\lambda (c0: C).(eq T t0 t1) \to (eq T t t2) \to (getl i c0 (CHead d (Bind Abbr) u)) \to (pr0 t0 t3) \to (subst0 i u t3 t) \to pr2 c1 t1 t2) (\lambda (H7: (eq T t0 t1)).eq_ind T t1 (\lambda (t4: T).(eq T t t2) \to (getl i c2 (CHead d (Bind Abbr) u)) \to (pr0 t4 t3) \to (subst0 i u t3 t) \to pr2 c1 t1 t2) (\lambda (H8: (eq T t t2)).eq_ind T t2 (\lambda (t4: T).(getl i c2 (CHead d (Bind Abbr) u)) \to (pr0 t1 t3) \to (subst0 i u t3 t4) \to pr2 c1 t1 t2) (\lambda (H9: (getl i c2 (CHead d (Bind Abbr) u))).\lambda (H10: (pr0 t1 t3)).\lambda (H11: (subst0 i u t3 t2)).pr2_delta c1 d u i (clear_getl_trans i c2 (CHead d (Bind Abbr) u) H9 c1 H0) t1 t3 H10 t2 H11) t (sym_eq T t t2 H8)) t0 (sym_eq T t0 t1 H7)) c (sym_eq C c c2 H4) H5 H6 H1 H2 H3)] in H1 (refl_equal C c2) (refl_equal T t1) (refl_equal T t2).
+
+theorem pr2_cflat: \forall (c: C).\forall (t1: T).\forall (t2: T).(pr2 c t1 t2) \to \forall (f: F).\forall (v: T).pr2 (CHead c (Flat f) v) t1 t2 \def \lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pr2 c t1 t2)).pr2_ind (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).\forall (f: F).\forall (v: T).pr2 (CHead c0 (Flat f) v) t t0) (\lambda (c0: C).\lambda (t3: T).\lambda (t4: T).\lambda (H0: (pr0 t3 t4)).\lambda (f: F).\lambda (v: T).pr2_free (CHead c0 (Flat f) v) t3 t4 H0) (\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c0 (CHead d (Bind Abbr) u))).\lambda (t3: T).\lambda (t4: T).\lambda (H1: (pr0 t3 t4)).\lambda (t: T).\lambda (H2: (subst0 i u t4 t)).\lambda (f: F).\lambda (v: T).pr2_delta (CHead c0 (Flat f) v) d u i (getl_flat c0 (CHead d (Bind Abbr) u) i H0 f v) t3 t4 H1 t H2) c t1 t2 H.
+
+theorem pr2_ctail: \forall (c: C).\forall (t1: T).\forall (t2: T).(pr2 c t1 t2) \to \forall (k: K).\forall (u: T).pr2 (CTail k u c) t1 t2 \def \lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pr2 c t1 t2)).\lambda (k: K).\lambda (u: T).pr2_ind (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).pr2 (CTail k u c0) t t0) (\lambda (c0: C).\lambda (t3: T).\lambda (t4: T).\lambda (H0: (pr0 t3 t4)).pr2_free (CTail k u c0) t3 t4 H0) (\lambda (c0: C).\lambda (d: C).\lambda (u0: T).\lambda (i: nat).\lambda (H0: (getl i c0 (CHead d (Bind Abbr) u0))).\lambda (t3: T).\lambda (t4: T).\lambda (H1: (pr0 t3 t4)).\lambda (t: T).\lambda (H2: (subst0 i u0 t4 t)).pr2_delta (CTail k u c0) (CTail k u d) u0 i (getl_ctail Abbr c0 d u0 i H0 k u) t3 t4 H1 t H2) c t1 t2 H.
+
+theorem pr2_gen_cbind: \forall (b: B).\forall (c: C).\forall (v: T).\forall (t1: T).\forall (t2: T).(pr2 (CHead c (Bind b) v) t1 t2) \to pr2 c (THead (Bind b) v t1) (THead (Bind b) v t2) \def \lambda (b: B).\lambda (c: C).\lambda (v: T).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pr2 (CHead c (Bind b) v) t1 t2)).let H0 \def match H return (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).(eq C c0 (CHead c (Bind b) v)) \to (eq T t t1) \to (eq T t0 t2) \to pr2 c (THead (Bind b) v t1) (THead (Bind b) v t2)) with [(pr2_free c0 t0 t3 H0) \Rightarrow (\lambda (H1: (eq C c0 (CHead c (Bind b) v))).\lambda (H2: (eq T t0 t1)).\lambda (H3: (eq T t3 t2)).eq_ind C (CHead c (Bind b) v) (\lambda (_: C).(eq T t0 t1) \to (eq T t3 t2) \to (pr0 t0 t3) \to pr2 c (THead (Bind b) v t1) (THead (Bind b) v t2)) (\lambda (H4: (eq T t0 t1)).eq_ind T t1 (\lambda (t: T).(eq T t3 t2) \to (pr0 t t3) \to pr2 c (THead (Bind b) v t1) (THead (Bind b) v t2)) (\lambda (H5: (eq T t3 t2)).eq_ind T t2 (\lambda (t: T).(pr0 t1 t) \to pr2 c (THead (Bind b) v t1) (THead (Bind b) v t2)) (\lambda (H6: (pr0 t1 t2)).pr2_free c (THead (Bind b) v t1) (THead (Bind b) v t2) (pr0_comp v v (pr0_refl v) t1 t2 H6 (Bind b))) t3 (sym_eq T t3 t2 H5)) t0 (sym_eq T t0 t1 H4)) c0 (sym_eq C c0 (CHead c (Bind b) v) H1) H2 H3 H0) | (pr2_delta c0 d u i H0 t0 t3 H1 t H2) \Rightarrow (\lambda (H3: (eq C c0 (CHead c (Bind b) v))).\lambda (H4: (eq T t0 t1)).\lambda (H5: (eq T t t2)).eq_ind C (CHead c (Bind b) v) (\lambda (c1: C).(eq T t0 t1) \to (eq T t t2) \to (getl i c1 (CHead d (Bind Abbr) u)) \to (pr0 t0 t3) \to (subst0 i u t3 t) \to pr2 c (THead (Bind b) v t1) (THead (Bind b) v t2)) (\lambda (H6: (eq T t0 t1)).eq_ind T t1 (\lambda (t4: T).(eq T t t2) \to (getl i (CHead c (Bind b) v) (CHead d (Bind Abbr) u)) \to (pr0 t4 t3) \to (subst0 i u t3 t) \to pr2 c (THead (Bind b) v t1) (THead (Bind b) v t2)) (\lambda (H7: (eq T t t2)).eq_ind T t2 (\lambda (t4: T).(getl i (CHead c (Bind b) v) (CHead d (Bind Abbr) u)) \to (pr0 t1 t3) \to (subst0 i u t3 t4) \to pr2 c (THead (Bind b) v t1) (THead (Bind b) v t2)) (\lambda (H8: (getl i (CHead c (Bind b) v) (CHead d (Bind Abbr) u))).\lambda (H9: (pr0 t1 t3)).\lambda (H10: (subst0 i u t3 t2)).let H_x \def getl_gen_bind b c (CHead d (Bind Abbr) u) v i H8 in let H \def H_x in or_ind (and (eq nat i O) (eq C (CHead d (Bind Abbr) u) (CHead c (Bind b) v))) (ex2 nat (\lambda (j: nat).eq nat i (S j)) (\lambda (j: nat).getl j c (CHead d (Bind Abbr) u))) (pr2 c (THead (Bind b) v t1) (THead (Bind b) v t2)) (\lambda (H11: (and (eq nat i O) (eq C (CHead d (Bind Abbr) u) (CHead c (Bind b) v)))).and_ind (eq nat i O) (eq C (CHead d (Bind Abbr) u) (CHead c (Bind b) v)) (pr2 c (THead (Bind b) v t1) (THead (Bind b) v t2)) (\lambda (H12: (eq nat i O)).\lambda (H13: (eq C (CHead d (Bind Abbr) u) (CHead c (Bind b) v))).let H14 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u) (CHead c (Bind b) v) H13 in (let H15 \def f_equal C B (\lambda (e: C).match e return B with [(CSort _) \Rightarrow Abbr | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (CHead d (Bind Abbr) u) (CHead c (Bind b) v) H13 in (let H16 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u) (CHead c (Bind b) v) H13 in \lambda (H17: (eq B Abbr b)).\lambda (_: (eq C d c)).let H19 \def eq_ind nat i (\lambda (n: nat).subst0 n u t3 t2) H10 O H12 in let H20 \def eq_ind T u (\lambda (t: T).subst0 O t t3 t2) H19 v H16 in eq_ind B Abbr (\lambda (b: B).pr2 c (THead (Bind b) v t1) (THead (Bind b) v t2)) (pr2_free c (THead (Bind Abbr) v t1) (THead (Bind Abbr) v t2) (pr0_delta v v (pr0_refl v) t1 t3 H9 t2 H20)) b H17) H15) H14) H11) (\lambda (H11: (ex2 nat (\lambda (j: nat).eq nat i (S j)) (\lambda (j: nat).getl j c (CHead d (Bind Abbr) u)))).ex2_ind nat (\lambda (j: nat).eq nat i (S j)) (\lambda (j: nat).getl j c (CHead d (Bind Abbr) u)) (pr2 c (THead (Bind b) v t1) (THead (Bind b) v t2)) (\lambda (x: nat).\lambda (H12: (eq nat i (S x))).\lambda (H13: (getl x c (CHead d (Bind Abbr) u))).let H14 \def f_equal nat nat (\lambda (e: nat).e) i (S x) H12 in let H15 \def eq_ind nat i (\lambda (n: nat).subst0 n u t3 t2) H10 (S x) H14 in pr2_head_2 c v t1 t2 (Bind b) (pr2_delta (CHead c (Bind b) v) d u (S x) (getl_clear_bind b (CHead c (Bind b) v) c v (clear_bind b c v) (CHead d (Bind Abbr) u) x H13) t1 t3 H9 t2 H15)) H11) H) t (sym_eq T t t2 H7)) t0 (sym_eq T t0 t1 H6)) c0 (sym_eq C c0 (CHead c (Bind b) v) H3) H4 H5 H0 H1 H2)] in H0 (refl_equal C (CHead c (Bind b) v)) (refl_equal T t1) (refl_equal T t2).
+
+theorem pr2_gen_cflat: \forall (f: F).\forall (c: C).\forall (v: T).\forall (t1: T).\forall (t2: T).(pr2 (CHead c (Flat f) v) t1 t2) \to pr2 c t1 t2 \def \lambda (f: F).\lambda (c: C).\lambda (v: T).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pr2 (CHead c (Flat f) v) t1 t2)).let H0 \def match H return (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).(eq C c0 (CHead c (Flat f) v)) \to (eq T t t1) \to (eq T t0 t2) \to pr2 c t1 t2) with [(pr2_free c0 t0 t3 H0) \Rightarrow (\lambda (H1: (eq C c0 (CHead c (Flat f) v))).\lambda (H2: (eq T t0 t1)).\lambda (H3: (eq T t3 t2)).eq_ind C (CHead c (Flat f) v) (\lambda (_: C).(eq T t0 t1) \to (eq T t3 t2) \to (pr0 t0 t3) \to pr2 c t1 t2) (\lambda (H4: (eq T t0 t1)).eq_ind T t1 (\lambda (t: T).(eq T t3 t2) \to (pr0 t t3) \to pr2 c t1 t2) (\lambda (H5: (eq T t3 t2)).eq_ind T t2 (\lambda (t: T).(pr0 t1 t) \to pr2 c t1 t2) (\lambda (H6: (pr0 t1 t2)).pr2_free c t1 t2 H6) t3 (sym_eq T t3 t2 H5)) t0 (sym_eq T t0 t1 H4)) c0 (sym_eq C c0 (CHead c (Flat f) v) H1) H2 H3 H0) | (pr2_delta c0 d u i H0 t0 t3 H1 t H2) \Rightarrow (\lambda (H3: (eq C c0 (CHead c (Flat f) v))).\lambda (H4: (eq T t0 t1)).\lambda (H5: (eq T t t2)).eq_ind C (CHead c (Flat f) v) (\lambda (c1: C).(eq T t0 t1) \to (eq T t t2) \to (getl i c1 (CHead d (Bind Abbr) u)) \to (pr0 t0 t3) \to (subst0 i u t3 t) \to pr2 c t1 t2) (\lambda (H6: (eq T t0 t1)).eq_ind T t1 (\lambda (t4: T).(eq T t t2) \to (getl i (CHead c (Flat f) v) (CHead d (Bind Abbr) u)) \to (pr0 t4 t3) \to (subst0 i u t3 t) \to pr2 c t1 t2) (\lambda (H7: (eq T t t2)).eq_ind T t2 (\lambda (t4: T).(getl i (CHead c (Flat f) v) (CHead d (Bind Abbr) u)) \to (pr0 t1 t3) \to (subst0 i u t3 t4) \to pr2 c t1 t2) (\lambda (H8: (getl i (CHead c (Flat f) v) (CHead d (Bind Abbr) u))).\lambda (H9: (pr0 t1 t3)).\lambda (H10: (subst0 i u t3 t2)).let H_y \def getl_gen_flat f c (CHead d (Bind Abbr) u) v i H8 in pr2_delta c d u i H_y t1 t3 H9 t2 H10) t (sym_eq T t t2 H7)) t0 (sym_eq T t0 t1 H6)) c0 (sym_eq C c0 (CHead c (Flat f) v) H3) H4 H5 H0 H1 H2)] in H0 (refl_equal C (CHead c (Flat f) v)) (refl_equal T t1) (refl_equal T t2).
+
+theorem pr2_lift: \forall (c: C).\forall (e: C).\forall (h: nat).\forall (d: nat).(drop h d c e) \to \forall (t1: T).\forall (t2: T).(pr2 e t1 t2) \to pr2 c (lift h d t1) (lift h d t2) \def \lambda (c: C).\lambda (e: C).\lambda (h: nat).\lambda (d: nat).\lambda (H: (drop h d c e)).\lambda (t1: T).\lambda (t2: T).\lambda (H0: (pr2 e t1 t2)).let H1 \def match H0 return (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).(eq C c0 e) \to (eq T t t1) \to (eq T t0 t2) \to pr2 c (lift h d t1) (lift h d t2)) with [(pr2_free c0 t0 t3 H1) \Rightarrow (\lambda (H2: (eq C c0 e)).\lambda (H3: (eq T t0 t1)).\lambda (H4: (eq T t3 t2)).eq_ind C e (\lambda (_: C).(eq T t0 t1) \to (eq T t3 t2) \to (pr0 t0 t3) \to pr2 c (lift h d t1) (lift h d t2)) (\lambda (H5: (eq T t0 t1)).eq_ind T t1 (\lambda (t: T).(eq T t3 t2) \to (pr0 t t3) \to pr2 c (lift h d t1) (lift h d t2)) (\lambda (H6: (eq T t3 t2)).eq_ind T t2 (\lambda (t: T).(pr0 t1 t) \to pr2 c (lift h d t1) (lift h d t2)) (\lambda (H7: (pr0 t1 t2)).pr2_free c (lift h d t1) (lift h d t2) (pr0_lift t1 t2 H7 h d)) t3 (sym_eq T t3 t2 H6)) t0 (sym_eq T t0 t1 H5)) c0 (sym_eq C c0 e H2) H3 H4 H1) | (pr2_delta c0 d0 u i H1 t0 t3 H2 t H3) \Rightarrow (\lambda (H4: (eq C c0 e)).\lambda (H5: (eq T t0 t1)).\lambda (H6: (eq T t t2)).eq_ind C e (\lambda (c1: C).(eq T t0 t1) \to (eq T t t2) \to (getl i c1 (CHead d0 (Bind Abbr) u)) \to (pr0 t0 t3) \to (subst0 i u t3 t) \to pr2 c (lift h d t1) (lift h d t2)) (\lambda (H7: (eq T t0 t1)).eq_ind T t1 (\lambda (t4: T).(eq T t t2) \to (getl i e (CHead d0 (Bind Abbr) u)) \to (pr0 t4 t3) \to (subst0 i u t3 t) \to pr2 c (lift h d t1) (lift h d t2)) (\lambda (H8: (eq T t t2)).eq_ind T t2 (\lambda (t4: T).(getl i e (CHead d0 (Bind Abbr) u)) \to (pr0 t1 t3) \to (subst0 i u t3 t4) \to pr2 c (lift h d t1) (lift h d t2)) (\lambda (H9: (getl i e (CHead d0 (Bind Abbr) u))).\lambda (H10: (pr0 t1 t3)).\lambda (H11: (subst0 i u t3 t2)).lt_le_e i d (pr2 c (lift h d t1) (lift h d t2)) (\lambda (H0: (lt i d)).let H \def drop_getl_trans_le i d (le_S_n i d (le_S (S i) d H0)) c e h H (CHead d0 (Bind Abbr) u) H9 in ex3_2_ind C C (\lambda (e0: C).\lambda (_: C).drop i O c e0) (\lambda (e0: C).\lambda (e1: C).drop h (minus d i) e0 e1) (\lambda (_: C).\lambda (e1: C).clear e1 (CHead d0 (Bind Abbr) u)) (pr2 c (lift h d t1) (lift h d t2)) (\lambda (x0: C).\lambda (x1: C).\lambda (H12: (drop i O c x0)).\lambda (H13: (drop h (minus d i) x0 x1)).\lambda (H14: (clear x1 (CHead d0 (Bind Abbr) u))).let H15 \def eq_ind nat (minus d i) (\lambda (n: nat).drop h n x0 x1) H13 (S (minus d (S i))) (minus_x_Sy d i H0) in let H16 \def drop_clear_S x1 x0 h (minus d (S i)) H15 Abbr d0 u H14 in ex2_ind C (\lambda (c1: C).clear x0 (CHead c1 (Bind Abbr) (lift h (minus d (S i)) u))) (\lambda (c1: C).drop h (minus d (S i)) c1 d0) (pr2 c (lift h d t1) (lift h d t2)) (\lambda (x: C).\lambda (H17: (clear x0 (CHead x (Bind Abbr) (lift h (minus d (S i)) u)))).\lambda (_: (drop h (minus d (S i)) x d0)).pr2_delta c x (lift h (minus d (S i)) u) i (getl_intro i c (CHead x (Bind Abbr) (lift h (minus d (S i)) u)) x0 H12 H17) (lift h d t1) (lift h d t3) (pr0_lift t1 t3 H10 h d) (lift h d t2) (subst0_lift_lt t3 t2 u i H11 d H0 h)) H16) H) (\lambda (H0: (le d i)).pr2_delta c d0 u (plus i h) (drop_getl_trans_ge i c e d h H (CHead d0 (Bind Abbr) u) H9 H0) (lift h d t1) (lift h d t3) (pr0_lift t1 t3 H10 h d) (lift h d t2) (subst0_lift_ge t3 t2 u i h H11 d H0))) t (sym_eq T t t2 H8)) t0 (sym_eq T t0 t1 H7)) c0 (sym_eq C c0 e H4) H5 H6 H1 H2 H3)] in H1 (refl_equal C e) (refl_equal T t1) (refl_equal T t2).
+
+theorem pr2_gen_appl: \forall (c: C).\forall (u1: T).\forall (t1: T).\forall (x: T).(pr2 c (THead (Flat Appl) u1 t1) x) \to or3 (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t2: T).pr2 c t1 t2)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Abbr) u2 t2)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t2)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2)) \def \lambda (c: C).\lambda (u1: T).\lambda (t1: T).\lambda (x: T).\lambda (H: (pr2 c (THead (Flat Appl) u1 t1) x)).let H0 \def match H return (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).(eq C c0 c) \to (eq T t (THead (Flat Appl) u1 t1)) \to (eq T t0 x) \to or3 (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t2: T).pr2 c t1 t2)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Abbr) u2 t2)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t2)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) with [(pr2_free c0 t0 t2 H0) \Rightarrow (\lambda (H1: (eq C c0 c)).\lambda (H2: (eq T t0 (THead (Flat Appl) u1 t1))).\lambda (H3: (eq T t2 x)).eq_ind C c (\lambda (_: C).(eq T t0 (THead (Flat Appl) u1 t1)) \to (eq T t2 x) \to (pr0 t0 t2) \to or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (H4: (eq T t0 (THead (Flat Appl) u1 t1))).eq_ind T (THead (Flat Appl) u1 t1) (\lambda (t: T).(eq T t2 x) \to (pr0 t t2) \to or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (H5: (eq T t2 x)).eq_ind T x (\lambda (t: T).(pr0 (THead (Flat Appl) u1 t1) t) \to or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (H6: (pr0 (THead (Flat Appl) u1 t1) x)).or3_ind (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (v2: T).\lambda (t3: T).eq T x (THead (Bind b) v2 (THead (Flat Appl) (lift (S O) O u2) t3))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v2: T).\lambda (_: T).pr0 y1 v2) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3)) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (H7: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t2: T).pr0 t1 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (x0: T).\lambda (x1: T).\lambda (H: (eq T x (THead (Flat Appl) x0 x1))).\lambda (H8: (pr0 u1 x0)).\lambda (H9: (pr0 t1 x1)).eq_ind_r T (THead (Flat Appl) x0 x1) (\lambda (t: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T t (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T t (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (or3_intro0 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Flat Appl) x0 x1) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Flat Appl) x0 x1) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Flat Appl) x0 x1) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2)) (ex3_2_intro T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Flat Appl) x0 x1) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3) x0 x1 (refl_equal T (THead (Flat Appl) x0 x1)) (pr2_free c u1 x0 H8) (pr2_free c t1 x1 H9))) x H) H7) (\lambda (H7: (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Abbr) u2 t2)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).pr0 z1 t2))).ex4_4_ind T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (x0: T).\lambda (x1: T).\lambda (x2: T).\lambda (x3: T).\lambda (H: (eq T t1 (THead (Bind Abst) x0 x1))).\lambda (H8: (eq T x (THead (Bind Abbr) x2 x3))).\lambda (H9: (pr0 u1 x2)).\lambda (H10: (pr0 x1 x3)).eq_ind_r T (THead (Bind Abbr) x2 x3) (\lambda (t: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T t (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T t (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (eq_ind_r T (THead (Bind Abst) x0 x1) (\lambda (t: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind Abbr) x2 x3) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind Abbr) x2 x3) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind Abbr) x2 x3) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (or3_intro1 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind Abbr) x2 x3) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind Abst) x0 x1) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) x0 x1) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind Abbr) x2 x3) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) x0 x1) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind Abbr) x2 x3) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2)) (ex4_4_intro T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) x0 x1) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind Abbr) x2 x3) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t3) x0 x1 x2 x3 (refl_equal T (THead (Bind Abst) x0 x1)) (refl_equal T (THead (Bind Abbr) x2 x3)) (pr2_free c u1 x2 H9) (\lambda (b: B).\lambda (u: T).pr2_free (CHead c (Bind b) u) x1 x3 H10))) t1 H) x H8) H7) (\lambda (H7: (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (v2: T).\lambda (t2: T).eq T x (THead (Bind b) v2 (THead (Flat Appl) (lift (S O) O u2) t2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v2: T).\lambda (_: T).pr0 y1 v2) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t2: T).pr0 z1 t2))).ex6_6_ind B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (v2: T).\lambda (t3: T).eq T x (THead (Bind b) v2 (THead (Flat Appl) (lift (S O) O u2) t3))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v2: T).\lambda (_: T).pr0 y1 v2) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (x0: B).\lambda (x1: T).\lambda (x2: T).\lambda (x3: T).\lambda (x4: T).\lambda (x5: T).\lambda (H: (not (eq B x0 Abst))).\lambda (H8: (eq T t1 (THead (Bind x0) x1 x2))).\lambda (H9: (eq T x (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x3) x5)))).\lambda (H10: (pr0 u1 x3)).\lambda (H11: (pr0 x1 x4)).\lambda (H12: (pr0 x2 x5)).eq_ind_r T (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x3) x5)) (\lambda (t: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T t (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T t (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (eq_ind_r T (THead (Bind x0) x1 x2) (\lambda (t: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x3) x5)) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x3) x5)) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x3) x5)) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (or3_intro2 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x3) x5)) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x3) x5)) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x3) x5)) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2)) (ex6_6_intro B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x3) x5)) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2) x0 x1 x2 x5 x3 x4 H (refl_equal T (THead (Bind x0) x1 x2)) (refl_equal T (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x3) x5))) (pr2_free c u1 x3 H10) (pr2_free c x1 x4 H11) (pr2_free (CHead c (Bind x0) x4) x2 x5 H12))) t1 H8) x H9) H7) (pr0_gen_appl u1 t1 x H6)) t2 (sym_eq T t2 x H5)) t0 (sym_eq T t0 (THead (Flat Appl) u1 t1) H4)) c0 (sym_eq C c0 c H1) H2 H3 H0) | (pr2_delta c0 d u i H0 t0 t2 H1 t H2) \Rightarrow (\lambda (H3: (eq C c0 c)).\lambda (H4: (eq T t0 (THead (Flat Appl) u1 t1))).\lambda (H5: (eq T t x)).eq_ind C c (\lambda (c1: C).(eq T t0 (THead (Flat Appl) u1 t1)) \to (eq T t x) \to (getl i c1 (CHead d (Bind Abbr) u)) \to (pr0 t0 t2) \to (subst0 i u t2 t) \to or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (H6: (eq T t0 (THead (Flat Appl) u1 t1))).eq_ind T (THead (Flat Appl) u1 t1) (\lambda (t3: T).(eq T t x) \to (getl i c (CHead d (Bind Abbr) u)) \to (pr0 t3 t2) \to (subst0 i u t2 t) \to or3 (ex3_2 T T (\lambda (u2: T).\lambda (t4: T).eq T x (THead (Flat Appl) u2 t4)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t4: T).pr2 c t1 t4)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t4: T).eq T x (THead (Bind Abbr) u2 t4)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t4: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t4)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (H7: (eq T t x)).eq_ind T x (\lambda (t3: T).(getl i c (CHead d (Bind Abbr) u)) \to (pr0 (THead (Flat Appl) u1 t1) t2) \to (subst0 i u t2 t3) \to or3 (ex3_2 T T (\lambda (u2: T).\lambda (t4: T).eq T x (THead (Flat Appl) u2 t4)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t4: T).pr2 c t1 t4)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t4: T).eq T x (THead (Bind Abbr) u2 t4)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t4: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t4)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (H8: (getl i c (CHead d (Bind Abbr) u))).\lambda (H9: (pr0 (THead (Flat Appl) u1 t1) t2)).\lambda (H10: (subst0 i u t2 x)).or3_ind (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (v2: T).\lambda (t3: T).eq T t2 (THead (Bind b) v2 (THead (Flat Appl) (lift (S O) O u2) t3))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v2: T).\lambda (_: T).pr0 y1 v2) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3)) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (H11: (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t2: T).pr0 t1 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (x0: T).\lambda (x1: T).\lambda (H: (eq T t2 (THead (Flat Appl) x0 x1))).\lambda (H12: (pr0 u1 x0)).\lambda (H13: (pr0 t1 x1)).let H14 \def eq_ind T t2 (\lambda (t: T).subst0 i u t x) H10 (THead (Flat Appl) x0 x1) H in or3_ind (ex2 T (\lambda (u2: T).eq T x (THead (Flat Appl) u2 x1)) (\lambda (u2: T).subst0 i u x0 u2)) (ex2 T (\lambda (t3: T).eq T x (THead (Flat Appl) x0 t3)) (\lambda (t3: T).subst0 (s (Flat Appl) i) u x1 t3)) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u x0 u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Flat Appl) i) u x1 t3)) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (H15: (ex2 T (\lambda (u2: T).eq T x (THead (Flat Appl) u2 x1)) (\lambda (u2: T).subst0 i u x0 u2))).ex2_ind T (\lambda (u2: T).eq T x (THead (Flat Appl) u2 x1)) (\lambda (u2: T).subst0 i u x0 u2) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (x2: T).\lambda (H16: (eq T x (THead (Flat Appl) x2 x1))).\lambda (H17: (subst0 i u x0 x2)).eq_ind_r T (THead (Flat Appl) x2 x1) (\lambda (t3: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t4: T).eq T t3 (THead (Flat Appl) u2 t4)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t4: T).pr2 c t1 t4)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t4: T).eq T t3 (THead (Bind Abbr) u2 t4)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t4: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t4)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T t3 (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (or3_intro0 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Flat Appl) x2 x1) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Flat Appl) x2 x1) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Flat Appl) x2 x1) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2)) (ex3_2_intro T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Flat Appl) x2 x1) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3) x2 x1 (refl_equal T (THead (Flat Appl) x2 x1)) (pr2_delta c d u i H8 u1 x0 H12 x2 H17) (pr2_free c t1 x1 H13))) x H16) H15) (\lambda (H15: (ex2 T (\lambda (t2: T).eq T x (THead (Flat Appl) x0 t2)) (\lambda (t2: T).subst0 (s (Flat Appl) i) u x1 t2))).ex2_ind T (\lambda (t3: T).eq T x (THead (Flat Appl) x0 t3)) (\lambda (t3: T).subst0 (s (Flat Appl) i) u x1 t3) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (x2: T).\lambda (H16: (eq T x (THead (Flat Appl) x0 x2))).\lambda (H17: (subst0 (s (Flat Appl) i) u x1 x2)).eq_ind_r T (THead (Flat Appl) x0 x2) (\lambda (t3: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t4: T).eq T t3 (THead (Flat Appl) u2 t4)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t4: T).pr2 c t1 t4)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t4: T).eq T t3 (THead (Bind Abbr) u2 t4)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t4: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t4)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T t3 (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (or3_intro0 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Flat Appl) x0 x2) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Flat Appl) x0 x2) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Flat Appl) x0 x2) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2)) (ex3_2_intro T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Flat Appl) x0 x2) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3) x0 x2 (refl_equal T (THead (Flat Appl) x0 x2)) (pr2_free c u1 x0 H12) (pr2_delta c d u i H8 t1 x1 H13 x2 H17))) x H16) H15) (\lambda (H15: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i u x0 u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Flat Appl) i) u x1 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u x0 u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Flat Appl) i) u x1 t3) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (x2: T).\lambda (x3: T).\lambda (H16: (eq T x (THead (Flat Appl) x2 x3))).\lambda (H17: (subst0 i u x0 x2)).\lambda (H18: (subst0 (s (Flat Appl) i) u x1 x3)).eq_ind_r T (THead (Flat Appl) x2 x3) (\lambda (t3: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t4: T).eq T t3 (THead (Flat Appl) u2 t4)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t4: T).pr2 c t1 t4)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t4: T).eq T t3 (THead (Bind Abbr) u2 t4)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t4: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t4)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T t3 (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (or3_intro0 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Flat Appl) x2 x3) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Flat Appl) x2 x3) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Flat Appl) x2 x3) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2)) (ex3_2_intro T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Flat Appl) x2 x3) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3) x2 x3 (refl_equal T (THead (Flat Appl) x2 x3)) (pr2_delta c d u i H8 u1 x0 H12 x2 H17) (pr2_delta c d u i H8 t1 x1 H13 x3 H18))) x H16) H15) (subst0_gen_head (Flat Appl) u x0 x1 x i H14)) H11) (\lambda (H11: (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).pr0 z1 t2))).ex4_4_ind T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (x0: T).\lambda (x1: T).\lambda (x2: T).\lambda (x3: T).\lambda (H: (eq T t1 (THead (Bind Abst) x0 x1))).\lambda (H12: (eq T t2 (THead (Bind Abbr) x2 x3))).\lambda (H13: (pr0 u1 x2)).\lambda (H14: (pr0 x1 x3)).let H15 \def eq_ind T t2 (\lambda (t: T).subst0 i u t x) H10 (THead (Bind Abbr) x2 x3) H12 in eq_ind_r T (THead (Bind Abst) x0 x1) (\lambda (t1: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (or3_ind (ex2 T (\lambda (u2: T).eq T x (THead (Bind Abbr) u2 x3)) (\lambda (u2: T).subst0 i u x2 u2)) (ex2 T (\lambda (t3: T).eq T x (THead (Bind Abbr) x2 t3)) (\lambda (t3: T).subst0 (s (Bind Abbr) i) u x3 t3)) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u x2 u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Bind Abbr) i) u x3 t3)) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind Abst) x0 x1) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) x0 x1) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) x0 x1) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (H16: (ex2 T (\lambda (u2: T).eq T x (THead (Bind Abbr) u2 x3)) (\lambda (u2: T).subst0 i u x2 u2))).ex2_ind T (\lambda (u2: T).eq T x (THead (Bind Abbr) u2 x3)) (\lambda (u2: T).subst0 i u x2 u2) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind Abst) x0 x1) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) x0 x1) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) x0 x1) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (x4: T).\lambda (H17: (eq T x (THead (Bind Abbr) x4 x3))).\lambda (H18: (subst0 i u x2 x4)).eq_ind_r T (THead (Bind Abbr) x4 x3) (\lambda (t1: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t1 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind Abst) x0 x1) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) x0 x1) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T t1 (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) x0 x1) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T t1 (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (or3_intro1 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind Abbr) x4 x3) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind Abst) x0 x1) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) x0 x1) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind Abbr) x4 x3) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) x0 x1) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind Abbr) x4 x3) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2)) (ex4_4_intro T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) x0 x1) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind Abbr) x4 x3) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3) x0 x1 x4 x3 (refl_equal T (THead (Bind Abst) x0 x1)) (refl_equal T (THead (Bind Abbr) x4 x3)) (pr2_delta c d u i H8 u1 x2 H13 x4 H18) (\lambda (b: B).\lambda (u0: T).pr2_free (CHead c (Bind b) u0) x1 x3 H14))) x H17) H16) (\lambda (H16: (ex2 T (\lambda (t2: T).eq T x (THead (Bind Abbr) x2 t2)) (\lambda (t2: T).subst0 (s (Bind Abbr) i) u x3 t2))).ex2_ind T (\lambda (t3: T).eq T x (THead (Bind Abbr) x2 t3)) (\lambda (t3: T).subst0 (s (Bind Abbr) i) u x3 t3) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind Abst) x0 x1) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) x0 x1) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) x0 x1) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (x4: T).\lambda (H17: (eq T x (THead (Bind Abbr) x2 x4))).\lambda (H18: (subst0 (s (Bind Abbr) i) u x3 x4)).eq_ind_r T (THead (Bind Abbr) x2 x4) (\lambda (t1: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t1 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind Abst) x0 x1) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) x0 x1) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T t1 (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) x0 x1) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T t1 (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (or3_intro1 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind Abbr) x2 x4) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind Abst) x0 x1) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) x0 x1) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind Abbr) x2 x4) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) x0 x1) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind Abbr) x2 x4) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2)) (ex4_4_intro T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) x0 x1) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind Abbr) x2 x4) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3) x0 x1 x2 x4 (refl_equal T (THead (Bind Abst) x0 x1)) (refl_equal T (THead (Bind Abbr) x2 x4)) (pr2_free c u1 x2 H13) (\lambda (b: B).\lambda (u0: T).pr2_delta (CHead c (Bind b) u0) d u (S i) (getl_clear_bind b (CHead c (Bind b) u0) c u0 (clear_bind b c u0) (CHead d (Bind Abbr) u) i H8) x1 x3 H14 x4 H18))) x H17) H16) (\lambda (H16: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Abbr) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i u x2 u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Bind Abbr) i) u x3 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u x2 u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Bind Abbr) i) u x3 t3) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind Abst) x0 x1) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) x0 x1) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) x0 x1) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (x4: T).\lambda (x5: T).\lambda (H17: (eq T x (THead (Bind Abbr) x4 x5))).\lambda (H18: (subst0 i u x2 x4)).\lambda (H19: (subst0 (s (Bind Abbr) i) u x3 x5)).eq_ind_r T (THead (Bind Abbr) x4 x5) (\lambda (t1: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t1 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind Abst) x0 x1) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) x0 x1) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T t1 (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) x0 x1) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T t1 (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (or3_intro1 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind Abbr) x4 x5) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind Abst) x0 x1) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) x0 x1) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind Abbr) x4 x5) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) x0 x1) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind Abbr) x4 x5) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2)) (ex4_4_intro T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind Abst) x0 x1) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind Abbr) x4 x5) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3) x0 x1 x4 x5 (refl_equal T (THead (Bind Abst) x0 x1)) (refl_equal T (THead (Bind Abbr) x4 x5)) (pr2_delta c d u i H8 u1 x2 H13 x4 H18) (\lambda (b: B).\lambda (u0: T).pr2_delta (CHead c (Bind b) u0) d u (S i) (getl_clear_bind b (CHead c (Bind b) u0) c u0 (clear_bind b c u0) (CHead d (Bind Abbr) u) i H8) x1 x3 H14 x5 H19))) x H17) H16) (subst0_gen_head (Bind Abbr) u x2 x3 x i H15)) t1 H) H11) (\lambda (H11: (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (v2: T).\lambda (t3: T).eq T t2 (THead (Bind b) v2 (THead (Flat Appl) (lift (S O) O u2) t3))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v2: T).\lambda (_: T).pr0 y1 v2) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t2: T).pr0 z1 t2))).ex6_6_ind B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (v2: T).\lambda (t3: T).eq T t2 (THead (Bind b) v2 (THead (Flat Appl) (lift (S O) O u2) t3))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (v2: T).\lambda (_: T).pr0 y1 v2) (\lambda (_: B).\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (t3: T).pr0 z1 t3) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (x0: B).\lambda (x1: T).\lambda (x2: T).\lambda (x3: T).\lambda (x4: T).\lambda (x5: T).\lambda (H: (not (eq B x0 Abst))).\lambda (H12: (eq T t1 (THead (Bind x0) x1 x2))).\lambda (H13: (eq T t2 (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x3) x5)))).\lambda (H14: (pr0 u1 x3)).\lambda (H15: (pr0 x1 x4)).\lambda (H16: (pr0 x2 x5)).let H17 \def eq_ind T t2 (\lambda (t: T).subst0 i u t x) H10 (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x3) x5)) H13 in eq_ind_r T (THead (Bind x0) x1 x2) (\lambda (t1: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t1 t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (or3_ind (ex2 T (\lambda (u2: T).eq T x (THead (Bind x0) u2 (THead (Flat Appl) (lift (S O) O x3) x5))) (\lambda (u2: T).subst0 i u x4 u2)) (ex2 T (\lambda (t3: T).eq T x (THead (Bind x0) x4 t3)) (\lambda (t3: T).subst0 (s (Bind x0) i) u (THead (Flat Appl) (lift (S O) O x3) x5) t3)) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind x0) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u x4 u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Bind x0) i) u (THead (Flat Appl) (lift (S O) O x3) x5) t3)) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (H18: (ex2 T (\lambda (u2: T).eq T x (THead (Bind x0) u2 (THead (Flat Appl) (lift (S O) O x3) x5))) (\lambda (u2: T).subst0 i u x4 u2))).ex2_ind T (\lambda (u2: T).eq T x (THead (Bind x0) u2 (THead (Flat Appl) (lift (S O) O x3) x5))) (\lambda (u2: T).subst0 i u x4 u2) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (x6: T).\lambda (H19: (eq T x (THead (Bind x0) x6 (THead (Flat Appl) (lift (S O) O x3) x5)))).\lambda (H20: (subst0 i u x4 x6)).eq_ind_r T (THead (Bind x0) x6 (THead (Flat Appl) (lift (S O) O x3) x5)) (\lambda (t1: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t1 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T t1 (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T t1 (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (or3_intro2 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x6 (THead (Flat Appl) (lift (S O) O x3) x5)) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x6 (THead (Flat Appl) (lift (S O) O x3) x5)) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x6 (THead (Flat Appl) (lift (S O) O x3) x5)) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2)) (ex6_6_intro B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x6 (THead (Flat Appl) (lift (S O) O x3) x5)) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2) x0 x1 x2 x5 x3 x6 H (refl_equal T (THead (Bind x0) x1 x2)) (refl_equal T (THead (Bind x0) x6 (THead (Flat Appl) (lift (S O) O x3) x5))) (pr2_free c u1 x3 H14) (pr2_delta c d u i H8 x1 x4 H15 x6 H20) (pr2_free (CHead c (Bind x0) x6) x2 x5 H16))) x H19) H18) (\lambda (H18: (ex2 T (\lambda (t2: T).eq T x (THead (Bind x0) x4 t2)) (\lambda (t2: T).subst0 (s (Bind x0) i) u (THead (Flat Appl) (lift (S O) O x3) x5) t2))).ex2_ind T (\lambda (t3: T).eq T x (THead (Bind x0) x4 t3)) (\lambda (t3: T).subst0 (s (Bind x0) i) u (THead (Flat Appl) (lift (S O) O x3) x5) t3) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (x6: T).\lambda (H19: (eq T x (THead (Bind x0) x4 x6))).\lambda (H20: (subst0 (s (Bind x0) i) u (THead (Flat Appl) (lift (S O) O x3) x5) x6)).eq_ind_r T (THead (Bind x0) x4 x6) (\lambda (t1: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t1 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T t1 (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T t1 (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (or3_ind (ex2 T (\lambda (u2: T).eq T x6 (THead (Flat Appl) u2 x5)) (\lambda (u2: T).subst0 (s (Bind x0) i) u (lift (S O) O x3) u2)) (ex2 T (\lambda (t3: T).eq T x6 (THead (Flat Appl) (lift (S O) O x3) t3)) (\lambda (t3: T).subst0 (s (Flat Appl) (s (Bind x0) i)) u x5 t3)) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x6 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 (s (Bind x0) i) u (lift (S O) O x3) u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Flat Appl) (s (Bind x0) i)) u x5 t3)) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 x6) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 x6) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x4 x6) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (H21: (ex2 T (\lambda (u2: T).eq T x6 (THead (Flat Appl) u2 x5)) (\lambda (u2: T).subst0 (s (Bind x0) i) u (lift (S O) O x3) u2))).ex2_ind T (\lambda (u2: T).eq T x6 (THead (Flat Appl) u2 x5)) (\lambda (u2: T).subst0 (s (Bind x0) i) u (lift (S O) O x3) u2) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 x6) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 x6) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x4 x6) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (x: T).\lambda (H22: (eq T x6 (THead (Flat Appl) x x5))).\lambda (H23: (subst0 (s (Bind x0) i) u (lift (S O) O x3) x)).eq_ind_r T (THead (Flat Appl) x x5) (\lambda (t1: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 t1) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 t1) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x4 t1) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (ex2_ind T (\lambda (t3: T).eq T x (lift (S O) O t3)) (\lambda (t3: T).subst0 (minus (s (Bind x0) i) (S O)) u x3 t3) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) x x5)) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) x x5)) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) x x5)) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (x7: T).\lambda (H24: (eq T x (lift (S O) O x7))).\lambda (H25: (subst0 (minus (s (Bind x0) i) (S O)) u x3 x7)).let H26 \def eq_ind nat (minus (s (Bind x0) i) (S O)) (\lambda (n: nat).subst0 n u x3 x7) H25 i (s_arith1 x0 i) in eq_ind_r T (lift (S O) O x7) (\lambda (t1: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) t1 x5)) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) t1 x5)) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) t1 x5)) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (or3_intro2 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x7) x5)) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x7) x5)) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x7) x5)) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2)) (ex6_6_intro B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x7) x5)) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2) x0 x1 x2 x5 x7 x4 H (refl_equal T (THead (Bind x0) x1 x2)) (refl_equal T (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x7) x5))) (pr2_delta c d u i H8 u1 x3 H14 x7 H26) (pr2_free c x1 x4 H15) (pr2_free (CHead c (Bind x0) x4) x2 x5 H16))) x H24) (subst0_gen_lift_ge u x3 x (s (Bind x0) i) (S O) O H23 (le_S_n (S O) (S i) (lt_le_S (S O) (S (S i)) (lt_n_S O (S i) (le_lt_n_Sm O i (le_O_n i))))))) x6 H22) H21) (\lambda (H21: (ex2 T (\lambda (t2: T).eq T x6 (THead (Flat Appl) (lift (S O) O x3) t2)) (\lambda (t2: T).subst0 (s (Flat Appl) (s (Bind x0) i)) u x5 t2))).ex2_ind T (\lambda (t3: T).eq T x6 (THead (Flat Appl) (lift (S O) O x3) t3)) (\lambda (t3: T).subst0 (s (Flat Appl) (s (Bind x0) i)) u x5 t3) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 x6) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 x6) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x4 x6) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (x: T).\lambda (H22: (eq T x6 (THead (Flat Appl) (lift (S O) O x3) x))).\lambda (H23: (subst0 (s (Flat Appl) (s (Bind x0) i)) u x5 x)).eq_ind_r T (THead (Flat Appl) (lift (S O) O x3) x) (\lambda (t1: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 t1) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 t1) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x4 t1) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (or3_intro2 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x3) x)) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x3) x)) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x3) x)) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2)) (ex6_6_intro B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x3) x)) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2) x0 x1 x2 x x3 x4 H (refl_equal T (THead (Bind x0) x1 x2)) (refl_equal T (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x3) x))) (pr2_free c u1 x3 H14) (pr2_free c x1 x4 H15) (pr2_delta (CHead c (Bind x0) x4) d u (S i) (getl_clear_bind x0 (CHead c (Bind x0) x4) c x4 (clear_bind x0 c x4) (CHead d (Bind Abbr) u) i H8) x2 x5 H16 x H23))) x6 H22) H21) (\lambda (H21: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x6 (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 (s (Bind x0) i) u (lift (S O) O x3) u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Flat Appl) (s (Bind x0) i)) u x5 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T x6 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 (s (Bind x0) i) u (lift (S O) O x3) u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Flat Appl) (s (Bind x0) i)) u x5 t3) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 x6) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 x6) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x4 x6) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (x7: T).\lambda (x8: T).\lambda (H22: (eq T x6 (THead (Flat Appl) x7 x8))).\lambda (H23: (subst0 (s (Bind x0) i) u (lift (S O) O x3) x7)).\lambda (H24: (subst0 (s (Flat Appl) (s (Bind x0) i)) u x5 x8)).eq_ind_r T (THead (Flat Appl) x7 x8) (\lambda (t1: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 t1) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 t1) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x4 t1) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (ex2_ind T (\lambda (t3: T).eq T x7 (lift (S O) O t3)) (\lambda (t3: T).subst0 (minus (s (Bind x0) i) (S O)) u x3 t3) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) x7 x8)) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) x7 x8)) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) x7 x8)) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (x: T).\lambda (H25: (eq T x7 (lift (S O) O x))).\lambda (H26: (subst0 (minus (s (Bind x0) i) (S O)) u x3 x)).let H27 \def eq_ind nat (minus (s (Bind x0) i) (S O)) (\lambda (n: nat).subst0 n u x3 x) H26 i (s_arith1 x0 i) in eq_ind_r T (lift (S O) O x) (\lambda (t1: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) t1 x8)) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) t1 x8)) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) t1 x8)) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (or3_intro2 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x) x8)) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x) x8)) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x) x8)) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2)) (ex6_6_intro B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x) x8)) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2) x0 x1 x2 x8 x x4 H (refl_equal T (THead (Bind x0) x1 x2)) (refl_equal T (THead (Bind x0) x4 (THead (Flat Appl) (lift (S O) O x) x8))) (pr2_delta c d u i H8 u1 x3 H14 x H27) (pr2_free c x1 x4 H15) (pr2_delta (CHead c (Bind x0) x4) d u (S i) (getl_clear_bind x0 (CHead c (Bind x0) x4) c x4 (clear_bind x0 c x4) (CHead d (Bind Abbr) u) i H8) x2 x5 H16 x8 H24))) x7 H25) (subst0_gen_lift_ge u x3 x7 (s (Bind x0) i) (S O) O H23 (le_S_n (S O) (S i) (lt_le_S (S O) (S (S i)) (lt_n_S O (S i) (le_lt_n_Sm O i (le_O_n i))))))) x6 H22) H21) (subst0_gen_head (Flat Appl) u (lift (S O) O x3) x5 x6 (s (Bind x0) i) H20)) x H19) H18) (\lambda (H18: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind x0) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i u x4 u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Bind x0) i) u (THead (Flat Appl) (lift (S O) O x3) x5) t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind x0) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u x4 u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Bind x0) i) u (THead (Flat Appl) (lift (S O) O x3) x5) t3) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (x6: T).\lambda (x7: T).\lambda (H19: (eq T x (THead (Bind x0) x6 x7))).\lambda (H20: (subst0 i u x4 x6)).\lambda (H21: (subst0 (s (Bind x0) i) u (THead (Flat Appl) (lift (S O) O x3) x5) x7)).eq_ind_r T (THead (Bind x0) x6 x7) (\lambda (t1: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t1 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T t1 (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T t1 (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (or3_ind (ex2 T (\lambda (u2: T).eq T x7 (THead (Flat Appl) u2 x5)) (\lambda (u2: T).subst0 (s (Bind x0) i) u (lift (S O) O x3) u2)) (ex2 T (\lambda (t3: T).eq T x7 (THead (Flat Appl) (lift (S O) O x3) t3)) (\lambda (t3: T).subst0 (s (Flat Appl) (s (Bind x0) i)) u x5 t3)) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x7 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 (s (Bind x0) i) u (lift (S O) O x3) u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Flat Appl) (s (Bind x0) i)) u x5 t3)) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x6 x7) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x6 x7) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x6 x7) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (H22: (ex2 T (\lambda (u2: T).eq T x7 (THead (Flat Appl) u2 x5)) (\lambda (u2: T).subst0 (s (Bind x0) i) u (lift (S O) O x3) u2))).ex2_ind T (\lambda (u2: T).eq T x7 (THead (Flat Appl) u2 x5)) (\lambda (u2: T).subst0 (s (Bind x0) i) u (lift (S O) O x3) u2) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x6 x7) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x6 x7) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x6 x7) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (x: T).\lambda (H23: (eq T x7 (THead (Flat Appl) x x5))).\lambda (H24: (subst0 (s (Bind x0) i) u (lift (S O) O x3) x)).eq_ind_r T (THead (Flat Appl) x x5) (\lambda (t1: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x6 t1) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x6 t1) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x6 t1) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (ex2_ind T (\lambda (t3: T).eq T x (lift (S O) O t3)) (\lambda (t3: T).subst0 (minus (s (Bind x0) i) (S O)) u x3 t3) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x6 (THead (Flat Appl) x x5)) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x6 (THead (Flat Appl) x x5)) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x6 (THead (Flat Appl) x x5)) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (x8: T).\lambda (H25: (eq T x (lift (S O) O x8))).\lambda (H26: (subst0 (minus (s (Bind x0) i) (S O)) u x3 x8)).let H27 \def eq_ind nat (minus (s (Bind x0) i) (S O)) (\lambda (n: nat).subst0 n u x3 x8) H26 i (s_arith1 x0 i) in eq_ind_r T (lift (S O) O x8) (\lambda (t1: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x6 (THead (Flat Appl) t1 x5)) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x6 (THead (Flat Appl) t1 x5)) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x6 (THead (Flat Appl) t1 x5)) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (or3_intro2 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x6 (THead (Flat Appl) (lift (S O) O x8) x5)) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x6 (THead (Flat Appl) (lift (S O) O x8) x5)) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x6 (THead (Flat Appl) (lift (S O) O x8) x5)) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2)) (ex6_6_intro B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x6 (THead (Flat Appl) (lift (S O) O x8) x5)) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2) x0 x1 x2 x5 x8 x6 H (refl_equal T (THead (Bind x0) x1 x2)) (refl_equal T (THead (Bind x0) x6 (THead (Flat Appl) (lift (S O) O x8) x5))) (pr2_delta c d u i H8 u1 x3 H14 x8 H27) (pr2_delta c d u i H8 x1 x4 H15 x6 H20) (pr2_free (CHead c (Bind x0) x6) x2 x5 H16))) x H25) (subst0_gen_lift_ge u x3 x (s (Bind x0) i) (S O) O H24 (le_S_n (S O) (S i) (lt_le_S (S O) (S (S i)) (lt_n_S O (S i) (le_lt_n_Sm O i (le_O_n i))))))) x7 H23) H22) (\lambda (H22: (ex2 T (\lambda (t2: T).eq T x7 (THead (Flat Appl) (lift (S O) O x3) t2)) (\lambda (t2: T).subst0 (s (Flat Appl) (s (Bind x0) i)) u x5 t2))).ex2_ind T (\lambda (t3: T).eq T x7 (THead (Flat Appl) (lift (S O) O x3) t3)) (\lambda (t3: T).subst0 (s (Flat Appl) (s (Bind x0) i)) u x5 t3) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x6 x7) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x6 x7) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x6 x7) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (x: T).\lambda (H23: (eq T x7 (THead (Flat Appl) (lift (S O) O x3) x))).\lambda (H24: (subst0 (s (Flat Appl) (s (Bind x0) i)) u x5 x)).eq_ind_r T (THead (Flat Appl) (lift (S O) O x3) x) (\lambda (t1: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x6 t1) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x6 t1) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x6 t1) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (or3_intro2 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x6 (THead (Flat Appl) (lift (S O) O x3) x)) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x6 (THead (Flat Appl) (lift (S O) O x3) x)) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x6 (THead (Flat Appl) (lift (S O) O x3) x)) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2)) (ex6_6_intro B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x6 (THead (Flat Appl) (lift (S O) O x3) x)) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2) x0 x1 x2 x x3 x6 H (refl_equal T (THead (Bind x0) x1 x2)) (refl_equal T (THead (Bind x0) x6 (THead (Flat Appl) (lift (S O) O x3) x))) (pr2_free c u1 x3 H14) (pr2_delta c d u i H8 x1 x4 H15 x6 H20) (pr2_delta (CHead c (Bind x0) x6) d u (S i) (getl_clear_bind x0 (CHead c (Bind x0) x6) c x6 (clear_bind x0 c x6) (CHead d (Bind Abbr) u) i H8) x2 x5 H16 x H24))) x7 H23) H22) (\lambda (H22: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x7 (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 (s (Bind x0) i) u (lift (S O) O x3) u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Flat Appl) (s (Bind x0) i)) u x5 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T x7 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 (s (Bind x0) i) u (lift (S O) O x3) u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Flat Appl) (s (Bind x0) i)) u x5 t3) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x6 x7) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x6 x7) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x6 x7) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (x8: T).\lambda (x9: T).\lambda (H23: (eq T x7 (THead (Flat Appl) x8 x9))).\lambda (H24: (subst0 (s (Bind x0) i) u (lift (S O) O x3) x8)).\lambda (H25: (subst0 (s (Flat Appl) (s (Bind x0) i)) u x5 x9)).eq_ind_r T (THead (Flat Appl) x8 x9) (\lambda (t1: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x6 t1) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x6 t1) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x6 t1) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (ex2_ind T (\lambda (t3: T).eq T x8 (lift (S O) O t3)) (\lambda (t3: T).subst0 (minus (s (Bind x0) i) (S O)) u x3 t3) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x6 (THead (Flat Appl) x8 x9)) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x6 (THead (Flat Appl) x8 x9)) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x6 (THead (Flat Appl) x8 x9)) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (\lambda (x: T).\lambda (H26: (eq T x8 (lift (S O) O x))).\lambda (H27: (subst0 (minus (s (Bind x0) i) (S O)) u x3 x)).let H28 \def eq_ind nat (minus (s (Bind x0) i) (S O)) (\lambda (n: nat).subst0 n u x3 x) H27 i (s_arith1 x0 i) in eq_ind_r T (lift (S O) O x) (\lambda (t1: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x6 (THead (Flat Appl) t1 x9)) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x6 (THead (Flat Appl) t1 x9)) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x6 (THead (Flat Appl) t1 x9)) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))) (or3_intro2 (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x6 (THead (Flat Appl) (lift (S O) O x) x9)) (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Bind x0) x1 x2) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind x0) x6 (THead (Flat Appl) (lift (S O) O x) x9)) (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x6 (THead (Flat Appl) (lift (S O) O x) x9)) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2)) (ex6_6_intro B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Bind x0) x1 x2) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T (THead (Bind x0) x6 (THead (Flat Appl) (lift (S O) O x) x9)) (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2) x0 x1 x2 x9 x x6 H (refl_equal T (THead (Bind x0) x1 x2)) (refl_equal T (THead (Bind x0) x6 (THead (Flat Appl) (lift (S O) O x) x9))) (pr2_delta c d u i H8 u1 x3 H14 x H28) (pr2_delta c d u i H8 x1 x4 H15 x6 H20) (pr2_delta (CHead c (Bind x0) x6) d u (S i) (getl_clear_bind x0 (CHead c (Bind x0) x6) c x6 (clear_bind x0 c x6) (CHead d (Bind Abbr) u) i H8) x2 x5 H16 x9 H25))) x8 H26) (subst0_gen_lift_ge u x3 x8 (s (Bind x0) i) (S O) O H24 (le_S_n (S O) (S i) (lt_le_S (S O) (S (S i)) (lt_n_S O (S i) (le_lt_n_Sm O i (le_O_n i))))))) x7 H23) H22) (subst0_gen_head (Flat Appl) u (lift (S O) O x3) x5 x7 (s (Bind x0) i) H21)) x H19) H18) (subst0_gen_head (Bind x0) u x4 (THead (Flat Appl) (lift (S O) O x3) x5) x i H17)) t1 H12) H11) (pr0_gen_appl u1 t1 t2 H9)) t (sym_eq T t x H7)) t0 (sym_eq T t0 (THead (Flat Appl) u1 t1) H6)) c0 (sym_eq C c0 c H3) H4 H5 H0 H1 H2)] in H0 (refl_equal C c) (refl_equal T (THead (Flat Appl) u1 t1)) (refl_equal T x).
+
+theorem pr2_gen_abbr: \forall (c: C).\forall (u1: T).\forall (t1: T).\forall (x: T).(pr2 c (THead (Bind Abbr) u1 t1) x) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Abbr) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t2: T).or3 (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t2) (ex2 T (\lambda (u: T).pr0 u1 u) (\lambda (u: T).pr2 (CHead c (Bind Abbr) u) t1 t2)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z t2)))) (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 (lift (S O) O x)) \def \lambda (c: C).\lambda (u1: T).\lambda (t1: T).\lambda (x: T).\lambda (H: (pr2 c (THead (Bind Abbr) u1 t1) x)).let H0 \def match H return (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).(eq C c0 c) \to (eq T t (THead (Bind Abbr) u1 t1)) \to (eq T t0 x) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Abbr) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t2: T).or3 (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t2) (ex2 T (\lambda (u: T).pr0 u1 u) (\lambda (u: T).pr2 (CHead c (Bind Abbr) u) t1 t2)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z t2)))) (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 (lift (S O) O x))) with [(pr2_free c0 t0 t2 H0) \Rightarrow (\lambda (H1: (eq C c0 c)).\lambda (H2: (eq T t0 (THead (Bind Abbr) u1 t1))).\lambda (H3: (eq T t2 x)).eq_ind C c (\lambda (_: C).(eq T t0 (THead (Bind Abbr) u1 t1)) \to (eq T t2 x) \to (pr0 t0 t2) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).or3 (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t3) (ex2 T (\lambda (u: T).pr0 u1 u) (\lambda (u: T).pr2 (CHead c (Bind Abbr) u) t1 t3)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z t3)))) (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 (lift (S O) O x))) (\lambda (H4: (eq T t0 (THead (Bind Abbr) u1 t1))).eq_ind T (THead (Bind Abbr) u1 t1) (\lambda (t: T).(eq T t2 x) \to (pr0 t t2) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).or3 (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t3) (ex2 T (\lambda (u: T).pr0 u1 u) (\lambda (u: T).pr2 (CHead c (Bind Abbr) u) t1 t3)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z t3)))) (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 (lift (S O) O x))) (\lambda (H5: (eq T t2 x)).eq_ind T x (\lambda (t: T).(pr0 (THead (Bind Abbr) u1 t1) t) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).or3 (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t3) (ex2 T (\lambda (u: T).pr0 u1 u) (\lambda (u: T).pr2 (CHead c (Bind Abbr) u) t1 t3)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z t3)))) (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 (lift (S O) O x))) (\lambda (H6: (pr0 (THead (Bind Abbr) u1 t1) x)).or_ind (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (u2: T).\lambda (t3: T).or (pr0 t1 t3) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u2 y t3)))) (pr0 t1 (lift (S O) O x)) (or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).or3 (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t3) (ex2 T (\lambda (u: T).pr0 u1 u) (\lambda (u: T).pr2 (CHead c (Bind Abbr) u) t1 t3)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z t3)))) (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 (lift (S O) O x))) (\lambda (H7: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Abbr) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (u2: T).\lambda (t2: T).or (pr0 t1 t2) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u2 y t2))))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (u2: T).\lambda (t3: T).or (pr0 t1 t3) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u2 y t3))) (or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).or3 (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t3) (ex2 T (\lambda (u: T).pr0 u1 u) (\lambda (u: T).pr2 (CHead c (Bind Abbr) u) t1 t3)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z t3)))) (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 (lift (S O) O x))) (\lambda (x0: T).\lambda (x1: T).\lambda (H: (eq T x (THead (Bind Abbr) x0 x1))).\lambda (H8: (pr0 u1 x0)).\lambda (H_x: (or (pr0 t1 x1) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O x0 y x1)))).or_ind (pr0 t1 x1) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O x0 y x1)) (or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).or3 (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t3) (ex2 T (\lambda (u: T).pr0 u1 u) (\lambda (u: T).pr2 (CHead c (Bind Abbr) u) t1 t3)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z t3)))) (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 (lift (S O) O x))) (\lambda (H9: (pr0 t1 x1)).eq_ind_r T (THead (Bind Abbr) x0 x1) (\lambda (t: T).or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).or3 (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t3) (ex2 T (\lambda (u: T).pr0 u1 u) (\lambda (u: T).pr2 (CHead c (Bind Abbr) u) t1 t3)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z t3)))) (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 (lift (S O) O t))) (or_introl (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind Abbr) x0 x1) (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).or3 (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t3) (ex2 T (\lambda (u: T).pr0 u1 u) (\lambda (u: T).pr2 (CHead c (Bind Abbr) u) t1 t3)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z t3)))) (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 (lift (S O) O (THead (Bind Abbr) x0 x1))) (ex3_2_intro T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind Abbr) x0 x1) (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).or3 (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t3) (ex2 T (\lambda (u: T).pr0 u1 u) (\lambda (u: T).pr2 (CHead c (Bind Abbr) u) t1 t3)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z t3))) x0 x1 (refl_equal T (THead (Bind Abbr) x0 x1)) (pr2_free c u1 x0 H8) (or3_intro0 (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 x1) (ex2 T (\lambda (u: T).pr0 u1 u) (\lambda (u: T).pr2 (CHead c (Bind Abbr) u) t1 x1)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z x1)) (\lambda (b: B).\lambda (u: T).pr2_free (CHead c (Bind b) u) t1 x1 H9)))) x H) (\lambda (H_x0: (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O x0 y x1))).ex2_ind T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O x0 y x1) (or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).or3 (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t3) (ex2 T (\lambda (u: T).pr0 u1 u) (\lambda (u: T).pr2 (CHead c (Bind Abbr) u) t1 t3)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z t3)))) (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 (lift (S O) O x))) (\lambda (x2: T).\lambda (H9: (pr0 t1 x2)).\lambda (H10: (subst0 O x0 x2 x1)).eq_ind_r T (THead (Bind Abbr) x0 x1) (\lambda (t: T).or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).or3 (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t3) (ex2 T (\lambda (u: T).pr0 u1 u) (\lambda (u: T).pr2 (CHead c (Bind Abbr) u) t1 t3)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z t3)))) (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 (lift (S O) O t))) (ex2_ind T (\lambda (t: T).subst0 O u1 x2 t) (\lambda (t: T).pr0 t x1) (or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind Abbr) x0 x1) (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).or3 (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t3) (ex2 T (\lambda (u: T).pr0 u1 u) (\lambda (u: T).pr2 (CHead c (Bind Abbr) u) t1 t3)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z t3)))) (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 (lift (S O) O (THead (Bind Abbr) x0 x1)))) (\lambda (x: T).\lambda (_: (subst0 O u1 x2 x)).\lambda (_: (pr0 x x1)).or_introl (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind Abbr) x0 x1) (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).or3 (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t3) (ex2 T (\lambda (u: T).pr0 u1 u) (\lambda (u: T).pr2 (CHead c (Bind Abbr) u) t1 t3)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z t3)))) (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 (lift (S O) O (THead (Bind Abbr) x0 x1))) (ex3_2_intro T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind Abbr) x0 x1) (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).or3 (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t3) (ex2 T (\lambda (u: T).pr0 u1 u) (\lambda (u: T).pr2 (CHead c (Bind Abbr) u) t1 t3)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z t3))) x0 x1 (refl_equal T (THead (Bind Abbr) x0 x1)) (pr2_free c u1 x0 H8) (or3_intro1 (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 x1) (ex2 T (\lambda (u: T).pr0 u1 u) (\lambda (u: T).pr2 (CHead c (Bind Abbr) u) t1 x1)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z x1)) (ex_intro2 T (\lambda (u: T).pr0 u1 u) (\lambda (u: T).pr2 (CHead c (Bind Abbr) u) t1 x1) x0 H8 (pr2_delta (CHead c (Bind Abbr) x0) c x0 O (getl_refl Abbr c x0) t1 x2 H9 x1 H10))))) (pr0_subst0_back x0 x2 x1 O H10 u1 H8)) x H) H_x0) H_x) H7) (\lambda (H: (pr0 t1 (lift (S O) O x))).or_intror (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).or3 (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t3) (ex2 T (\lambda (u: T).pr0 u1 u) (\lambda (u: T).pr2 (CHead c (Bind Abbr) u) t1 t3)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z t3)))) (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 (lift (S O) O x)) (\lambda (b: B).\lambda (u: T).pr2_free (CHead c (Bind b) u) t1 (lift (S O) O x) H)) (pr0_gen_abbr u1 t1 x H6)) t2 (sym_eq T t2 x H5)) t0 (sym_eq T t0 (THead (Bind Abbr) u1 t1) H4)) c0 (sym_eq C c0 c H1) H2 H3 H0) | (pr2_delta c0 d u i H0 t0 t2 H1 t H2) \Rightarrow (\lambda (H3: (eq C c0 c)).\lambda (H4: (eq T t0 (THead (Bind Abbr) u1 t1))).\lambda (H5: (eq T t x)).eq_ind C c (\lambda (c1: C).(eq T t0 (THead (Bind Abbr) u1 t1)) \to (eq T t x) \to (getl i c1 (CHead d (Bind Abbr) u)) \to (pr0 t0 t2) \to (subst0 i u t2 t) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).or3 (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3) (ex2 T (\lambda (u0: T).pr0 u1 u0) (\lambda (u0: T).pr2 (CHead c (Bind Abbr) u0) t1 t3)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z t3)))) (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 (lift (S O) O x))) (\lambda (H6: (eq T t0 (THead (Bind Abbr) u1 t1))).eq_ind T (THead (Bind Abbr) u1 t1) (\lambda (t3: T).(eq T t x) \to (getl i c (CHead d (Bind Abbr) u)) \to (pr0 t3 t2) \to (subst0 i u t2 t) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t4: T).eq T x (THead (Bind Abbr) u2 t4)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t4: T).or3 (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t4) (ex2 T (\lambda (u0: T).pr0 u1 u0) (\lambda (u0: T).pr2 (CHead c (Bind Abbr) u0) t1 t4)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z t4)))) (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 (lift (S O) O x))) (\lambda (H7: (eq T t x)).eq_ind T x (\lambda (t3: T).(getl i c (CHead d (Bind Abbr) u)) \to (pr0 (THead (Bind Abbr) u1 t1) t2) \to (subst0 i u t2 t3) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t4: T).eq T x (THead (Bind Abbr) u2 t4)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t4: T).or3 (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t4) (ex2 T (\lambda (u0: T).pr0 u1 u0) (\lambda (u0: T).pr2 (CHead c (Bind Abbr) u0) t1 t4)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: 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(z: T).pr2 (CHead c (Bind Abbr) u1) z t3)))) (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 (lift (S O) O x))) (\lambda (H11: (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (u2: T).\lambda (t2: T).or (pr0 t1 t2) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u2 y t2))))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (u2: T).\lambda (t3: T).or (pr0 t1 t3) (ex2 T (\lambda (y: T).pr0 t1 y) (\lambda (y: T).subst0 O u2 y t3))) (or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).or3 (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3) (ex2 T (\lambda (u0: T).pr0 u1 u0) (\lambda (u0: T).pr2 (CHead c (Bind Abbr) u0) t1 t3)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind 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t3)))) (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 (lift (S O) O x))) (\lambda (H13: (pr0 t1 x1)).let H14 \def eq_ind T t2 (\lambda (t: T).subst0 i u t x) H10 (THead (Bind Abbr) x0 x1) H in or3_ind (ex2 T (\lambda (u2: T).eq T x (THead (Bind Abbr) u2 x1)) (\lambda (u2: T).subst0 i u x0 u2)) (ex2 T (\lambda (t3: T).eq T x (THead (Bind Abbr) x0 t3)) (\lambda (t3: T).subst0 (s (Bind Abbr) i) u x1 t3)) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u x0 u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Bind Abbr) i) u x1 t3)) (or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).or3 (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3) (ex2 T (\lambda (u0: T).pr0 u1 u0) (\lambda (u0: T).pr2 (CHead c (Bind Abbr) u0) t1 t3)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z t3)))) (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 (lift (S O) O x))) (\lambda (H15: (ex2 T (\lambda (u2: T).eq T x (THead (Bind Abbr) u2 x1)) (\lambda (u2: T).subst0 i u x0 u2))).ex2_ind T (\lambda (u2: T).eq T x (THead (Bind Abbr) u2 x1)) (\lambda (u2: T).subst0 i u x0 u2) (or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).or3 (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3) (ex2 T (\lambda (u0: T).pr0 u1 u0) (\lambda (u0: T).pr2 (CHead c (Bind Abbr) u0) t1 t3)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z t3)))) (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 (lift (S O) O x))) (\lambda (x2: T).\lambda (H16: (eq T x (THead (Bind Abbr) x2 x1))).\lambda (H17: (subst0 i u x0 x2)).or_introl (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).or3 (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3) (ex2 T (\lambda (u0: T).pr0 u1 u0) (\lambda (u0: T).pr2 (CHead c (Bind Abbr) u0) t1 t3)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z t3)))) (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 (lift (S O) O x)) (ex3_2_intro T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).or3 (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3) (ex2 T (\lambda (u0: T).pr0 u1 u0) (\lambda (u0: T).pr2 (CHead c (Bind Abbr) u0) t1 t3)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z t3))) x2 x1 H16 (pr2_delta c d u i H8 u1 x0 H12 x2 H17) (or3_intro0 (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 x1) (ex2 T (\lambda (u0: T).pr0 u1 u0) (\lambda (u0: T).pr2 (CHead c (Bind Abbr) u0) t1 x1)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z x1)) (\lambda (b: B).\lambda (u0: T).pr2_free (CHead c (Bind b) u0) t1 x1 H13)))) H15) (\lambda (H15: (ex2 T (\lambda (t2: T).eq T x (THead (Bind Abbr) x0 t2)) (\lambda (t2: T).subst0 (s (Bind Abbr) i) u x1 t2))).ex2_ind T (\lambda (t3: T).eq T x (THead (Bind Abbr) x0 t3)) (\lambda (t3: T).subst0 (s (Bind Abbr) i) u x1 t3) (or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: 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(eq T x (THead (Bind Abbr) x3 x4))).\lambda (H18: (subst0 i u x0 x3)).\lambda (H19: (subst0 (s (Bind Abbr) i) u x1 x4)).ex2_ind T (\lambda (t1: T).subst0 O u1 x2 t1) (\lambda (t1: T).pr0 t1 x1) (or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).or3 (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3) (ex2 T (\lambda (u0: T).pr0 u1 u0) (\lambda (u0: T).pr2 (CHead c (Bind Abbr) u0) t1 t3)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z t3)))) (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 (lift (S O) O x))) (\lambda (x5: T).\lambda (H20: (subst0 O u1 x2 x5)).\lambda (H21: (pr0 x5 x1)).or_introl (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).or3 (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3) (ex2 T (\lambda (u0: T).pr0 u1 u0) (\lambda (u0: T).pr2 (CHead c (Bind Abbr) u0) t1 t3)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z t3)))) (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 (lift (S O) O x)) (ex3_2_intro T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).or3 (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3) (ex2 T (\lambda (u0: T).pr0 u1 u0) (\lambda (u0: T).pr2 (CHead c (Bind Abbr) u0) t1 t3)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z t3))) x3 x4 H17 (pr2_delta c d u i H8 u1 x0 H12 x3 H18) (or3_intro2 (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 x4) (ex2 T (\lambda (u0: T).pr0 u1 u0) (\lambda (u0: T).pr2 (CHead c (Bind Abbr) u0) t1 x4)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z x4)) (ex3_2_intro T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z x4) x5 x1 (pr2_delta (CHead c (Bind Abbr) u1) c u1 O (getl_refl Abbr c u1) t1 x2 H13 x5 H20) H21 (pr2_delta (CHead c (Bind Abbr) u1) d u (S i) (getl_head (Bind Abbr) i c (CHead d (Bind Abbr) u) H8 u1) x1 x1 (pr0_refl x1) x4 H19))))) (pr0_subst0_back x0 x2 x1 O H14 u1 H12)) H16) (subst0_gen_head (Bind Abbr) u x0 x1 x i H15)) H_x0) H_x) H11) (\lambda (H: (pr0 t1 (lift (S O) O t2))).or_intror (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).or3 (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3) (ex2 T (\lambda (u0: T).pr0 u1 u0) (\lambda (u0: T).pr2 (CHead c (Bind Abbr) u0) t1 t3)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) u1) t1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) u1) z t3)))) (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 (lift (S O) O x)) (\lambda (b: B).\lambda (u0: T).pr2_delta (CHead c (Bind b) u0) d u (S i) (getl_head (Bind b) i c (CHead d (Bind Abbr) u) H8 u0) t1 (lift (S O) O t2) H (lift (S O) O x) (subst0_lift_ge_S t2 x u i H10 O (le_O_n i)))) (pr0_gen_abbr u1 t1 t2 H9)) t (sym_eq T t x H7)) t0 (sym_eq T t0 (THead (Bind Abbr) u1 t1) H6)) c0 (sym_eq C c0 c H3) H4 H5 H0 H1 H2)] in H0 (refl_equal C c) (refl_equal T (THead (Bind Abbr) u1 t1)) (refl_equal T x).
+
+theorem pr2_gen_void: \forall (c: C).\forall (u1: T).\forall (t1: T).\forall (x: T).(pr2 c (THead (Bind Void) u1 t1) x) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Void) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t2)) (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 (lift (S O) O x)) \def \lambda (c: C).\lambda (u1: T).\lambda (t1: T).\lambda (x: T).\lambda (H: (pr2 c (THead (Bind Void) u1 t1) x)).let H0 \def match H return (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).(eq C c0 c) \to (eq T t (THead (Bind Void) u1 t1)) \to (eq T t0 x) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Void) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t2)) (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 (lift (S O) O x))) with [(pr2_free c0 t0 t2 H0) \Rightarrow (\lambda (H1: (eq C c0 c)).\lambda (H2: (eq T t0 (THead (Bind Void) u1 t1))).\lambda (H3: (eq T t2 x)).eq_ind C c (\lambda (_: C).(eq T t0 (THead (Bind Void) u1 t1)) \to (eq T t2 x) \to (pr0 t0 t2) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t3)) (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 (lift (S O) O x))) (\lambda (H4: (eq T t0 (THead (Bind Void) u1 t1))).eq_ind T (THead (Bind Void) u1 t1) (\lambda (t: T).(eq T t2 x) \to (pr0 t t2) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t3)) (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 (lift (S O) O x))) (\lambda (H5: (eq T t2 x)).eq_ind T x (\lambda (t: T).(pr0 (THead (Bind Void) u1 t1) t) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t3)) (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 (lift (S O) O x))) (\lambda (H6: (pr0 (THead (Bind Void) u1 t1) x)).or_ind (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (pr0 t1 (lift (S O) O x)) (or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t3)) (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 (lift (S O) O x))) (\lambda (H7: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Void) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t2: T).pr0 t1 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3) (or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t3)) (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 (lift (S O) O x))) (\lambda (x0: T).\lambda (x1: T).\lambda (H: (eq T x (THead (Bind Void) x0 x1))).\lambda (H8: (pr0 u1 x0)).\lambda (H9: (pr0 t1 x1)).eq_ind_r T (THead (Bind Void) x0 x1) (\lambda (t: T).or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t3)) (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 (lift (S O) O t))) (or_introl (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind Void) x0 x1) (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t3)) (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 (lift (S O) O (THead (Bind Void) x0 x1))) (ex3_2_intro T T (\lambda (u2: T).\lambda (t3: T).eq T (THead (Bind Void) x0 x1) (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t3) x0 x1 (refl_equal T (THead (Bind Void) x0 x1)) (pr2_free c u1 x0 H8) (\lambda (b: B).\lambda (u: T).pr2_free (CHead c (Bind b) u) t1 x1 H9))) x H) H7) (\lambda (H: (pr0 t1 (lift (S O) O x))).or_intror (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 t3)) (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t1 (lift (S O) O x)) (\lambda (b: B).\lambda (u: T).pr2_free (CHead c (Bind b) u) t1 (lift (S O) O x) H)) (pr0_gen_void u1 t1 x H6)) t2 (sym_eq T t2 x H5)) t0 (sym_eq T t0 (THead (Bind Void) u1 t1) H4)) c0 (sym_eq C c0 c H1) H2 H3 H0) | (pr2_delta c0 d u i H0 t0 t2 H1 t H2) \Rightarrow (\lambda (H3: (eq C c0 c)).\lambda (H4: (eq T t0 (THead (Bind Void) u1 t1))).\lambda (H5: (eq T t x)).eq_ind C c (\lambda (c1: C).(eq T t0 (THead (Bind Void) u1 t1)) \to (eq T t x) \to (getl i c1 (CHead d (Bind Abbr) u)) \to (pr0 t0 t2) \to (subst0 i u t2 t) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3)) (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 (lift (S O) O x))) (\lambda (H6: (eq T t0 (THead (Bind Void) u1 t1))).eq_ind T (THead (Bind Void) u1 t1) (\lambda (t3: T).(eq T t x) \to (getl i c (CHead d (Bind Abbr) u)) \to (pr0 t3 t2) \to (subst0 i u t2 t) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t4: T).eq T x (THead (Bind Void) u2 t4)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t4: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t4)) (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 (lift (S O) O x))) (\lambda (H7: (eq T t x)).eq_ind T x (\lambda (t3: T).(getl i c (CHead d (Bind Abbr) u)) \to (pr0 (THead (Bind Void) u1 t1) t2) \to (subst0 i u t2 t3) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t4: T).eq T x (THead (Bind Void) u2 t4)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t4: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t4)) (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 (lift (S O) O x))) (\lambda (H8: (getl i c (CHead d (Bind Abbr) u))).\lambda (H9: (pr0 (THead (Bind Void) u1 t1) t2)).\lambda (H10: (subst0 i u t2 x)).or_ind (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3)) (pr0 t1 (lift (S O) O t2)) (or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3)) (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 (lift (S O) O x))) (\lambda (H11: (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t2: T).pr0 t1 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr0 u1 u2) (\lambda (_: T).\lambda (t3: T).pr0 t1 t3) (or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3)) (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 (lift (S O) O x))) (\lambda (x0: T).\lambda (x1: T).\lambda (H: (eq T t2 (THead (Bind Void) x0 x1))).\lambda (H12: (pr0 u1 x0)).\lambda (H13: (pr0 t1 x1)).let H14 \def eq_ind T t2 (\lambda (t: T).subst0 i u t x) H10 (THead (Bind Void) x0 x1) H in or3_ind (ex2 T (\lambda (u2: T).eq T x (THead (Bind Void) u2 x1)) (\lambda (u2: T).subst0 i u x0 u2)) (ex2 T (\lambda (t3: T).eq T x (THead (Bind Void) x0 t3)) (\lambda (t3: T).subst0 (s (Bind Void) i) u x1 t3)) (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u x0 u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Bind Void) i) u x1 t3)) (or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3)) (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 (lift (S O) O x))) (\lambda (H15: (ex2 T (\lambda (u2: T).eq T x (THead (Bind Void) u2 x1)) (\lambda (u2: T).subst0 i u x0 u2))).ex2_ind T (\lambda (u2: T).eq T x (THead (Bind Void) u2 x1)) (\lambda (u2: T).subst0 i u x0 u2) (or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3)) (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 (lift (S O) O x))) (\lambda (x2: T).\lambda (H16: (eq T x (THead (Bind Void) x2 x1))).\lambda (H17: (subst0 i u x0 x2)).or_introl (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3)) (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 (lift (S O) O x)) (ex3_2_intro T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3) x2 x1 H16 (pr2_delta c d u i H8 u1 x0 H12 x2 H17) (\lambda (b: B).\lambda (u0: T).pr2_free (CHead c (Bind b) u0) t1 x1 H13))) H15) (\lambda (H15: (ex2 T (\lambda (t2: T).eq T x (THead (Bind Void) x0 t2)) (\lambda (t2: T).subst0 (s (Bind Void) i) u x1 t2))).ex2_ind T (\lambda (t3: T).eq T x (THead (Bind Void) x0 t3)) (\lambda (t3: T).subst0 (s (Bind Void) i) u x1 t3) (or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3)) (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 (lift (S O) O x))) (\lambda (x2: T).\lambda (H16: (eq T x (THead (Bind Void) x0 x2))).\lambda (H17: (subst0 (s (Bind Void) i) u x1 x2)).or_introl (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3)) (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 (lift (S O) O x)) (ex3_2_intro T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3) x0 x2 H16 (pr2_free c u1 x0 H12) (\lambda (b: B).\lambda (u0: T).pr2_delta (CHead c (Bind b) u0) d u (S i) (getl_head (Bind b) i c (CHead d (Bind Abbr) u) H8 u0) t1 x1 H13 x2 H17))) H15) (\lambda (H15: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Void) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i u x0 u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Bind Void) i) u x1 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst0 i u x0 u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Bind Void) i) u x1 t3) (or (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3)) (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 (lift (S O) O x))) (\lambda (x2: T).\lambda (x3: T).\lambda (H16: (eq T x (THead (Bind Void) x2 x3))).\lambda (H17: (subst0 i u x0 x2)).\lambda (H18: (subst0 (s (Bind Void) i) u x1 x3)).or_introl (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3)) (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 (lift (S O) O x)) (ex3_2_intro T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3) x2 x3 H16 (pr2_delta c d u i H8 u1 x0 H12 x2 H17) (\lambda (b: B).\lambda (u0: T).pr2_delta (CHead c (Bind b) u0) d u (S i) (getl_head (Bind b) i c (CHead d (Bind Abbr) u) H8 u0) t1 x1 H13 x3 H18))) H15) (subst0_gen_head (Bind Void) u x0 x1 x i H14)) H11) (\lambda (H: (pr0 t1 (lift (S O) O t2))).or_intror (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u1 u2) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 t3)) (\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) t1 (lift (S O) O x)) (\lambda (b: B).\lambda (u0: T).pr2_delta (CHead c (Bind b) u0) d u (S i) (getl_head (Bind b) i c (CHead d (Bind Abbr) u) H8 u0) t1 (lift (S O) O t2) H (lift (S O) O x) (subst0_lift_ge_S t2 x u i H10 O (le_O_n i)))) (pr0_gen_void u1 t1 t2 H9)) t (sym_eq T t x H7)) t0 (sym_eq T t0 (THead (Bind Void) u1 t1) H6)) c0 (sym_eq C c0 c H3) H4 H5 H0 H1 H2)] in H0 (refl_equal C c) (refl_equal T (THead (Bind Void) u1 t1)) (refl_equal T x).
+
+theorem pr2_gen_lift: \forall (c: C).\forall (t1: T).\forall (x: T).\forall (h: nat).\forall (d: nat).(pr2 c (lift h d t1) x) \to \forall (e: C).(drop h d c e) \to ex2 T (\lambda (t2: T).eq T x (lift h d t2)) (\lambda (t2: T).pr2 e t1 t2) \def \lambda (c: C).\lambda (t1: T).\lambda (x: T).\lambda (h: nat).\lambda (d: nat).\lambda (H: (pr2 c (lift h d t1) x)).\lambda (e: C).\lambda (H0: (drop h d c e)).let H1 \def match H return (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).(eq C c0 c) \to (eq T t (lift h d t1)) \to (eq T t0 x) \to ex2 T (\lambda (t2: T).eq T x (lift h d t2)) (\lambda (t2: T).pr2 e t1 t2)) with [(pr2_free c0 t0 t2 H1) \Rightarrow (\lambda (H2: (eq C c0 c)).\lambda (H3: (eq T t0 (lift h d t1))).\lambda (H4: (eq T t2 x)).eq_ind C c (\lambda (_: C).(eq T t0 (lift h d t1)) \to (eq T t2 x) \to (pr0 t0 t2) \to ex2 T (\lambda (t3: T).eq T x (lift h d t3)) (\lambda (t3: T).pr2 e t1 t3)) (\lambda (H5: (eq T t0 (lift h d t1))).eq_ind T (lift h d t1) (\lambda (t: T).(eq T t2 x) \to (pr0 t t2) \to ex2 T (\lambda (t3: T).eq T x (lift h d t3)) (\lambda (t3: T).pr2 e t1 t3)) (\lambda (H6: (eq T t2 x)).eq_ind T x (\lambda (t: T).(pr0 (lift h d t1) t) \to ex2 T (\lambda (t3: T).eq T x (lift h d t3)) (\lambda (t3: T).pr2 e t1 t3)) (\lambda (H7: (pr0 (lift h d t1) x)).ex2_ind T (\lambda (t3: T).eq T x (lift h d t3)) (\lambda (t3: T).pr0 t1 t3) (ex2 T (\lambda (t3: T).eq T x (lift h d t3)) (\lambda (t3: T).pr2 e t1 t3)) (\lambda (x0: T).\lambda (H: (eq T x (lift h d x0))).\lambda (H8: (pr0 t1 x0)).eq_ind_r T (lift h d x0) (\lambda (t: T).ex2 T (\lambda (t3: T).eq T t (lift h d t3)) (\lambda (t3: T).pr2 e t1 t3)) (ex_intro2 T (\lambda (t3: T).eq T (lift h d x0) (lift h d t3)) (\lambda (t3: T).pr2 e t1 t3) x0 (refl_equal T (lift h d x0)) (pr2_free e t1 x0 H8)) x H) (pr0_gen_lift t1 x h d H7)) t2 (sym_eq T t2 x H6)) t0 (sym_eq T t0 (lift h d t1) H5)) c0 (sym_eq C c0 c H2) H3 H4 H1) | (pr2_delta c0 d0 u i H1 t0 t2 H2 t H3) \Rightarrow (\lambda (H4: (eq C c0 c)).\lambda (H5: (eq T t0 (lift h d t1))).\lambda (H6: (eq T t x)).eq_ind C c (\lambda (c: C).(eq T t0 (lift h d t1)) \to (eq T t x) \to (getl i c (CHead d0 (Bind Abbr) u)) \to (pr0 t0 t2) \to (subst0 i u t2 t) \to ex2 T (\lambda (t3: T).eq T x (lift h d t3)) (\lambda (t3: T).pr2 e t1 t3)) (\lambda (H7: (eq T t0 (lift h d t1))).eq_ind T (lift h d t1) (\lambda (t3: T).(eq T t x) \to (getl i c (CHead d0 (Bind Abbr) u)) \to (pr0 t3 t2) \to (subst0 i u t2 t) \to ex2 T (\lambda (t4: T).eq T x (lift h d t4)) (\lambda (t4: T).pr2 e t1 t4)) (\lambda (H8: (eq T t x)).eq_ind T x (\lambda (t3: T).(getl i c (CHead d0 (Bind Abbr) u)) \to (pr0 (lift h d t1) t2) \to (subst0 i u t2 t3) \to ex2 T (\lambda (t4: T).eq T x (lift h d t4)) (\lambda (t4: T).pr2 e t1 t4)) (\lambda (H9: (getl i c (CHead d0 (Bind Abbr) u))).\lambda (H10: (pr0 (lift h d t1) t2)).\lambda (H11: (subst0 i u t2 x)).ex2_ind T (\lambda (t3: T).eq T t2 (lift h d t3)) (\lambda (t3: T).pr0 t1 t3) (ex2 T (\lambda (t3: T).eq T x (lift h d t3)) (\lambda (t3: T).pr2 e t1 t3)) (\lambda (x0: T).\lambda (H: (eq T t2 (lift h d x0))).\lambda (H12: (pr0 t1 x0)).let H13 \def eq_ind T t2 (\lambda (t: T).subst0 i u t x) H11 (lift h d x0) H in lt_le_e i d (ex2 T (\lambda (t3: T).eq T x (lift h d t3)) (\lambda (t3: T).pr2 e t1 t3)) (\lambda (H14: (lt i d)).let H15 \def eq_ind nat d (\lambda (n: nat).drop h n c e) H0 (S (plus i (minus d (S i)))) (lt_plus_minus i d H14) in let H16 \def eq_ind nat d (\lambda (n: nat).subst0 i u (lift h n x0) x) H13 (S (plus i (minus d (S i)))) (lt_plus_minus i d H14) in ex3_2_ind T C (\lambda (v: T).\lambda (_: C).eq T u (lift h (minus d (S i)) v)) (\lambda (v: T).\lambda (e0: C).getl i e (CHead e0 (Bind Abbr) v)) (\lambda (_: T).\lambda (e0: C).drop h (minus d (S i)) d0 e0) (ex2 T (\lambda (t3: T).eq T x (lift h d t3)) (\lambda (t3: T).pr2 e t1 t3)) (\lambda (x1: T).\lambda (x2: C).\lambda (H0: (eq T u (lift h (minus d (S i)) x1))).\lambda (H17: (getl i e (CHead x2 (Bind Abbr) x1))).\lambda (_: (drop h (minus d (S i)) d0 x2)).let H19 \def eq_ind T u (\lambda (t: T).subst0 i t (lift h (S (plus i (minus d (S i)))) x0) x) H16 (lift h (minus d (S i)) x1) H0 in ex2_ind T (\lambda (t3: T).eq T x (lift h (S (plus i (minus d (S i)))) t3)) (\lambda (t3: T).subst0 i x1 x0 t3) (ex2 T (\lambda (t3: T).eq T x (lift h d t3)) (\lambda (t3: T).pr2 e t1 t3)) (\lambda (x3: T).\lambda (H20: (eq T x (lift h (S (plus i (minus d (S i)))) x3))).\lambda (H21: (subst0 i x1 x0 x3)).let H22 \def eq_ind_r nat (S (plus i (minus d (S i)))) (\lambda (n: nat).eq T x (lift h n x3)) H20 d (lt_plus_minus i d H14) in ex_intro2 T (\lambda (t3: T).eq T x (lift h d t3)) (\lambda (t3: T).pr2 e t1 t3) x3 H22 (pr2_delta e x2 x1 i H17 t1 x0 H12 x3 H21)) (subst0_gen_lift_lt x1 x0 x i h (minus d (S i)) H19)) (getl_drop_conf_lt Abbr c d0 u i H9 e h (minus d (S i)) H15)) (\lambda (H14: (le d i)).lt_le_e i (plus d h) (ex2 T (\lambda (t3: T).eq T x (lift h d t3)) (\lambda (t3: T).pr2 e t1 t3)) (\lambda (H15: (lt i (plus d h))).subst0_gen_lift_false x0 u x h d i H14 H15 H13 (ex2 T (\lambda (t3: T).eq T x (lift h d t3)) (\lambda (t3: T).pr2 e t1 t3))) (\lambda (H15: (le (plus d h) i)).ex2_ind T (\lambda (t3: T).eq T x (lift h d t3)) (\lambda (t3: T).subst0 (minus i h) u x0 t3) (ex2 T (\lambda (t3: T).eq T x (lift h d t3)) (\lambda (t3: T).pr2 e t1 t3)) (\lambda (x1: T).\lambda (H16: (eq T x (lift h d x1))).\lambda (H17: (subst0 (minus i h) u x0 x1)).ex_intro2 T (\lambda (t3: T).eq T x (lift h d t3)) (\lambda (t3: T).pr2 e t1 t3) x1 H16 (pr2_delta e d0 u (minus i h) (getl_drop_conf_ge i (CHead d0 (Bind Abbr) u) c H9 e h d H0 H15) t1 x0 H12 x1 H17)) (subst0_gen_lift_ge u x0 x i h d H13 H15)))) (pr0_gen_lift t1 t2 h d H10)) t (sym_eq T t x H8)) t0 (sym_eq T t0 (lift h d t1) H7)) c0 (sym_eq C c0 c H4) H5 H6 H1 H2 H3)] in H1 (refl_equal C c) (refl_equal T (lift h d t1)) (refl_equal T x).
+
+theorem pr2_confluence.__pr2_free_free: \forall (c: C).\forall (t0: T).\forall (t1: T).\forall (t2: T).(pr0 t0 t1) \to (pr0 t0 t2) \to ex2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t) \def \lambda (c: C).\lambda (t0: T).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pr0 t0 t1)).\lambda (H0: (pr0 t0 t2)).ex2_ind T (\lambda (t: T).pr0 t2 t) (\lambda (t: T).pr0 t1 t) (ex2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t)) (\lambda (x: T).\lambda (H1: (pr0 t2 x)).\lambda (H2: (pr0 t1 x)).ex_intro2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t) x (pr2_free c t1 x H2) (pr2_free c t2 x H1)) (pr0_confluence t0 t2 H0 t1 H).
+
+theorem pr2_confluence.__pr2_free_delta: \forall (c: C).\forall (d: C).\forall (t0: T).\forall (t1: T).\forall (t2: T).\forall (t4: T).\forall (u: T).\forall (i: nat).(pr0 t0 t1) \to (getl i c (CHead d (Bind Abbr) u)) \to (pr0 t0 t4) \to (subst0 i u t4 t2) \to ex2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t) \def \lambda (c: C).\lambda (d: C).\lambda (t0: T).\lambda (t1: T).\lambda (t2: T).\lambda (t4: T).\lambda (u: T).\lambda (i: nat).\lambda (H: (pr0 t0 t1)).\lambda (H0: (getl i c (CHead d (Bind Abbr) u))).\lambda (H1: (pr0 t0 t4)).\lambda (H2: (subst0 i u t4 t2)).ex2_ind T (\lambda (t: T).pr0 t4 t) (\lambda (t: T).pr0 t1 t) (ex2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t)) (\lambda (x: T).\lambda (H3: (pr0 t4 x)).\lambda (H4: (pr0 t1 x)).or_ind (pr0 t2 x) (ex2 T (\lambda (w2: T).pr0 t2 w2) (\lambda (w2: T).subst0 i u x w2)) (ex2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t)) (\lambda (H5: (pr0 t2 x)).ex_intro2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t) x (pr2_free c t1 x H4) (pr2_free c t2 x H5)) (\lambda (H5: (ex2 T (\lambda (w2: T).pr0 t2 w2) (\lambda (w2: T).subst0 i u x w2))).ex2_ind T (\lambda (w2: T).pr0 t2 w2) (\lambda (w2: T).subst0 i u x w2) (ex2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t)) (\lambda (x0: T).\lambda (H6: (pr0 t2 x0)).\lambda (H7: (subst0 i u x x0)).ex_intro2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t) x0 (pr2_delta c d u i H0 t1 x H4 x0 H7) (pr2_free c t2 x0 H6)) H5) (pr0_subst0 t4 x H3 u t2 i H2 u (pr0_refl u))) (pr0_confluence t0 t4 H1 t1 H).
+
+theorem pr2_confluence.__pr2_delta_delta: \forall (c: C).\forall (d: C).\forall (d0: C).\forall (t0: T).\forall (t1: T).\forall (t2: T).\forall (t3: T).\forall (t4: T).\forall (u: T).\forall (u0: T).\forall (i: nat).\forall (i0: nat).(getl i c (CHead d (Bind Abbr) u)) \to (pr0 t0 t3) \to (subst0 i u t3 t1) \to (getl i0 c (CHead d0 (Bind Abbr) u0)) \to (pr0 t0 t4) \to (subst0 i0 u0 t4 t2) \to ex2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t) \def \lambda (c: C).\lambda (d: C).\lambda (d0: C).\lambda (t0: T).\lambda (t1: T).\lambda (t2: T).\lambda (t3: T).\lambda (t4: T).\lambda (u: T).\lambda (u0: T).\lambda (i: nat).\lambda (i0: nat).\lambda (H: (getl i c (CHead d (Bind Abbr) u))).\lambda (H0: (pr0 t0 t3)).\lambda (H1: (subst0 i u t3 t1)).\lambda (H2: (getl i0 c (CHead d0 (Bind Abbr) u0))).\lambda (H3: (pr0 t0 t4)).\lambda (H4: (subst0 i0 u0 t4 t2)).ex2_ind T (\lambda (t: T).pr0 t4 t) (\lambda (t: T).pr0 t3 t) (ex2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t)) (\lambda (x: T).\lambda (H5: (pr0 t4 x)).\lambda (H6: (pr0 t3 x)).or_ind (pr0 t1 x) (ex2 T (\lambda (w2: T).pr0 t1 w2) (\lambda (w2: T).subst0 i u x w2)) (ex2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t)) (\lambda (H7: (pr0 t1 x)).or_ind (pr0 t2 x) (ex2 T (\lambda (w2: T).pr0 t2 w2) (\lambda (w2: T).subst0 i0 u0 x w2)) (ex2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t)) (\lambda (H8: (pr0 t2 x)).ex_intro2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t) x (pr2_free c t1 x H7) (pr2_free c t2 x H8)) (\lambda (H8: (ex2 T (\lambda (w2: T).pr0 t2 w2) (\lambda (w2: T).subst0 i0 u0 x w2))).ex2_ind T (\lambda (w2: T).pr0 t2 w2) (\lambda (w2: T).subst0 i0 u0 x w2) (ex2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t)) (\lambda (x0: T).\lambda (H9: (pr0 t2 x0)).\lambda (H10: (subst0 i0 u0 x x0)).ex_intro2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t) x0 (pr2_delta c d0 u0 i0 H2 t1 x H7 x0 H10) (pr2_free c t2 x0 H9)) H8) (pr0_subst0 t4 x H5 u0 t2 i0 H4 u0 (pr0_refl u0))) (\lambda (H7: (ex2 T (\lambda (w2: T).pr0 t1 w2) (\lambda (w2: T).subst0 i u x w2))).ex2_ind T (\lambda (w2: T).pr0 t1 w2) (\lambda (w2: T).subst0 i u x w2) (ex2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t)) (\lambda (x0: T).\lambda (H8: (pr0 t1 x0)).\lambda (H9: (subst0 i u x x0)).or_ind (pr0 t2 x) (ex2 T (\lambda (w2: T).pr0 t2 w2) (\lambda (w2: T).subst0 i0 u0 x w2)) (ex2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t)) (\lambda (H10: (pr0 t2 x)).ex_intro2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t) x0 (pr2_free c t1 x0 H8) (pr2_delta c d u i H t2 x H10 x0 H9)) (\lambda (H10: (ex2 T (\lambda (w2: T).pr0 t2 w2) (\lambda (w2: T).subst0 i0 u0 x w2))).ex2_ind T (\lambda (w2: T).pr0 t2 w2) (\lambda (w2: T).subst0 i0 u0 x w2) (ex2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t)) (\lambda (x1: T).\lambda (H11: (pr0 t2 x1)).\lambda (H12: (subst0 i0 u0 x x1)).neq_eq_e i i0 (ex2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t)) (\lambda (H13: (not (eq nat i i0))).ex2_ind T (\lambda (t: T).subst0 i u x1 t) (\lambda (t: T).subst0 i0 u0 x0 t) (ex2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t)) (\lambda (x2: T).\lambda (H14: (subst0 i u x1 x2)).\lambda (H15: (subst0 i0 u0 x0 x2)).ex_intro2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t) x2 (pr2_delta c d0 u0 i0 H2 t1 x0 H8 x2 H15) (pr2_delta c d u i H t2 x1 H11 x2 H14)) (subst0_confluence_neq x x1 u0 i0 H12 x0 u i H9 (sym_not_eq nat i i0 H13))) (\lambda (H13: (eq nat i i0)).let H14 \def eq_ind_r nat i0 (\lambda (n: nat).subst0 n u0 x x1) H12 i H13 in let H15 \def eq_ind_r nat i0 (\lambda (n: nat).getl n c (CHead d0 (Bind Abbr) u0)) H2 i H13 in let H16 \def eq_ind C (CHead d (Bind Abbr) u) (\lambda (c0: C).getl i c c0) H (CHead d0 (Bind Abbr) u0) (getl_mono c (CHead d (Bind Abbr) u) i H (CHead d0 (Bind Abbr) u0) H15) in let H17 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u) (CHead d0 (Bind Abbr) u0) (getl_mono c (CHead d (Bind Abbr) u) i H (CHead d0 (Bind Abbr) u0) H15) in (let H18 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u) (CHead d0 (Bind Abbr) u0) (getl_mono c (CHead d (Bind Abbr) u) i H (CHead d0 (Bind Abbr) u0) H15) in \lambda (H19: (eq C d d0)).let H20 \def eq_ind_r T u0 (\lambda (t: T).subst0 i t x x1) H14 u H18 in let H21 \def eq_ind_r T u0 (\lambda (t: T).getl i c (CHead d0 (Bind Abbr) t)) H16 u H18 in let H22 \def eq_ind_r C d0 (\lambda (c0: C).getl i c (CHead c0 (Bind Abbr) u)) H21 d H19 in or4_ind (eq T x1 x0) (ex2 T (\lambda (t: T).subst0 i u x1 t) (\lambda (t: T).subst0 i u x0 t)) (subst0 i u x1 x0) (subst0 i u x0 x1) (ex2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t)) (\lambda (H23: (eq T x1 x0)).let H24 \def eq_ind T x1 (\lambda (t: T).pr0 t2 t) H11 x0 H23 in ex_intro2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t) x0 (pr2_free c t1 x0 H8) (pr2_free c t2 x0 H24)) (\lambda (H23: (ex2 T (\lambda (t: T).subst0 i u x1 t) (\lambda (t: T).subst0 i u x0 t))).ex2_ind T (\lambda (t: T).subst0 i u x1 t) (\lambda (t: T).subst0 i u x0 t) (ex2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t)) (\lambda (x2: T).\lambda (H24: (subst0 i u x1 x2)).\lambda (H25: (subst0 i u x0 x2)).ex_intro2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t) x2 (pr2_delta c d u i H22 t1 x0 H8 x2 H25) (pr2_delta c d u i H22 t2 x1 H11 x2 H24)) H23) (\lambda (H23: (subst0 i u x1 x0)).ex_intro2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t) x0 (pr2_free c t1 x0 H8) (pr2_delta c d u i H22 t2 x1 H11 x0 H23)) (\lambda (H23: (subst0 i u x0 x1)).ex_intro2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t) x1 (pr2_delta c d u i H22 t1 x0 H8 x1 H23) (pr2_free c t2 x1 H11)) (subst0_confluence_eq x x1 u i H20 x0 H9)) H17)) H10) (pr0_subst0 t4 x H5 u0 t2 i0 H4 u0 (pr0_refl u0))) H7) (pr0_subst0 t3 x H6 u t1 i H1 u (pr0_refl u))) (pr0_confluence t0 t4 H3 t3 H0).
+
+theorem pr2_confluence: \forall (c: C).\forall (t0: T).\forall (t1: T).(pr2 c t0 t1) \to \forall (t2: T).(pr2 c t0 t2) \to ex2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t) \def \lambda (c: C).\lambda (t0: T).\lambda (t1: T).\lambda (H: (pr2 c t0 t1)).\lambda (t2: T).\lambda (H0: (pr2 c t0 t2)).let H1 \def match H return (\lambda (c0: C).\lambda (t: T).\lambda (t3: T).(eq C c0 c) \to (eq T t t0) \to (eq T t3 t1) \to ex2 T (\lambda (t0: T).pr2 c t1 t0) (\lambda (t0: T).pr2 c t2 t0)) with [(pr2_free c0 t3 t4 H1) \Rightarrow (\lambda (H2: (eq C c0 c)).\lambda (H3: (eq T t3 t0)).\lambda (H4: (eq T t4 t1)).eq_ind C c (\lambda (_: C).(eq T t3 t0) \to (eq T t4 t1) \to (pr0 t3 t4) \to ex2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t)) (\lambda (H5: (eq T t3 t0)).eq_ind T t0 (\lambda (t: T).(eq T t4 t1) \to (pr0 t t4) \to ex2 T (\lambda (t0: T).pr2 c t1 t0) (\lambda (t0: T).pr2 c t2 t0)) (\lambda (H6: (eq T t4 t1)).eq_ind T t1 (\lambda (t: T).(pr0 t0 t) \to ex2 T (\lambda (t0: T).pr2 c t1 t0) (\lambda (t0: T).pr2 c t2 t0)) (\lambda (H7: (pr0 t0 t1)).let H8 \def match H0 return (\lambda (c0: C).\lambda (t: T).\lambda (t3: T).(eq C c0 c) \to (eq T t t0) \to (eq T t3 t2) \to ex2 T (\lambda (t0: T).pr2 c t1 t0) (\lambda (t0: T).pr2 c t2 t0)) with [(pr2_free c1 t5 t6 H5) \Rightarrow (\lambda (H6: (eq C c1 c)).\lambda (H8: (eq T t5 t0)).\lambda (H9: (eq T t6 t2)).eq_ind C c (\lambda (_: C).(eq T t5 t0) \to (eq T t6 t2) \to (pr0 t5 t6) \to ex2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t)) (\lambda (H10: (eq T t5 t0)).eq_ind T t0 (\lambda (t: T).(eq T t6 t2) \to (pr0 t t6) \to ex2 T (\lambda (t0: T).pr2 c t1 t0) (\lambda (t0: T).pr2 c t2 t0)) (\lambda (H11: (eq T t6 t2)).eq_ind T t2 (\lambda (t: T).(pr0 t0 t) \to ex2 T (\lambda (t0: T).pr2 c t1 t0) (\lambda (t0: T).pr2 c t2 t0)) (\lambda (H12: (pr0 t0 t2)).pr2_confluence.__pr2_free_free c t0 t1 t2 H7 H12) t6 (sym_eq T t6 t2 H11)) t5 (sym_eq T t5 t0 H10)) c1 (sym_eq C c1 c H6) H8 H9 H5) | (pr2_delta c1 d u i H5 t5 t6 H6 t H7) \Rightarrow (\lambda (H8: (eq C c1 c)).\lambda (H9: (eq T t5 t0)).\lambda (H10: (eq T t t2)).eq_ind C c (\lambda (c0: C).(eq T t5 t0) \to (eq T t t2) \to (getl i c0 (CHead d (Bind Abbr) u)) \to (pr0 t5 t6) \to (subst0 i u t6 t) \to ex2 T (\lambda (t0: T).pr2 c t1 t0) (\lambda (t0: T).pr2 c t2 t0)) (\lambda (H11: (eq T t5 t0)).eq_ind T t0 (\lambda (t0: T).(eq T t t2) \to (getl i c (CHead d (Bind Abbr) u)) \to (pr0 t0 t6) \to (subst0 i u t6 t) \to ex2 T (\lambda (t2: T).pr2 c t1 t2) (\lambda (t1: T).pr2 c t2 t1)) (\lambda (H12: (eq T t t2)).eq_ind T t2 (\lambda (t3: T).(getl i c (CHead d (Bind Abbr) u)) \to (pr0 t0 t6) \to (subst0 i u t6 t3) \to ex2 T (\lambda (t0: T).pr2 c t1 t0) (\lambda (t0: T).pr2 c t2 t0)) (\lambda (H13: (getl i c (CHead d (Bind Abbr) u))).\lambda (H14: (pr0 t0 t6)).\lambda (H15: (subst0 i u t6 t2)).pr2_confluence.__pr2_free_delta c d t0 t1 t2 t6 u i H7 H13 H14 H15) t (sym_eq T t t2 H12)) t5 (sym_eq T t5 t0 H11)) c1 (sym_eq C c1 c H8) H9 H10 H5 H6 H7)] in H8 (refl_equal C c) (refl_equal T t0) (refl_equal T t2)) t4 (sym_eq T t4 t1 H6)) t3 (sym_eq T t3 t0 H5)) c0 (sym_eq C c0 c H2) H3 H4 H1) | (pr2_delta c0 d u i H1 t3 t4 H2 t H3) \Rightarrow (\lambda (H4: (eq C c0 c)).\lambda (H5: (eq T t3 t0)).\lambda (H6: (eq T t t1)).eq_ind C c (\lambda (c1: C).(eq T t3 t0) \to (eq T t t1) \to (getl i c1 (CHead d (Bind Abbr) u)) \to (pr0 t3 t4) \to (subst0 i u t4 t) \to ex2 T (\lambda (t0: T).pr2 c t1 t0) (\lambda (t0: T).pr2 c t2 t0)) (\lambda (H7: (eq T t3 t0)).eq_ind T t0 (\lambda (t0: T).(eq T t t1) \to (getl i c (CHead d (Bind Abbr) u)) \to (pr0 t0 t4) \to (subst0 i u t4 t) \to ex2 T (\lambda (t2: T).pr2 c t1 t2) (\lambda (t1: T).pr2 c t2 t1)) (\lambda (H8: (eq T t t1)).eq_ind T t1 (\lambda (t5: T).(getl i c (CHead d (Bind Abbr) u)) \to (pr0 t0 t4) \to (subst0 i u t4 t5) \to ex2 T (\lambda (t0: T).pr2 c t1 t0) (\lambda (t0: T).pr2 c t2 t0)) (\lambda (H9: (getl i c (CHead d (Bind Abbr) u))).\lambda (H10: (pr0 t0 t4)).\lambda (H11: (subst0 i u t4 t1)).let H12 \def match H0 return (\lambda (c0: C).\lambda (t: T).\lambda (t3: T).(eq C c0 c) \to (eq T t t0) \to (eq T t3 t2) \to ex2 T (\lambda (t0: T).pr2 c t1 t0) (\lambda (t0: T).pr2 c t2 t0)) with [(pr2_free c1 t5 t6 H7) \Rightarrow (\lambda (H8: (eq C c1 c)).\lambda (H12: (eq T t5 t0)).\lambda (H13: (eq T t6 t2)).eq_ind C c (\lambda (_: C).(eq T t5 t0) \to (eq T t6 t2) \to (pr0 t5 t6) \to ex2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t)) (\lambda (H14: (eq T t5 t0)).eq_ind T t0 (\lambda (t: T).(eq T t6 t2) \to (pr0 t t6) \to ex2 T (\lambda (t0: T).pr2 c t1 t0) (\lambda (t0: T).pr2 c t2 t0)) (\lambda (H15: (eq T t6 t2)).eq_ind T t2 (\lambda (t: T).(pr0 t0 t) \to ex2 T (\lambda (t0: T).pr2 c t1 t0) (\lambda (t0: T).pr2 c t2 t0)) (\lambda (H16: (pr0 t0 t2)).ex2_sym T (pr2 c t2) (pr2 c t1) (pr2_confluence.__pr2_free_delta c d t0 t2 t1 t4 u i H16 H9 H10 H11)) t6 (sym_eq T t6 t2 H15)) t5 (sym_eq T t5 t0 H14)) c1 (sym_eq C c1 c H8) H12 H13 H7) | (pr2_delta c1 d0 u0 i0 H7 t5 t6 H8 t7 H9) \Rightarrow (\lambda (H12: (eq C c1 c)).\lambda (H13: (eq T t5 t0)).\lambda (H14: (eq T t7 t2)).eq_ind C c (\lambda (c0: C).(eq T t5 t0) \to (eq T t7 t2) \to (getl i0 c0 (CHead d0 (Bind Abbr) u0)) \to (pr0 t5 t6) \to (subst0 i0 u0 t6 t7) \to ex2 T (\lambda (t: T).pr2 c t1 t) (\lambda (t: T).pr2 c t2 t)) (\lambda (H15: (eq T t5 t0)).eq_ind T t0 (\lambda (t: T).(eq T t7 t2) \to (getl i0 c (CHead d0 (Bind Abbr) u0)) \to (pr0 t t6) \to (subst0 i0 u0 t6 t7) \to ex2 T (\lambda (t0: T).pr2 c t1 t0) (\lambda (t0: T).pr2 c t2 t0)) (\lambda (H16: (eq T t7 t2)).eq_ind T t2 (\lambda (t: T).(getl i0 c (CHead d0 (Bind Abbr) u0)) \to (pr0 t0 t6) \to (subst0 i0 u0 t6 t) \to ex2 T (\lambda (t0: T).pr2 c t1 t0) (\lambda (t0: T).pr2 c t2 t0)) (\lambda (H17: (getl i0 c (CHead d0 (Bind Abbr) u0))).\lambda (H18: (pr0 t0 t6)).\lambda (H19: (subst0 i0 u0 t6 t2)).pr2_confluence.__pr2_delta_delta c d d0 t0 t1 t2 t4 t6 u u0 i i0 H9 H10 H11 H17 H18 H19) t7 (sym_eq T t7 t2 H16)) t5 (sym_eq T t5 t0 H15)) c1 (sym_eq C c1 c H12) H13 H14 H7 H8 H9)] in H12 (refl_equal C c) (refl_equal T t0) (refl_equal T t2)) t (sym_eq T t t1 H8)) t3 (sym_eq T t3 t0 H7)) c0 (sym_eq C c0 c H4) H5 H6 H1 H2 H3)] in H1 (refl_equal C c) (refl_equal T t0) (refl_equal T t1).
+
+theorem pr2_delta1: \forall (c: C).\forall (d: C).\forall (u: T).\forall (i: nat).(getl i c (CHead d (Bind Abbr) u)) \to \forall (t1: T).\forall (t2: T).(pr0 t1 t2) \to \forall (t: T).(subst1 i u t2 t) \to pr2 c t1 t \def \lambda (c: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H: (getl i c (CHead d (Bind Abbr) u))).\lambda (t1: T).\lambda (t2: T).\lambda (H0: (pr0 t1 t2)).\lambda (t: T).\lambda (H1: (subst1 i u t2 t)).subst1_ind i u t2 (\lambda (t0: T).pr2 c t1 t0) (pr2_free c t1 t2 H0) (\lambda (t0: T).\lambda (H2: (subst0 i u t2 t0)).pr2_delta c d u i H t1 t2 H0 t0 H2) t H1.
+
+theorem pr2_subst1: \forall (c: C).\forall (e: C).\forall (v: T).\forall (i: nat).(getl i c (CHead e (Bind Abbr) v)) \to \forall (t1: T).\forall (t2: T).(pr2 c t1 t2) \to \forall (w1: T).(subst1 i v t1 w1) \to ex2 T (\lambda (w2: T).pr2 c w1 w2) (\lambda (w2: T).subst1 i v t2 w2) \def \lambda (c: C).\lambda (e: C).\lambda (v: T).\lambda (i: nat).\lambda (H: (getl i c (CHead e (Bind Abbr) v))).\lambda (t1: T).\lambda (t2: T).\lambda (H0: (pr2 c t1 t2)).let H1 \def match H0 return (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).(eq C c0 c) \to (eq T t t1) \to (eq T t0 t2) \to \forall (w1: T).(subst1 i v t1 w1) \to ex2 T (\lambda (w2: T).pr2 c w1 w2) (\lambda (w2: T).subst1 i v t2 w2)) with [(pr2_free c0 t0 t3 H1) \Rightarrow (\lambda (H2: (eq C c0 c)).\lambda (H3: (eq T t0 t1)).\lambda (H4: (eq T t3 t2)).eq_ind C c (\lambda (_: C).(eq T t0 t1) \to (eq T t3 t2) \to (pr0 t0 t3) \to \forall (w1: T).(subst1 i v t1 w1) \to ex2 T (\lambda (w2: T).pr2 c w1 w2) (\lambda (w2: T).subst1 i v t2 w2)) (\lambda (H5: (eq T t0 t1)).eq_ind T t1 (\lambda (t: T).(eq T t3 t2) \to (pr0 t t3) \to \forall (w1: T).(subst1 i v t1 w1) \to ex2 T (\lambda (w2: T).pr2 c w1 w2) (\lambda (w2: T).subst1 i v t2 w2)) (\lambda (H6: (eq T t3 t2)).eq_ind T t2 (\lambda (t: T).(pr0 t1 t) \to \forall (w1: T).(subst1 i v t1 w1) \to ex2 T (\lambda (w2: T).pr2 c w1 w2) (\lambda (w2: T).subst1 i v t2 w2)) (\lambda (H7: (pr0 t1 t2)).\lambda (w1: T).\lambda (H0: (subst1 i v t1 w1)).ex2_ind T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst1 i v t2 w2) (ex2 T (\lambda (w2: T).pr2 c w1 w2) (\lambda (w2: T).subst1 i v t2 w2)) (\lambda (x: T).\lambda (H8: (pr0 w1 x)).\lambda (H9: (subst1 i v t2 x)).ex_intro2 T (\lambda (w2: T).pr2 c w1 w2) (\lambda (w2: T).subst1 i v t2 w2) x (pr2_free c w1 x H8) H9) (pr0_subst1 t1 t2 H7 v w1 i H0 v (pr0_refl v))) t3 (sym_eq T t3 t2 H6)) t0 (sym_eq T t0 t1 H5)) c0 (sym_eq C c0 c H2) H3 H4 H1) | (pr2_delta c0 d u i0 H1 t0 t3 H2 t H3) \Rightarrow (\lambda (H4: (eq C c0 c)).\lambda (H5: (eq T t0 t1)).\lambda (H6: (eq T t t2)).eq_ind C c (\lambda (c1: C).(eq T t0 t1) \to (eq T t t2) \to (getl i0 c1 (CHead d (Bind Abbr) u)) \to (pr0 t0 t3) \to (subst0 i0 u t3 t) \to \forall (w1: T).(subst1 i v t1 w1) \to ex2 T (\lambda (w2: T).pr2 c w1 w2) (\lambda (w2: T).subst1 i v t2 w2)) (\lambda (H7: (eq T t0 t1)).eq_ind T t1 (\lambda (t4: T).(eq T t t2) \to (getl i0 c (CHead d (Bind Abbr) u)) \to (pr0 t4 t3) \to (subst0 i0 u t3 t) \to \forall (w1: T).(subst1 i v t1 w1) \to ex2 T (\lambda (w2: T).pr2 c w1 w2) (\lambda (w2: T).subst1 i v t2 w2)) (\lambda (H8: (eq T t t2)).eq_ind T t2 (\lambda (t4: T).(getl i0 c (CHead d (Bind Abbr) u)) \to (pr0 t1 t3) \to (subst0 i0 u t3 t4) \to \forall (w1: T).(subst1 i v t1 w1) \to ex2 T (\lambda (w2: T).pr2 c w1 w2) (\lambda (w2: T).subst1 i v t2 w2)) (\lambda (H9: (getl i0 c (CHead d (Bind Abbr) u))).\lambda (H10: (pr0 t1 t3)).\lambda (H11: (subst0 i0 u t3 t2)).\lambda (w1: T).\lambda (H0: (subst1 i v t1 w1)).ex2_ind T (\lambda (w2: T).pr0 w1 w2) (\lambda (w2: T).subst1 i v t3 w2) (ex2 T (\lambda (w2: T).pr2 c w1 w2) (\lambda (w2: T).subst1 i v t2 w2)) (\lambda (x: T).\lambda (H12: (pr0 w1 x)).\lambda (H13: (subst1 i v t3 x)).neq_eq_e i i0 (ex2 T (\lambda (w2: T).pr2 c w1 w2) (\lambda (w2: T).subst1 i v t2 w2)) (\lambda (H14: (not (eq nat i i0))).ex2_ind T (\lambda (t1: T).subst1 i v t2 t1) (\lambda (t1: T).subst1 i0 u x t1) (ex2 T (\lambda (w2: T).pr2 c w1 w2) (\lambda (w2: T).subst1 i v t2 w2)) (\lambda (x0: T).\lambda (H15: (subst1 i v t2 x0)).\lambda (H16: (subst1 i0 u x x0)).ex_intro2 T (\lambda (w2: T).pr2 c w1 w2) (\lambda (w2: T).subst1 i v t2 w2) x0 (pr2_delta1 c d u i0 H9 w1 x H12 x0 H16) H15) (subst1_confluence_neq t3 t2 u i0 (subst1_single i0 u t3 t2 H11) x v i H13 (sym_not_eq nat i i0 H14))) (\lambda (H14: (eq nat i i0)).let H15 \def eq_ind_r nat i0 (\lambda (n: nat).subst0 n u t3 t2) H11 i H14 in let H16 \def eq_ind_r nat i0 (\lambda (n: nat).getl n c (CHead d (Bind Abbr) u)) H9 i H14 in let H17 \def eq_ind C (CHead e (Bind Abbr) v) (\lambda (c0: C).getl i c c0) H (CHead d (Bind Abbr) u) (getl_mono c (CHead e (Bind Abbr) v) i H (CHead d (Bind Abbr) u) H16) in let H18 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow e | (CHead c _ _) \Rightarrow c]) (CHead e (Bind Abbr) v) (CHead d (Bind Abbr) u) (getl_mono c (CHead e (Bind Abbr) v) i H (CHead d (Bind Abbr) u) H16) in (let H19 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow v | (CHead _ _ t) \Rightarrow t]) (CHead e (Bind Abbr) v) (CHead d (Bind Abbr) u) (getl_mono c (CHead e (Bind Abbr) v) i H (CHead d (Bind Abbr) u) H16) in \lambda (H20: (eq C e d)).let H21 \def eq_ind_r T u (\lambda (t: T).getl i c (CHead d (Bind Abbr) t)) H17 v H19 in let H22 \def eq_ind_r T u (\lambda (t: T).subst0 i t t3 t2) H15 v H19 in let H23 \def eq_ind_r C d (\lambda (c0: C).getl i c (CHead c0 (Bind Abbr) v)) H21 e H20 in ex2_ind T (\lambda (t1: T).subst1 i v t2 t1) (\lambda (t1: T).subst1 i v x t1) (ex2 T (\lambda (w2: T).pr2 c w1 w2) (\lambda (w2: T).subst1 i v t2 w2)) (\lambda (x0: T).\lambda (H24: (subst1 i v t2 x0)).\lambda (H25: (subst1 i v x x0)).ex_intro2 T (\lambda (w2: T).pr2 c w1 w2) (\lambda (w2: T).subst1 i v t2 w2) x0 (pr2_delta1 c e v i H23 w1 x H12 x0 H25) H24) (subst1_confluence_eq t3 t2 v i (subst1_single i v t3 t2 H22) x H13)) H18)) (pr0_subst1 t1 t3 H10 v w1 i H0 v (pr0_refl v))) t (sym_eq T t t2 H8)) t0 (sym_eq T t0 t1 H7)) c0 (sym_eq C c0 c H4) H5 H6 H1 H2 H3)] in H1 (refl_equal C c) (refl_equal T t1) (refl_equal T t2).
+
+theorem pr2_gen_cabbr: \forall (c: C).\forall (t1: T).\forall (t2: T).(pr2 c t1 t2) \to \forall (e: C).\forall (u: T).\forall (d: nat).(getl d c (CHead e (Bind Abbr) u)) \to \forall (a0: C).(csubst1 d u c a0) \to \forall (a: C).(drop (S O) d a0 a) \to \forall (x1: T).(subst1 d u t1 (lift (S O) d x1)) \to ex2 T (\lambda (x2: T).subst1 d u t2 (lift (S O) d x2)) (\lambda (x2: T).pr2 a x1 x2) \def \lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pr2 c t1 t2)).pr2_ind (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).\forall (e: C).\forall (u: T).\forall (d: nat).(getl d c0 (CHead e (Bind Abbr) u)) \to \forall (a0: C).(csubst1 d u c0 a0) \to \forall (a: C).(drop (S O) d a0 a) \to \forall (x1: T).(subst1 d u t (lift (S O) d x1)) \to ex2 T (\lambda (x2: T).subst1 d u t0 (lift (S O) d x2)) (\lambda (x2: T).pr2 a x1 x2)) (\lambda (c0: C).\lambda (t3: T).\lambda (t4: T).\lambda (H0: (pr0 t3 t4)).\lambda (e: C).\lambda (u: T).\lambda (d: nat).\lambda (_: (getl d c0 (CHead e (Bind Abbr) u))).\lambda (a0: C).\lambda (_: (csubst1 d u c0 a0)).\lambda (a: C).\lambda (_: (drop (S O) d a0 a)).\lambda (x1: T).\lambda (H4: (subst1 d u t3 (lift (S O) d x1))).ex2_ind T (\lambda (w2: T).pr0 (lift (S O) d x1) w2) (\lambda (w2: T).subst1 d u t4 w2) (ex2 T (\lambda (x2: T).subst1 d u t4 (lift (S O) d x2)) (\lambda (x2: T).pr2 a x1 x2)) (\lambda (x: T).\lambda (H5: (pr0 (lift (S O) d x1) x)).\lambda (H6: (subst1 d u t4 x)).ex2_ind T (\lambda (t5: T).eq T x (lift (S O) d t5)) (\lambda (t5: T).pr0 x1 t5) (ex2 T (\lambda (x2: T).subst1 d u t4 (lift (S O) d x2)) (\lambda (x2: T).pr2 a x1 x2)) (\lambda (x0: T).\lambda (H7: (eq T x (lift (S O) d x0))).\lambda (H8: (pr0 x1 x0)).let H9 \def eq_ind T x (\lambda (t: T).subst1 d u t4 t) H6 (lift (S O) d x0) H7 in ex_intro2 T (\lambda (x2: T).subst1 d u t4 (lift (S O) d x2)) (\lambda (x2: T).pr2 a x1 x2) x0 H9 (pr2_free a x1 x0 H8)) (pr0_gen_lift x1 x (S O) d H5)) (pr0_subst1 t3 t4 H0 u (lift (S O) d x1) d H4 u (pr0_refl u))) (\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c0 (CHead d (Bind Abbr) u))).\lambda (t3: T).\lambda (t4: T).\lambda (H1: (pr0 t3 t4)).\lambda (t: T).\lambda (H2: (subst0 i u t4 t)).\lambda (e: C).\lambda (u0: T).\lambda (d0: nat).\lambda (H3: (getl d0 c0 (CHead e (Bind Abbr) u0))).\lambda (a0: C).\lambda (H4: (csubst1 d0 u0 c0 a0)).\lambda (a: C).\lambda (H5: (drop (S O) d0 a0 a)).\lambda (x1: T).\lambda (H6: (subst1 d0 u0 t3 (lift (S O) d0 x1))).ex2_ind T (\lambda (w2: T).pr0 (lift (S O) d0 x1) w2) (\lambda (w2: T).subst1 d0 u0 t4 w2) (ex2 T (\lambda (x2: T).subst1 d0 u0 t (lift (S O) d0 x2)) (\lambda (x2: T).pr2 a x1 x2)) (\lambda (x: T).\lambda (H7: (pr0 (lift (S O) d0 x1) x)).\lambda (H8: (subst1 d0 u0 t4 x)).ex2_ind T (\lambda (t5: T).eq T x (lift (S O) d0 t5)) (\lambda (t5: T).pr0 x1 t5) (ex2 T (\lambda (x2: T).subst1 d0 u0 t (lift (S O) d0 x2)) (\lambda (x2: T).pr2 a x1 x2)) (\lambda (x0: T).\lambda (H9: (eq T x (lift (S O) d0 x0))).\lambda (H10: (pr0 x1 x0)).let H11 \def eq_ind T x (\lambda (t: T).subst1 d0 u0 t4 t) H8 (lift (S O) d0 x0) H9 in lt_eq_gt_e i d0 (ex2 T (\lambda (x2: T).subst1 d0 u0 t (lift (S O) d0 x2)) (\lambda (x2: T).pr2 a x1 x2)) (\lambda (H12: (lt i d0)).ex2_ind T (\lambda (t0: T).subst1 d0 u0 t t0) (\lambda (t0: T).subst1 i u (lift (S O) d0 x0) t0) (ex2 T (\lambda (x2: T).subst1 d0 u0 t (lift (S O) d0 x2)) (\lambda (x2: T).pr2 a x1 x2)) (\lambda (x2: T).\lambda (H13: (subst1 d0 u0 t x2)).\lambda (H14: (subst1 i u (lift (S O) d0 x0) x2)).ex2_ind C (\lambda (e2: C).csubst1 (minus d0 i) u0 (CHead d (Bind Abbr) u) e2) (\lambda (e2: C).getl i a0 e2) (ex2 T (\lambda (x3: T).subst1 d0 u0 t (lift (S O) d0 x3)) (\lambda (x3: T).pr2 a x1 x3)) (\lambda (x3: C).\lambda (H15: (csubst1 (minus d0 i) u0 (CHead d (Bind Abbr) u) x3)).\lambda (H16: (getl i a0 x3)).let H17 \def eq_ind nat (minus d0 i) (\lambda (n: nat).csubst1 n u0 (CHead d (Bind Abbr) u) x3) H15 (S (minus d0 (S i))) (minus_x_Sy d0 i H12) in let H18 \def csubst1_gen_head (Bind Abbr) d x3 u u0 (minus d0 (S i)) H17 in ex3_2_ind T C (\lambda (u2: T).\lambda (c2: C).eq C x3 (CHead c2 (Bind Abbr) u2)) (\lambda (u2: T).\lambda (_: C).subst1 (minus d0 (S i)) u0 u u2) (\lambda (_: T).\lambda (c2: C).csubst1 (minus d0 (S i)) u0 d c2) (ex2 T (\lambda (x4: T).subst1 d0 u0 t (lift (S O) d0 x4)) (\lambda (x4: T).pr2 a x1 x4)) (\lambda (x4: T).\lambda (x5: C).\lambda (H19: (eq C x3 (CHead x5 (Bind Abbr) x4))).\lambda (H20: (subst1 (minus d0 (S i)) u0 u x4)).\lambda (_: (csubst1 (minus d0 (S i)) u0 d x5)).let H22 \def eq_ind C x3 (\lambda (c: C).getl i a0 c) H16 (CHead x5 (Bind Abbr) x4) H19 in let H23 \def eq_ind nat d0 (\lambda (n: nat).drop (S O) n a0 a) H5 (S (plus i (minus d0 (S i)))) (lt_plus_minus i d0 H12) in ex3_2_ind T C (\lambda (v: T).\lambda (_: C).eq T x4 (lift (S O) (minus d0 (S i)) v)) (\lambda (v: T).\lambda (e0: C).getl i a (CHead e0 (Bind Abbr) v)) (\lambda (_: T).\lambda (e0: C).drop (S O) (minus d0 (S i)) x5 e0) (ex2 T (\lambda (x6: T).subst1 d0 u0 t (lift (S O) d0 x6)) (\lambda (x6: T).pr2 a x1 x6)) (\lambda (x6: T).\lambda (x7: C).\lambda (H24: (eq T x4 (lift (S O) (minus d0 (S i)) x6))).\lambda (H25: (getl i a (CHead x7 (Bind Abbr) x6))).\lambda (_: (drop (S O) (minus d0 (S i)) x5 x7)).let H27 \def eq_ind T x4 (\lambda (t: T).subst1 (minus d0 (S i)) u0 u t) H20 (lift (S O) (minus d0 (S i)) x6) H24 in ex2_ind T (\lambda (t0: T).subst1 i (lift (S O) (minus d0 (S i)) x6) (lift (S O) d0 x0) t0) (\lambda (t0: T).subst1 (S (plus (minus d0 (S i)) i)) u0 x2 t0) (ex2 T (\lambda (x8: T).subst1 d0 u0 t (lift (S O) d0 x8)) (\lambda (x8: T).pr2 a x1 x8)) (\lambda (x8: T).\lambda (H28: (subst1 i (lift (S O) (minus d0 (S i)) x6) (lift (S O) d0 x0) x8)).\lambda (H29: (subst1 (S (plus (minus d0 (S i)) i)) u0 x2 x8)).let H30 \def eq_ind nat d0 (\lambda (n: nat).subst1 i (lift (S O) (minus d0 (S i)) x6) (lift (S O) n x0) x8) H28 (S (plus i (minus d0 (S i)))) (lt_plus_minus i d0 H12) in ex2_ind T (\lambda (t5: T).eq T x8 (lift (S O) (S (plus i (minus d0 (S i)))) t5)) (\lambda (t5: T).subst1 i x6 x0 t5) (ex2 T (\lambda (x9: T).subst1 d0 u0 t (lift (S O) d0 x9)) (\lambda (x9: T).pr2 a x1 x9)) (\lambda (x9: T).\lambda (H31: (eq T x8 (lift (S O) (S (plus i (minus d0 (S i)))) x9))).\lambda (H32: (subst1 i x6 x0 x9)).let H33 \def eq_ind T x8 (\lambda (t: T).subst1 (S (plus (minus d0 (S i)) i)) u0 x2 t) H29 (lift (S O) (S (plus i (minus d0 (S i)))) x9) H31 in let H34 \def eq_ind_r nat (S (plus i (minus d0 (S i)))) (\lambda (n: nat).subst1 (S (plus (minus d0 (S i)) i)) u0 x2 (lift (S O) n x9)) H33 d0 (lt_plus_minus i d0 H12) in let H35 \def eq_ind_r nat (S (plus (minus d0 (S i)) i)) (\lambda (n: nat).subst1 n u0 x2 (lift (S O) d0 x9)) H34 d0 (lt_plus_minus_r i d0 H12) in ex_intro2 T (\lambda (x10: T).subst1 d0 u0 t (lift (S O) d0 x10)) (\lambda (x10: T).pr2 a x1 x10) x9 (subst1_trans x2 t u0 d0 H13 (lift (S O) d0 x9) H35) (pr2_delta1 a x7 x6 i H25 x1 x0 H10 x9 H32)) (subst1_gen_lift_lt x6 x0 x8 i (S O) (minus d0 (S i)) H30)) (subst1_subst1_back (lift (S O) d0 x0) x2 u i H14 (lift (S O) (minus d0 (S i)) x6) u0 (minus d0 (S i)) H27)) (getl_drop_conf_lt Abbr a0 x5 x4 i H22 a (S O) (minus d0 (S i)) H23)) H18) (csubst1_getl_lt d0 i H12 c0 a0 u0 H4 (CHead d (Bind Abbr) u) H0)) (subst1_confluence_neq t4 t u i (subst1_single i u t4 t H2) (lift (S O) d0 x0) u0 d0 H11 (lt_neq i d0 H12))) (\lambda (H12: (eq nat i d0)).let H13 \def eq_ind_r nat d0 (\lambda (n: nat).subst1 n u0 t4 (lift (S O) n x0)) H11 i H12 in let H14 \def eq_ind_r nat d0 (\lambda (n: nat).drop (S O) n a0 a) H5 i H12 in let H15 \def eq_ind_r nat d0 (\lambda (n: nat).csubst1 n u0 c0 a0) H4 i H12 in let H16 \def eq_ind_r nat d0 (\lambda (n: nat).getl n c0 (CHead e (Bind Abbr) u0)) H3 i H12 in eq_ind nat i (\lambda (n: nat).ex2 T (\lambda (x2: T).subst1 n u0 t (lift (S O) n x2)) (\lambda (x2: T).pr2 a x1 x2)) (let H17 \def eq_ind C (CHead d (Bind Abbr) u) (\lambda (c: C).getl i c0 c) H0 (CHead e (Bind Abbr) u0) (getl_mono c0 (CHead d (Bind Abbr) u) i H0 (CHead e (Bind Abbr) u0) H16) in let H18 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u) (CHead e (Bind Abbr) u0) (getl_mono c0 (CHead d (Bind Abbr) u) i H0 (CHead e (Bind Abbr) u0) H16) in (let H19 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u) (CHead e (Bind Abbr) u0) (getl_mono c0 (CHead d (Bind Abbr) u) i H0 (CHead e (Bind Abbr) u0) H16) in \lambda (H20: (eq C d e)).let H21 \def eq_ind_r T u0 (\lambda (t: T).getl i c0 (CHead e (Bind Abbr) t)) H17 u H19 in let H22 \def eq_ind_r T u0 (\lambda (t: T).subst1 i t t4 (lift (S O) i x0)) H13 u H19 in let H23 \def eq_ind_r T u0 (\lambda (t: T).csubst1 i t c0 a0) H15 u H19 in eq_ind T u (\lambda (t0: T).ex2 T (\lambda (x2: T).subst1 i t0 t (lift (S O) i x2)) (\lambda (x2: T).pr2 a x1 x2)) (let H24 \def eq_ind_r C e (\lambda (c: C).getl i c0 (CHead c (Bind Abbr) u)) H21 d H20 in ex2_ind T (\lambda (t0: T).subst1 i u t t0) (\lambda (t0: T).subst1 i u (lift (S O) i x0) t0) (ex2 T (\lambda (x2: T).subst1 i u t (lift (S O) i x2)) (\lambda (x2: T).pr2 a x1 x2)) (\lambda (x2: T).\lambda (H25: (subst1 i u t x2)).\lambda (H26: (subst1 i u (lift (S O) i x0) x2)).let H27 \def eq_ind T x2 (\lambda (t0: T).subst1 i u t t0) H25 (lift (S O) i x0) (subst1_gen_lift_eq x0 u x2 (S O) i i (le_n i) (eq_ind_r nat (plus (S O) i) (\lambda (n: nat).lt i n) (le_n (plus (S O) i)) (plus i (S O)) (plus_sym i (S O))) H26) in ex_intro2 T (\lambda (x3: T).subst1 i u t (lift (S O) i x3)) (\lambda (x3: T).pr2 a x1 x3) x0 H27 (pr2_free a x1 x0 H10)) (subst1_confluence_eq t4 t u i (subst1_single i u t4 t H2) (lift (S O) i x0) H22)) u0 H19) H18) d0 H12) (\lambda (H12: (lt d0 i)).ex2_ind T (\lambda (t0: T).subst1 d0 u0 t t0) (\lambda (t0: T).subst1 i u (lift (S O) d0 x0) t0) (ex2 T (\lambda (x2: T).subst1 d0 u0 t (lift (S O) d0 x2)) (\lambda (x2: T).pr2 a x1 x2)) (\lambda (x2: T).\lambda (H13: (subst1 d0 u0 t x2)).\lambda (H14: (subst1 i u (lift (S O) d0 x0) x2)).ex2_ind T (\lambda (t5: T).eq T x2 (lift (S O) d0 t5)) (\lambda (t5: T).subst1 (minus i (S O)) u x0 t5) (ex2 T (\lambda (x3: T).subst1 d0 u0 t (lift (S O) d0 x3)) (\lambda (x3: T).pr2 a x1 x3)) (\lambda (x3: T).\lambda (H15: (eq T x2 (lift (S O) d0 x3))).\lambda (H16: (subst1 (minus i (S O)) u x0 x3)).let H17 \def eq_ind T x2 (\lambda (t0: T).subst1 d0 u0 t t0) H13 (lift (S O) d0 x3) H15 in ex_intro2 T (\lambda (x4: T).subst1 d0 u0 t (lift (S O) d0 x4)) (\lambda (x4: T).pr2 a x1 x4) x3 H17 (pr2_delta1 a d u (minus i (S O)) (getl_drop_conf_ge i (CHead d (Bind Abbr) u) a0 (csubst1_getl_ge d0 i (le_S_n d0 i (le_S (S d0) i H12)) c0 a0 u0 H4 (CHead d (Bind Abbr) u) H0) a (S O) d0 H5 (eq_ind_r nat (plus (S O) d0) (\lambda (n: nat).le n i) H12 (plus d0 (S O)) (plus_sym d0 (S O)))) x1 x0 H10 x3 H16)) (subst1_gen_lift_ge u x0 x2 i (S O) d0 H14 (eq_ind_r nat (plus (S O) d0) (\lambda (n: nat).le n i) H12 (plus d0 (S O)) (plus_sym d0 (S O))))) (subst1_confluence_neq t4 t u i (subst1_single i u t4 t H2) (lift (S O) d0 x0) u0 d0 H11 (sym_not_equal nat d0 i (lt_neq d0 i H12))))) (pr0_gen_lift x1 x (S O) d0 H7)) (pr0_subst1 t3 t4 H1 u0 (lift (S O) d0 x1) d0 H6 u0 (pr0_refl u0))) c t1 t2 H.
+
+inductive pr3 (c:C): T \to T \to Prop \def
+| pr3_refl: \forall (t: T).pr3 c t t
+| pr3_sing: \forall (t2: T).\forall (t1: T).(pr2 c t1 t2) \to \forall (t3: T).(pr3 c t2 t3) \to pr3 c t1 t3.
+
+theorem pr3_gen_sort: \forall (c: C).\forall (x: T).\forall (n: nat).(pr3 c (TSort n) x) \to eq T x (TSort n) \def \lambda (c: C).\lambda (x: T).\lambda (n: nat).\lambda (H: (pr3 c (TSort n) x)).insert_eq T (TSort n) (\lambda (t: T).pr3 c t x) (eq T x (TSort n)) (\lambda (y: T).\lambda (H0: (pr3 c y x)).pr3_ind c (\lambda (t: T).\lambda (t0: T).(eq T t (TSort n)) \to eq T t0 (TSort n)) (\lambda (t: T).\lambda (H1: (eq T t (TSort n))).H1) (\lambda (t2: T).\lambda (t1: T).\lambda (H1: (pr2 c t1 t2)).\lambda (t3: T).\lambda (_: (pr3 c t2 t3)).\lambda (H3: (((eq T t2 (TSort n)) \to eq T t3 (TSort n)))).\lambda (H4: (eq T t1 (TSort n))).let H5 \def eq_ind T t1 (\lambda (t: T).pr2 c t t2) H1 (TSort n) H4 in H3 (pr2_gen_sort c t2 n H5)) y x H0) H.
+
+theorem pr3_gen_abst: \forall (c: C).\forall (u1: T).\forall (t1: T).\forall (x: T).(pr3 c (THead (Bind Abst) u1 t1) x) \to ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Abst) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c u1 u2) (\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) t1 t2) \def \lambda (c: C).\lambda (u1: T).\lambda (t1: T).\lambda (x: T).\lambda (H: (pr3 c (THead (Bind Abst) u1 t1) x)).insert_eq T (THead (Bind Abst) u1 t1) (\lambda (t: T).pr3 c t x) (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Abst) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c u1 u2) (\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) t1 t2)) (\lambda (y: T).\lambda (H0: (pr3 c y x)).unintro T t1 (\lambda (t: T).(eq T y (THead (Bind Abst) u1 t)) \to ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Abst) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c u1 u2) (\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) t t2)) (unintro T u1 (\lambda (t: T).\forall (x0: T).(eq T y (THead (Bind Abst) t x0)) \to ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Abst) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c t u2) (\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x0 t2)) (pr3_ind c (\lambda (t: T).\lambda (t0: T).\forall (x0: T).\forall (x1: T).(eq T t (THead (Bind Abst) x0 x1)) \to ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t0 (THead (Bind Abst) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x1 t2)) (\lambda (t: T).\lambda (x0: T).\lambda (x1: T).\lambda (H1: (eq T t (THead (Bind Abst) x0 x1))).ex3_2_intro T T (\lambda (u2: T).\lambda (t2: T).eq T t (THead (Bind Abst) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x1 t2) x0 x1 H1 (pr3_refl c x0) (\lambda (b: B).\lambda (u: T).pr3_refl (CHead c (Bind b) u) x1)) (\lambda (t2: T).\lambda (t3: T).\lambda (H1: (pr2 c t3 t2)).\lambda (t4: T).\lambda (_: (pr3 c t2 t4)).\lambda (H3: ((\forall (x: T).\forall (x0: T).(eq T t2 (THead (Bind Abst) x x0)) \to ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t4 (THead (Bind Abst) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x u2) (\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x0 t2)))).\lambda (x0: T).\lambda (x1: T).\lambda (H4: (eq T t3 (THead (Bind Abst) x0 x1))).let H5 \def eq_ind T t3 (\lambda (t: T).pr2 c t t2) H1 (THead (Bind Abst) x0 x1) H4 in let H6 \def pr2_gen_abst c x0 x1 t2 H5 in ex3_2_ind T T (\lambda (u2: T).\lambda (t5: T).eq T t2 (THead (Bind Abst) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr2 c x0 u2) (\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) x1 t5) (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Abst) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x1 t5)) (\lambda (x2: T).\lambda (x3: T).\lambda (H7: (eq T t2 (THead (Bind Abst) x2 x3))).\lambda (H8: (pr2 c x0 x2)).\lambda (H9: ((\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) x1 x3))).let H10 \def eq_ind T t2 (\lambda (t: T).\forall (x: T).\forall (x0: T).(eq T t (THead (Bind Abst) x x0)) \to ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t4 (THead (Bind Abst) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x u2) (\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x0 t2)) H3 (THead (Bind Abst) x2 x3) H7 in let H11 \def H10 x2 x3 (refl_equal T (THead (Bind Abst) x2 x3)) in ex3_2_ind T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Abst) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x2 u2) (\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x3 t5) (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Abst) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x1 t5)) (\lambda (x4: T).\lambda (x5: T).\lambda (H12: (eq T t4 (THead (Bind Abst) x4 x5))).\lambda (H13: (pr3 c x2 x4)).\lambda (H14: ((\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x3 x5))).ex3_2_intro T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Abst) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x1 t5) x4 x5 H12 (pr3_sing c x2 x0 H8 x4 H13) (\lambda (b: B).\lambda (u: T).pr3_sing (CHead c (Bind b) u) x3 x1 (H9 b u) x5 (H14 b u))) H11) H6) y x H0))) H.
+
+theorem pr3_gen_cast: \forall (c: C).\forall (u1: T).\forall (t1: T).\forall (x: T).(pr3 c (THead (Flat Cast) u1 t1) x) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Flat Cast) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c u1 u2) (\lambda (_: T).\lambda (t2: T).pr3 c t1 t2)) (pr3 c t1 x) \def \lambda (c: C).\lambda (u1: T).\lambda (t1: T).\lambda (x: T).\lambda (H: (pr3 c (THead (Flat Cast) u1 t1) x)).insert_eq T (THead (Flat Cast) u1 t1) (\lambda (t: T).pr3 c t x) (or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Flat Cast) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c u1 u2) (\lambda (_: T).\lambda (t2: T).pr3 c t1 t2)) (pr3 c t1 x)) (\lambda (y: T).\lambda (H0: (pr3 c y x)).unintro T t1 (\lambda (t: T).(eq T y (THead (Flat Cast) u1 t)) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Flat Cast) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c u1 u2) (\lambda (_: T).\lambda (t2: T).pr3 c t t2)) (pr3 c t x)) (unintro T u1 (\lambda (t: T).\forall (x0: T).(eq T y (THead (Flat Cast) t x0)) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Flat Cast) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c t u2) (\lambda (_: T).\lambda (t2: T).pr3 c x0 t2)) (pr3 c x0 x)) (pr3_ind c (\lambda (t: T).\lambda (t0: T).\forall (x0: T).\forall (x1: T).(eq T t (THead (Flat Cast) x0 x1)) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t0 (THead (Flat Cast) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t2: T).pr3 c x1 t2)) (pr3 c x1 t0)) (\lambda (t: T).\lambda (x0: T).\lambda (x1: T).\lambda (H1: (eq T t (THead (Flat Cast) x0 x1))).eq_ind_r T (THead (Flat Cast) x0 x1) (\lambda (t0: T).or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t0 (THead (Flat Cast) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t2: T).pr3 c x1 t2)) (pr3 c x1 t0)) (or_introl (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T (THead (Flat Cast) x0 x1) (THead (Flat Cast) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t2: T).pr3 c x1 t2)) (pr3 c x1 (THead (Flat Cast) x0 x1)) (ex3_2_intro T T (\lambda (u2: T).\lambda (t2: T).eq T (THead (Flat Cast) x0 x1) (THead (Flat Cast) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t2: T).pr3 c x1 t2) x0 x1 (refl_equal T (THead (Flat Cast) x0 x1)) (pr3_refl c x0) (pr3_refl c x1))) t H1) (\lambda (t2: T).\lambda (t3: T).\lambda (H1: (pr2 c t3 t2)).\lambda (t4: T).\lambda (H2: (pr3 c t2 t4)).\lambda (H3: ((\forall (x: T).\forall (x0: T).(eq T t2 (THead (Flat Cast) x x0)) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t4 (THead (Flat Cast) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x u2) (\lambda (_: T).\lambda (t2: T).pr3 c x0 t2)) (pr3 c x0 t4)))).\lambda (x0: T).\lambda (x1: T).\lambda (H4: (eq T t3 (THead (Flat Cast) x0 x1))).let H5 \def eq_ind T t3 (\lambda (t: T).pr2 c t t2) H1 (THead (Flat Cast) x0 x1) H4 in let H6 \def pr2_gen_cast c x0 x1 t2 H5 in or_ind (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t2 (THead (Flat Cast) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr2 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr2 c x1 t5)) (pr2 c x1 t2) (or (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Flat Cast) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 c x1 t5)) (pr3 c x1 t4)) (\lambda (H7: (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c x0 u2) (\lambda (_: T).\lambda (t2: T).pr2 c x1 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t5: T).eq T t2 (THead (Flat Cast) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr2 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr2 c x1 t5) (or (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Flat Cast) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 c x1 t5)) (pr3 c x1 t4)) (\lambda (x2: T).\lambda (x3: T).\lambda (H8: (eq T t2 (THead (Flat Cast) x2 x3))).\lambda (H9: (pr2 c x0 x2)).\lambda (H10: (pr2 c x1 x3)).let H11 \def eq_ind T t2 (\lambda (t: T).\forall (x: T).\forall (x0: T).(eq T t (THead (Flat Cast) x x0)) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t4 (THead (Flat Cast) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x u2) (\lambda (_: T).\lambda (t2: T).pr3 c x0 t2)) (pr3 c x0 t4)) H3 (THead (Flat Cast) x2 x3) H8 in let H12 \def H11 x2 x3 (refl_equal T (THead (Flat Cast) x2 x3)) in or_ind (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Flat Cast) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x2 u2) (\lambda (_: T).\lambda (t5: T).pr3 c x3 t5)) (pr3 c x3 t4) (or (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Flat Cast) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 c x1 t5)) (pr3 c x1 t4)) (\lambda (H13: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t4 (THead (Flat Cast) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x2 u2) (\lambda (_: T).\lambda (t2: T).pr3 c x3 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Flat Cast) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x2 u2) (\lambda (_: T).\lambda (t5: T).pr3 c x3 t5) (or (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Flat Cast) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 c x1 t5)) (pr3 c x1 t4)) (\lambda (x4: T).\lambda (x5: T).\lambda (H14: (eq T t4 (THead (Flat Cast) x4 x5))).\lambda (H15: (pr3 c x2 x4)).\lambda (H16: (pr3 c x3 x5)).eq_ind_r T (THead (Flat Cast) x4 x5) (\lambda (t: T).or (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t (THead (Flat Cast) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 c x1 t5)) (pr3 c x1 t)) (or_introl (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T (THead (Flat Cast) x4 x5) (THead (Flat Cast) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 c x1 t5)) (pr3 c x1 (THead (Flat Cast) x4 x5)) (ex3_2_intro T T (\lambda (u2: T).\lambda (t5: T).eq T (THead (Flat Cast) x4 x5) (THead (Flat Cast) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 c x1 t5) x4 x5 (refl_equal T (THead (Flat Cast) x4 x5)) (pr3_sing c x2 x0 H9 x4 H15) (pr3_sing c x3 x1 H10 x5 H16))) t4 H14) H13) (\lambda (H13: (pr3 c x3 t4)).or_intror (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Flat Cast) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 c x1 t5)) (pr3 c x1 t4) (pr3_sing c x3 x1 H10 t4 H13)) H12) H7) (\lambda (H7: (pr2 c x1 t2)).or_intror (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Flat Cast) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 c x1 t5)) (pr3 c x1 t4) (pr3_sing c t2 x1 H7 t4 H2)) H6) y x H0))) H.
+
+theorem clear_pr3_trans: \forall (c2: C).\forall (t1: T).\forall (t2: T).(pr3 c2 t1 t2) \to \forall (c1: C).(clear c1 c2) \to pr3 c1 t1 t2 \def \lambda (c2: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pr3 c2 t1 t2)).\lambda (c1: C).\lambda (H0: (clear c1 c2)).pr3_ind c2 (\lambda (t: T).\lambda (t0: T).pr3 c1 t t0) (\lambda (t: T).pr3_refl c1 t) (\lambda (t3: T).\lambda (t4: T).\lambda (H1: (pr2 c2 t4 t3)).\lambda (t5: T).\lambda (_: (pr3 c2 t3 t5)).\lambda (H3: (pr3 c1 t3 t5)).pr3_sing c1 t3 t4 (clear_pr2_trans c2 t4 t3 H1 c1 H0) t5 H3) t1 t2 H.
+
+theorem pr3_pr2: \forall (c: C).\forall (t1: T).\forall (t2: T).(pr2 c t1 t2) \to pr3 c t1 t2 \def \lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pr2 c t1 t2)).pr3_sing c t2 t1 H t2 (pr3_refl c t2).
+
+theorem pr3_t: \forall (t2: T).\forall (t1: T).\forall (c: C).(pr3 c t1 t2) \to \forall (t3: T).(pr3 c t2 t3) \to pr3 c t1 t3 \def \lambda (t2: T).\lambda (t1: T).\lambda (c: C).\lambda (H: (pr3 c t1 t2)).pr3_ind c (\lambda (t: T).\lambda (t0: T).\forall (t3: T).(pr3 c t0 t3) \to pr3 c t t3) (\lambda (t: T).\lambda (t3: T).\lambda (H0: (pr3 c t t3)).H0) (\lambda (t0: T).\lambda (t3: T).\lambda (H0: (pr2 c t3 t0)).\lambda (t4: T).\lambda (_: (pr3 c t0 t4)).\lambda (H2: ((\forall (t3: T).(pr3 c t4 t3) \to pr3 c t0 t3))).\lambda (t5: T).\lambda (H3: (pr3 c t4 t5)).pr3_sing c t0 t3 H0 t5 (H2 t5 H3)) t1 t2 H.
+
+theorem pr3_thin_dx: \forall (c: C).\forall (t1: T).\forall (t2: T).(pr3 c t1 t2) \to \forall (u: T).\forall (f: F).pr3 c (THead (Flat f) u t1) (THead (Flat f) u t2) \def \lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pr3 c t1 t2)).\lambda (u: T).\lambda (f: F).pr3_ind c (\lambda (t: T).\lambda (t0: T).pr3 c (THead (Flat f) u t) (THead (Flat f) u t0)) (\lambda (t: T).pr3_refl c (THead (Flat f) u t)) (\lambda (t0: T).\lambda (t3: T).\lambda (H0: (pr2 c t3 t0)).\lambda (t4: T).\lambda (_: (pr3 c t0 t4)).\lambda (H2: (pr3 c (THead (Flat f) u t0) (THead (Flat f) u t4))).pr3_sing c (THead (Flat f) u t0) (THead (Flat f) u t3) (pr2_thin_dx c t3 t0 H0 u f) (THead (Flat f) u t4) H2) t1 t2 H.
+
+theorem pr3_head_1: \forall (c: C).\forall (u1: T).\forall (u2: T).(pr3 c u1 u2) \to \forall (k: K).\forall (t: T).pr3 c (THead k u1 t) (THead k u2 t) \def \lambda (c: C).\lambda (u1: T).\lambda (u2: T).\lambda (H: (pr3 c u1 u2)).pr3_ind c (\lambda (t: T).\lambda (t0: T).\forall (k: K).\forall (t1: T).pr3 c (THead k t t1) (THead k t0 t1)) (\lambda (t: T).\lambda (k: K).\lambda (t0: T).pr3_refl c (THead k t t0)) (\lambda (t2: T).\lambda (t1: T).\lambda (H0: (pr2 c t1 t2)).\lambda (t3: T).\lambda (_: (pr3 c t2 t3)).\lambda (H2: ((\forall (k: K).\forall (t: T).pr3 c (THead k t2 t) (THead k t3 t)))).\lambda (k: K).\lambda (t: T).pr3_sing c (THead k t2 t) (THead k t1 t) (pr2_head_1 c t1 t2 H0 k t) (THead k t3 t) (H2 k t)) u1 u2 H.
+
+theorem pr3_head_2: \forall (c: C).\forall (u: T).\forall (t1: T).\forall (t2: T).\forall (k: K).(pr3 (CHead c k u) t1 t2) \to pr3 c (THead k u t1) (THead k u t2) \def \lambda (c: C).\lambda (u: T).\lambda (t1: T).\lambda (t2: T).\lambda (k: K).\lambda (H: (pr3 (CHead c k u) t1 t2)).pr3_ind (CHead c k u) (\lambda (t: T).\lambda (t0: T).pr3 c (THead k u t) (THead k u t0)) (\lambda (t: T).pr3_refl c (THead k u t)) (\lambda (t0: T).\lambda (t3: T).\lambda (H0: (pr2 (CHead c k u) t3 t0)).\lambda (t4: T).\lambda (_: (pr3 (CHead c k u) t0 t4)).\lambda (H2: (pr3 c (THead k u t0) (THead k u t4))).pr3_sing c (THead k u t0) (THead k u t3) (pr2_head_2 c u t3 t0 k H0) (THead k u t4) H2) t1 t2 H.
+
+theorem pr3_head_21: \forall (c: C).\forall (u1: T).\forall (u2: T).(pr3 c u1 u2) \to \forall (k: K).\forall (t1: T).\forall (t2: T).(pr3 (CHead c k u1) t1 t2) \to pr3 c (THead k u1 t1) (THead k u2 t2) \def \lambda (c: C).\lambda (u1: T).\lambda (u2: T).\lambda (H: (pr3 c u1 u2)).\lambda (k: K).\lambda (t1: T).\lambda (t2: T).\lambda (H0: (pr3 (CHead c k u1) t1 t2)).pr3_t (THead k u1 t2) (THead k u1 t1) c (pr3_head_2 c u1 t1 t2 k H0) (THead k u2 t2) (pr3_head_1 c u1 u2 H k t2).
+
+theorem pr3_head_12: \forall (c: C).\forall (u1: T).\forall (u2: T).(pr3 c u1 u2) \to \forall (k: K).\forall (t1: T).\forall (t2: T).(pr3 (CHead c k u2) t1 t2) \to pr3 c (THead k u1 t1) (THead k u2 t2) \def \lambda (c: C).\lambda (u1: T).\lambda (u2: T).\lambda (H: (pr3 c u1 u2)).\lambda (k: K).\lambda (t1: T).\lambda (t2: T).\lambda (H0: (pr3 (CHead c k u2) t1 t2)).pr3_t (THead k u2 t1) (THead k u1 t1) c (pr3_head_1 c u1 u2 H k t1) (THead k u2 t2) (pr3_head_2 c u2 t1 t2 k H0).
+
+theorem pr3_pr1: \forall (t1: T).\forall (t2: T).(pr1 t1 t2) \to \forall (c: C).pr3 c t1 t2 \def \lambda (t1: T).\lambda (t2: T).\lambda (H: (pr1 t1 t2)).pr1_ind (\lambda (t: T).\lambda (t0: T).\forall (c: C).pr3 c t t0) (\lambda (t: T).\lambda (c: C).pr3_refl c t) (\lambda (t0: T).\lambda (t3: T).\lambda (H0: (pr0 t3 t0)).\lambda (t4: T).\lambda (_: (pr1 t0 t4)).\lambda (H2: ((\forall (c: C).pr3 c t0 t4))).\lambda (c: C).pr3_sing c t0 t3 (pr2_free c t3 t0 H0) t4 (H2 c)) t1 t2 H.
+
+theorem pr3_cflat: \forall (c: C).\forall (t1: T).\forall (t2: T).(pr3 c t1 t2) \to \forall (f: F).\forall (v: T).pr3 (CHead c (Flat f) v) t1 t2 \def \lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pr3 c t1 t2)).pr3_ind c (\lambda (t: T).\lambda (t0: T).\forall (f: F).\forall (v: T).pr3 (CHead c (Flat f) v) t t0) (\lambda (t: T).\lambda (f: F).\lambda (v: T).pr3_refl (CHead c (Flat f) v) t) (\lambda (t3: T).\lambda (t4: T).\lambda (H0: (pr2 c t4 t3)).\lambda (t5: T).\lambda (_: (pr3 c t3 t5)).\lambda (H2: ((\forall (f: F).\forall (v: T).pr3 (CHead c (Flat f) v) t3 t5))).\lambda (f: F).\lambda (v: T).pr3_sing (CHead c (Flat f) v) t3 t4 (pr2_cflat c t4 t3 H0 f v) t5 (H2 f v)) t1 t2 H.
+
+theorem pr3_pr0_pr2_t: \forall (u1: T).\forall (u2: T).(pr0 u1 u2) \to \forall (c: C).\forall (t1: T).\forall (t2: T).\forall (k: K).(pr2 (CHead c k u2) t1 t2) \to pr3 (CHead c k u1) t1 t2 \def \lambda (u1: T).\lambda (u2: T).\lambda (H: (pr0 u1 u2)).\lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (k: K).\lambda (H0: (pr2 (CHead c k u2) t1 t2)).let H1 \def match H0 return (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).(eq C c0 (CHead c k u2)) \to (eq T t t1) \to (eq T t0 t2) \to pr3 (CHead c k u1) t1 t2) with [(pr2_free c0 t0 t3 H1) \Rightarrow (\lambda (H2: (eq C c0 (CHead c k u2))).\lambda (H3: (eq T t0 t1)).\lambda (H4: (eq T t3 t2)).eq_ind C (CHead c k u2) (\lambda (_: C).(eq T t0 t1) \to (eq T t3 t2) \to (pr0 t0 t3) \to pr3 (CHead c k u1) t1 t2) (\lambda (H5: (eq T t0 t1)).eq_ind T t1 (\lambda (t: T).(eq T t3 t2) \to (pr0 t t3) \to pr3 (CHead c k u1) t1 t2) (\lambda (H6: (eq T t3 t2)).eq_ind T t2 (\lambda (t: T).(pr0 t1 t) \to pr3 (CHead c k u1) t1 t2) (\lambda (H7: (pr0 t1 t2)).pr3_pr2 (CHead c k u1) t1 t2 (pr2_free (CHead c k u1) t1 t2 H7)) t3 (sym_eq T t3 t2 H6)) t0 (sym_eq T t0 t1 H5)) c0 (sym_eq C c0 (CHead c k u2) H2) H3 H4 H1) | (pr2_delta c0 d u i H1 t0 t3 H2 t H3) \Rightarrow (\lambda (H4: (eq C c0 (CHead c k u2))).\lambda (H5: (eq T t0 t1)).\lambda (H6: (eq T t t2)).eq_ind C (CHead c k u2) (\lambda (c1: C).(eq T t0 t1) \to (eq T t t2) \to (getl i c1 (CHead d (Bind Abbr) u)) \to (pr0 t0 t3) \to (subst0 i u t3 t) \to pr3 (CHead c k u1) t1 t2) (\lambda (H7: (eq T t0 t1)).eq_ind T t1 (\lambda (t4: T).(eq T t t2) \to (getl i (CHead c k u2) (CHead d (Bind Abbr) u)) \to (pr0 t4 t3) \to (subst0 i u t3 t) \to pr3 (CHead c k u1) t1 t2) (\lambda (H8: (eq T t t2)).eq_ind T t2 (\lambda (t4: T).(getl i (CHead c k u2) (CHead d (Bind Abbr) u)) \to (pr0 t1 t3) \to (subst0 i u t3 t4) \to pr3 (CHead c k u1) t1 t2) (\lambda (H9: (getl i (CHead c k u2) (CHead d (Bind Abbr) u))).\lambda (H10: (pr0 t1 t3)).\lambda (H11: (subst0 i u t3 t2)).nat_ind (\lambda (n: nat).(getl n (CHead c k u2) (CHead d (Bind Abbr) u)) \to (subst0 n u t3 t2) \to pr3 (CHead c k u1) t1 t2) (\lambda (H12: (getl O (CHead c k u2) (CHead d (Bind Abbr) u))).\lambda (H13: (subst0 O u t3 t2)).K_ind (\lambda (k: K).(getl O (CHead c k u2) (CHead d (Bind Abbr) u)) \to pr3 (CHead c k u1) t1 t2) (\lambda (b: B).\lambda (H14: (getl O (CHead c (Bind b) u2) (CHead d (Bind Abbr) u))).let H0 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u) (CHead c (Bind b) u2) (clear_gen_bind b c (CHead d (Bind Abbr) u) u2 (getl_gen_O (CHead c (Bind b) u2) (CHead d (Bind Abbr) u) H14)) in (let H15 \def f_equal C B (\lambda (e: C).match e return B with [(CSort _) \Rightarrow Abbr | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (CHead d (Bind Abbr) u) (CHead c (Bind b) u2) (clear_gen_bind b c (CHead d (Bind Abbr) u) u2 (getl_gen_O (CHead c (Bind b) u2) (CHead d (Bind Abbr) u) H14)) in (let H16 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u) (CHead c (Bind b) u2) (clear_gen_bind b c (CHead d (Bind Abbr) u) u2 (getl_gen_O (CHead c (Bind b) u2) (CHead d (Bind Abbr) u) H14)) in \lambda (H17: (eq B Abbr b)).\lambda (_: (eq C d c)).let H19 \def eq_ind T u (\lambda (t: T).subst0 O t t3 t2) H13 u2 H16 in eq_ind B Abbr (\lambda (b0: B).pr3 (CHead c (Bind b0) u1) t1 t2) (ex2_ind T (\lambda (t1: T).subst0 O u1 t3 t1) (\lambda (t1: T).pr0 t1 t2) (pr3 (CHead c (Bind Abbr) u1) t1 t2) (\lambda (x: T).\lambda (H20: (subst0 O u1 t3 x)).\lambda (H21: (pr0 x t2)).pr3_sing (CHead c (Bind Abbr) u1) x t1 (pr2_delta (CHead c (Bind Abbr) u1) c u1 O (getl_refl Abbr c u1) t1 t3 H10 x H20) t2 (pr3_pr2 (CHead c (Bind Abbr) u1) x t2 (pr2_free (CHead c (Bind Abbr) u1) x t2 H21))) (pr0_subst0_back u2 t3 t2 O H19 u1 H)) b H17) H15) H0) (\lambda (f: F).\lambda (H14: (getl O (CHead c (Flat f) u2) (CHead d (Bind Abbr) u))).pr3_pr2 (CHead c (Flat f) u1) t1 t2 (pr2_cflat c t1 t2 (pr2_delta c d u O (getl_intro O c (CHead d (Bind Abbr) u) c (drop_refl c) (clear_gen_flat f c (CHead d (Bind Abbr) u) u2 (getl_gen_O (CHead c (Flat f) u2) (CHead d (Bind Abbr) u) H14))) t1 t3 H10 t2 H13) f u1)) k H12) (\lambda (i0: nat).\lambda (IHi: (((getl i0 (CHead c k u2) (CHead d (Bind Abbr) u)) \to (subst0 i0 u t3 t2) \to pr3 (CHead c k u1) t1 t2))).\lambda (H12: (getl (S i0) (CHead c k u2) (CHead d (Bind Abbr) u))).\lambda (H13: (subst0 (S i0) u t3 t2)).K_ind (\lambda (k: K).(getl (S i0) (CHead c k u2) (CHead d (Bind Abbr) u)) \to (((getl i0 (CHead c k u2) (CHead d (Bind Abbr) u)) \to (subst0 i0 u t3 t2) \to pr3 (CHead c k u1) t1 t2)) \to pr3 (CHead c k u1) t1 t2) (\lambda (b: B).\lambda (H14: (getl (S i0) (CHead c (Bind b) u2) (CHead d (Bind Abbr) u))).\lambda (_: (((getl i0 (CHead c (Bind b) u2) (CHead d (Bind Abbr) u)) \to (subst0 i0 u t3 t2) \to pr3 (CHead c (Bind b) u1) t1 t2))).pr3_pr2 (CHead c (Bind b) u1) t1 t2 (pr2_delta (CHead c (Bind b) u1) d u (S i0) (getl_head (Bind b) i0 c (CHead d (Bind Abbr) u) (getl_gen_S (Bind b) c (CHead d (Bind Abbr) u) u2 i0 H14) u1) t1 t3 H10 t2 H13)) (\lambda (f: F).\lambda (H14: (getl (S i0) (CHead c (Flat f) u2) (CHead d (Bind Abbr) u))).\lambda (_: (((getl i0 (CHead c (Flat f) u2) (CHead d (Bind Abbr) u)) \to (subst0 i0 u t3 t2) \to pr3 (CHead c (Flat f) u1) t1 t2))).pr3_pr2 (CHead c (Flat f) u1) t1 t2 (pr2_cflat c t1 t2 (pr2_delta c d u (r (Flat f) i0) (getl_gen_S (Flat f) c (CHead d (Bind Abbr) u) u2 i0 H14) t1 t3 H10 t2 H13) f u1)) k H12 IHi) i H9 H11) t (sym_eq T t t2 H8)) t0 (sym_eq T t0 t1 H7)) c0 (sym_eq C c0 (CHead c k u2) H4) H5 H6 H1 H2 H3)] in H1 (refl_equal C (CHead c k u2)) (refl_equal T t1) (refl_equal T t2).
+
+theorem pr3_pr2_pr2_t: \forall (c: C).\forall (u1: T).\forall (u2: T).(pr2 c u1 u2) \to \forall (t1: T).\forall (t2: T).\forall (k: K).(pr2 (CHead c k u2) t1 t2) \to pr3 (CHead c k u1) t1 t2 \def \lambda (c: C).\lambda (u1: T).\lambda (u2: T).\lambda (H: (pr2 c u1 u2)).let H0 \def match H return (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).(eq C c0 c) \to (eq T t u1) \to (eq T t0 u2) \to \forall (t1: T).\forall (t2: T).\forall (k: K).(pr2 (CHead c k u2) t1 t2) \to pr3 (CHead c k u1) t1 t2) with [(pr2_free c0 t1 t2 H0) \Rightarrow (\lambda (H1: (eq C c0 c)).\lambda (H2: (eq T t1 u1)).\lambda (H3: (eq T t2 u2)).eq_ind C c (\lambda (_: C).(eq T t1 u1) \to (eq T t2 u2) \to (pr0 t1 t2) \to \forall (t3: T).\forall (t4: T).\forall (k: K).(pr2 (CHead c k u2) t3 t4) \to pr3 (CHead c k u1) t3 t4) (\lambda (H4: (eq T t1 u1)).eq_ind T u1 (\lambda (t: T).(eq T t2 u2) \to (pr0 t t2) \to \forall (t3: T).\forall (t4: T).\forall (k: K).(pr2 (CHead c k u2) t3 t4) \to pr3 (CHead c k u1) t3 t4) (\lambda (H5: (eq T t2 u2)).eq_ind T u2 (\lambda (t: T).(pr0 u1 t) \to \forall (t3: T).\forall (t4: T).\forall (k: K).(pr2 (CHead c k u2) t3 t4) \to pr3 (CHead c k u1) t3 t4) (\lambda (H6: (pr0 u1 u2)).\lambda (t3: T).\lambda (t4: T).\lambda (k: K).\lambda (H: (pr2 (CHead c k u2) t3 t4)).pr3_pr0_pr2_t u1 u2 H6 c t3 t4 k H) t2 (sym_eq T t2 u2 H5)) t1 (sym_eq T t1 u1 H4)) c0 (sym_eq C c0 c H1) H2 H3 H0) | (pr2_delta c0 d u i H0 t1 t2 H1 t H2) \Rightarrow (\lambda (H3: (eq C c0 c)).\lambda (H4: (eq T t1 u1)).\lambda (H5: (eq T t u2)).eq_ind C c (\lambda (c1: C).(eq T t1 u1) \to (eq T t u2) \to (getl i c1 (CHead d (Bind Abbr) u)) \to (pr0 t1 t2) \to (subst0 i u t2 t) \to \forall (t3: T).\forall (t4: T).\forall (k: K).(pr2 (CHead c k u2) t3 t4) \to pr3 (CHead c k u1) t3 t4) (\lambda (H6: (eq T t1 u1)).eq_ind T u1 (\lambda (t0: T).(eq T t u2) \to (getl i c (CHead d (Bind Abbr) u)) \to (pr0 t0 t2) \to (subst0 i u t2 t) \to \forall (t3: T).\forall (t4: T).\forall (k: K).(pr2 (CHead c k u2) t3 t4) \to pr3 (CHead c k u1) t3 t4) (\lambda (H7: (eq T t u2)).eq_ind T u2 (\lambda (t0: T).(getl i c (CHead d (Bind Abbr) u)) \to (pr0 u1 t2) \to (subst0 i u t2 t0) \to \forall (t3: T).\forall (t4: T).\forall (k: K).(pr2 (CHead c k u2) t3 t4) \to pr3 (CHead c k u1) t3 t4) (\lambda (H8: (getl i c (CHead d (Bind Abbr) u))).\lambda (H9: (pr0 u1 t2)).\lambda (H10: (subst0 i u t2 u2)).\lambda (t3: T).\lambda (t0: T).\lambda (k: K).\lambda (H: (pr2 (CHead c k u2) t3 t0)).let H11 \def match H return (\lambda (c0: C).\lambda (t: T).\lambda (t1: T).(eq C c0 (CHead c k u2)) \to (eq T t t3) \to (eq T t1 t0) \to pr3 (CHead c k u1) t3 t0) with [(pr2_free c0 t3 t4 H3) \Rightarrow (\lambda (H4: (eq C c0 (CHead c k u2))).\lambda (H5: (eq T t3 t3)).\lambda (H6: (eq T t4 t0)).eq_ind C (CHead c k u2) (\lambda (_: C).(eq T t3 t3) \to (eq T t4 t0) \to (pr0 t3 t4) \to pr3 (CHead c k u1) t3 t0) (\lambda (H7: (eq T t3 t3)).eq_ind T t3 (\lambda (t: T).(eq T t4 t0) \to (pr0 t t4) \to pr3 (CHead c k u1) t3 t0) (\lambda (H8: (eq T t4 t0)).eq_ind T t0 (\lambda (t: T).(pr0 t3 t) \to pr3 (CHead c k u1) t3 t0) (\lambda (H9: (pr0 t3 t0)).pr3_pr2 (CHead c k u1) t3 t0 (pr2_free (CHead c k u1) t3 t0 H9)) t4 (sym_eq T t4 t0 H8)) t3 (sym_eq T t3 t3 H7)) c0 (sym_eq C c0 (CHead c k u2) H4) H5 H6 H3) | (pr2_delta c0 d0 u0 i0 H3 t3 t4 H4 t H5) \Rightarrow (\lambda (H6: (eq C c0 (CHead c k u2))).\lambda (H7: (eq T t3 t3)).\lambda (H11: (eq T t t0)).eq_ind C (CHead c k u2) (\lambda (c1: C).(eq T t3 t3) \to (eq T t t0) \to (getl i0 c1 (CHead d0 (Bind Abbr) u0)) \to (pr0 t3 t4) \to (subst0 i0 u0 t4 t) \to pr3 (CHead c k u1) t3 t0) (\lambda (H12: (eq T t3 t3)).eq_ind T t3 (\lambda (t1: T).(eq T t t0) \to (getl i0 (CHead c k u2) (CHead d0 (Bind Abbr) u0)) \to (pr0 t1 t4) \to (subst0 i0 u0 t4 t) \to pr3 (CHead c k u1) t3 t0) (\lambda (H13: (eq T t t0)).eq_ind T t0 (\lambda (t1: T).(getl i0 (CHead c k u2) (CHead d0 (Bind Abbr) u0)) \to (pr0 t3 t4) \to (subst0 i0 u0 t4 t1) \to pr3 (CHead c k u1) t3 t0) (\lambda (H14: (getl i0 (CHead c k u2) (CHead d0 (Bind Abbr) u0))).\lambda (H15: (pr0 t3 t4)).\lambda (H16: (subst0 i0 u0 t4 t0)).(match i0 return (\lambda (n: nat).(getl n (CHead c k u2) (CHead d0 (Bind Abbr) u0)) \to (subst0 n u0 t4 t0) \to pr3 (CHead c k u1) t3 t0) with [O \Rightarrow (\lambda (H17: (getl O (CHead c k u2) (CHead d0 (Bind Abbr) u0))).\lambda (H18: (subst0 O u0 t4 t0)).(match k return (\lambda (k: K).(clear (CHead c k u2) (CHead d0 (Bind Abbr) u0)) \to pr3 (CHead c k u1) t3 t0) with [(Bind b) \Rightarrow (\lambda (H19: (clear (CHead c (Bind b) u2) (CHead d0 (Bind Abbr) u0))).let H \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow d0 | (CHead c _ _) \Rightarrow c]) (CHead d0 (Bind Abbr) u0) (CHead c (Bind b) u2) (clear_gen_bind b c (CHead d0 (Bind Abbr) u0) u2 H19) in (let H0 \def f_equal C B (\lambda (e: C).match e return B with [(CSort _) \Rightarrow Abbr | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (CHead d0 (Bind Abbr) u0) (CHead c (Bind b) u2) (clear_gen_bind b c (CHead d0 (Bind Abbr) u0) u2 H19) in (let H1 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u0 | (CHead _ _ t) \Rightarrow t]) (CHead d0 (Bind Abbr) u0) (CHead c (Bind b) u2) (clear_gen_bind b c (CHead d0 (Bind Abbr) u0) u2 H19) in \lambda (H20: (eq B Abbr b)).\lambda (_: (eq C d0 c)).let H22 \def eq_ind T u0 (\lambda (t: T).subst0 O t t4 t0) H18 u2 H1 in eq_ind B Abbr (\lambda (b0: B).pr3 (CHead c (Bind b0) u1) t3 t0) (ex2_ind T (\lambda (t0: T).subst0 O t2 t4 t0) (\lambda (t1: T).subst0 (S (plus i O)) u t1 t0) (pr3 (CHead c (Bind Abbr) u1) t3 t0) (\lambda (x: T).\lambda (H2: (subst0 O t2 t4 x)).\lambda (H10: (subst0 (S (plus i O)) u x t0)).let H23 \def f_equal nat nat S (plus i O) i (sym_eq nat i (plus i O) (plus_n_O i)) in let H24 \def eq_ind nat (S (plus i O)) (\lambda (n: nat).subst0 n u x t0) H10 (S i) H23 in ex2_ind T (\lambda (t0: T).subst0 O u1 t4 t0) (\lambda (t0: T).pr0 t0 x) (pr3 (CHead c (Bind Abbr) u1) t3 t0) (\lambda (x0: T).\lambda (H9: (subst0 O u1 t4 x0)).\lambda (H25: (pr0 x0 x)).pr3_sing (CHead c (Bind Abbr) u1) x0 t3 (pr2_delta (CHead c (Bind Abbr) u1) c u1 O (getl_refl Abbr c u1) t3 t4 H15 x0 H9) t0 (pr3_pr2 (CHead c (Bind Abbr) u1) x0 t0 (pr2_delta (CHead c (Bind Abbr) u1) d u (S i) (getl_clear_bind Abbr (CHead c (Bind Abbr) u1) c u1 (clear_bind Abbr c u1) (CHead d (Bind Abbr) u) i H8) x0 x H25 t0 H24))) (pr0_subst0_back t2 t4 x O H2 u1 H9)) (subst0_subst0 t4 t0 u2 O H22 t2 u i H10)) b H20) H0) H) | (Flat f) \Rightarrow (\lambda (H8: (clear (CHead c (Flat f) u2) (CHead d0 (Bind Abbr) u0))).pr3_pr2 (CHead c (Flat f) u1) t3 t0 (pr2_cflat c t3 t0 (pr2_delta c d0 u0 O (getl_intro O c (CHead d0 (Bind Abbr) u0) c (drop_refl c) (clear_gen_flat f c (CHead d0 (Bind Abbr) u0) u2 H8)) t3 t4 H15 t0 H18) f u1))]) (getl_gen_O (CHead c k u2) (CHead d0 (Bind Abbr) u0) H17)) | (S n) \Rightarrow (\lambda (H8: (getl (S n) (CHead c k u2) (CHead d0 (Bind Abbr) u0))).\lambda (H9: (subst0 (S n) u0 t4 t0)).(match k return (\lambda (k: K).(getl (S n) (CHead c k u2) (CHead d0 (Bind Abbr) u0)) \to pr3 (CHead c k u1) t3 t0) with [(Bind b) \Rightarrow (\lambda (H10: (getl (S n) (CHead c (Bind b) u2) (CHead d0 (Bind Abbr) u0))).pr3_pr2 (CHead c (Bind b) u1) t3 t0 (pr2_delta (CHead c (Bind b) u1) d0 u0 (S n) (getl_head (Bind b) n c (CHead d0 (Bind Abbr) u0) (getl_gen_S (Bind b) c (CHead d0 (Bind Abbr) u0) u2 n H10) u1) t3 t4 H15 t0 H9)) | (Flat f) \Rightarrow (\lambda (H10: (getl (S n) (CHead c (Flat f) u2) (CHead d0 (Bind Abbr) u0))).pr3_pr2 (CHead c (Flat f) u1) t3 t0 (pr2_cflat c t3 t0 (pr2_delta c d0 u0 (r (Flat f) n) (getl_gen_S (Flat f) c (CHead d0 (Bind Abbr) u0) u2 n H10) t3 t4 H15 t0 H9) f u1))]) H8)]) H14 H16) t (sym_eq T t t0 H13)) t3 (sym_eq T t3 t3 H12)) c0 (sym_eq C c0 (CHead c k u2) H6) H7 H11 H3 H4 H5)] in H11 (refl_equal C (CHead c k u2)) (refl_equal T t3) (refl_equal T t0)) t (sym_eq T t u2 H7)) t1 (sym_eq T t1 u1 H6)) c0 (sym_eq C c0 c H3) H4 H5 H0 H1 H2)] in H0 (refl_equal C c) (refl_equal T u1) (refl_equal T u2).
+
+theorem pr3_pr2_pr3_t: \forall (c: C).\forall (u2: T).\forall (t1: T).\forall (t2: T).\forall (k: K).(pr3 (CHead c k u2) t1 t2) \to \forall (u1: T).(pr2 c u1 u2) \to pr3 (CHead c k u1) t1 t2 \def \lambda (c: C).\lambda (u2: T).\lambda (t1: T).\lambda (t2: T).\lambda (k: K).\lambda (H: (pr3 (CHead c k u2) t1 t2)).pr3_ind (CHead c k u2) (\lambda (t: T).\lambda (t0: T).\forall (u1: T).(pr2 c u1 u2) \to pr3 (CHead c k u1) t t0) (\lambda (t: T).\lambda (u1: T).\lambda (_: (pr2 c u1 u2)).pr3_refl (CHead c k u1) t) (\lambda (t0: T).\lambda (t3: T).\lambda (H0: (pr2 (CHead c k u2) t3 t0)).\lambda (t4: T).\lambda (_: (pr3 (CHead c k u2) t0 t4)).\lambda (H2: ((\forall (u1: T).(pr2 c u1 u2) \to pr3 (CHead c k u1) t0 t4))).\lambda (u1: T).\lambda (H3: (pr2 c u1 u2)).pr3_t t0 t3 (CHead c k u1) (pr3_pr2_pr2_t c u1 u2 H3 t3 t0 k H0) t4 (H2 u1 H3)) t1 t2 H.
+
+theorem pr3_pr3_pr3_t: \forall (c: C).\forall (u1: T).\forall (u2: T).(pr3 c u1 u2) \to \forall (t1: T).\forall (t2: T).\forall (k: K).(pr3 (CHead c k u2) t1 t2) \to pr3 (CHead c k u1) t1 t2 \def \lambda (c: C).\lambda (u1: T).\lambda (u2: T).\lambda (H: (pr3 c u1 u2)).pr3_ind c (\lambda (t: T).\lambda (t0: T).\forall (t1: T).\forall (t2: T).\forall (k: K).(pr3 (CHead c k t0) t1 t2) \to pr3 (CHead c k t) t1 t2) (\lambda (t: T).\lambda (t1: T).\lambda (t2: T).\lambda (k: K).\lambda (H0: (pr3 (CHead c k t) t1 t2)).H0) (\lambda (t2: T).\lambda (t1: T).\lambda (H0: (pr2 c t1 t2)).\lambda (t3: T).\lambda (_: (pr3 c t2 t3)).\lambda (H2: ((\forall (t1: T).\forall (t4: T).\forall (k: K).(pr3 (CHead c k t3) t1 t4) \to pr3 (CHead c k t2) t1 t4))).\lambda (t0: T).\lambda (t4: T).\lambda (k: K).\lambda (H3: (pr3 (CHead c k t3) t0 t4)).pr3_pr2_pr3_t c t2 t0 t4 k (H2 t0 t4 k H3) t1 H0) u1 u2 H.
+
+theorem pr3_lift: \forall (c: C).\forall (e: C).\forall (h: nat).\forall (d: nat).(drop h d c e) \to \forall (t1: T).\forall (t2: T).(pr3 e t1 t2) \to pr3 c (lift h d t1) (lift h d t2) \def \lambda (c: C).\lambda (e: C).\lambda (h: nat).\lambda (d: nat).\lambda (H: (drop h d c e)).\lambda (t1: T).\lambda (t2: T).\lambda (H0: (pr3 e t1 t2)).pr3_ind e (\lambda (t: T).\lambda (t0: T).pr3 c (lift h d t) (lift h d t0)) (\lambda (t: T).pr3_refl c (lift h d t)) (\lambda (t0: T).\lambda (t3: T).\lambda (H1: (pr2 e t3 t0)).\lambda (t4: T).\lambda (_: (pr3 e t0 t4)).\lambda (H3: (pr3 c (lift h d t0) (lift h d t4))).pr3_sing c (lift h d t0) (lift h d t3) (pr2_lift c e h d H t3 t0 H1) (lift h d t4) H3) t1 t2 H0.
+
+theorem pr3_wcpr0_t: \forall (c1: C).\forall (c2: C).(wcpr0 c2 c1) \to \forall (t1: T).\forall (t2: T).(pr3 c1 t1 t2) \to pr3 c2 t1 t2 \def \lambda (c1: C).\lambda (c2: C).\lambda (H: (wcpr0 c2 c1)).wcpr0_ind (\lambda (c: C).\lambda (c0: C).\forall (t1: T).\forall (t2: T).(pr3 c0 t1 t2) \to pr3 c t1 t2) (\lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H0: (pr3 c t1 t2)).H0) (\lambda (c0: C).\lambda (c3: C).\lambda (H0: (wcpr0 c0 c3)).\lambda (_: ((\forall (t1: T).\forall (t2: T).(pr3 c3 t1 t2) \to pr3 c0 t1 t2))).\lambda (u1: T).\lambda (u2: T).\lambda (H2: (pr0 u1 u2)).\lambda (k: K).\lambda (t1: T).\lambda (t2: T).\lambda (H3: (pr3 (CHead c3 k u2) t1 t2)).pr3_ind (CHead c3 k u1) (\lambda (t: T).\lambda (t0: T).pr3 (CHead c0 k u1) t t0) (\lambda (t: T).pr3_refl (CHead c0 k u1) t) (\lambda (t0: T).\lambda (t3: T).\lambda (H4: (pr2 (CHead c3 k u1) t3 t0)).\lambda (t4: T).\lambda (_: (pr3 (CHead c3 k u1) t0 t4)).\lambda (H6: (pr3 (CHead c0 k u1) t0 t4)).pr3_t t0 t3 (CHead c0 k u1) (let H7 \def match H4 return (\lambda (c: C).\lambda (t: T).\lambda (t1: T).(eq C c (CHead c3 k u1)) \to (eq T t t3) \to (eq T t1 t0) \to pr3 (CHead c0 k u1) t3 t0) with [(pr2_free c t1 t2 H2) \Rightarrow (\lambda (H3: (eq C c (CHead c3 k u1))).\lambda (H4: (eq T t1 t3)).\lambda (H5: (eq T t2 t0)).eq_ind C (CHead c3 k u1) (\lambda (_: C).(eq T t1 t3) \to (eq T t2 t0) \to (pr0 t1 t2) \to pr3 (CHead c0 k u1) t3 t0) (\lambda (H6: (eq T t1 t3)).eq_ind T t3 (\lambda (t: T).(eq T t2 t0) \to (pr0 t t2) \to pr3 (CHead c0 k u1) t3 t0) (\lambda (H7: (eq T t2 t0)).eq_ind T t0 (\lambda (t: T).(pr0 t3 t) \to pr3 (CHead c0 k u1) t3 t0) (\lambda (H8: (pr0 t3 t0)).pr3_pr2 (CHead c0 k u1) t3 t0 (pr2_free (CHead c0 k u1) t3 t0 H8)) t2 (sym_eq T t2 t0 H7)) t1 (sym_eq T t1 t3 H6)) c (sym_eq C c (CHead c3 k u1) H3) H4 H5 H2) | (pr2_delta c d u i H2 t1 t2 H3 t H4) \Rightarrow (\lambda (H5: (eq C c (CHead c3 k u1))).\lambda (H6: (eq T t1 t3)).\lambda (H7: (eq T t t0)).eq_ind C (CHead c3 k u1) (\lambda (c1: C).(eq T t1 t3) \to (eq T t t0) \to (getl i c1 (CHead d (Bind Abbr) u)) \to (pr0 t1 t2) \to (subst0 i u t2 t) \to pr3 (CHead c0 k u1) t3 t0) (\lambda (H8: (eq T t1 t3)).eq_ind T t3 (\lambda (t4: T).(eq T t t0) \to (getl i (CHead c3 k u1) (CHead d (Bind Abbr) u)) \to (pr0 t4 t2) \to (subst0 i u t2 t) \to pr3 (CHead c0 k u1) t3 t0) (\lambda (H9: (eq T t t0)).eq_ind T t0 (\lambda (t4: T).(getl i (CHead c3 k u1) (CHead d (Bind Abbr) u)) \to (pr0 t3 t2) \to (subst0 i u t2 t4) \to pr3 (CHead c0 k u1) t3 t0) (\lambda (H10: (getl i (CHead c3 k u1) (CHead d (Bind Abbr) u))).\lambda (H11: (pr0 t3 t2)).\lambda (H12: (subst0 i u t2 t0)).ex3_2_ind C T (\lambda (e2: C).\lambda (u2: T).getl i (CHead c0 k u1) (CHead e2 (Bind Abbr) u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 e2 d) (\lambda (_: C).\lambda (u2: T).pr0 u2 u) (pr3 (CHead c0 k u1) t3 t0) (\lambda (x0: C).\lambda (x1: T).\lambda (H1: (getl i (CHead c0 k u1) (CHead x0 (Bind Abbr) x1))).\lambda (_: (wcpr0 x0 d)).\lambda (H14: (pr0 x1 u)).ex2_ind T (\lambda (t0: T).subst0 i x1 t2 t0) (\lambda (t3: T).pr0 t3 t0) (pr3 (CHead c0 k u1) t3 t0) (\lambda (x: T).\lambda (H15: (subst0 i x1 t2 x)).\lambda (H16: (pr0 x t0)).pr3_sing (CHead c0 k u1) x t3 (pr2_delta (CHead c0 k u1) x0 x1 i H1 t3 t2 H11 x H15) t0 (pr3_pr2 (CHead c0 k u1) x t0 (pr2_free (CHead c0 k u1) x t0 H16))) (pr0_subst0_back u t2 t0 i H12 x1 H14)) (wcpr0_getl_back (CHead c3 k u1) (CHead c0 k u1) (wcpr0_comp c0 c3 H0 u1 u1 (pr0_refl u1) k) i d u (Bind Abbr) H10)) t (sym_eq T t t0 H9)) t1 (sym_eq T t1 t3 H8)) c (sym_eq C c (CHead c3 k u1) H5) H6 H7 H2 H3 H4)] in H7 (refl_equal C (CHead c3 k u1)) (refl_equal T t3) (refl_equal T t0)) t4 H6) t1 t2 (pr3_pr2_pr3_t c3 u2 t1 t2 k H3 u1 (pr2_free c3 u1 u2 H2))) c2 c1 H.
+
+theorem pr3_gen_lift: \forall (c: C).\forall (t1: T).\forall (x: T).\forall (h: nat).\forall (d: nat).(pr3 c (lift h d t1) x) \to \forall (e: C).(drop h d c e) \to ex2 T (\lambda (t2: T).eq T x (lift h d t2)) (\lambda (t2: T).pr3 e t1 t2) \def \lambda (c: C).\lambda (t1: T).\lambda (x: T).\lambda (h: nat).\lambda (d: nat).\lambda (H: (pr3 c (lift h d t1) x)).insert_eq T (lift h d t1) (\lambda (t: T).pr3 c t x) (\forall (e: C).(drop h d c e) \to ex2 T (\lambda (t2: T).eq T x (lift h d t2)) (\lambda (t2: T).pr3 e t1 t2)) (\lambda (y: T).\lambda (H0: (pr3 c y x)).unintro T t1 (\lambda (t: T).(eq T y (lift h d t)) \to \forall (e: C).(drop h d c e) \to ex2 T (\lambda (t2: T).eq T x (lift h d t2)) (\lambda (t2: T).pr3 e t t2)) (pr3_ind c (\lambda (t: T).\lambda (t0: T).\forall (x0: T).(eq T t (lift h d x0)) \to \forall (e: C).(drop h d c e) \to ex2 T (\lambda (t2: T).eq T t0 (lift h d t2)) (\lambda (t2: T).pr3 e x0 t2)) (\lambda (t: T).\lambda (x0: T).\lambda (H1: (eq T t (lift h d x0))).\lambda (e: C).\lambda (_: (drop h d c e)).ex_intro2 T (\lambda (t2: T).eq T t (lift h d t2)) (\lambda (t2: T).pr3 e x0 t2) x0 H1 (pr3_refl e x0)) (\lambda (t2: T).\lambda (t3: T).\lambda (H1: (pr2 c t3 t2)).\lambda (t4: T).\lambda (_: (pr3 c t2 t4)).\lambda (H3: ((\forall (x: T).(eq T t2 (lift h d x)) \to \forall (e: C).(drop h d c e) \to ex2 T (\lambda (t2: T).eq T t4 (lift h d t2)) (\lambda (t2: T).pr3 e x t2)))).\lambda (x0: T).\lambda (H4: (eq T t3 (lift h d x0))).\lambda (e: C).\lambda (H5: (drop h d c e)).let H6 \def eq_ind T t3 (\lambda (t: T).pr2 c t t2) H1 (lift h d x0) H4 in let H7 \def pr2_gen_lift c x0 t2 h d H6 e H5 in ex2_ind T (\lambda (t5: T).eq T t2 (lift h d t5)) (\lambda (t5: T).pr2 e x0 t5) (ex2 T (\lambda (t5: T).eq T t4 (lift h d t5)) (\lambda (t5: T).pr3 e x0 t5)) (\lambda (x1: T).\lambda (H8: (eq T t2 (lift h d x1))).\lambda (H9: (pr2 e x0 x1)).ex2_ind T (\lambda (t5: T).eq T t4 (lift h d t5)) (\lambda (t5: T).pr3 e x1 t5) (ex2 T (\lambda (t5: T).eq T t4 (lift h d t5)) (\lambda (t5: T).pr3 e x0 t5)) (\lambda (x2: T).\lambda (H10: (eq T t4 (lift h d x2))).\lambda (H11: (pr3 e x1 x2)).ex_intro2 T (\lambda (t5: T).eq T t4 (lift h d t5)) (\lambda (t5: T).pr3 e x0 t5) x2 H10 (pr3_sing e x1 x0 H9 x2 H11)) (H3 x1 H8 e H5)) H7) y x H0)) H.
+
+theorem pr3_gen_lref: \forall (c: C).\forall (x: T).\forall (n: nat).(pr3 c (TLRef n) x) \to or (eq T x (TLRef n)) (ex3_3 C T T (\lambda (d: C).\lambda (u: T).\lambda (_: T).getl n c (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).\lambda (v: T).pr3 d u v) (\lambda (_: C).\lambda (_: T).\lambda (v: T).eq T x (lift (S n) O v))) \def \lambda (c: C).\lambda (x: T).\lambda (n: nat).\lambda (H: (pr3 c (TLRef n) x)).insert_eq T (TLRef n) (\lambda (t: T).pr3 c t x) (or (eq T x (TLRef n)) (ex3_3 C T T (\lambda (d: C).\lambda (u: T).\lambda (_: T).getl n c (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).\lambda (v: T).pr3 d u v) (\lambda (_: C).\lambda (_: T).\lambda (v: T).eq T x (lift (S n) O v)))) (\lambda (y: T).\lambda (H0: (pr3 c y x)).pr3_ind c (\lambda (t: T).\lambda (t0: T).(eq T t (TLRef n)) \to or (eq T t0 (TLRef n)) (ex3_3 C T T (\lambda (d: C).\lambda (u: T).\lambda (_: T).getl n c (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).\lambda (v: T).pr3 d u v) (\lambda (_: C).\lambda (_: T).\lambda (v: T).eq T t0 (lift (S n) O v)))) (\lambda (t: T).\lambda (H1: (eq T t (TLRef n))).or_introl (eq T t (TLRef n)) (ex3_3 C T T (\lambda (d: C).\lambda (u: T).\lambda (_: T).getl n c (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).\lambda (v: T).pr3 d u v) (\lambda (_: C).\lambda (_: T).\lambda (v: T).eq T t (lift (S n) O v))) H1) (\lambda (t2: T).\lambda (t1: T).\lambda (H1: (pr2 c t1 t2)).\lambda (t3: T).\lambda (H2: (pr3 c t2 t3)).\lambda (H3: (((eq T t2 (TLRef n)) \to or (eq T t3 (TLRef n)) (ex3_3 C T T (\lambda (d: C).\lambda (u: T).\lambda (_: T).getl n c (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).\lambda (v: T).pr3 d u v) (\lambda (_: C).\lambda (_: T).\lambda (v: T).eq T t3 (lift (S n) O v)))))).\lambda (H4: (eq T t1 (TLRef n))).let H5 \def eq_ind T t1 (\lambda (t: T).pr2 c t t2) H1 (TLRef n) H4 in let H6 \def pr2_gen_lref c t2 n H5 in or_ind (eq T t2 (TLRef n)) (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl n c (CHead d (Bind Abbr) u)) (\lambda (_: C).\lambda (u: T).eq T t2 (lift (S n) O u))) (or (eq T t3 (TLRef n)) (ex3_3 C T T (\lambda (d: C).\lambda (u: T).\lambda (_: T).getl n c (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).\lambda (v: T).pr3 d u v) (\lambda (_: C).\lambda (_: T).\lambda (v: T).eq T t3 (lift (S n) O v)))) (\lambda (H7: (eq T t2 (TLRef n))).H3 H7) (\lambda (H7: (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl n c (CHead d (Bind Abbr) u)) (\lambda (_: C).\lambda (u: T).eq T t2 (lift (S n) O u)))).ex2_2_ind C T (\lambda (d: C).\lambda (u: T).getl n c (CHead d (Bind Abbr) u)) (\lambda (_: C).\lambda (u: T).eq T t2 (lift (S n) O u)) (or (eq T t3 (TLRef n)) (ex3_3 C T T (\lambda (d: C).\lambda (u: T).\lambda (_: T).getl n c (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).\lambda (v: T).pr3 d u v) (\lambda (_: C).\lambda (_: T).\lambda (v: T).eq T t3 (lift (S n) O v)))) (\lambda (x0: C).\lambda (x1: T).\lambda (H8: (getl n c (CHead x0 (Bind Abbr) x1))).\lambda (H9: (eq T t2 (lift (S n) O x1))).let H10 \def eq_ind T t2 (\lambda (t: T).pr3 c t t3) H2 (lift (S n) O x1) H9 in let H11 \def pr3_gen_lift c x1 t3 (S n) O H10 x0 (getl_drop Abbr c x0 x1 n H8) in ex2_ind T (\lambda (t4: T).eq T t3 (lift (S n) O t4)) (\lambda (t4: T).pr3 x0 x1 t4) (or (eq T t3 (TLRef n)) (ex3_3 C T T (\lambda (d: C).\lambda (u: T).\lambda (_: T).getl n c (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).\lambda (v: T).pr3 d u v) (\lambda (_: C).\lambda (_: T).\lambda (v: T).eq T t3 (lift (S n) O v)))) (\lambda (x2: T).\lambda (H12: (eq T t3 (lift (S n) O x2))).\lambda (H13: (pr3 x0 x1 x2)).or_intror (eq T t3 (TLRef n)) (ex3_3 C T T (\lambda (d: C).\lambda (u: T).\lambda (_: T).getl n c (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).\lambda (v: T).pr3 d u v) (\lambda (_: C).\lambda (_: T).\lambda (v: T).eq T t3 (lift (S n) O v))) (ex3_3_intro C T T (\lambda (d: C).\lambda (u: T).\lambda (_: T).getl n c (CHead d (Bind Abbr) u)) (\lambda (d: C).\lambda (u: T).\lambda (v: T).pr3 d u v) (\lambda (_: C).\lambda (_: T).\lambda (v: T).eq T t3 (lift (S n) O v)) x0 x1 x2 H8 H13 H12)) H11) H7) H6) y x H0) H.
+
+theorem pr3_gen_void: \forall (c: C).\forall (u1: T).\forall (t1: T).\forall (x: T).(pr3 c (THead (Bind Void) u1 t1) x) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Void) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c u1 u2) (\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) t1 t2)) (pr3 (CHead c (Bind Void) u1) t1 (lift (S O) O x)) \def \lambda (c: C).\lambda (u1: T).\lambda (t1: T).\lambda (x: T).\lambda (H: (pr3 c (THead (Bind Void) u1 t1) x)).insert_eq T (THead (Bind Void) u1 t1) (\lambda (t: T).pr3 c t x) (or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Void) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c u1 u2) (\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) t1 t2)) (pr3 (CHead c (Bind Void) u1) t1 (lift (S O) O x))) (\lambda (y: T).\lambda (H0: (pr3 c y x)).unintro T t1 (\lambda (t: T).(eq T y (THead (Bind Void) u1 t)) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Void) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c u1 u2) (\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) t t2)) (pr3 (CHead c (Bind Void) u1) t (lift (S O) O x))) (unintro T u1 (\lambda (t: T).\forall (x0: T).(eq T y (THead (Bind Void) t x0)) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Void) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c t u2) (\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x0 t2)) (pr3 (CHead c (Bind Void) t) x0 (lift (S O) O x))) (pr3_ind c (\lambda (t: T).\lambda (t0: T).\forall (x0: T).\forall (x1: T).(eq T t (THead (Bind Void) x0 x1)) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t0 (THead (Bind Void) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x1 t2)) (pr3 (CHead c (Bind Void) x0) x1 (lift (S O) O t0))) (\lambda (t: T).\lambda (x0: T).\lambda (x1: T).\lambda (H1: (eq T t (THead (Bind Void) x0 x1))).eq_ind_r T (THead (Bind Void) x0 x1) (\lambda (t0: T).or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t0 (THead (Bind Void) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x1 t2)) (pr3 (CHead c (Bind Void) x0) x1 (lift (S O) O t0))) (or_introl (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T (THead (Bind Void) x0 x1) (THead (Bind Void) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x1 t2)) (pr3 (CHead c (Bind Void) x0) x1 (lift (S O) O (THead (Bind Void) x0 x1))) (ex3_2_intro T T (\lambda (u2: T).\lambda (t2: T).eq T (THead (Bind Void) x0 x1) (THead (Bind Void) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x1 t2) x0 x1 (refl_equal T (THead (Bind Void) x0 x1)) (pr3_refl c x0) (\lambda (b: B).\lambda (u: T).pr3_refl (CHead c (Bind b) u) x1))) t H1) (\lambda (t2: T).\lambda (t3: T).\lambda (H1: (pr2 c t3 t2)).\lambda (t4: T).\lambda (H2: (pr3 c t2 t4)).\lambda (H3: ((\forall (x: T).\forall (x0: T).(eq T t2 (THead (Bind Void) x x0)) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t4 (THead (Bind Void) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x u2) (\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x0 t2)) (pr3 (CHead c (Bind Void) x) x0 (lift (S O) O t4))))).\lambda (x0: T).\lambda (x1: T).\lambda (H4: (eq T t3 (THead (Bind Void) x0 x1))).let H5 \def eq_ind T t3 (\lambda (t: T).pr2 c t t2) H1 (THead (Bind Void) x0 x1) H4 in let H6 \def pr2_gen_void c x0 x1 t2 H5 in or_ind (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t2 (THead (Bind Void) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr2 c x0 u2) (\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) x1 t5)) (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) x1 (lift (S O) O t2)) (or (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Void) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x1 t5)) (pr3 (CHead c (Bind Void) x0) x1 (lift (S O) O t4))) (\lambda (H7: (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Void) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c x0 u2) (\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) x1 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t5: T).eq T t2 (THead (Bind Void) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr2 c x0 u2) (\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) x1 t5) (or (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Void) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x1 t5)) (pr3 (CHead c (Bind Void) x0) x1 (lift (S O) O t4))) (\lambda (x2: T).\lambda (x3: T).\lambda (H8: (eq T t2 (THead (Bind Void) x2 x3))).\lambda (H9: (pr2 c x0 x2)).\lambda (H10: ((\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) x1 x3))).let H11 \def eq_ind T t2 (\lambda (t: T).\forall (x: T).\forall (x0: T).(eq T t (THead (Bind Void) x x0)) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t4 (THead (Bind Void) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x u2) (\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x0 t2)) (pr3 (CHead c (Bind Void) x) x0 (lift (S O) O t4))) H3 (THead (Bind Void) x2 x3) H8 in let H12 \def H11 x2 x3 (refl_equal T (THead (Bind Void) x2 x3)) in or_ind (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Void) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x2 u2) (\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x3 t5)) (pr3 (CHead c (Bind Void) x2) x3 (lift (S O) O t4)) (or (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Void) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x1 t5)) (pr3 (CHead c (Bind Void) x0) x1 (lift (S O) O t4))) (\lambda (H13: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t4 (THead (Bind Void) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x2 u2) (\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x3 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Void) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x2 u2) (\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x3 t5) (or (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Void) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x1 t5)) (pr3 (CHead c (Bind Void) x0) x1 (lift (S O) O t4))) (\lambda (x4: T).\lambda (x5: T).\lambda (H14: (eq T t4 (THead (Bind Void) x4 x5))).\lambda (H15: (pr3 c x2 x4)).\lambda (H16: ((\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x3 x5))).or_introl (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Void) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x1 t5)) (pr3 (CHead c (Bind Void) x0) x1 (lift (S O) O t4)) (ex3_2_intro T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Void) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x1 t5) x4 x5 H14 (pr3_sing c x2 x0 H9 x4 H15) (\lambda (b: B).\lambda (u: T).pr3_sing (CHead c (Bind b) u) x3 x1 (H10 b u) x5 (H16 b u)))) H13) (\lambda (H13: (pr3 (CHead c (Bind Void) x2) x3 (lift (S O) O t4))).or_intror (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Void) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x1 t5)) (pr3 (CHead c (Bind Void) x0) x1 (lift (S O) O t4)) (pr3_sing (CHead c (Bind Void) x0) x3 x1 (H10 Void x0) (lift (S O) O t4) (pr3_pr2_pr3_t c x2 x3 (lift (S O) O t4) (Bind Void) H13 x0 H9))) H12) H7) (\lambda (H7: ((\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) x1 (lift (S O) O t2)))).or_intror (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Void) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x1 t5)) (pr3 (CHead c (Bind Void) x0) x1 (lift (S O) O t4)) (pr3_sing (CHead c (Bind Void) x0) (lift (S O) O t2) x1 (H7 Void x0) (lift (S O) O t4) (pr3_lift (CHead c (Bind Void) x0) c (S O) O (drop_drop (Bind Void) O c c (drop_refl c) x0) t2 t4 H2))) H6) y x H0))) H.
+
+theorem pr3_gen_abbr: \forall (c: C).\forall (u1: T).\forall (t1: T).\forall (x: T).(pr3 c (THead (Bind Abbr) u1 t1) x) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Abbr) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c u1 u2) (\lambda (_: T).\lambda (t2: T).pr3 (CHead c (Bind Abbr) u1) t1 t2)) (pr3 (CHead c (Bind Abbr) u1) t1 (lift (S O) O x)) \def \lambda (c: C).\lambda (u1: T).\lambda (t1: T).\lambda (x: T).\lambda (H: (pr3 c (THead (Bind Abbr) u1 t1) x)).insert_eq T (THead (Bind Abbr) u1 t1) (\lambda (t: T).pr3 c t x) (or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Abbr) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c u1 u2) (\lambda (_: T).\lambda (t2: T).pr3 (CHead c (Bind Abbr) u1) t1 t2)) (pr3 (CHead c (Bind Abbr) u1) t1 (lift (S O) O x))) (\lambda (y: T).\lambda (H0: (pr3 c y x)).unintro T t1 (\lambda (t: T).(eq T y (THead (Bind Abbr) u1 t)) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Abbr) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c u1 u2) (\lambda (_: T).\lambda (t2: T).pr3 (CHead c (Bind Abbr) u1) t t2)) (pr3 (CHead c (Bind Abbr) u1) t (lift (S O) O x))) (unintro T u1 (\lambda (t: T).\forall (x0: T).(eq T y (THead (Bind Abbr) t x0)) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Abbr) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c t u2) (\lambda (_: T).\lambda (t2: T).pr3 (CHead c (Bind Abbr) t) x0 t2)) (pr3 (CHead c (Bind Abbr) t) x0 (lift (S O) O x))) (pr3_ind c (\lambda (t: T).\lambda (t0: T).\forall (x0: T).\forall (x1: T).(eq T t (THead (Bind Abbr) x0 x1)) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t0 (THead (Bind Abbr) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t2: T).pr3 (CHead c (Bind Abbr) x0) x1 t2)) (pr3 (CHead c (Bind Abbr) x0) x1 (lift (S O) O t0))) (\lambda (t: T).\lambda (x0: T).\lambda (x1: T).\lambda (H1: (eq T t (THead (Bind Abbr) x0 x1))).eq_ind_r T (THead (Bind Abbr) x0 x1) (\lambda (t0: T).or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t0 (THead (Bind Abbr) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t2: T).pr3 (CHead c (Bind Abbr) x0) x1 t2)) (pr3 (CHead c (Bind Abbr) x0) x1 (lift (S O) O t0))) (or_introl (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T (THead (Bind Abbr) x0 x1) (THead (Bind Abbr) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t2: T).pr3 (CHead c (Bind Abbr) x0) x1 t2)) (pr3 (CHead c (Bind Abbr) x0) x1 (lift (S O) O (THead (Bind Abbr) x0 x1))) (ex3_2_intro T T (\lambda (u2: T).\lambda (t2: T).eq T (THead (Bind Abbr) x0 x1) (THead (Bind Abbr) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t2: T).pr3 (CHead c (Bind Abbr) x0) x1 t2) x0 x1 (refl_equal T (THead (Bind Abbr) x0 x1)) (pr3_refl c x0) (pr3_refl (CHead c (Bind Abbr) x0) x1))) t H1) (\lambda (t2: T).\lambda (t3: T).\lambda (H1: (pr2 c t3 t2)).\lambda (t4: T).\lambda (H2: (pr3 c t2 t4)).\lambda (H3: ((\forall (x: T).\forall (x0: T).(eq T t2 (THead (Bind Abbr) x x0)) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t4 (THead (Bind Abbr) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x u2) (\lambda (_: T).\lambda (t2: T).pr3 (CHead c (Bind Abbr) x) x0 t2)) (pr3 (CHead c (Bind Abbr) x) x0 (lift (S O) O t4))))).\lambda (x0: T).\lambda (x1: T).\lambda (H4: (eq T t3 (THead (Bind Abbr) x0 x1))).let H5 \def eq_ind T t3 (\lambda (t: T).pr2 c t t2) H1 (THead (Bind Abbr) x0 x1) H4 in let H6 \def pr2_gen_abbr c x0 x1 t2 H5 in or_ind (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t2 (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr2 c x0 u2) (\lambda (_: T).\lambda (t5: T).or3 (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) x1 t5) (ex2 T (\lambda (u: T).pr0 x0 u) (\lambda (u: T).pr2 (CHead c (Bind Abbr) u) x1 t5)) (ex3_2 T T (\lambda (y0: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) x0) x1 y0) (\lambda (y0: T).\lambda (z: T).pr0 y0 z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) x0) z t5)))) (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) x1 (lift (S O) O t2)) (or (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 (CHead c (Bind Abbr) x0) x1 t5)) (pr3 (CHead c (Bind Abbr) x0) x1 (lift (S O) O t4))) (\lambda (H7: (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Abbr) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c x0 u2) (\lambda (_: T).\lambda (t2: T).or3 (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) x1 t2) (ex2 T (\lambda (u: T).pr0 x0 u) (\lambda (u: T).pr2 (CHead c (Bind Abbr) u) x1 t2)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) x0) x1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) x0) z t2))))).ex3_2_ind T T (\lambda (u2: T).\lambda (t5: T).eq T t2 (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr2 c x0 u2) (\lambda (_: T).\lambda (t5: T).or3 (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) x1 t5) (ex2 T (\lambda (u: T).pr0 x0 u) (\lambda (u: T).pr2 (CHead c (Bind Abbr) u) x1 t5)) (ex3_2 T T (\lambda (y0: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) x0) x1 y0) (\lambda (y0: T).\lambda (z: T).pr0 y0 z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) x0) z t5))) (or (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 (CHead c (Bind Abbr) x0) x1 t5)) (pr3 (CHead c (Bind Abbr) x0) x1 (lift (S O) O t4))) (\lambda (x2: T).\lambda (x3: T).\lambda (H8: (eq T t2 (THead (Bind Abbr) x2 x3))).\lambda (H9: (pr2 c x0 x2)).\lambda (H10: (or3 (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) x1 x3) (ex2 T (\lambda (u: T).pr0 x0 u) (\lambda (u: T).pr2 (CHead c (Bind Abbr) u) x1 x3)) (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) x0) x1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) x0) z x3)))).or3_ind (\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) x1 x3) (ex2 T (\lambda (u: T).pr0 x0 u) (\lambda (u: T).pr2 (CHead c (Bind Abbr) u) x1 x3)) (ex3_2 T T (\lambda (y0: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) x0) x1 y0) (\lambda (y0: T).\lambda (z: T).pr0 y0 z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) x0) z x3)) (or (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 (CHead c (Bind Abbr) x0) x1 t5)) (pr3 (CHead c (Bind Abbr) x0) x1 (lift (S O) O t4))) (\lambda (H11: ((\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) x1 x3))).let H12 \def eq_ind T t2 (\lambda (t: T).\forall (x: T).\forall (x0: T).(eq T t (THead (Bind Abbr) x x0)) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t4 (THead (Bind Abbr) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x u2) (\lambda (_: T).\lambda (t2: T).pr3 (CHead c (Bind Abbr) x) x0 t2)) (pr3 (CHead c (Bind Abbr) x) x0 (lift (S O) O t4))) H3 (THead (Bind Abbr) x2 x3) H8 in let H13 \def H12 x2 x3 (refl_equal T (THead (Bind Abbr) x2 x3)) in or_ind (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x2 u2) (\lambda (_: T).\lambda (t5: T).pr3 (CHead c (Bind Abbr) x2) x3 t5)) (pr3 (CHead c (Bind Abbr) x2) x3 (lift (S O) O t4)) (or (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 (CHead c (Bind Abbr) x0) x1 t5)) (pr3 (CHead c (Bind Abbr) x0) x1 (lift (S O) O t4))) (\lambda (H14: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t4 (THead (Bind Abbr) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x2 u2) (\lambda (_: T).\lambda (t2: T).pr3 (CHead c (Bind Abbr) x2) x3 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x2 u2) (\lambda (_: T).\lambda (t5: T).pr3 (CHead c (Bind Abbr) x2) x3 t5) (or (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 (CHead c (Bind Abbr) x0) x1 t5)) (pr3 (CHead c (Bind Abbr) x0) x1 (lift (S O) O t4))) (\lambda (x4: T).\lambda (x5: T).\lambda (H15: (eq T t4 (THead (Bind Abbr) x4 x5))).\lambda (H16: (pr3 c x2 x4)).\lambda (H17: (pr3 (CHead c (Bind Abbr) x2) x3 x5)).eq_ind_r T (THead (Bind Abbr) x4 x5) (\lambda (t: T).or (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 (CHead c (Bind Abbr) x0) x1 t5)) (pr3 (CHead c (Bind Abbr) x0) x1 (lift (S O) O t))) (or_introl (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T (THead (Bind Abbr) x4 x5) (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 (CHead c (Bind Abbr) x0) x1 t5)) (pr3 (CHead c (Bind Abbr) x0) x1 (lift (S O) O (THead (Bind Abbr) x4 x5))) (ex3_2_intro T T (\lambda (u2: T).\lambda (t5: T).eq T (THead (Bind Abbr) x4 x5) (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 (CHead c (Bind Abbr) x0) x1 t5) x4 x5 (refl_equal T (THead (Bind Abbr) x4 x5)) (pr3_sing c x2 x0 H9 x4 H16) (pr3_sing (CHead c (Bind Abbr) x0) x3 x1 (H11 Abbr x0) x5 (pr3_pr2_pr3_t c x2 x3 x5 (Bind Abbr) H17 x0 H9)))) t4 H15) H14) (\lambda (H14: (pr3 (CHead c (Bind Abbr) x2) x3 (lift (S O) O t4))).or_intror (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 (CHead c (Bind Abbr) x0) x1 t5)) (pr3 (CHead c (Bind Abbr) x0) x1 (lift (S O) O t4)) (pr3_sing (CHead c (Bind Abbr) x0) x3 x1 (H11 Abbr x0) (lift (S O) O t4) (pr3_pr2_pr3_t c x2 x3 (lift (S O) O t4) (Bind Abbr) H14 x0 H9))) H13) (\lambda (H11: (ex2 T (\lambda (u: T).pr0 x0 u) (\lambda (u: T).pr2 (CHead c (Bind Abbr) u) x1 x3))).ex2_ind T (\lambda (u: T).pr0 x0 u) (\lambda (u: T).pr2 (CHead c (Bind Abbr) u) x1 x3) (or (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 (CHead c (Bind Abbr) x0) x1 t5)) (pr3 (CHead c (Bind Abbr) x0) x1 (lift (S O) O t4))) (\lambda (x4: T).\lambda (H12: (pr0 x0 x4)).\lambda (H13: (pr2 (CHead c (Bind Abbr) x4) x1 x3)).let H14 \def eq_ind T t2 (\lambda (t: T).\forall (x: T).\forall (x0: T).(eq T t (THead (Bind Abbr) x x0)) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t4 (THead (Bind Abbr) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x u2) (\lambda (_: T).\lambda (t2: T).pr3 (CHead c (Bind Abbr) x) x0 t2)) (pr3 (CHead c (Bind Abbr) x) x0 (lift (S O) O t4))) H3 (THead (Bind Abbr) x2 x3) H8 in let H15 \def H14 x2 x3 (refl_equal T (THead (Bind Abbr) x2 x3)) in or_ind (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x2 u2) (\lambda (_: T).\lambda (t5: T).pr3 (CHead c (Bind Abbr) x2) x3 t5)) (pr3 (CHead c (Bind Abbr) x2) x3 (lift (S O) O t4)) (or (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 (CHead c (Bind Abbr) x0) x1 t5)) (pr3 (CHead c (Bind Abbr) x0) x1 (lift (S O) O t4))) (\lambda (H16: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t4 (THead (Bind Abbr) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x2 u2) (\lambda (_: T).\lambda (t2: T).pr3 (CHead c (Bind Abbr) x2) x3 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x2 u2) (\lambda (_: T).\lambda (t5: T).pr3 (CHead c (Bind Abbr) x2) x3 t5) (or (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 (CHead c (Bind Abbr) x0) x1 t5)) (pr3 (CHead c (Bind Abbr) x0) x1 (lift (S O) O t4))) (\lambda (x5: T).\lambda (x6: T).\lambda (H17: (eq T t4 (THead (Bind Abbr) x5 x6))).\lambda (H18: (pr3 c x2 x5)).\lambda (H19: (pr3 (CHead c (Bind Abbr) x2) x3 x6)).eq_ind_r T (THead (Bind Abbr) x5 x6) (\lambda (t: T).or (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 (CHead c (Bind Abbr) x0) x1 t5)) (pr3 (CHead c (Bind Abbr) x0) x1 (lift (S O) O t))) (or_introl (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T (THead (Bind Abbr) x5 x6) (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 (CHead c (Bind Abbr) x0) x1 t5)) (pr3 (CHead c (Bind Abbr) x0) x1 (lift (S O) O (THead (Bind Abbr) x5 x6))) (ex3_2_intro T T (\lambda (u2: T).\lambda (t5: T).eq T (THead (Bind Abbr) x5 x6) (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 (CHead c (Bind Abbr) x0) x1 t5) x5 x6 (refl_equal T (THead (Bind Abbr) x5 x6)) (pr3_sing c x2 x0 H9 x5 H18) (pr3_t x3 x1 (CHead c (Bind Abbr) x0) (pr3_pr0_pr2_t x0 x4 H12 c x1 x3 (Bind Abbr) H13) x6 (pr3_pr2_pr3_t c x2 x3 x6 (Bind Abbr) H19 x0 H9)))) t4 H17) H16) (\lambda (H16: (pr3 (CHead c (Bind Abbr) x2) x3 (lift (S O) O t4))).or_intror (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 (CHead c (Bind Abbr) x0) x1 t5)) (pr3 (CHead c (Bind Abbr) x0) x1 (lift (S O) O t4)) (pr3_t x3 x1 (CHead c (Bind Abbr) x0) (pr3_pr0_pr2_t x0 x4 H12 c x1 x3 (Bind Abbr) H13) (lift (S O) O t4) (pr3_pr2_pr3_t c x2 x3 (lift (S O) O t4) (Bind Abbr) H16 x0 H9))) H15) H11) (\lambda (H11: (ex3_2 T T (\lambda (y: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) x0) x1 y) (\lambda (y: T).\lambda (z: T).pr0 y z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) x0) z x3))).ex3_2_ind T T (\lambda (y0: T).\lambda (_: T).pr2 (CHead c (Bind Abbr) x0) x1 y0) (\lambda (y0: T).\lambda (z: T).pr0 y0 z) (\lambda (_: T).\lambda (z: T).pr2 (CHead c (Bind Abbr) x0) z x3) (or (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 (CHead c (Bind Abbr) x0) x1 t5)) (pr3 (CHead c (Bind Abbr) x0) x1 (lift (S O) O t4))) (\lambda (x4: T).\lambda (x5: T).\lambda (H12: (pr2 (CHead c (Bind Abbr) x0) x1 x4)).\lambda (H13: (pr0 x4 x5)).\lambda (H14: (pr2 (CHead c (Bind Abbr) x0) x5 x3)).let H15 \def eq_ind T t2 (\lambda (t: T).\forall (x: T).\forall (x0: T).(eq T t (THead (Bind Abbr) x x0)) \to or (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t4 (THead (Bind Abbr) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x u2) (\lambda (_: T).\lambda (t2: T).pr3 (CHead c (Bind Abbr) x) x0 t2)) (pr3 (CHead c (Bind Abbr) x) x0 (lift (S O) O t4))) H3 (THead (Bind Abbr) x2 x3) H8 in let H16 \def H15 x2 x3 (refl_equal T (THead (Bind Abbr) x2 x3)) in or_ind (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x2 u2) (\lambda (_: T).\lambda (t5: T).pr3 (CHead c (Bind Abbr) x2) x3 t5)) (pr3 (CHead c (Bind Abbr) x2) x3 (lift (S O) O t4)) (or (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 (CHead c (Bind Abbr) x0) x1 t5)) (pr3 (CHead c (Bind Abbr) x0) x1 (lift (S O) O t4))) (\lambda (H17: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t4 (THead (Bind Abbr) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x2 u2) (\lambda (_: T).\lambda (t2: T).pr3 (CHead c (Bind Abbr) x2) x3 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x2 u2) (\lambda (_: T).\lambda (t5: T).pr3 (CHead c (Bind Abbr) x2) x3 t5) (or (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 (CHead c (Bind Abbr) x0) x1 t5)) (pr3 (CHead c (Bind Abbr) x0) x1 (lift (S O) O t4))) (\lambda (x6: T).\lambda (x7: T).\lambda (H18: (eq T t4 (THead (Bind Abbr) x6 x7))).\lambda (H19: (pr3 c x2 x6)).\lambda (H20: (pr3 (CHead c (Bind Abbr) x2) x3 x7)).eq_ind_r T (THead (Bind Abbr) x6 x7) (\lambda (t: T).or (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 (CHead c (Bind Abbr) x0) x1 t5)) (pr3 (CHead c (Bind Abbr) x0) x1 (lift (S O) O t))) (or_introl (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T (THead (Bind Abbr) x6 x7) (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 (CHead c (Bind Abbr) x0) x1 t5)) (pr3 (CHead c (Bind Abbr) x0) x1 (lift (S O) O (THead (Bind Abbr) x6 x7))) (ex3_2_intro T T (\lambda (u2: T).\lambda (t5: T).eq T (THead (Bind Abbr) x6 x7) (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 (CHead c (Bind Abbr) x0) x1 t5) x6 x7 (refl_equal T (THead (Bind Abbr) x6 x7)) (pr3_sing c x2 x0 H9 x6 H19) (pr3_sing (CHead c (Bind Abbr) x0) x4 x1 H12 x7 (pr3_sing (CHead c (Bind Abbr) x0) x5 x4 (pr2_free (CHead c (Bind Abbr) x0) x4 x5 H13) x7 (pr3_sing (CHead c (Bind Abbr) x0) x3 x5 H14 x7 (pr3_pr2_pr3_t c x2 x3 x7 (Bind Abbr) H20 x0 H9)))))) t4 H18) H17) (\lambda (H17: (pr3 (CHead c (Bind Abbr) x2) x3 (lift (S O) O t4))).or_intror (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 (CHead c (Bind Abbr) x0) x1 t5)) (pr3 (CHead c (Bind Abbr) x0) x1 (lift (S O) O t4)) (pr3_sing (CHead c (Bind Abbr) x0) x4 x1 H12 (lift (S O) O t4) (pr3_sing (CHead c (Bind Abbr) x0) x5 x4 (pr2_free (CHead c (Bind Abbr) x0) x4 x5 H13) (lift (S O) O t4) (pr3_sing (CHead c (Bind Abbr) x0) x3 x5 H14 (lift (S O) O t4) (pr3_pr2_pr3_t c x2 x3 (lift (S O) O t4) (Bind Abbr) H17 x0 H9))))) H16) H11) H10) H7) (\lambda (H7: ((\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) x1 (lift (S O) O t2)))).or_intror (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Bind Abbr) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 (CHead c (Bind Abbr) x0) x1 t5)) (pr3 (CHead c (Bind Abbr) x0) x1 (lift (S O) O t4)) (pr3_sing (CHead c (Bind Abbr) x0) (lift (S O) O t2) x1 (H7 Abbr x0) (lift (S O) O t4) (pr3_lift (CHead c (Bind Abbr) x0) c (S O) O (drop_drop (Bind Abbr) O c c (drop_refl c) x0) t2 t4 H2))) H6) y x H0))) H.
+
+theorem pr3_gen_appl: \forall (c: C).\forall (u1: T).\forall (t1: T).\forall (x: T).(pr3 c (THead (Flat Appl) u1 t1) x) \to or3 (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c u1 u2) (\lambda (_: T).\lambda (t2: T).pr3 c t1 t2)) (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t2: T).pr3 c (THead (Bind Abbr) u2 t2) x) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c u1 u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t2)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) x) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2)) \def \lambda (c: C).\lambda (u1: T).\lambda (t1: T).\lambda (x: T).\lambda (H: (pr3 c (THead (Flat Appl) u1 t1) x)).insert_eq T (THead (Flat Appl) u1 t1) (\lambda (t: T).pr3 c t x) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c u1 u2) (\lambda (_: T).\lambda (t2: T).pr3 c t1 t2)) (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t2: T).pr3 c (THead (Bind Abbr) u2 t2) x) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c u1 u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c t1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t2)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c t1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) x) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2))) (\lambda (y: T).\lambda (H0: (pr3 c y x)).unintro T t1 (\lambda (t: T).(eq T y (THead (Flat Appl) u1 t)) \to or3 (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c u1 u2) (\lambda (_: T).\lambda (t2: T).pr3 c t t2)) (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t2: T).pr3 c (THead (Bind Abbr) u2 t2) x) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c u1 u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c t (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t2)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c t (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) x) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c u1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2))) (unintro T u1 (\lambda (t: T).\forall (x0: T).(eq T y (THead (Flat Appl) t x0)) \to or3 (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c t u2) (\lambda (_: T).\lambda (t2: T).pr3 c x0 t2)) (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t2: T).pr3 c (THead (Bind Abbr) u2 t2) x) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c t u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c x0 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t2)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c x0 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) x) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c t u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2))) (pr3_ind c (\lambda (t: T).\lambda (t0: T).\forall (x0: T).\forall (x1: T).(eq T t (THead (Flat Appl) x0 x1)) \to or3 (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t0 (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t2: T).pr3 c x1 t2)) (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t2: T).pr3 c (THead (Bind Abbr) u2 t2) t0) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t2)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) t0) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2))) (\lambda (t: T).\lambda (x0: T).\lambda (x1: T).\lambda (H1: (eq T t (THead (Flat Appl) x0 x1))).eq_ind_r T (THead (Flat Appl) x0 x1) (\lambda (t0: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t0 (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t2: T).pr3 c x1 t2)) (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t2: T).pr3 c (THead (Bind Abbr) u2 t2) t0) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t2)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) t0) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2))) (or3_intro0 (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T (THead (Flat Appl) x0 x1) (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t2: T).pr3 c x1 t2)) (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t2: T).pr3 c (THead (Bind Abbr) u2 t2) (THead (Flat Appl) x0 x1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t2)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) (THead (Flat Appl) x0 x1)) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2)) (ex3_2_intro T T (\lambda (u2: T).\lambda (t2: T).eq T (THead (Flat Appl) x0 x1) (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t2: T).pr3 c x1 t2) x0 x1 (refl_equal T (THead (Flat Appl) x0 x1)) (pr3_refl c x0) (pr3_refl c x1))) t H1) (\lambda (t2: T).\lambda (t3: T).\lambda (H1: (pr2 c t3 t2)).\lambda (t4: T).\lambda (H2: (pr3 c t2 t4)).\lambda (H3: ((\forall (x: T).\forall (x0: T).(eq T t2 (THead (Flat Appl) x x0)) \to or3 (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t4 (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x u2) (\lambda (_: T).\lambda (t2: T).pr3 c x0 t2)) (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t2: T).pr3 c (THead (Bind Abbr) u2 t2) t4) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c x0 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t2)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c x0 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) t4) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2))))).\lambda (x0: T).\lambda (x1: T).\lambda (H4: (eq T t3 (THead (Flat Appl) x0 x1))).let H5 \def eq_ind T t3 (\lambda (t: T).pr2 c t t2) H1 (THead (Flat Appl) x0 x1) H4 in let H6 \def pr2_gen_appl c x0 x1 t2 H5 in or3_ind (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t2 (THead (Flat Appl) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr2 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr2 c x1 t5)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T x1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t5: T).eq T t2 (THead (Bind Abbr) u2 t5)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c x0 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t5)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T x1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T t2 (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c x0 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2)) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Flat Appl) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 c x1 t5)) (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t5: T).pr3 c (THead (Bind Abbr) u2 t5) t4) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t5)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) t4) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2))) (\lambda (H7: (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c x0 u2) (\lambda (_: T).\lambda (t2: T).pr2 c x1 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t5: T).eq T t2 (THead (Flat Appl) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr2 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr2 c x1 t5) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Flat Appl) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 c x1 t5)) (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t5: T).pr3 c (THead (Bind Abbr) u2 t5) t4) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t5)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) t4) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2))) (\lambda (x2: T).\lambda (x3: T).\lambda (H8: (eq T t2 (THead (Flat Appl) x2 x3))).\lambda (H9: (pr2 c x0 x2)).\lambda (H10: (pr2 c x1 x3)).let H11 \def eq_ind T t2 (\lambda (t: T).\forall (x: T).\forall (x0: T).(eq T t (THead (Flat Appl) x x0)) \to or3 (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t4 (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x u2) (\lambda (_: T).\lambda (t2: T).pr3 c x0 t2)) (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t2: T).pr3 c (THead (Bind Abbr) u2 t2) t4) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c x0 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t2)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c x0 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) t4) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2))) H3 (THead (Flat Appl) x2 x3) H8 in let H12 \def eq_ind T t2 (\lambda (t: T).pr3 c t t4) H2 (THead (Flat Appl) x2 x3) H8 in let H13 \def H11 x2 x3 (refl_equal T (THead (Flat Appl) x2 x3)) in or3_ind (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Flat Appl) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x2 u2) (\lambda (_: T).\lambda (t5: T).pr3 c x3 t5)) (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t5: T).pr3 c (THead (Bind Abbr) u2 t5) t4) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x2 u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c x3 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t5)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c x3 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) t4) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x2 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2)) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Flat Appl) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 c x1 t5)) (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t5: T).pr3 c (THead (Bind Abbr) u2 t5) t4) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t5)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) t4) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2))) (\lambda (H14: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t4 (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x2 u2) (\lambda (_: T).\lambda (t2: T).pr3 c x3 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Flat Appl) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x2 u2) (\lambda (_: T).\lambda (t5: T).pr3 c x3 t5) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Flat Appl) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 c x1 t5)) (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t5: T).pr3 c (THead (Bind Abbr) u2 t5) t4) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t5)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) t4) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2))) (\lambda (x4: T).\lambda (x5: T).\lambda (H15: (eq T t4 (THead (Flat Appl) x4 x5))).\lambda (H16: (pr3 c x2 x4)).\lambda (H17: (pr3 c x3 x5)).eq_ind_r T (THead (Flat Appl) x4 x5) (\lambda (t: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t (THead (Flat Appl) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 c x1 t5)) (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t5: T).pr3 c (THead (Bind Abbr) u2 t5) t) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t5)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) t) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2))) (or3_intro0 (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T (THead (Flat Appl) x4 x5) (THead (Flat Appl) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 c x1 t5)) (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t5: T).pr3 c (THead (Bind Abbr) u2 t5) (THead (Flat Appl) x4 x5)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t5)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) (THead (Flat Appl) x4 x5)) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2)) (ex3_2_intro T T (\lambda (u2: T).\lambda (t5: T).eq T (THead (Flat Appl) x4 x5) (THead (Flat Appl) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 c x1 t5) x4 x5 (refl_equal T (THead (Flat Appl) x4 x5)) (pr3_sing c x2 x0 H9 x4 H16) (pr3_sing c x3 x1 H10 x5 H17))) t4 H15) H14) (\lambda (H14: (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t2: T).pr3 c (THead (Bind Abbr) u2 t2) t4) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x2 u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c x3 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t2))).ex4_4_ind T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t5: T).pr3 c (THead (Bind Abbr) u2 t5) t4) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x2 u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c x3 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t5) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Flat Appl) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 c x1 t5)) (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t5: T).pr3 c (THead (Bind Abbr) u2 t5) t4) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t5)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) t4) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2))) (\lambda (x4: T).\lambda (x5: T).\lambda (x6: T).\lambda (x7: T).\lambda (H15: (pr3 c (THead (Bind Abbr) x6 x7) t4)).\lambda (H16: (pr3 c x2 x6)).\lambda (H17: (pr3 c x3 (THead (Bind Abst) x4 x5))).\lambda (H18: ((\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x5 x7))).or3_intro1 (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Flat Appl) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 c x1 t5)) (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t5: T).pr3 c (THead (Bind Abbr) u2 t5) t4) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t5)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) t4) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2)) (ex4_4_intro T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t5: T).pr3 c (THead (Bind Abbr) u2 t5) t4) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t5) x4 x5 x6 x7 H15 (pr3_sing c x2 x0 H9 x6 H16) (pr3_sing c x3 x1 H10 (THead (Bind Abst) x4 x5) H17) H18)) H14) (\lambda (H14: (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c x3 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) t4) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x2 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2))).ex6_6_ind B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c x3 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) t4) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x2 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Flat Appl) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 c x1 t5)) (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t5: T).pr3 c (THead (Bind Abbr) u2 t5) t4) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t5)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) t4) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2))) (\lambda (x4: B).\lambda (x5: T).\lambda (x6: T).\lambda (x7: T).\lambda (x8: T).\lambda (x9: T).\lambda (H15: (not (eq B x4 Abst))).\lambda (H16: (pr3 c x3 (THead (Bind x4) x5 x6))).\lambda (H17: (pr3 c (THead (Bind x4) x9 (THead (Flat Appl) (lift (S O) O x8) x7)) t4)).\lambda (H18: (pr3 c x2 x8)).\lambda (H19: (pr3 c x5 x9)).\lambda (H20: (pr3 (CHead c (Bind x4) x9) x6 x7)).or3_intro2 (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Flat Appl) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 c x1 t5)) (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t5: T).pr3 c (THead (Bind Abbr) u2 t5) t4) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t5)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) t4) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2)) (ex6_6_intro B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) t4) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2) x4 x5 x6 x7 x8 x9 H15 (pr3_sing c x3 x1 H10 (THead (Bind x4) x5 x6) H16) H17 (pr3_sing c x2 x0 H9 x8 H18) H19 H20)) H14) H13) H7) (\lambda (H7: (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T x1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c x0 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t2))).ex4_4_ind T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T x1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t5: T).eq T t2 (THead (Bind Abbr) u2 t5)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c x0 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t5) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Flat Appl) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 c x1 t5)) (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t5: T).pr3 c (THead (Bind Abbr) u2 t5) t4) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t5)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) t4) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2))) (\lambda (x2: T).\lambda (x3: T).\lambda (x4: T).\lambda (x5: T).\lambda (H8: (eq T x1 (THead (Bind Abst) x2 x3))).\lambda (H9: (eq T t2 (THead (Bind Abbr) x4 x5))).\lambda (H10: (pr2 c x0 x4)).\lambda (H11: ((\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) x3 x5))).eq_ind_r T (THead (Bind Abst) x2 x3) (\lambda (t: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Flat Appl) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 c t t5)) (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t5: T).pr3 c (THead (Bind Abbr) u2 t5) t4) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c t (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t5)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c t (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) t4) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2))) (let H12 \def eq_ind T t2 (\lambda (t: T).\forall (x: T).\forall (x0: T).(eq T t (THead (Flat Appl) x x0)) \to or3 (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t4 (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x u2) (\lambda (_: T).\lambda (t2: T).pr3 c x0 t2)) (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t2: T).pr3 c (THead (Bind Abbr) u2 t2) t4) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c x0 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t2)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c x0 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) t4) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2))) H3 (THead (Bind Abbr) x4 x5) H9 in let H13 \def eq_ind T t2 (\lambda (t: T).pr3 c t t4) H2 (THead (Bind Abbr) x4 x5) H9 in or3_intro1 (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Flat Appl) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 c (THead (Bind Abst) x2 x3) t5)) (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t5: T).pr3 c (THead (Bind Abbr) u2 t5) t4) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c (THead (Bind Abst) x2 x3) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t5)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c (THead (Bind Abst) x2 x3) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) t4) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2)) (ex4_4_intro T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t5: T).pr3 c (THead (Bind Abbr) u2 t5) t4) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c (THead (Bind Abst) x2 x3) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t5) x2 x3 x4 x5 H13 (pr3_pr2 c x0 x4 H10) (pr3_refl c (THead (Bind Abst) x2 x3)) (\lambda (b: B).\lambda (u: T).pr3_pr2 (CHead c (Bind b) u) x3 x5 (H11 b u)))) x1 H8) H7) (\lambda (H7: (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T x1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T t2 (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c x0 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))).ex6_6_ind B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T x1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T t2 (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c x0 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2) (or3 (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Flat Appl) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 c x1 t5)) (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t5: T).pr3 c (THead (Bind Abbr) u2 t5) t4) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t5)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c x1 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) t4) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2))) (\lambda (x2: B).\lambda (x3: T).\lambda (x4: T).\lambda (x5: T).\lambda (x6: T).\lambda (x7: T).\lambda (H8: (not (eq B x2 Abst))).\lambda (H9: (eq T x1 (THead (Bind x2) x3 x4))).\lambda (H10: (eq T t2 (THead (Bind x2) x7 (THead (Flat Appl) (lift (S O) O x6) x5)))).\lambda (H11: (pr2 c x0 x6)).\lambda (H12: (pr2 c x3 x7)).\lambda (H13: (pr2 (CHead c (Bind x2) x7) x4 x5)).eq_ind_r T (THead (Bind x2) x3 x4) (\lambda (t: T).or3 (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Flat Appl) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 c t t5)) (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t5: T).pr3 c (THead (Bind Abbr) u2 t5) t4) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c t (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t5)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c t (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) t4) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2))) (let H14 \def eq_ind T t2 (\lambda (t: T).\forall (x: T).\forall (x0: T).(eq T t (THead (Flat Appl) x x0)) \to or3 (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t4 (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c x u2) (\lambda (_: T).\lambda (t2: T).pr3 c x0 t2)) (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t2: T).pr3 c (THead (Bind Abbr) u2 t2) t4) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c x0 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t2)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c x0 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) t4) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2))) H3 (THead (Bind x2) x7 (THead (Flat Appl) (lift (S O) O x6) x5)) H10 in let H15 \def eq_ind T t2 (\lambda (t: T).pr3 c t t4) H2 (THead (Bind x2) x7 (THead (Flat Appl) (lift (S O) O x6) x5)) H10 in or3_intro2 (ex3_2 T T (\lambda (u2: T).\lambda (t5: T).eq T t4 (THead (Flat Appl) u2 t5)) (\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: T).\lambda (t5: T).pr3 c (THead (Bind x2) x3 x4) t5)) (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t5: T).pr3 c (THead (Bind Abbr) u2 t5) t4) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c (THead (Bind x2) x3 x4) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t5: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t5)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c (THead (Bind x2) x3 x4) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) t4) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2)) (ex6_6_intro B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c (THead (Bind x2) x3 x4) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) t4) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c x0 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2) x2 x3 x4 x5 x6 x7 H8 (pr3_refl c (THead (Bind x2) x3 x4)) H15 (pr3_pr2 c x0 x6 H11) (pr3_pr2 c x3 x7 H12) (pr3_pr2 (CHead c (Bind x2) x7) x4 x5 H13))) x1 H9) H7) H6) y x H0))) H.
+
+theorem pr3_strip: \forall (c: C).\forall (t0: T).\forall (t1: T).(pr3 c t0 t1) \to \forall (t2: T).(pr2 c t0 t2) \to ex2 T (\lambda (t: T).pr3 c t1 t) (\lambda (t: T).pr3 c t2 t) \def \lambda (c: C).\lambda (t0: T).\lambda (t1: T).\lambda (H: (pr3 c t0 t1)).pr3_ind c (\lambda (t: T).\lambda (t2: T).\forall (t3: T).(pr2 c t t3) \to ex2 T (\lambda (t4: T).pr3 c t2 t4) (\lambda (t4: T).pr3 c t3 t4)) (\lambda (t: T).\lambda (t2: T).\lambda (H0: (pr2 c t t2)).ex_intro2 T (\lambda (t3: T).pr3 c t t3) (\lambda (t3: T).pr3 c t2 t3) t2 (pr3_pr2 c t t2 H0) (pr3_refl c t2)) (\lambda (t2: T).\lambda (t3: T).\lambda (H0: (pr2 c t3 t2)).\lambda (t4: T).\lambda (_: (pr3 c t2 t4)).\lambda (H2: ((\forall (t3: T).(pr2 c t2 t3) \to ex2 T (\lambda (t: T).pr3 c t4 t) (\lambda (t: T).pr3 c t3 t)))).\lambda (t5: T).\lambda (H3: (pr2 c t3 t5)).ex2_ind T (\lambda (t: T).pr2 c t5 t) (\lambda (t: T).pr2 c t2 t) (ex2 T (\lambda (t: T).pr3 c t4 t) (\lambda (t: T).pr3 c t5 t)) (\lambda (x: T).\lambda (H4: (pr2 c t5 x)).\lambda (H5: (pr2 c t2 x)).ex2_ind T (\lambda (t: T).pr3 c t4 t) (\lambda (t: T).pr3 c x t) (ex2 T (\lambda (t: T).pr3 c t4 t) (\lambda (t: T).pr3 c t5 t)) (\lambda (x0: T).\lambda (H6: (pr3 c t4 x0)).\lambda (H7: (pr3 c x x0)).ex_intro2 T (\lambda (t: T).pr3 c t4 t) (\lambda (t: T).pr3 c t5 t) x0 H6 (pr3_sing c x t5 H4 x0 H7)) (H2 x H5)) (pr2_confluence c t3 t5 H3 t2 H0)) t0 t1 H.
+
+theorem pr3_confluence: \forall (c: C).\forall (t0: T).\forall (t1: T).(pr3 c t0 t1) \to \forall (t2: T).(pr3 c t0 t2) \to ex2 T (\lambda (t: T).pr3 c t1 t) (\lambda (t: T).pr3 c t2 t) \def \lambda (c: C).\lambda (t0: T).\lambda (t1: T).\lambda (H: (pr3 c t0 t1)).pr3_ind c (\lambda (t: T).\lambda (t2: T).\forall (t3: T).(pr3 c t t3) \to ex2 T (\lambda (t4: T).pr3 c t2 t4) (\lambda (t4: T).pr3 c t3 t4)) (\lambda (t: T).\lambda (t2: T).\lambda (H0: (pr3 c t t2)).ex_intro2 T (\lambda (t3: T).pr3 c t t3) (\lambda (t3: T).pr3 c t2 t3) t2 H0 (pr3_refl c t2)) (\lambda (t2: T).\lambda (t3: T).\lambda (H0: (pr2 c t3 t2)).\lambda (t4: T).\lambda (_: (pr3 c t2 t4)).\lambda (H2: ((\forall (t3: T).(pr3 c t2 t3) \to ex2 T (\lambda (t: T).pr3 c t4 t) (\lambda (t: T).pr3 c t3 t)))).\lambda (t5: T).\lambda (H3: (pr3 c t3 t5)).ex2_ind T (\lambda (t: T).pr3 c t5 t) (\lambda (t: T).pr3 c t2 t) (ex2 T (\lambda (t: T).pr3 c t4 t) (\lambda (t: T).pr3 c t5 t)) (\lambda (x: T).\lambda (H4: (pr3 c t5 x)).\lambda (H5: (pr3 c t2 x)).ex2_ind T (\lambda (t: T).pr3 c t4 t) (\lambda (t: T).pr3 c x t) (ex2 T (\lambda (t: T).pr3 c t4 t) (\lambda (t: T).pr3 c t5 t)) (\lambda (x0: T).\lambda (H6: (pr3 c t4 x0)).\lambda (H7: (pr3 c x x0)).ex_intro2 T (\lambda (t: T).pr3 c t4 t) (\lambda (t: T).pr3 c t5 t) x0 H6 (pr3_t x t5 c H4 x0 H7)) (H2 x H5)) (pr3_strip c t3 t5 H3 t2 H0)) t0 t1 H.
+
+theorem pr3_subst1: \forall (c: C).\forall (e: C).\forall (v: T).\forall (i: nat).(getl i c (CHead e (Bind Abbr) v)) \to \forall (t1: T).\forall (t2: T).(pr3 c t1 t2) \to \forall (w1: T).(subst1 i v t1 w1) \to ex2 T (\lambda (w2: T).pr3 c w1 w2) (\lambda (w2: T).subst1 i v t2 w2) \def \lambda (c: C).\lambda (e: C).\lambda (v: T).\lambda (i: nat).\lambda (H: (getl i c (CHead e (Bind Abbr) v))).\lambda (t1: T).\lambda (t2: T).\lambda (H0: (pr3 c t1 t2)).pr3_ind c (\lambda (t: T).\lambda (t0: T).\forall (w1: T).(subst1 i v t w1) \to ex2 T (\lambda (w2: T).pr3 c w1 w2) (\lambda (w2: T).subst1 i v t0 w2)) (\lambda (t: T).\lambda (w1: T).\lambda (H1: (subst1 i v t w1)).ex_intro2 T (\lambda (w2: T).pr3 c w1 w2) (\lambda (w2: T).subst1 i v t w2) w1 (pr3_refl c w1) H1) (\lambda (t3: T).\lambda (t4: T).\lambda (H1: (pr2 c t4 t3)).\lambda (t5: T).\lambda (_: (pr3 c t3 t5)).\lambda (H3: ((\forall (w1: T).(subst1 i v t3 w1) \to ex2 T (\lambda (w2: T).pr3 c w1 w2) (\lambda (w2: T).subst1 i v t5 w2)))).\lambda (w1: T).\lambda (H4: (subst1 i v t4 w1)).ex2_ind T (\lambda (w2: T).pr2 c w1 w2) (\lambda (w2: T).subst1 i v t3 w2) (ex2 T (\lambda (w2: T).pr3 c w1 w2) (\lambda (w2: T).subst1 i v t5 w2)) (\lambda (x: T).\lambda (H5: (pr2 c w1 x)).\lambda (H6: (subst1 i v t3 x)).ex2_ind T (\lambda (w2: T).pr3 c x w2) (\lambda (w2: T).subst1 i v t5 w2) (ex2 T (\lambda (w2: T).pr3 c w1 w2) (\lambda (w2: T).subst1 i v t5 w2)) (\lambda (x0: T).\lambda (H7: (pr3 c x x0)).\lambda (H8: (subst1 i v t5 x0)).ex_intro2 T (\lambda (w2: T).pr3 c w1 w2) (\lambda (w2: T).subst1 i v t5 w2) x0 (pr3_sing c x w1 H5 x0 H7) H8) (H3 x H6)) (pr2_subst1 c e v i H t4 t3 H1 w1 H4)) t1 t2 H0.
+
+theorem pr3_gen_cabbr: \forall (c: C).\forall (t1: T).\forall (t2: T).(pr3 c t1 t2) \to \forall (e: C).\forall (u: T).\forall (d: nat).(getl d c (CHead e (Bind Abbr) u)) \to \forall (a0: C).(csubst1 d u c a0) \to \forall (a: C).(drop (S O) d a0 a) \to \forall (x1: T).(subst1 d u t1 (lift (S O) d x1)) \to ex2 T (\lambda (x2: T).subst1 d u t2 (lift (S O) d x2)) (\lambda (x2: T).pr3 a x1 x2) \def \lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pr3 c t1 t2)).pr3_ind c (\lambda (t: T).\lambda (t0: T).\forall (e: C).\forall (u: T).\forall (d: nat).(getl d c (CHead e (Bind Abbr) u)) \to \forall (a0: C).(csubst1 d u c a0) \to \forall (a: C).(drop (S O) d a0 a) \to \forall (x1: T).(subst1 d u t (lift (S O) d x1)) \to ex2 T (\lambda (x2: T).subst1 d u t0 (lift (S O) d x2)) (\lambda (x2: T).pr3 a x1 x2)) (\lambda (t: T).\lambda (e: C).\lambda (u: T).\lambda (d: nat).\lambda (_: (getl d c (CHead e (Bind Abbr) u))).\lambda (a0: C).\lambda (_: (csubst1 d u c a0)).\lambda (a: C).\lambda (_: (drop (S O) d a0 a)).\lambda (x1: T).\lambda (H3: (subst1 d u t (lift (S O) d x1))).ex_intro2 T (\lambda (x2: T).subst1 d u t (lift (S O) d x2)) (\lambda (x2: T).pr3 a x1 x2) x1 H3 (pr3_refl a x1)) (\lambda (t0: T).\lambda (t3: T).\lambda (H0: (pr2 c t3 t0)).\lambda (t4: T).\lambda (_: (pr3 c t0 t4)).\lambda (H2: ((\forall (e: C).\forall (u: T).\forall (d: nat).(getl d c (CHead e (Bind Abbr) u)) \to \forall (a0: C).(csubst1 d u c a0) \to \forall (a: C).(drop (S O) d a0 a) \to \forall (x1: T).(subst1 d u t0 (lift (S O) d x1)) \to ex2 T (\lambda (x2: T).subst1 d u t4 (lift (S O) d x2)) (\lambda (x2: T).pr3 a x1 x2)))).\lambda (e: C).\lambda (u: T).\lambda (d: nat).\lambda (H3: (getl d c (CHead e (Bind Abbr) u))).\lambda (a0: C).\lambda (H4: (csubst1 d u c a0)).\lambda (a: C).\lambda (H5: (drop (S O) d a0 a)).\lambda (x1: T).\lambda (H6: (subst1 d u t3 (lift (S O) d x1))).ex2_ind T (\lambda (x2: T).subst1 d u t0 (lift (S O) d x2)) (\lambda (x2: T).pr2 a x1 x2) (ex2 T (\lambda (x2: T).subst1 d u t4 (lift (S O) d x2)) (\lambda (x2: T).pr3 a x1 x2)) (\lambda (x: T).\lambda (H7: (subst1 d u t0 (lift (S O) d x))).\lambda (H8: (pr2 a x1 x)).ex2_ind T (\lambda (x2: T).subst1 d u t4 (lift (S O) d x2)) (\lambda (x2: T).pr3 a x x2) (ex2 T (\lambda (x2: T).subst1 d u t4 (lift (S O) d x2)) (\lambda (x2: T).pr3 a x1 x2)) (\lambda (x0: T).\lambda (H9: (subst1 d u t4 (lift (S O) d x0))).\lambda (H10: (pr3 a x x0)).ex_intro2 T (\lambda (x2: T).subst1 d u t4 (lift (S O) d x2)) (\lambda (x2: T).pr3 a x1 x2) x0 H9 (pr3_sing a x x1 H8 x0 H10)) (H2 e u d H3 a0 H4 a H5 x H7)) (pr2_gen_cabbr c t3 t0 H0 e u d H3 a0 H4 a H5 x1 H6)) t1 t2 H.
+
+theorem pr3_iso_appls_cast: \forall (c: C).\forall (v: T).\forall (t: T).\forall (vs: TList).let u1 \def THeads (Flat Appl) vs (THead (Flat Cast) v t) in \forall (u2: T).(pr3 c u1 u2) \to (((iso u1 u2) \to \forall (P: (Prop)).P)) \to pr3 c (THeads (Flat Appl) vs t) u2 \def \lambda (c: C).\lambda (v: T).\lambda (t: T).\lambda (vs: TList).TList_ind (\lambda (t0: TList).let u1 \def THeads (Flat Appl) t0 (THead (Flat Cast) v t) in \forall (u2: T).(pr3 c u1 u2) \to (((iso u1 u2) \to \forall (P: (Prop)).P)) \to pr3 c (THeads (Flat Appl) t0 t) u2) (\lambda (u2: T).\lambda (H: (pr3 c (THead (Flat Cast) v t) u2)).\lambda (H0: (((iso (THead (Flat Cast) v t) u2) \to \forall (P: (Prop)).P))).let H1 \def pr3_gen_cast c v t u2 H in or_ind (ex3_2 T T (\lambda (u3: T).\lambda (t2: T).eq T u2 (THead (Flat Cast) u3 t2)) (\lambda (u3: T).\lambda (_: T).pr3 c v u3) (\lambda (_: T).\lambda (t2: T).pr3 c t t2)) (pr3 c t u2) (pr3 c t u2) (\lambda (H2: (ex3_2 T T (\lambda (u3: T).\lambda (t2: T).eq T u2 (THead (Flat Cast) u3 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c v u2) (\lambda (_: T).\lambda (t2: T).pr3 c t t2))).ex3_2_ind T T (\lambda (u3: T).\lambda (t2: T).eq T u2 (THead (Flat Cast) u3 t2)) (\lambda (u3: T).\lambda (_: T).pr3 c v u3) (\lambda (_: T).\lambda (t2: T).pr3 c t t2) (pr3 c t u2) (\lambda (x0: T).\lambda (x1: T).\lambda (H3: (eq T u2 (THead (Flat Cast) x0 x1))).\lambda (_: (pr3 c v x0)).\lambda (_: (pr3 c t x1)).let H6 \def eq_ind T u2 (\lambda (t0: T).(iso (THead (Flat Cast) v t) t0) \to \forall (P: (Prop)).P) H0 (THead (Flat Cast) x0 x1) H3 in eq_ind_r T (THead (Flat Cast) x0 x1) (\lambda (t0: T).pr3 c t t0) (H6 (iso_head (Flat Cast) v x0 t x1) (pr3 c t (THead (Flat Cast) x0 x1))) u2 H3) H2) (\lambda (H2: (pr3 c t u2)).H2) H1) (\lambda (t0: T).\lambda (t1: TList).\lambda (H: ((\forall (u2: T).(pr3 c (THeads (Flat Appl) t1 (THead (Flat Cast) v t)) u2) \to (((iso (THeads (Flat Appl) t1 (THead (Flat Cast) v t)) u2) \to \forall (P: (Prop)).P)) \to pr3 c (THeads (Flat Appl) t1 t) u2))).\lambda (u2: T).\lambda (H0: (pr3 c (THead (Flat Appl) t0 (THeads (Flat Appl) t1 (THead (Flat Cast) v t))) u2)).\lambda (H1: (((iso (THead (Flat Appl) t0 (THeads (Flat Appl) t1 (THead (Flat Cast) v t))) u2) \to \forall (P: (Prop)).P))).let H2 \def pr3_gen_appl c t0 (THeads (Flat Appl) t1 (THead (Flat Cast) v t)) u2 H0 in or3_ind (ex3_2 T T (\lambda (u3: T).\lambda (t2: T).eq T u2 (THead (Flat Appl) u3 t2)) (\lambda (u3: T).\lambda (_: T).pr3 c t0 u3) (\lambda (_: T).\lambda (t2: T).pr3 c (THeads (Flat Appl) t1 (THead (Flat Cast) v t)) t2)) (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (t2: T).pr3 c (THead (Bind Abbr) u3 t2) u2) (\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (_: T).pr3 c t0 u3) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c (THeads (Flat Appl) t1 (THead (Flat Cast) v t)) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t2)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c (THeads (Flat Appl) t1 (THead (Flat Cast) v t)) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u3: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u3) z2)) u2) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (_: T).pr3 c t0 u3) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2)) (pr3 c (THead (Flat Appl) t0 (THeads (Flat Appl) t1 t)) u2) (\lambda (H3: (ex3_2 T T (\lambda (u3: T).\lambda (t2: T).eq T u2 (THead (Flat Appl) u3 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c t0 u2) (\lambda (_: T).\lambda (t2: T).pr3 c (THeads (Flat Appl) t1 (THead (Flat Cast) v t)) t2))).ex3_2_ind T T (\lambda (u3: T).\lambda (t2: T).eq T u2 (THead (Flat Appl) u3 t2)) (\lambda (u3: T).\lambda (_: T).pr3 c t0 u3) (\lambda (_: T).\lambda (t2: T).pr3 c (THeads (Flat Appl) t1 (THead (Flat Cast) v t)) t2) (pr3 c (THead (Flat Appl) t0 (THeads (Flat Appl) t1 t)) u2) (\lambda (x0: T).\lambda (x1: T).\lambda (H4: (eq T u2 (THead (Flat Appl) x0 x1))).\lambda (_: (pr3 c t0 x0)).\lambda (_: (pr3 c (THeads (Flat Appl) t1 (THead (Flat Cast) v t)) x1)).let H7 \def eq_ind T u2 (\lambda (t2: T).(iso (THead (Flat Appl) t0 (THeads (Flat Appl) t1 (THead (Flat Cast) v t))) t2) \to \forall (P: (Prop)).P) H1 (THead (Flat Appl) x0 x1) H4 in eq_ind_r T (THead (Flat Appl) x0 x1) (\lambda (t2: T).pr3 c (THead (Flat Appl) t0 (THeads (Flat Appl) t1 t)) t2) (H7 (iso_head (Flat Appl) t0 x0 (THeads (Flat Appl) t1 (THead (Flat Cast) v t)) x1) (pr3 c (THead (Flat Appl) t0 (THeads (Flat Appl) t1 t)) (THead (Flat Appl) x0 x1))) u2 H4) H3) (\lambda (H3: (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (t2: T).pr3 c (THead (Bind Abbr) u3 t2) u2) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c t0 u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c (THeads (Flat Appl) t1 (THead (Flat Cast) v t)) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t2))).ex4_4_ind T T T T (\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (t2: T).pr3 c (THead (Bind Abbr) u3 t2) u2) (\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (_: T).pr3 c t0 u3) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c (THeads (Flat Appl) t1 (THead (Flat Cast) v t)) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t2) (pr3 c (THead (Flat Appl) t0 (THeads (Flat Appl) t1 t)) u2) (\lambda (x0: T).\lambda (x1: T).\lambda (x2: T).\lambda (x3: T).\lambda (H4: (pr3 c (THead (Bind Abbr) x2 x3) u2)).\lambda (H5: (pr3 c t0 x2)).\lambda (H6: (pr3 c (THeads (Flat Appl) t1 (THead (Flat Cast) v t)) (THead (Bind Abst) x0 x1))).\lambda (H7: ((\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x1 x3))).pr3_t (THead (Bind Abbr) t0 x1) (THead (Flat Appl) t0 (THeads (Flat Appl) t1 t)) c (pr3_t (THead (Flat Appl) t0 (THead (Bind Abst) x0 x1)) (THead (Flat Appl) t0 (THeads (Flat Appl) t1 t)) c (pr3_thin_dx c (THeads (Flat Appl) t1 t) (THead (Bind Abst) x0 x1) (H (THead (Bind Abst) x0 x1) H6 (\lambda (H8: (iso (THeads (Flat Appl) t1 (THead (Flat Cast) v t)) (THead (Bind Abst) x0 x1))).\lambda (P: (Prop)).iso_flats_flat_bind_false Appl Cast Abst x0 v x1 t t1 H8 P)) t0 Appl) (THead (Bind Abbr) t0 x1) (pr3_pr2 c (THead (Flat Appl) t0 (THead (Bind Abst) x0 x1)) (THead (Bind Abbr) t0 x1) (pr2_free c (THead (Flat Appl) t0 (THead (Bind Abst) x0 x1)) (THead (Bind Abbr) t0 x1) (pr0_beta x0 t0 t0 (pr0_refl t0) x1 x1 (pr0_refl x1))))) u2 (pr3_t (THead (Bind Abbr) x2 x3) (THead (Bind Abbr) t0 x1) c (pr3_head_12 c t0 x2 H5 (Bind Abbr) x1 x3 (H7 Abbr x2)) u2 H4)) H3) (\lambda (H3: (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c (THeads (Flat Appl) t1 (THead (Flat Cast) v t)) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u3: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u3) z2)) u2) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c t0 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2))).ex6_6_ind B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c (THeads (Flat Appl) t1 (THead (Flat Cast) v t)) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u3: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u3) z2)) u2) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u3: T).\lambda (_: T).pr3 c t0 u3) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2) (pr3 c (THead (Flat Appl) t0 (THeads (Flat Appl) t1 t)) u2) (\lambda (x0: B).\lambda (x1: T).\lambda (x2: T).\lambda (x3: T).\lambda (x4: T).\lambda (x5: T).\lambda (H4: (not (eq B x0 Abst))).\lambda (H5: (pr3 c (THeads (Flat Appl) t1 (THead (Flat Cast) v t)) (THead (Bind x0) x1 x2))).\lambda (H6: (pr3 c (THead (Bind x0) x5 (THead (Flat Appl) (lift (S O) O x4) x3)) u2)).\lambda (H7: (pr3 c t0 x4)).\lambda (H8: (pr3 c x1 x5)).\lambda (H9: (pr3 (CHead c (Bind x0) x5) x2 x3)).pr3_t (THead (Bind x0) x1 (THead (Flat Appl) (lift (S O) O x4) x2)) (THead (Flat Appl) t0 (THeads (Flat Appl) t1 t)) c (pr3_t (THead (Bind x0) x1 (THead (Flat Appl) (lift (S O) O t0) x2)) (THead (Flat Appl) t0 (THeads (Flat Appl) t1 t)) c (pr3_t (THead (Flat Appl) t0 (THead (Bind x0) x1 x2)) (THead (Flat Appl) t0 (THeads (Flat Appl) t1 t)) c (pr3_thin_dx c (THeads (Flat Appl) t1 t) (THead (Bind x0) x1 x2) (H (THead (Bind x0) x1 x2) H5 (\lambda (H10: (iso (THeads (Flat Appl) t1 (THead (Flat Cast) v t)) (THead (Bind x0) x1 x2))).\lambda (P: (Prop)).iso_flats_flat_bind_false Appl Cast x0 x1 v x2 t t1 H10 P)) t0 Appl) (THead (Bind x0) x1 (THead (Flat Appl) (lift (S O) O t0) x2)) (pr3_pr2 c (THead (Flat Appl) t0 (THead (Bind x0) x1 x2)) (THead (Bind x0) x1 (THead (Flat Appl) (lift (S O) O t0) x2)) (pr2_free c (THead (Flat Appl) t0 (THead (Bind x0) x1 x2)) (THead (Bind x0) x1 (THead (Flat Appl) (lift (S O) O t0) x2)) (pr0_upsilon x0 H4 t0 t0 (pr0_refl t0) x1 x1 (pr0_refl x1) x2 x2 (pr0_refl x2))))) (THead (Bind x0) x1 (THead (Flat Appl) (lift (S O) O x4) x2)) (pr3_head_12 c x1 x1 (pr3_refl c x1) (Bind x0) (THead (Flat Appl) (lift (S O) O t0) x2) (THead (Flat Appl) (lift (S O) O x4) x2) (pr3_head_12 (CHead c (Bind x0) x1) (lift (S O) O t0) (lift (S O) O x4) (pr3_lift (CHead c (Bind x0) x1) c (S O) O (drop_drop (Bind x0) O c c (drop_refl c) x1) t0 x4 H7) (Flat Appl) x2 x2 (pr3_refl (CHead (CHead c (Bind x0) x1) (Flat Appl) (lift (S O) O x4)) x2)))) u2 (pr3_t (THead (Bind x0) x5 (THead (Flat Appl) (lift (S O) O x4) x3)) (THead (Bind x0) x1 (THead (Flat Appl) (lift (S O) O x4) x2)) c (pr3_head_12 c x1 x5 H8 (Bind x0) (THead (Flat Appl) (lift (S O) O x4) x2) (THead (Flat Appl) (lift (S O) O x4) x3) (pr3_thin_dx (CHead c (Bind x0) x5) x2 x3 H9 (lift (S O) O x4) Appl)) u2 H6)) H3) H2) vs.
+
+inductive csuba (g:G): C \to C \to Prop \def
+| csuba_sort: \forall (n: nat).csuba g (CSort n) (CSort n)
+| csuba_head: \forall (c1: C).\forall (c2: C).(csuba g c1 c2) \to \forall (k: K).\forall (u: T).csuba g (CHead c1 k u) (CHead c2 k u)
+| csuba_abst: \forall (c1: C).\forall (c2: C).(csuba g c1 c2) \to \forall (t: T).\forall (a: A).(arity g c1 t (asucc g a)) \to \forall (u: T).(arity g c2 u a) \to csuba g (CHead c1 (Bind Abst) t) (CHead c2 (Bind Abbr) u).
+
+theorem csuba_gen_abbr: \forall (g: G).\forall (d1: C).\forall (c: C).\forall (u: T).(csuba g (CHead d1 (Bind Abbr) u) c) \to ex2 C (\lambda (d2: C).eq C c (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2) \def \lambda (g: G).\lambda (d1: C).\lambda (c: C).\lambda (u: T).\lambda (H: (csuba g (CHead d1 (Bind Abbr) u) c)).let H0 \def match H return (\lambda (c0: C).\lambda (c1: C).(eq C c0 (CHead d1 (Bind Abbr) u)) \to (eq C c1 c) \to ex2 C (\lambda (d2: C).eq C c (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) with [(csuba_sort n) \Rightarrow (\lambda (H0: (eq C (CSort n) (CHead d1 (Bind Abbr) u))).\lambda (H1: (eq C (CSort n) c)).(let H2 \def eq_ind C (CSort n) (\lambda (e: C).match e return (Prop) with [(CSort _) \Rightarrow True | (CHead _ _ _) \Rightarrow False]) I (CHead d1 (Bind Abbr) u) H0 in False_ind ((eq C (CSort n) c) \to ex2 C (\lambda (d2: C).eq C c (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) H2) H1) | (csuba_head c1 c2 H0 k u0) \Rightarrow (\lambda (H1: (eq C (CHead c1 k u0) (CHead d1 (Bind Abbr) u))).\lambda (H2: (eq C (CHead c2 k u0) c)).(let H3 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u0 | (CHead _ _ t) \Rightarrow t]) (CHead c1 k u0) (CHead d1 (Bind Abbr) u) H1 in (let H4 \def f_equal C K (\lambda (e: C).match e return K with [(CSort _) \Rightarrow k | (CHead _ k _) \Rightarrow k]) (CHead c1 k u0) (CHead d1 (Bind Abbr) u) H1 in (let H5 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c1 | (CHead c _ _) \Rightarrow c]) (CHead c1 k u0) (CHead d1 (Bind Abbr) u) H1 in eq_ind C d1 (\lambda (c0: C).(eq K k (Bind Abbr)) \to (eq T u0 u) \to (eq C (CHead c2 k u0) c) \to (csuba g c0 c2) \to ex2 C (\lambda (d2: C).eq C c (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (H6: (eq K k (Bind Abbr))).eq_ind K (Bind Abbr) (\lambda (k0: K).(eq T u0 u) \to (eq C (CHead c2 k0 u0) c) \to (csuba g d1 c2) \to ex2 C (\lambda (d2: C).eq C c (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (H7: (eq T u0 u)).eq_ind T u (\lambda (t: T).(eq C (CHead c2 (Bind Abbr) t) c) \to (csuba g d1 c2) \to ex2 C (\lambda (d2: C).eq C c (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (H8: (eq C (CHead c2 (Bind Abbr) u) c)).eq_ind C (CHead c2 (Bind Abbr) u) (\lambda (c: C).(csuba g d1 c2) \to ex2 C (\lambda (d2: C).eq C c (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (H9: (csuba g d1 c2)).ex_intro2 C (\lambda (d2: C).eq C (CHead c2 (Bind Abbr) u) (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2) c2 (refl_equal C (CHead c2 (Bind Abbr) u)) H9) c H8) u0 (sym_eq T u0 u H7)) k (sym_eq K k (Bind Abbr) H6)) c1 (sym_eq C c1 d1 H5)) H4) H3) H2 H0) | (csuba_abst c1 c2 H0 t a H1 u0 H2) \Rightarrow (\lambda (H3: (eq C (CHead c1 (Bind Abst) t) (CHead d1 (Bind Abbr) u))).\lambda (H4: (eq C (CHead c2 (Bind Abbr) u0) c)).(let H5 \def eq_ind C (CHead c1 (Bind Abst) t) (\lambda (e: C).match e return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow False | Abst \Rightarrow True | Void \Rightarrow False]) | (Flat _) \Rightarrow False])]) I (CHead d1 (Bind Abbr) u) H3 in False_ind ((eq C (CHead c2 (Bind Abbr) u0) c) \to (csuba g c1 c2) \to (arity g c1 t (asucc g a)) \to (arity g c2 u0 a) \to ex2 C (\lambda (d2: C).eq C c (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) H5) H4 H0 H1 H2)] in H0 (refl_equal C (CHead d1 (Bind Abbr) u)) (refl_equal C c).
+
+theorem csuba_gen_void: \forall (g: G).\forall (d1: C).\forall (c: C).\forall (u: T).(csuba g (CHead d1 (Bind Void) u) c) \to ex2 C (\lambda (d2: C).eq C c (CHead d2 (Bind Void) u)) (\lambda (d2: C).csuba g d1 d2) \def \lambda (g: G).\lambda (d1: C).\lambda (c: C).\lambda (u: T).\lambda (H: (csuba g (CHead d1 (Bind Void) u) c)).let H0 \def match H return (\lambda (c0: C).\lambda (c1: C).(eq C c0 (CHead d1 (Bind Void) u)) \to (eq C c1 c) \to ex2 C (\lambda (d2: C).eq C c (CHead d2 (Bind Void) u)) (\lambda (d2: C).csuba g d1 d2)) with [(csuba_sort n) \Rightarrow (\lambda (H0: (eq C (CSort n) (CHead d1 (Bind Void) u))).\lambda (H1: (eq C (CSort n) c)).(let H2 \def eq_ind C (CSort n) (\lambda (e: C).match e return (Prop) with [(CSort _) \Rightarrow True | (CHead _ _ _) \Rightarrow False]) I (CHead d1 (Bind Void) u) H0 in False_ind ((eq C (CSort n) c) \to ex2 C (\lambda (d2: C).eq C c (CHead d2 (Bind Void) u)) (\lambda (d2: C).csuba g d1 d2)) H2) H1) | (csuba_head c1 c2 H0 k u0) \Rightarrow (\lambda (H1: (eq C (CHead c1 k u0) (CHead d1 (Bind Void) u))).\lambda (H2: (eq C (CHead c2 k u0) c)).(let H3 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u0 | (CHead _ _ t) \Rightarrow t]) (CHead c1 k u0) (CHead d1 (Bind Void) u) H1 in (let H4 \def f_equal C K (\lambda (e: C).match e return K with [(CSort _) \Rightarrow k | (CHead _ k _) \Rightarrow k]) (CHead c1 k u0) (CHead d1 (Bind Void) u) H1 in (let H5 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c1 | (CHead c _ _) \Rightarrow c]) (CHead c1 k u0) (CHead d1 (Bind Void) u) H1 in eq_ind C d1 (\lambda (c0: C).(eq K k (Bind Void)) \to (eq T u0 u) \to (eq C (CHead c2 k u0) c) \to (csuba g c0 c2) \to ex2 C (\lambda (d2: C).eq C c (CHead d2 (Bind Void) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (H6: (eq K k (Bind Void))).eq_ind K (Bind Void) (\lambda (k0: K).(eq T u0 u) \to (eq C (CHead c2 k0 u0) c) \to (csuba g d1 c2) \to ex2 C (\lambda (d2: C).eq C c (CHead d2 (Bind Void) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (H7: (eq T u0 u)).eq_ind T u (\lambda (t: T).(eq C (CHead c2 (Bind Void) t) c) \to (csuba g d1 c2) \to ex2 C (\lambda (d2: C).eq C c (CHead d2 (Bind Void) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (H8: (eq C (CHead c2 (Bind Void) u) c)).eq_ind C (CHead c2 (Bind Void) u) (\lambda (c: C).(csuba g d1 c2) \to ex2 C (\lambda (d2: C).eq C c (CHead d2 (Bind Void) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (H9: (csuba g d1 c2)).ex_intro2 C (\lambda (d2: C).eq C (CHead c2 (Bind Void) u) (CHead d2 (Bind Void) u)) (\lambda (d2: C).csuba g d1 d2) c2 (refl_equal C (CHead c2 (Bind Void) u)) H9) c H8) u0 (sym_eq T u0 u H7)) k (sym_eq K k (Bind Void) H6)) c1 (sym_eq C c1 d1 H5)) H4) H3) H2 H0) | (csuba_abst c1 c2 H0 t a H1 u0 H2) \Rightarrow (\lambda (H3: (eq C (CHead c1 (Bind Abst) t) (CHead d1 (Bind Void) u))).\lambda (H4: (eq C (CHead c2 (Bind Abbr) u0) c)).(let H5 \def eq_ind C (CHead c1 (Bind Abst) t) (\lambda (e: C).match e return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow False | Abst \Rightarrow True | Void \Rightarrow False]) | (Flat _) \Rightarrow False])]) I (CHead d1 (Bind Void) u) H3 in False_ind ((eq C (CHead c2 (Bind Abbr) u0) c) \to (csuba g c1 c2) \to (arity g c1 t (asucc g a)) \to (arity g c2 u0 a) \to ex2 C (\lambda (d2: C).eq C c (CHead d2 (Bind Void) u)) (\lambda (d2: C).csuba g d1 d2)) H5) H4 H0 H1 H2)] in H0 (refl_equal C (CHead d1 (Bind Void) u)) (refl_equal C c).
+
+theorem csuba_gen_abst: \forall (g: G).\forall (d1: C).\forall (c: C).\forall (u1: T).(csuba g (CHead d1 (Bind Abst) u1) c) \to or (ex2 C (\lambda (d2: C).eq C c (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).eq C c (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) \def \lambda (g: G).\lambda (d1: C).\lambda (c: C).\lambda (u1: T).\lambda (H: (csuba g (CHead d1 (Bind Abst) u1) c)).let H0 \def match H return (\lambda (c0: C).\lambda (c1: C).(eq C c0 (CHead d1 (Bind Abst) u1)) \to (eq C c1 c) \to or (ex2 C (\lambda (d2: C).eq C c (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).eq C c (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) with [(csuba_sort n) \Rightarrow (\lambda (H0: (eq C (CSort n) (CHead d1 (Bind Abst) u1))).\lambda (H1: (eq C (CSort n) c)).(let H2 \def eq_ind C (CSort n) (\lambda (e: C).match e return (Prop) with [(CSort _) \Rightarrow True | (CHead _ _ _) \Rightarrow False]) I (CHead d1 (Bind Abst) u1) H0 in False_ind ((eq C (CSort n) c) \to or (ex2 C (\lambda (d2: C).eq C c (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).eq C c (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) H2) H1) | (csuba_head c1 c2 H0 k u) \Rightarrow (\lambda (H1: (eq C (CHead c1 k u) (CHead d1 (Bind Abst) u1))).\lambda (H2: (eq C (CHead c2 k u) c)).(let H3 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead c1 k u) (CHead d1 (Bind Abst) u1) H1 in (let H4 \def f_equal C K (\lambda (e: C).match e return K with [(CSort _) \Rightarrow k | (CHead _ k _) \Rightarrow k]) (CHead c1 k u) (CHead d1 (Bind Abst) u1) H1 in (let H5 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c1 | (CHead c _ _) \Rightarrow c]) (CHead c1 k u) (CHead d1 (Bind Abst) u1) H1 in eq_ind C d1 (\lambda (c0: C).(eq K k (Bind Abst)) \to (eq T u u1) \to (eq C (CHead c2 k u) c) \to (csuba g c0 c2) \to or (ex2 C (\lambda (d2: C).eq C c (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).eq C c (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (H6: (eq K k (Bind Abst))).eq_ind K (Bind Abst) (\lambda (k0: K).(eq T u u1) \to (eq C (CHead c2 k0 u) c) \to (csuba g d1 c2) \to or (ex2 C (\lambda (d2: C).eq C c (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).eq C c (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (H7: (eq T u u1)).eq_ind T u1 (\lambda (t: T).(eq C (CHead c2 (Bind Abst) t) c) \to (csuba g d1 c2) \to or (ex2 C (\lambda (d2: C).eq C c (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).eq C c (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (H8: (eq C (CHead c2 (Bind Abst) u1) c)).eq_ind C (CHead c2 (Bind Abst) u1) (\lambda (c: C).(csuba g d1 c2) \to or (ex2 C (\lambda (d2: C).eq C c (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).eq C c (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (H9: (csuba g d1 c2)).or_introl (ex2 C (\lambda (d2: C).eq C (CHead c2 (Bind Abst) u1) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).eq C (CHead c2 (Bind Abst) u1) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) (ex_intro2 C (\lambda (d2: C).eq C (CHead c2 (Bind Abst) u1) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2) c2 (refl_equal C (CHead c2 (Bind Abst) u1)) H9)) c H8) u (sym_eq T u u1 H7)) k (sym_eq K k (Bind Abst) H6)) c1 (sym_eq C c1 d1 H5)) H4) H3) H2 H0) | (csuba_abst c1 c2 H0 t a H1 u H2) \Rightarrow (\lambda (H3: (eq C (CHead c1 (Bind Abst) t) (CHead d1 (Bind Abst) u1))).\lambda (H4: (eq C (CHead c2 (Bind Abbr) u) c)).(let H5 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow t | (CHead _ _ t) \Rightarrow t]) (CHead c1 (Bind Abst) t) (CHead d1 (Bind Abst) u1) H3 in (let H6 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c1 | (CHead c _ _) \Rightarrow c]) (CHead c1 (Bind Abst) t) (CHead d1 (Bind Abst) u1) H3 in eq_ind C d1 (\lambda (c0: C).(eq T t u1) \to (eq C (CHead c2 (Bind Abbr) u) c) \to (csuba g c0 c2) \to (arity g c0 t (asucc g a)) \to (arity g c2 u a) \to or (ex2 C (\lambda (d2: C).eq C c (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).eq C c (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a0: A).arity g d1 u1 (asucc g a0)) (\lambda (d2: C).\lambda (u2: T).\lambda (a0: A).arity g d2 u2 a0))) (\lambda (H7: (eq T t u1)).eq_ind T u1 (\lambda (t0: T).(eq C (CHead c2 (Bind Abbr) u) c) \to (csuba g d1 c2) \to (arity g d1 t0 (asucc g a)) \to (arity g c2 u a) \to or (ex2 C (\lambda (d2: C).eq C c (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).eq C c (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a0: A).arity g d1 u1 (asucc g a0)) (\lambda (d2: C).\lambda (u2: T).\lambda (a0: A).arity g d2 u2 a0))) (\lambda (H8: (eq C (CHead c2 (Bind Abbr) u) c)).eq_ind C (CHead c2 (Bind Abbr) u) (\lambda (c: C).(csuba g d1 c2) \to (arity g d1 u1 (asucc g a)) \to (arity g c2 u a) \to or (ex2 C (\lambda (d2: C).eq C c (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).eq C c (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a0: A).arity g d1 u1 (asucc g a0)) (\lambda (d2: C).\lambda (u2: T).\lambda (a0: A).arity g d2 u2 a0))) (\lambda (H9: (csuba g d1 c2)).\lambda (H10: (arity g d1 u1 (asucc g a))).\lambda (H11: (arity g c2 u a)).or_intror (ex2 C (\lambda (d2: C).eq C (CHead c2 (Bind Abbr) u) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).eq C (CHead c2 (Bind Abbr) u) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a0: A).arity g d1 u1 (asucc g a0)) (\lambda (d2: C).\lambda (u2: T).\lambda (a0: A).arity g d2 u2 a0)) (ex4_3_intro C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).eq C (CHead c2 (Bind Abbr) u) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a0: A).arity g d1 u1 (asucc g a0)) (\lambda (d2: C).\lambda (u2: T).\lambda (a0: A).arity g d2 u2 a0) c2 u a (refl_equal C (CHead c2 (Bind Abbr) u)) H9 H10 H11)) c H8) t (sym_eq T t u1 H7)) c1 (sym_eq C c1 d1 H6)) H5) H4 H0 H1 H2)] in H0 (refl_equal C (CHead d1 (Bind Abst) u1)) (refl_equal C c).
+
+theorem csuba_gen_flat: \forall (g: G).\forall (d1: C).\forall (c: C).\forall (u1: T).\forall (f: F).(csuba g (CHead d1 (Flat f) u1) c) \to ex2_2 C T (\lambda (d2: C).\lambda (u2: T).eq C c (CHead d2 (Flat f) u2)) (\lambda (d2: C).\lambda (_: T).csuba g d1 d2) \def \lambda (g: G).\lambda (d1: C).\lambda (c: C).\lambda (u1: T).\lambda (f: F).\lambda (H: (csuba g (CHead d1 (Flat f) u1) c)).let H0 \def match H return (\lambda (c0: C).\lambda (c1: C).(eq C c0 (CHead d1 (Flat f) u1)) \to (eq C c1 c) \to ex2_2 C T (\lambda (d2: C).\lambda (u2: T).eq C c (CHead d2 (Flat f) u2)) (\lambda (d2: C).\lambda (_: T).csuba g d1 d2)) with [(csuba_sort n) \Rightarrow (\lambda (H0: (eq C (CSort n) (CHead d1 (Flat f) u1))).\lambda (H1: (eq C (CSort n) c)).(let H2 \def eq_ind C (CSort n) (\lambda (e: C).match e return (Prop) with [(CSort _) \Rightarrow True | (CHead _ _ _) \Rightarrow False]) I (CHead d1 (Flat f) u1) H0 in False_ind ((eq C (CSort n) c) \to ex2_2 C T (\lambda (d2: C).\lambda (u2: T).eq C c (CHead d2 (Flat f) u2)) (\lambda (d2: C).\lambda (_: T).csuba g d1 d2)) H2) H1) | (csuba_head c1 c2 H0 k u) \Rightarrow (\lambda (H1: (eq C (CHead c1 k u) (CHead d1 (Flat f) u1))).\lambda (H2: (eq C (CHead c2 k u) c)).(let H3 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead c1 k u) (CHead d1 (Flat f) u1) H1 in (let H4 \def f_equal C K (\lambda (e: C).match e return K with [(CSort _) \Rightarrow k | (CHead _ k _) \Rightarrow k]) (CHead c1 k u) (CHead d1 (Flat f) u1) H1 in (let H5 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c1 | (CHead c _ _) \Rightarrow c]) (CHead c1 k u) (CHead d1 (Flat f) u1) H1 in eq_ind C d1 (\lambda (c0: C).(eq K k (Flat f)) \to (eq T u u1) \to (eq C (CHead c2 k u) c) \to (csuba g c0 c2) \to ex2_2 C T (\lambda (d2: C).\lambda (u2: T).eq C c (CHead d2 (Flat f) u2)) (\lambda (d2: C).\lambda (_: T).csuba g d1 d2)) (\lambda (H6: (eq K k (Flat f))).eq_ind K (Flat f) (\lambda (k0: K).(eq T u u1) \to (eq C (CHead c2 k0 u) c) \to (csuba g d1 c2) \to ex2_2 C T (\lambda (d2: C).\lambda (u2: T).eq C c (CHead d2 (Flat f) u2)) (\lambda (d2: C).\lambda (_: T).csuba g d1 d2)) (\lambda (H7: (eq T u u1)).eq_ind T u1 (\lambda (t: T).(eq C (CHead c2 (Flat f) t) c) \to (csuba g d1 c2) \to ex2_2 C T (\lambda (d2: C).\lambda (u2: T).eq C c (CHead d2 (Flat f) u2)) (\lambda (d2: C).\lambda (_: T).csuba g d1 d2)) (\lambda (H8: (eq C (CHead c2 (Flat f) u1) c)).eq_ind C (CHead c2 (Flat f) u1) (\lambda (c: C).(csuba g d1 c2) \to ex2_2 C T (\lambda (d2: C).\lambda (u2: T).eq C c (CHead d2 (Flat f) u2)) (\lambda (d2: C).\lambda (_: T).csuba g d1 d2)) (\lambda (H9: (csuba g d1 c2)).ex2_2_intro C T (\lambda (d2: C).\lambda (u2: T).eq C (CHead c2 (Flat f) u1) (CHead d2 (Flat f) u2)) (\lambda (d2: C).\lambda (_: T).csuba g d1 d2) c2 u1 (refl_equal C (CHead c2 (Flat f) u1)) H9) c H8) u (sym_eq T u u1 H7)) k (sym_eq K k (Flat f) H6)) c1 (sym_eq C c1 d1 H5)) H4) H3) H2 H0) | (csuba_abst c1 c2 H0 t a H1 u H2) \Rightarrow (\lambda (H3: (eq C (CHead c1 (Bind Abst) t) (CHead d1 (Flat f) u1))).\lambda (H4: (eq C (CHead c2 (Bind Abbr) u) c)).(let H5 \def eq_ind C (CHead c1 (Bind Abst) t) (\lambda (e: C).match e return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (CHead d1 (Flat f) u1) H3 in False_ind ((eq C (CHead c2 (Bind Abbr) u) c) \to (csuba g c1 c2) \to (arity g c1 t (asucc g a)) \to (arity g c2 u a) \to ex2_2 C T (\lambda (d2: C).\lambda (u2: T).eq C c (CHead d2 (Flat f) u2)) (\lambda (d2: C).\lambda (_: T).csuba g d1 d2)) H5) H4 H0 H1 H2)] in H0 (refl_equal C (CHead d1 (Flat f) u1)) (refl_equal C c).
+
+theorem csuba_gen_bind: \forall (g: G).\forall (b1: B).\forall (e1: C).\forall (c2: C).\forall (v1: T).(csuba g (CHead e1 (Bind b1) v1) c2) \to ex2_3 B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C c2 (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csuba g e1 e2) \def \lambda (g: G).\lambda (b1: B).\lambda (e1: C).\lambda (c2: C).\lambda (v1: T).\lambda (H: (csuba g (CHead e1 (Bind b1) v1) c2)).let H0 \def match H return (\lambda (c: C).\lambda (c0: C).(eq C c (CHead e1 (Bind b1) v1)) \to (eq C c0 c2) \to ex2_3 B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C c2 (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csuba g e1 e2)) with [(csuba_sort n) \Rightarrow (\lambda (H0: (eq C (CSort n) (CHead e1 (Bind b1) v1))).\lambda (H1: (eq C (CSort n) c2)).(let H2 \def eq_ind C (CSort n) (\lambda (e: C).match e return (Prop) with [(CSort _) \Rightarrow True | (CHead _ _ _) \Rightarrow False]) I (CHead e1 (Bind b1) v1) H0 in False_ind ((eq C (CSort n) c2) \to ex2_3 B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C c2 (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csuba g e1 e2)) H2) H1) | (csuba_head c1 c0 H0 k u) \Rightarrow (\lambda (H1: (eq C (CHead c1 k u) (CHead e1 (Bind b1) v1))).\lambda (H2: (eq C (CHead c0 k u) c2)).(let H3 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead c1 k u) (CHead e1 (Bind b1) v1) H1 in (let H4 \def f_equal C K (\lambda (e: C).match e return K with [(CSort _) \Rightarrow k | (CHead _ k _) \Rightarrow k]) (CHead c1 k u) (CHead e1 (Bind b1) v1) H1 in (let H5 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c1 | (CHead c _ _) \Rightarrow c]) (CHead c1 k u) (CHead e1 (Bind b1) v1) H1 in eq_ind C e1 (\lambda (c: C).(eq K k (Bind b1)) \to (eq T u v1) \to (eq C (CHead c0 k u) c2) \to (csuba g c c0) \to ex2_3 B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C c2 (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csuba g e1 e2)) (\lambda (H6: (eq K k (Bind b1))).eq_ind K (Bind b1) (\lambda (k0: K).(eq T u v1) \to (eq C (CHead c0 k0 u) c2) \to (csuba g e1 c0) \to ex2_3 B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C c2 (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csuba g e1 e2)) (\lambda (H7: (eq T u v1)).eq_ind T v1 (\lambda (t: T).(eq C (CHead c0 (Bind b1) t) c2) \to (csuba g e1 c0) \to ex2_3 B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C c2 (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csuba g e1 e2)) (\lambda (H8: (eq C (CHead c0 (Bind b1) v1) c2)).eq_ind C (CHead c0 (Bind b1) v1) (\lambda (c: C).(csuba g e1 c0) \to ex2_3 B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C c (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csuba g e1 e2)) (\lambda (H9: (csuba g e1 c0)).let H10 \def eq_ind_r C c2 (\lambda (c: C).csuba g (CHead e1 (Bind b1) v1) c) H (CHead c0 (Bind b1) v1) H8 in ex2_3_intro B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C (CHead c0 (Bind b1) v1) (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csuba g e1 e2) b1 c0 v1 (refl_equal C (CHead c0 (Bind b1) v1)) H9) c2 H8) u (sym_eq T u v1 H7)) k (sym_eq K k (Bind b1) H6)) c1 (sym_eq C c1 e1 H5)) H4) H3) H2 H0) | (csuba_abst c1 c0 H0 t a H1 u H2) \Rightarrow (\lambda (H3: (eq C (CHead c1 (Bind Abst) t) (CHead e1 (Bind b1) v1))).\lambda (H4: (eq C (CHead c0 (Bind Abbr) u) c2)).(let H5 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow t | (CHead _ _ t) \Rightarrow t]) (CHead c1 (Bind Abst) t) (CHead e1 (Bind b1) v1) H3 in (let H6 \def f_equal C B (\lambda (e: C).match e return B with [(CSort _) \Rightarrow Abst | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abst])]) (CHead c1 (Bind Abst) t) (CHead e1 (Bind b1) v1) H3 in (let H7 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c1 | (CHead c _ _) \Rightarrow c]) (CHead c1 (Bind Abst) t) (CHead e1 (Bind b1) v1) H3 in eq_ind C e1 (\lambda (c: C).(eq B Abst b1) \to (eq T t v1) \to (eq C (CHead c0 (Bind Abbr) u) c2) \to (csuba g c c0) \to (arity g c t (asucc g a)) \to (arity g c0 u a) \to ex2_3 B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C c2 (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csuba g e1 e2)) (\lambda (H8: (eq B Abst b1)).eq_ind B Abst (\lambda (_: B).(eq T t v1) \to (eq C (CHead c0 (Bind Abbr) u) c2) \to (csuba g e1 c0) \to (arity g e1 t (asucc g a)) \to (arity g c0 u a) \to ex2_3 B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C c2 (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csuba g e1 e2)) (\lambda (H9: (eq T t v1)).eq_ind T v1 (\lambda (t0: T).(eq C (CHead c0 (Bind Abbr) u) c2) \to (csuba g e1 c0) \to (arity g e1 t0 (asucc g a)) \to (arity g c0 u a) \to ex2_3 B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C c2 (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csuba g e1 e2)) (\lambda (H10: (eq C (CHead c0 (Bind Abbr) u) c2)).eq_ind C (CHead c0 (Bind Abbr) u) (\lambda (c: C).(csuba g e1 c0) \to (arity g e1 v1 (asucc g a)) \to (arity g c0 u a) \to ex2_3 B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C c (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csuba g e1 e2)) (\lambda (H11: (csuba g e1 c0)).\lambda (_: (arity g e1 v1 (asucc g a))).\lambda (_: (arity g c0 u a)).let H14 \def eq_ind_r C c2 (\lambda (c: C).csuba g (CHead e1 (Bind b1) v1) c) H (CHead c0 (Bind Abbr) u) H10 in let H15 \def eq_ind_r B b1 (\lambda (b: B).csuba g (CHead e1 (Bind b) v1) (CHead c0 (Bind Abbr) u)) H14 Abst H8 in ex2_3_intro B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C (CHead c0 (Bind Abbr) u) (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csuba g e1 e2) Abbr c0 u (refl_equal C (CHead c0 (Bind Abbr) u)) H11) c2 H10) t (sym_eq T t v1 H9)) b1 H8) c1 (sym_eq C c1 e1 H7)) H6) H5) H4 H0 H1 H2)] in H0 (refl_equal C (CHead e1 (Bind b1) v1)) (refl_equal C c2).
+
+theorem csuba_refl: \forall (g: G).\forall (c: C).csuba g c c \def \lambda (g: G).\lambda (c: C).C_ind (\lambda (c0: C).csuba g c0 c0) (\lambda (n: nat).csuba_sort g n) (\lambda (c0: C).\lambda (H: (csuba g c0 c0)).\lambda (k: K).\lambda (t: T).csuba_head g c0 c0 H k t) c.
+
+theorem csuba_clear_conf: \forall (g: G).\forall (c1: C).\forall (c2: C).(csuba g c1 c2) \to \forall (e1: C).(clear c1 e1) \to ex2 C (\lambda (e2: C).csuba g e1 e2) (\lambda (e2: C).clear c2 e2) \def \lambda (g: G).\lambda (c1: C).\lambda (c2: C).\lambda (H: (csuba g c1 c2)).csuba_ind g (\lambda (c: C).\lambda (c0: C).\forall (e1: C).(clear c e1) \to ex2 C (\lambda (e2: C).csuba g e1 e2) (\lambda (e2: C).clear c0 e2)) (\lambda (n: nat).\lambda (e1: C).\lambda (H0: (clear (CSort n) e1)).clear_gen_sort e1 n H0 (ex2 C (\lambda (e2: C).csuba g e1 e2) (\lambda (e2: C).clear (CSort n) e2))) (\lambda (c3: C).\lambda (c4: C).\lambda (H0: (csuba g c3 c4)).\lambda (H1: ((\forall (e1: C).(clear c3 e1) \to ex2 C (\lambda (e2: C).csuba g e1 e2) (\lambda (e2: C).clear c4 e2)))).\lambda (k: K).\lambda (u: T).\lambda (e1: C).\lambda (H2: (clear (CHead c3 k u) e1)).(match k return (\lambda (k0: K).(clear (CHead c3 k0 u) e1) \to ex2 C (\lambda (e2: C).csuba g e1 e2) (\lambda (e2: C).clear (CHead c4 k0 u) e2)) with [(Bind b) \Rightarrow (\lambda (H3: (clear (CHead c3 (Bind b) u) e1)).eq_ind_r C (CHead c3 (Bind b) u) (\lambda (c: C).ex2 C (\lambda (e2: C).csuba g c e2) (\lambda (e2: C).clear (CHead c4 (Bind b) u) e2)) (ex_intro2 C (\lambda (e2: C).csuba g (CHead c3 (Bind b) u) e2) (\lambda (e2: C).clear (CHead c4 (Bind b) u) e2) (CHead c4 (Bind b) u) (csuba_head g c3 c4 H0 (Bind b) u) (clear_bind b c4 u)) e1 (clear_gen_bind b c3 e1 u H3)) | (Flat f) \Rightarrow (\lambda (H3: (clear (CHead c3 (Flat f) u) e1)).let H4 \def H1 e1 (clear_gen_flat f c3 e1 u H3) in ex2_ind C (\lambda (e2: C).csuba g e1 e2) (\lambda (e2: C).clear c4 e2) (ex2 C (\lambda (e2: C).csuba g e1 e2) (\lambda (e2: C).clear (CHead c4 (Flat f) u) e2)) (\lambda (x: C).\lambda (H5: (csuba g e1 x)).\lambda (H6: (clear c4 x)).ex_intro2 C (\lambda (e2: C).csuba g e1 e2) (\lambda (e2: C).clear (CHead c4 (Flat f) u) e2) x H5 (clear_flat c4 x H6 f u)) H4)]) H2) (\lambda (c3: C).\lambda (c4: C).\lambda (H0: (csuba g c3 c4)).\lambda (_: ((\forall (e1: C).(clear c3 e1) \to ex2 C (\lambda (e2: C).csuba g e1 e2) (\lambda (e2: C).clear c4 e2)))).\lambda (t: T).\lambda (a: A).\lambda (H2: (arity g c3 t (asucc g a))).\lambda (u: T).\lambda (H3: (arity g c4 u a)).\lambda (e1: C).\lambda (H4: (clear (CHead c3 (Bind Abst) t) e1)).eq_ind_r C (CHead c3 (Bind Abst) t) (\lambda (c: C).ex2 C (\lambda (e2: C).csuba g c e2) (\lambda (e2: C).clear (CHead c4 (Bind Abbr) u) e2)) (ex_intro2 C (\lambda (e2: C).csuba g (CHead c3 (Bind Abst) t) e2) (\lambda (e2: C).clear (CHead c4 (Bind Abbr) u) e2) (CHead c4 (Bind Abbr) u) (csuba_abst g c3 c4 H0 t a H2 u H3) (clear_bind Abbr c4 u)) e1 (clear_gen_bind Abst c3 e1 t H4)) c1 c2 H.
+
+theorem csuba_drop_abbr: \forall (i: nat).\forall (c1: C).\forall (d1: C).\forall (u: T).(drop i O c1 (CHead d1 (Bind Abbr) u)) \to \forall (g: G).\forall (c2: C).(csuba g c1 c2) \to ex2 C (\lambda (d2: C).drop i O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2) \def \lambda (i: nat).nat_ind (\lambda (n: nat).\forall (c1: C).\forall (d1: C).\forall (u: T).(drop n O c1 (CHead d1 (Bind Abbr) u)) \to \forall (g: G).\forall (c2: C).(csuba g c1 c2) \to ex2 C (\lambda (d2: C).drop n O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (c1: C).\lambda (d1: C).\lambda (u: T).\lambda (H: (drop O O c1 (CHead d1 (Bind Abbr) u))).\lambda (g: G).\lambda (c2: C).\lambda (H0: (csuba g c1 c2)).let H1 \def eq_ind C c1 (\lambda (c: C).csuba g c c2) H0 (CHead d1 (Bind Abbr) u) (drop_gen_refl c1 (CHead d1 (Bind Abbr) u) H) in let H2 \def csuba_gen_abbr g d1 c2 u H1 in ex2_ind C (\lambda (d2: C).eq C c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2) (ex2 C (\lambda (d2: C).drop O O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (x: C).\lambda (H3: (eq C c2 (CHead x (Bind Abbr) u))).\lambda (H4: (csuba g d1 x)).eq_ind_r C (CHead x (Bind Abbr) u) (\lambda (c: C).ex2 C (\lambda (d2: C).drop O O c (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (ex_intro2 C (\lambda (d2: C).drop O O (CHead x (Bind Abbr) u) (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2) x (drop_refl (CHead x (Bind Abbr) u)) H4) c2 H3) H2) (\lambda (n: nat).\lambda (H: ((\forall (c1: C).\forall (d1: C).\forall (u: T).(drop n O c1 (CHead d1 (Bind Abbr) u)) \to \forall (g: G).\forall (c2: C).(csuba g c1 c2) \to ex2 C (\lambda (d2: C).drop n O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)))).\lambda (c1: C).C_ind (\lambda (c: C).\forall (d1: C).\forall (u: T).(drop (S n) O c (CHead d1 (Bind Abbr) u)) \to \forall (g: G).\forall (c2: C).(csuba g c c2) \to ex2 C (\lambda (d2: C).drop (S n) O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (n0: nat).\lambda (d1: C).\lambda (u: T).\lambda (H0: (drop (S n) O (CSort n0) (CHead d1 (Bind Abbr) u))).\lambda (g: G).\lambda (c2: C).\lambda (_: (csuba g (CSort n0) c2)).and3_ind (eq C (CHead d1 (Bind Abbr) u) (CSort n0)) (eq nat (S n) O) (eq nat O O) (ex2 C (\lambda (d2: C).drop (S n) O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (H2: (eq C (CHead d1 (Bind Abbr) u) (CSort n0))).\lambda (_: (eq nat (S n) O)).\lambda (_: (eq nat O O)).let H5 \def match H2 return (\lambda (c: C).(eq C c (CSort n0)) \to ex2 C (\lambda (d2: C).drop (S n) O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) with [refl_equal \Rightarrow (\lambda (H4: (eq C (CHead d1 (Bind Abbr) u) (CSort n0))).let H5 \def eq_ind C (CHead d1 (Bind Abbr) u) (\lambda (e: C).match e return (Prop) with [(CSort _) \Rightarrow False | (CHead _ _ _) \Rightarrow True]) I (CSort n0) H4 in False_ind (ex2 C (\lambda (d2: C).drop (S n) O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) H5)] in H5 (refl_equal C (CSort n0))) (drop_gen_sort n0 (S n) O (CHead d1 (Bind Abbr) u) H0)) (\lambda (c: C).\lambda (H0: ((\forall (d1: C).\forall (u: T).(drop (S n) O c (CHead d1 (Bind Abbr) u)) \to \forall (g: G).\forall (c2: C).(csuba g c c2) \to ex2 C (\lambda (d2: C).drop (S n) O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)))).\lambda (k: K).\lambda (t: T).\lambda (d1: C).\lambda (u: T).\lambda (H1: (drop (S n) O (CHead c k t) (CHead d1 (Bind Abbr) u))).\lambda (g: G).\lambda (c2: C).\lambda (H2: (csuba g (CHead c k t) c2)).K_ind (\lambda (k0: K).(csuba g (CHead c k0 t) c2) \to (drop (r k0 n) O c (CHead d1 (Bind Abbr) u)) \to ex2 C (\lambda (d2: C).drop (S n) O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (b: B).\lambda (H3: (csuba g (CHead c (Bind b) t) c2)).\lambda (H4: (drop (r (Bind b) n) O c (CHead d1 (Bind Abbr) u))).B_ind (\lambda (b0: B).(csuba g (CHead c (Bind b0) t) c2) \to (drop (r (Bind b0) n) O c (CHead d1 (Bind Abbr) u)) \to ex2 C (\lambda (d2: C).drop (S n) O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (H5: (csuba g (CHead c (Bind Abbr) t) c2)).\lambda (H6: (drop (r (Bind Abbr) n) O c (CHead d1 (Bind Abbr) u))).let H7 \def csuba_gen_abbr g c c2 t H5 in ex2_ind C (\lambda (d2: C).eq C c2 (CHead d2 (Bind Abbr) t)) (\lambda (d2: C).csuba g c d2) (ex2 C (\lambda (d2: C).drop (S n) O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (x: C).\lambda (H8: (eq C c2 (CHead x (Bind Abbr) t))).\lambda (H9: (csuba g c x)).eq_ind_r C (CHead x (Bind Abbr) t) (\lambda (c0: C).ex2 C (\lambda (d2: C).drop (S n) O c0 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (let H10 \def H c d1 u H6 g x H9 in ex2_ind C (\lambda (d2: C).drop n O x (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2) (ex2 C (\lambda (d2: C).drop (S n) O (CHead x (Bind Abbr) t) (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (x0: C).\lambda (H11: (drop n O x (CHead x0 (Bind Abbr) u))).\lambda (H12: (csuba g d1 x0)).let H13 \def refl_equal nat (r (Bind Abbr) n) in let H14 \def eq_ind nat n (\lambda (n: nat).drop n O x (CHead x0 (Bind Abbr) u)) H11 (r (Bind Abbr) n) H13 in ex_intro2 C (\lambda (d2: C).drop (S n) O (CHead x (Bind Abbr) t) (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2) x0 (drop_drop (Bind Abbr) n x (CHead x0 (Bind Abbr) u) H14 t) H12) H10) c2 H8) H7) (\lambda (H5: (csuba g (CHead c (Bind Abst) t) c2)).\lambda (H6: (drop (r (Bind Abst) n) O c (CHead d1 (Bind Abbr) u))).let H7 \def csuba_gen_abst g c c2 t H5 in or_ind (ex2 C (\lambda (d2: C).eq C c2 (CHead d2 (Bind Abst) t)) (\lambda (d2: C).csuba g c d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).eq C c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g c d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g c t (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) (ex2 C (\lambda (d2: C).drop (S n) O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (H8: (ex2 C (\lambda (d2: C).eq C c2 (CHead d2 (Bind Abst) t)) (\lambda (d2: C).csuba g c d2))).ex2_ind C (\lambda (d2: C).eq C c2 (CHead d2 (Bind Abst) t)) (\lambda (d2: C).csuba g c d2) (ex2 C (\lambda (d2: C).drop (S n) O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (x: C).\lambda (H9: (eq C c2 (CHead x (Bind Abst) t))).\lambda (H10: (csuba g c x)).eq_ind_r C (CHead x (Bind Abst) t) (\lambda (c0: C).ex2 C (\lambda (d2: C).drop (S n) O c0 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (let H11 \def H c d1 u H6 g x H10 in ex2_ind C (\lambda (d2: C).drop n O x (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2) (ex2 C (\lambda (d2: C).drop (S n) O (CHead x (Bind Abst) t) (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (x0: C).\lambda (H12: (drop n O x (CHead x0 (Bind Abbr) u))).\lambda (H13: (csuba g d1 x0)).let H14 \def refl_equal nat (r (Bind Abbr) n) in let H15 \def eq_ind nat n (\lambda (n: nat).drop n O x (CHead x0 (Bind Abbr) u)) H12 (r (Bind Abbr) n) H14 in ex_intro2 C (\lambda (d2: C).drop (S n) O (CHead x (Bind Abst) t) (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2) x0 (drop_drop (Bind Abst) n x (CHead x0 (Bind Abbr) u) H15 t) H13) H11) c2 H9) H8) (\lambda (H8: (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).eq C c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g c d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g c t (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))).ex4_3_ind C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).eq C c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g c d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g c t (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a) (ex2 C (\lambda (d2: C).drop (S n) O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (x0: C).\lambda (x1: T).\lambda (x2: A).\lambda (H9: (eq C c2 (CHead x0 (Bind Abbr) x1))).\lambda (H10: (csuba g c x0)).\lambda (_: (arity g c t (asucc g x2))).\lambda (_: (arity g x0 x1 x2)).eq_ind_r C (CHead x0 (Bind Abbr) x1) (\lambda (c0: C).ex2 C (\lambda (d2: C).drop (S n) O c0 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (let H13 \def H c d1 u H6 g x0 H10 in ex2_ind C (\lambda (d2: C).drop n O x0 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2) (ex2 C (\lambda (d2: C).drop (S n) O (CHead x0 (Bind Abbr) x1) (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (x: C).\lambda (H14: (drop n O x0 (CHead x (Bind Abbr) u))).\lambda (H15: (csuba g d1 x)).let H16 \def refl_equal nat (r (Bind Abbr) n) in let H17 \def eq_ind nat n (\lambda (n: nat).drop n O x0 (CHead x (Bind Abbr) u)) H14 (r (Bind Abbr) n) H16 in ex_intro2 C (\lambda (d2: C).drop (S n) O (CHead x0 (Bind Abbr) x1) (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2) x (drop_drop (Bind Abbr) n x0 (CHead x (Bind Abbr) u) H17 x1) H15) H13) c2 H9) H8) H7) (\lambda (H5: (csuba g (CHead c (Bind Void) t) c2)).\lambda (H6: (drop (r (Bind Void) n) O c (CHead d1 (Bind Abbr) u))).let H7 \def csuba_gen_void g c c2 t H5 in ex2_ind C (\lambda (d2: C).eq C c2 (CHead d2 (Bind Void) t)) (\lambda (d2: C).csuba g c d2) (ex2 C (\lambda (d2: C).drop (S n) O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (x: C).\lambda (H8: (eq C c2 (CHead x (Bind Void) t))).\lambda (H9: (csuba g c x)).eq_ind_r C (CHead x (Bind Void) t) (\lambda (c0: C).ex2 C (\lambda (d2: C).drop (S n) O c0 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (let H10 \def H c d1 u H6 g x H9 in ex2_ind C (\lambda (d2: C).drop n O x (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2) (ex2 C (\lambda (d2: C).drop (S n) O (CHead x (Bind Void) t) (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (x0: C).\lambda (H11: (drop n O x (CHead x0 (Bind Abbr) u))).\lambda (H12: (csuba g d1 x0)).let H13 \def refl_equal nat (r (Bind Abbr) n) in let H14 \def eq_ind nat n (\lambda (n: nat).drop n O x (CHead x0 (Bind Abbr) u)) H11 (r (Bind Abbr) n) H13 in ex_intro2 C (\lambda (d2: C).drop (S n) O (CHead x (Bind Void) t) (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2) x0 (drop_drop (Bind Void) n x (CHead x0 (Bind Abbr) u) H14 t) H12) H10) c2 H8) H7) b H3 H4) (\lambda (f: F).\lambda (H3: (csuba g (CHead c (Flat f) t) c2)).\lambda (H4: (drop (r (Flat f) n) O c (CHead d1 (Bind Abbr) u))).let H5 \def csuba_gen_flat g c c2 t f H3 in ex2_2_ind C T (\lambda (d2: C).\lambda (u2: T).eq C c2 (CHead d2 (Flat f) u2)) (\lambda (d2: C).\lambda (_: T).csuba g c d2) (ex2 C (\lambda (d2: C).drop (S n) O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (x0: C).\lambda (x1: T).\lambda (H6: (eq C c2 (CHead x0 (Flat f) x1))).\lambda (H7: (csuba g c x0)).eq_ind_r C (CHead x0 (Flat f) x1) (\lambda (c0: C).ex2 C (\lambda (d2: C).drop (S n) O c0 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (let H8 \def H0 d1 u H4 g x0 H7 in ex2_ind C (\lambda (d2: C).drop (S n) O x0 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2) (ex2 C (\lambda (d2: C).drop (S n) O (CHead x0 (Flat f) x1) (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (x: C).\lambda (H9: (drop (S n) O x0 (CHead x (Bind Abbr) u))).\lambda (H10: (csuba g d1 x)).ex_intro2 C (\lambda (d2: C).drop (S n) O (CHead x0 (Flat f) x1) (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2) x (drop_drop (Flat f) n x0 (CHead x (Bind Abbr) u) H9 x1) H10) H8) c2 H6) H5) k H2 (drop_gen_drop k c (CHead d1 (Bind Abbr) u) t n H1)) c1) i.
+
+theorem csuba_drop_abst: \forall (i: nat).\forall (c1: C).\forall (d1: C).\forall (u1: T).(drop i O c1 (CHead d1 (Bind Abst) u1)) \to \forall (g: G).\forall (c2: C).(csuba g c1 c2) \to or (ex2 C (\lambda (d2: C).drop i O c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop i O c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) \def \lambda (i: nat).nat_ind (\lambda (n: nat).\forall (c1: C).\forall (d1: C).\forall (u1: T).(drop n O c1 (CHead d1 (Bind Abst) u1)) \to \forall (g: G).\forall (c2: C).(csuba g c1 c2) \to or (ex2 C (\lambda (d2: C).drop n O c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop n O c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (c1: C).\lambda (d1: C).\lambda (u1: T).\lambda (H: (drop O O c1 (CHead d1 (Bind Abst) u1))).\lambda (g: G).\lambda (c2: C).\lambda (H0: (csuba g c1 c2)).let H1 \def eq_ind C c1 (\lambda (c: C).csuba g c c2) H0 (CHead d1 (Bind Abst) u1) (drop_gen_refl c1 (CHead d1 (Bind Abst) u1) H) in let H2 \def csuba_gen_abst g d1 c2 u1 H1 in or_ind (ex2 C (\lambda (d2: C).eq C c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).eq C c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) (or (ex2 C (\lambda (d2: C).drop O O c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop O O c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (H3: (ex2 C (\lambda (d2: C).eq C c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2))).ex2_ind C (\lambda (d2: C).eq C c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2) (or (ex2 C (\lambda (d2: C).drop O O c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop O O c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (x: C).\lambda (H4: (eq C c2 (CHead x (Bind Abst) u1))).\lambda (H5: (csuba g d1 x)).eq_ind_r C (CHead x (Bind Abst) u1) (\lambda (c: C).or (ex2 C (\lambda (d2: C).drop O O c (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop O O c (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (or_introl (ex2 C (\lambda (d2: C).drop O O (CHead x (Bind Abst) u1) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop O O (CHead x (Bind Abst) u1) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) (ex_intro2 C (\lambda (d2: C).drop O O (CHead x (Bind Abst) u1) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2) x (drop_refl (CHead x (Bind Abst) u1)) H5)) c2 H4) H3) (\lambda (H3: (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).eq C c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))).ex4_3_ind C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).eq C c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a) (or (ex2 C (\lambda (d2: C).drop O O c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop O O c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (x0: C).\lambda (x1: T).\lambda (x2: A).\lambda (H4: (eq C c2 (CHead x0 (Bind Abbr) x1))).\lambda (H5: (csuba g d1 x0)).\lambda (H6: (arity g d1 u1 (asucc g x2))).\lambda (H7: (arity g x0 x1 x2)).eq_ind_r C (CHead x0 (Bind Abbr) x1) (\lambda (c: C).or (ex2 C (\lambda (d2: C).drop O O c (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop O O c (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (or_intror (ex2 C (\lambda (d2: C).drop O O (CHead x0 (Bind Abbr) x1) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop O O (CHead x0 (Bind Abbr) x1) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) (ex4_3_intro C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop O O (CHead x0 (Bind Abbr) x1) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a) x0 x1 x2 (drop_refl (CHead x0 (Bind Abbr) x1)) H5 H6 H7)) c2 H4) H3) H2) (\lambda (n: nat).\lambda (H: ((\forall (c1: C).\forall (d1: C).\forall (u1: T).(drop n O c1 (CHead d1 (Bind Abst) u1)) \to \forall (g: G).\forall (c2: C).(csuba g c1 c2) \to or (ex2 C (\lambda (d2: C).drop n O c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop n O c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))))).\lambda (c1: C).C_ind (\lambda (c: C).\forall (d1: C).\forall (u1: T).(drop (S n) O c (CHead d1 (Bind Abst) u1)) \to \forall (g: G).\forall (c2: C).(csuba g c c2) \to or (ex2 C (\lambda (d2: C).drop (S n) O c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (n0: nat).\lambda (d1: C).\lambda (u1: T).\lambda (H0: (drop (S n) O (CSort n0) (CHead d1 (Bind Abst) u1))).\lambda (g: G).\lambda (c2: C).\lambda (_: (csuba g (CSort n0) c2)).and3_ind (eq C (CHead d1 (Bind Abst) u1) (CSort n0)) (eq nat (S n) O) (eq nat O O) (or (ex2 C (\lambda (d2: C).drop (S n) O c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (H2: (eq C (CHead d1 (Bind Abst) u1) (CSort n0))).\lambda (_: (eq nat (S n) O)).\lambda (_: (eq nat O O)).let H5 \def match H2 return (\lambda (c: C).(eq C c (CSort n0)) \to or (ex2 C (\lambda (d2: C).drop (S n) O c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) with [refl_equal \Rightarrow (\lambda (H4: (eq C (CHead d1 (Bind Abst) u1) (CSort n0))).let H5 \def eq_ind C (CHead d1 (Bind Abst) u1) (\lambda (e: C).match e return (Prop) with [(CSort _) \Rightarrow False | (CHead _ _ _) \Rightarrow True]) I (CSort n0) H4 in False_ind (or (ex2 C (\lambda (d2: C).drop (S n) O c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) H5)] in H5 (refl_equal C (CSort n0))) (drop_gen_sort n0 (S n) O (CHead d1 (Bind Abst) u1) H0)) (\lambda (c: C).\lambda (H0: ((\forall (d1: C).\forall (u1: T).(drop (S n) O c (CHead d1 (Bind Abst) u1)) \to \forall (g: G).\forall (c2: C).(csuba g c c2) \to or (ex2 C (\lambda (d2: C).drop (S n) O c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))))).\lambda (k: K).\lambda (t: T).\lambda (d1: C).\lambda (u1: T).\lambda (H1: (drop (S n) O (CHead c k t) (CHead d1 (Bind Abst) u1))).\lambda (g: G).\lambda (c2: C).\lambda (H2: (csuba g (CHead c k t) c2)).K_ind (\lambda (k0: K).(csuba g (CHead c k0 t) c2) \to (drop (r k0 n) O c (CHead d1 (Bind Abst) u1)) \to or (ex2 C (\lambda (d2: C).drop (S n) O c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (b: B).\lambda (H3: (csuba g (CHead c (Bind b) t) c2)).\lambda (H4: (drop (r (Bind b) n) O c (CHead d1 (Bind Abst) u1))).B_ind (\lambda (b0: B).(csuba g (CHead c (Bind b0) t) c2) \to (drop (r (Bind b0) n) O c (CHead d1 (Bind Abst) u1)) \to or (ex2 C (\lambda (d2: C).drop (S n) O c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (H5: (csuba g (CHead c (Bind Abbr) t) c2)).\lambda (H6: (drop (r (Bind Abbr) n) O c (CHead d1 (Bind Abst) u1))).let H7 \def csuba_gen_abbr g c c2 t H5 in ex2_ind C (\lambda (d2: C).eq C c2 (CHead d2 (Bind Abbr) t)) (\lambda (d2: C).csuba g c d2) (or (ex2 C (\lambda (d2: C).drop (S n) O c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (x: C).\lambda (H8: (eq C c2 (CHead x (Bind Abbr) t))).\lambda (H9: (csuba g c x)).eq_ind_r C (CHead x (Bind Abbr) t) (\lambda (c0: C).or (ex2 C (\lambda (d2: C).drop (S n) O c0 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O c0 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (let H10 \def H c d1 u1 H6 g x H9 in or_ind (ex2 C (\lambda (d2: C).drop n O x (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop n O x (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) (or (ex2 C (\lambda (d2: C).drop (S n) O (CHead x (Bind Abbr) t) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O (CHead x (Bind Abbr) t) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (H11: (ex2 C (\lambda (d2: C).drop n O x (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2))).ex2_ind C (\lambda (d2: C).drop n O x (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2) (or (ex2 C (\lambda (d2: C).drop (S n) O (CHead x (Bind Abbr) t) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O (CHead x (Bind Abbr) t) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (x0: C).\lambda (H12: (drop n O x (CHead x0 (Bind Abst) u1))).\lambda (H13: (csuba g d1 x0)).let H14 \def refl_equal nat (r (Bind Abbr) n) in let H15 \def eq_ind nat n (\lambda (n: nat).drop n O x (CHead x0 (Bind Abst) u1)) H12 (r (Bind Abbr) n) H14 in or_introl (ex2 C (\lambda (d2: C).drop (S n) O (CHead x (Bind Abbr) t) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O (CHead x (Bind Abbr) t) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) (ex_intro2 C (\lambda (d2: C).drop (S n) O (CHead x (Bind Abbr) t) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2) x0 (drop_drop (Bind Abbr) n x (CHead x0 (Bind Abst) u1) H15 t) H13)) H11) (\lambda (H11: (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop n O x (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))).ex4_3_ind C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop n O x (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a) (or (ex2 C (\lambda (d2: C).drop (S n) O (CHead x (Bind Abbr) t) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O (CHead x (Bind Abbr) t) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (x0: C).\lambda (x1: T).\lambda (x2: A).\lambda (H12: (drop n O x (CHead x0 (Bind Abbr) x1))).\lambda (H13: (csuba g d1 x0)).\lambda (H14: (arity g d1 u1 (asucc g x2))).\lambda (H15: (arity g x0 x1 x2)).let H16 \def refl_equal nat (r (Bind Abbr) n) in let H17 \def eq_ind nat n (\lambda (n: nat).drop n O x (CHead x0 (Bind Abbr) x1)) H12 (r (Bind Abbr) n) H16 in or_intror (ex2 C (\lambda (d2: C).drop (S n) O (CHead x (Bind Abbr) t) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O (CHead x (Bind Abbr) t) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) (ex4_3_intro C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O (CHead x (Bind Abbr) t) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a) x0 x1 x2 (drop_drop (Bind Abbr) n x (CHead x0 (Bind Abbr) x1) H17 t) H13 H14 H15)) H11) H10) c2 H8) H7) (\lambda (H5: (csuba g (CHead c (Bind Abst) t) c2)).\lambda (H6: (drop (r (Bind Abst) n) O c (CHead d1 (Bind Abst) u1))).let H7 \def csuba_gen_abst g c c2 t H5 in or_ind (ex2 C (\lambda (d2: C).eq C c2 (CHead d2 (Bind Abst) t)) (\lambda (d2: C).csuba g c d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).eq C c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g c d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g c t (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) (or (ex2 C (\lambda (d2: C).drop (S n) O c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (H8: (ex2 C (\lambda (d2: C).eq C c2 (CHead d2 (Bind Abst) t)) (\lambda (d2: C).csuba g c d2))).ex2_ind C (\lambda (d2: C).eq C c2 (CHead d2 (Bind Abst) t)) (\lambda (d2: C).csuba g c d2) (or (ex2 C (\lambda (d2: C).drop (S n) O c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (x: C).\lambda (H9: (eq C c2 (CHead x (Bind Abst) t))).\lambda (H10: (csuba g c x)).eq_ind_r C (CHead x (Bind Abst) t) (\lambda (c0: C).or (ex2 C (\lambda (d2: C).drop (S n) O c0 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O c0 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (let H11 \def H c d1 u1 H6 g x H10 in or_ind (ex2 C (\lambda (d2: C).drop n O x (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop n O x (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) (or (ex2 C (\lambda (d2: C).drop (S n) O (CHead x (Bind Abst) t) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O (CHead x (Bind Abst) t) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (H12: (ex2 C (\lambda (d2: C).drop n O x (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2))).ex2_ind C (\lambda (d2: C).drop n O x (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2) (or (ex2 C (\lambda (d2: C).drop (S n) O (CHead x (Bind Abst) t) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O (CHead x (Bind Abst) t) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (x0: C).\lambda (H13: (drop n O x (CHead x0 (Bind Abst) u1))).\lambda (H14: (csuba g d1 x0)).let H15 \def refl_equal nat (r (Bind Abbr) n) in let H16 \def eq_ind nat n (\lambda (n: nat).drop n O x (CHead x0 (Bind Abst) u1)) H13 (r (Bind Abbr) n) H15 in or_introl (ex2 C (\lambda (d2: C).drop (S n) O (CHead x (Bind Abst) t) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O (CHead x (Bind Abst) t) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) (ex_intro2 C (\lambda (d2: C).drop (S n) O (CHead x (Bind Abst) t) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2) x0 (drop_drop (Bind Abst) n x (CHead x0 (Bind Abst) u1) H16 t) H14)) H12) (\lambda (H12: (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop n O x (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))).ex4_3_ind C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop n O x (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a) (or (ex2 C (\lambda (d2: C).drop (S n) O (CHead x (Bind Abst) t) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O (CHead x (Bind Abst) t) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (x0: C).\lambda (x1: T).\lambda (x2: A).\lambda (H13: (drop n O x (CHead x0 (Bind Abbr) x1))).\lambda (H14: (csuba g d1 x0)).\lambda (H15: (arity g d1 u1 (asucc g x2))).\lambda (H16: (arity g x0 x1 x2)).let H17 \def refl_equal nat (r (Bind Abbr) n) in let H18 \def eq_ind nat n (\lambda (n: nat).drop n O x (CHead x0 (Bind Abbr) x1)) H13 (r (Bind Abbr) n) H17 in or_intror (ex2 C (\lambda (d2: C).drop (S n) O (CHead x (Bind Abst) t) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O (CHead x (Bind Abst) t) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) (ex4_3_intro C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O (CHead x (Bind Abst) t) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a) x0 x1 x2 (drop_drop (Bind Abst) n x (CHead x0 (Bind Abbr) x1) H18 t) H14 H15 H16)) H12) H11) c2 H9) H8) (\lambda (H8: (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).eq C c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g c d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g c t (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))).ex4_3_ind C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).eq C c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g c d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g c t (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a) (or (ex2 C (\lambda (d2: C).drop (S n) O c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (x0: C).\lambda (x1: T).\lambda (x2: A).\lambda (H9: (eq C c2 (CHead x0 (Bind Abbr) x1))).\lambda (H10: (csuba g c x0)).\lambda (_: (arity g c t (asucc g x2))).\lambda (_: (arity g x0 x1 x2)).eq_ind_r C (CHead x0 (Bind Abbr) x1) (\lambda (c0: C).or (ex2 C (\lambda (d2: C).drop (S n) O c0 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O c0 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (let H13 \def H c d1 u1 H6 g x0 H10 in or_ind (ex2 C (\lambda (d2: C).drop n O x0 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop n O x0 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) (or (ex2 C (\lambda (d2: C).drop (S n) O (CHead x0 (Bind Abbr) x1) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O (CHead x0 (Bind Abbr) x1) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (H14: (ex2 C (\lambda (d2: C).drop n O x0 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2))).ex2_ind C (\lambda (d2: C).drop n O x0 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2) (or (ex2 C (\lambda (d2: C).drop (S n) O (CHead x0 (Bind Abbr) x1) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O (CHead x0 (Bind Abbr) x1) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (x: C).\lambda (H15: (drop n O x0 (CHead x (Bind Abst) u1))).\lambda (H16: (csuba g d1 x)).let H17 \def refl_equal nat (r (Bind Abbr) n) in let H18 \def eq_ind nat n (\lambda (n: nat).drop n O x0 (CHead x (Bind Abst) u1)) H15 (r (Bind Abbr) n) H17 in or_introl (ex2 C (\lambda (d2: C).drop (S n) O (CHead x0 (Bind Abbr) x1) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O (CHead x0 (Bind Abbr) x1) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) (ex_intro2 C (\lambda (d2: C).drop (S n) O (CHead x0 (Bind Abbr) x1) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2) x (drop_drop (Bind Abbr) n x0 (CHead x (Bind Abst) u1) H18 x1) H16)) H14) (\lambda (H14: (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop n O x0 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))).ex4_3_ind C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop n O x0 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a) (or (ex2 C (\lambda (d2: C).drop (S n) O (CHead x0 (Bind Abbr) x1) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O (CHead x0 (Bind Abbr) x1) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (x3: C).\lambda (x4: T).\lambda (x5: A).\lambda (H15: (drop n O x0 (CHead x3 (Bind Abbr) x4))).\lambda (H16: (csuba g d1 x3)).\lambda (H17: (arity g d1 u1 (asucc g x5))).\lambda (H18: (arity g x3 x4 x5)).let H19 \def refl_equal nat (r (Bind Abbr) n) in let H20 \def eq_ind nat n (\lambda (n: nat).drop n O x0 (CHead x3 (Bind Abbr) x4)) H15 (r (Bind Abbr) n) H19 in or_intror (ex2 C (\lambda (d2: C).drop (S n) O (CHead x0 (Bind Abbr) x1) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O (CHead x0 (Bind Abbr) x1) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) (ex4_3_intro C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O (CHead x0 (Bind Abbr) x1) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a) x3 x4 x5 (drop_drop (Bind Abbr) n x0 (CHead x3 (Bind Abbr) x4) H20 x1) H16 H17 H18)) H14) H13) c2 H9) H8) H7) (\lambda (H5: (csuba g (CHead c (Bind Void) t) c2)).\lambda (H6: (drop (r (Bind Void) n) O c (CHead d1 (Bind Abst) u1))).let H7 \def csuba_gen_void g c c2 t H5 in ex2_ind C (\lambda (d2: C).eq C c2 (CHead d2 (Bind Void) t)) (\lambda (d2: C).csuba g c d2) (or (ex2 C (\lambda (d2: C).drop (S n) O c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (x: C).\lambda (H8: (eq C c2 (CHead x (Bind Void) t))).\lambda (H9: (csuba g c x)).eq_ind_r C (CHead x (Bind Void) t) (\lambda (c0: C).or (ex2 C (\lambda (d2: C).drop (S n) O c0 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O c0 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (let H10 \def H c d1 u1 H6 g x H9 in or_ind (ex2 C (\lambda (d2: C).drop n O x (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop n O x (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) (or (ex2 C (\lambda (d2: C).drop (S n) O (CHead x (Bind Void) t) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O (CHead x (Bind Void) t) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (H11: (ex2 C (\lambda (d2: C).drop n O x (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2))).ex2_ind C (\lambda (d2: C).drop n O x (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2) (or (ex2 C (\lambda (d2: C).drop (S n) O (CHead x (Bind Void) t) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O (CHead x (Bind Void) t) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (x0: C).\lambda (H12: (drop n O x (CHead x0 (Bind Abst) u1))).\lambda (H13: (csuba g d1 x0)).let H14 \def refl_equal nat (r (Bind Abbr) n) in let H15 \def eq_ind nat n (\lambda (n: nat).drop n O x (CHead x0 (Bind Abst) u1)) H12 (r (Bind Abbr) n) H14 in or_introl (ex2 C (\lambda (d2: C).drop (S n) O (CHead x (Bind Void) t) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O (CHead x (Bind Void) t) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) (ex_intro2 C (\lambda (d2: C).drop (S n) O (CHead x (Bind Void) t) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2) x0 (drop_drop (Bind Void) n x (CHead x0 (Bind Abst) u1) H15 t) H13)) H11) (\lambda (H11: (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop n O x (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))).ex4_3_ind C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop n O x (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a) (or (ex2 C (\lambda (d2: C).drop (S n) O (CHead x (Bind Void) t) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O (CHead x (Bind Void) t) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (x0: C).\lambda (x1: T).\lambda (x2: A).\lambda (H12: (drop n O x (CHead x0 (Bind Abbr) x1))).\lambda (H13: (csuba g d1 x0)).\lambda (H14: (arity g d1 u1 (asucc g x2))).\lambda (H15: (arity g x0 x1 x2)).let H16 \def refl_equal nat (r (Bind Abbr) n) in let H17 \def eq_ind nat n (\lambda (n: nat).drop n O x (CHead x0 (Bind Abbr) x1)) H12 (r (Bind Abbr) n) H16 in or_intror (ex2 C (\lambda (d2: C).drop (S n) O (CHead x (Bind Void) t) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O (CHead x (Bind Void) t) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) (ex4_3_intro C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O (CHead x (Bind Void) t) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a) x0 x1 x2 (drop_drop (Bind Void) n x (CHead x0 (Bind Abbr) x1) H17 t) H13 H14 H15)) H11) H10) c2 H8) H7) b H3 H4) (\lambda (f: F).\lambda (H3: (csuba g (CHead c (Flat f) t) c2)).\lambda (H4: (drop (r (Flat f) n) O c (CHead d1 (Bind Abst) u1))).let H5 \def csuba_gen_flat g c c2 t f H3 in ex2_2_ind C T (\lambda (d2: C).\lambda (u2: T).eq C c2 (CHead d2 (Flat f) u2)) (\lambda (d2: C).\lambda (_: T).csuba g c d2) (or (ex2 C (\lambda (d2: C).drop (S n) O c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (x0: C).\lambda (x1: T).\lambda (H6: (eq C c2 (CHead x0 (Flat f) x1))).\lambda (H7: (csuba g c x0)).eq_ind_r C (CHead x0 (Flat f) x1) (\lambda (c0: C).or (ex2 C (\lambda (d2: C).drop (S n) O c0 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O c0 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (let H8 \def H0 d1 u1 H4 g x0 H7 in or_ind (ex2 C (\lambda (d2: C).drop (S n) O x0 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O x0 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) (or (ex2 C (\lambda (d2: C).drop (S n) O (CHead x0 (Flat f) x1) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O (CHead x0 (Flat f) x1) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (H9: (ex2 C (\lambda (d2: C).drop (S n) O x0 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2))).ex2_ind C (\lambda (d2: C).drop (S n) O x0 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2) (or (ex2 C (\lambda (d2: C).drop (S n) O (CHead x0 (Flat f) x1) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O (CHead x0 (Flat f) x1) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (x: C).\lambda (H10: (drop (S n) O x0 (CHead x (Bind Abst) u1))).\lambda (H11: (csuba g d1 x)).or_introl (ex2 C (\lambda (d2: C).drop (S n) O (CHead x0 (Flat f) x1) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O (CHead x0 (Flat f) x1) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) (ex_intro2 C (\lambda (d2: C).drop (S n) O (CHead x0 (Flat f) x1) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2) x (drop_drop (Flat f) n x0 (CHead x (Bind Abst) u1) H10 x1) H11)) H9) (\lambda (H9: (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O x0 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))).ex4_3_ind C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O x0 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a) (or (ex2 C (\lambda (d2: C).drop (S n) O (CHead x0 (Flat f) x1) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O (CHead x0 (Flat f) x1) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (x2: C).\lambda (x3: T).\lambda (x4: A).\lambda (H10: (drop (S n) O x0 (CHead x2 (Bind Abbr) x3))).\lambda (H11: (csuba g d1 x2)).\lambda (H12: (arity g d1 u1 (asucc g x4))).\lambda (H13: (arity g x2 x3 x4)).or_intror (ex2 C (\lambda (d2: C).drop (S n) O (CHead x0 (Flat f) x1) (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O (CHead x0 (Flat f) x1) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) (ex4_3_intro C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop (S n) O (CHead x0 (Flat f) x1) (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a) x2 x3 x4 (drop_drop (Flat f) n x0 (CHead x2 (Bind Abbr) x3) H10 x1) H11 H12 H13)) H9) H8) c2 H6) H5) k H2 (drop_gen_drop k c (CHead d1 (Bind Abst) u1) t n H1)) c1) i.
+
+theorem csuba_getl_abbr: \forall (g: G).\forall (c1: C).\forall (d1: C).\forall (u: T).\forall (i: nat).(getl i c1 (CHead d1 (Bind Abbr) u)) \to \forall (c2: C).(csuba g c1 c2) \to ex2 C (\lambda (d2: C).getl i c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2) \def \lambda (g: G).\lambda (c1: C).\lambda (d1: C).\lambda (u: T).\lambda (i: nat).\lambda (H: (getl i c1 (CHead d1 (Bind Abbr) u))).let H0 \def getl_gen_all c1 (CHead d1 (Bind Abbr) u) i H in ex2_ind C (\lambda (e: C).drop i O c1 e) (\lambda (e: C).clear e (CHead d1 (Bind Abbr) u)) (\forall (c2: C).(csuba g c1 c2) \to ex2 C (\lambda (d2: C).getl i c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (x: C).\lambda (H1: (drop i O c1 x)).\lambda (H2: (clear x (CHead d1 (Bind Abbr) u))).(match x return (\lambda (c: C).(drop i O c1 c) \to (clear c (CHead d1 (Bind Abbr) u)) \to \forall (c2: C).(csuba g c1 c2) \to ex2 C (\lambda (d2: C).getl i c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) with [(CSort n) \Rightarrow (\lambda (_: (drop i O c1 (CSort n))).\lambda (H4: (clear (CSort n) (CHead d1 (Bind Abbr) u))).clear_gen_sort (CHead d1 (Bind Abbr) u) n H4 (\forall (c2: C).(csuba g c1 c2) \to ex2 C (\lambda (d2: C).getl i c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2))) | (CHead c k t) \Rightarrow (\lambda (H3: (drop i O c1 (CHead c k t))).\lambda (H4: (clear (CHead c k t) (CHead d1 (Bind Abbr) u))).(match k return (\lambda (k0: K).(drop i O c1 (CHead c k0 t)) \to (clear (CHead c k0 t) (CHead d1 (Bind Abbr) u)) \to \forall (c2: C).(csuba g c1 c2) \to ex2 C (\lambda (d2: C).getl i c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) with [(Bind b) \Rightarrow (\lambda (H5: (drop i O c1 (CHead c (Bind b) t))).\lambda (H6: (clear (CHead c (Bind b) t) (CHead d1 (Bind Abbr) u))).let H7 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow d1 | (CHead c _ _) \Rightarrow c]) (CHead d1 (Bind Abbr) u) (CHead c (Bind b) t) (clear_gen_bind b c (CHead d1 (Bind Abbr) u) t H6) in (let H8 \def f_equal C B (\lambda (e: C).match e return B with [(CSort _) \Rightarrow Abbr | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (CHead d1 (Bind Abbr) u) (CHead c (Bind b) t) (clear_gen_bind b c (CHead d1 (Bind Abbr) u) t H6) in (let H9 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d1 (Bind Abbr) u) (CHead c (Bind b) t) (clear_gen_bind b c (CHead d1 (Bind Abbr) u) t H6) in \lambda (H10: (eq B Abbr b)).\lambda (H11: (eq C d1 c)).\lambda (c2: C).\lambda (H12: (csuba g c1 c2)).let H13 \def eq_ind_r T t (\lambda (t: T).drop i O c1 (CHead c (Bind b) t)) H5 u H9 in let H14 \def eq_ind_r B b (\lambda (b: B).drop i O c1 (CHead c (Bind b) u)) H13 Abbr H10 in let H15 \def eq_ind_r C c (\lambda (c: C).drop i O c1 (CHead c (Bind Abbr) u)) H14 d1 H11 in let H16 \def csuba_drop_abbr i c1 d1 u H15 g c2 H12 in ex2_ind C (\lambda (d2: C).drop i O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2) (ex2 C (\lambda (d2: C).getl i c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (x0: C).\lambda (H17: (drop i O c2 (CHead x0 (Bind Abbr) u))).\lambda (H18: (csuba g d1 x0)).ex_intro2 C (\lambda (d2: C).getl i c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2) x0 (getl_intro i c2 (CHead x0 (Bind Abbr) u) (CHead x0 (Bind Abbr) u) H17 (clear_bind Abbr x0 u)) H18) H16) H8) H7) | (Flat f) \Rightarrow (\lambda (H5: (drop i O c1 (CHead c (Flat f) t))).\lambda (H6: (clear (CHead c (Flat f) t) (CHead d1 (Bind Abbr) u))).let H7 \def H5 in unintro C c1 (\lambda (c0: C).(drop i O c0 (CHead c (Flat f) t)) \to \forall (c2: C).(csuba g c0 c2) \to ex2 C (\lambda (d2: C).getl i c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (nat_ind (\lambda (n: nat).\forall (x0: C).(drop n O x0 (CHead c (Flat f) t)) \to \forall (c2: C).(csuba g x0 c2) \to ex2 C (\lambda (d2: C).getl n c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (x0: C).\lambda (H8: (drop O O x0 (CHead c (Flat f) t))).\lambda (c2: C).\lambda (H9: (csuba g x0 c2)).let H10 \def eq_ind C x0 (\lambda (c: C).csuba g c c2) H9 (CHead c (Flat f) t) (drop_gen_refl x0 (CHead c (Flat f) t) H8) in let H_y \def clear_flat c (CHead d1 (Bind Abbr) u) (clear_gen_flat f c (CHead d1 (Bind Abbr) u) t H6) f t in let H11 \def csuba_clear_conf g (CHead c (Flat f) t) c2 H10 (CHead d1 (Bind Abbr) u) H_y in ex2_ind C (\lambda (e2: C).csuba g (CHead d1 (Bind Abbr) u) e2) (\lambda (e2: C).clear c2 e2) (ex2 C (\lambda (d2: C).getl O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (x1: C).\lambda (H12: (csuba g (CHead d1 (Bind Abbr) u) x1)).\lambda (H13: (clear c2 x1)).let H14 \def csuba_gen_abbr g d1 x1 u H12 in ex2_ind C (\lambda (d2: C).eq C x1 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2) (ex2 C (\lambda (d2: C).getl O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (x2: C).\lambda (H15: (eq C x1 (CHead x2 (Bind Abbr) u))).\lambda (H16: (csuba g d1 x2)).let H17 \def eq_ind C x1 (\lambda (c: C).clear c2 c) H13 (CHead x2 (Bind Abbr) u) H15 in ex_intro2 C (\lambda (d2: C).getl O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2) x2 (getl_intro O c2 (CHead x2 (Bind Abbr) u) c2 (drop_refl c2) H17) H16) H14) H11) (\lambda (n: nat).\lambda (H8: ((\forall (x: C).(drop n O x (CHead c (Flat f) t)) \to \forall (c2: C).(csuba g x c2) \to ex2 C (\lambda (d2: C).getl n c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)))).\lambda (x0: C).\lambda (H9: (drop (S n) O x0 (CHead c (Flat f) t))).\lambda (c2: C).\lambda (H10: (csuba g x0 c2)).let H11 \def drop_clear x0 (CHead c (Flat f) t) n H9 in ex2_3_ind B C T (\lambda (b: B).\lambda (e: C).\lambda (v: T).clear x0 (CHead e (Bind b) v)) (\lambda (_: B).\lambda (e: C).\lambda (_: T).drop n O e (CHead c (Flat f) t)) (ex2 C (\lambda (d2: C).getl (S n) c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (x1: B).\lambda (x2: C).\lambda (x3: T).\lambda (H12: (clear x0 (CHead x2 (Bind x1) x3))).\lambda (H13: (drop n O x2 (CHead c (Flat f) t))).let H14 \def csuba_clear_conf g x0 c2 H10 (CHead x2 (Bind x1) x3) H12 in ex2_ind C (\lambda (e2: C).csuba g (CHead x2 (Bind x1) x3) e2) (\lambda (e2: C).clear c2 e2) (ex2 C (\lambda (d2: C).getl (S n) c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (x4: C).\lambda (H15: (csuba g (CHead x2 (Bind x1) x3) x4)).\lambda (H16: (clear c2 x4)).let H17 \def csuba_gen_bind g x1 x2 x4 x3 H15 in ex2_3_ind B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C x4 (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csuba g x2 e2) (ex2 C (\lambda (d2: C).getl (S n) c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (x5: B).\lambda (x6: C).\lambda (x7: T).\lambda (H18: (eq C x4 (CHead x6 (Bind x5) x7))).\lambda (H19: (csuba g x2 x6)).let H20 \def eq_ind C x4 (\lambda (c: C).clear c2 c) H16 (CHead x6 (Bind x5) x7) H18 in let H21 \def H8 x2 H13 x6 H19 in ex2_ind C (\lambda (d2: C).getl n x6 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2) (ex2 C (\lambda (d2: C).getl (S n) c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2)) (\lambda (x8: C).\lambda (H22: (getl n x6 (CHead x8 (Bind Abbr) u))).\lambda (H23: (csuba g d1 x8)).ex_intro2 C (\lambda (d2: C).getl (S n) c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d1 d2) x8 (getl_clear_bind x5 c2 x6 x7 H20 (CHead x8 (Bind Abbr) u) n H22) H23) H21) H17) H14) H11) i) H7)]) H3 H4)]) H1 H2) H0.
+
+theorem csuba_getl_abst: \forall (g: G).\forall (c1: C).\forall (d1: C).\forall (u1: T).\forall (i: nat).(getl i c1 (CHead d1 (Bind Abst) u1)) \to \forall (c2: C).(csuba g c1 c2) \to or (ex2 C (\lambda (d2: C).getl i c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl i c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) \def \lambda (g: G).\lambda (c1: C).\lambda (d1: C).\lambda (u1: T).\lambda (i: nat).\lambda (H: (getl i c1 (CHead d1 (Bind Abst) u1))).let H0 \def getl_gen_all c1 (CHead d1 (Bind Abst) u1) i H in ex2_ind C (\lambda (e: C).drop i O c1 e) (\lambda (e: C).clear e (CHead d1 (Bind Abst) u1)) (\forall (c2: C).(csuba g c1 c2) \to or (ex2 C (\lambda (d2: C).getl i c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl i c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (x: C).\lambda (H1: (drop i O c1 x)).\lambda (H2: (clear x (CHead d1 (Bind Abst) u1))).(match x return (\lambda (c: C).(drop i O c1 c) \to (clear c (CHead d1 (Bind Abst) u1)) \to \forall (c2: C).(csuba g c1 c2) \to or (ex2 C (\lambda (d2: C).getl i c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl i c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) with [(CSort n) \Rightarrow (\lambda (_: (drop i O c1 (CSort n))).\lambda (H4: (clear (CSort n) (CHead d1 (Bind Abst) u1))).clear_gen_sort (CHead d1 (Bind Abst) u1) n H4 (\forall (c2: C).(csuba g c1 c2) \to or (ex2 C (\lambda (d2: C).getl i c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl i c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)))) | (CHead c k t) \Rightarrow (\lambda (H3: (drop i O c1 (CHead c k t))).\lambda (H4: (clear (CHead c k t) (CHead d1 (Bind Abst) u1))).(match k return (\lambda (k0: K).(drop i O c1 (CHead c k0 t)) \to (clear (CHead c k0 t) (CHead d1 (Bind Abst) u1)) \to \forall (c2: C).(csuba g c1 c2) \to or (ex2 C (\lambda (d2: C).getl i c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl i c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) with [(Bind b) \Rightarrow (\lambda (H5: (drop i O c1 (CHead c (Bind b) t))).\lambda (H6: (clear (CHead c (Bind b) t) (CHead d1 (Bind Abst) u1))).let H7 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow d1 | (CHead c _ _) \Rightarrow c]) (CHead d1 (Bind Abst) u1) (CHead c (Bind b) t) (clear_gen_bind b c (CHead d1 (Bind Abst) u1) t H6) in (let H8 \def f_equal C B (\lambda (e: C).match e return B with [(CSort _) \Rightarrow Abst | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abst])]) (CHead d1 (Bind Abst) u1) (CHead c (Bind b) t) (clear_gen_bind b c (CHead d1 (Bind Abst) u1) t H6) in (let H9 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u1 | (CHead _ _ t) \Rightarrow t]) (CHead d1 (Bind Abst) u1) (CHead c (Bind b) t) (clear_gen_bind b c (CHead d1 (Bind Abst) u1) t H6) in \lambda (H10: (eq B Abst b)).\lambda (H11: (eq C d1 c)).\lambda (c2: C).\lambda (H12: (csuba g c1 c2)).let H13 \def eq_ind_r T t (\lambda (t: T).drop i O c1 (CHead c (Bind b) t)) H5 u1 H9 in let H14 \def eq_ind_r B b (\lambda (b: B).drop i O c1 (CHead c (Bind b) u1)) H13 Abst H10 in let H15 \def eq_ind_r C c (\lambda (c: C).drop i O c1 (CHead c (Bind Abst) u1)) H14 d1 H11 in let H16 \def csuba_drop_abst i c1 d1 u1 H15 g c2 H12 in or_ind (ex2 C (\lambda (d2: C).drop i O c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop i O c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) (or (ex2 C (\lambda (d2: C).getl i c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl i c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (H17: (ex2 C (\lambda (d2: C).drop i O c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2))).ex2_ind C (\lambda (d2: C).drop i O c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2) (or (ex2 C (\lambda (d2: C).getl i c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl i c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (x0: C).\lambda (H18: (drop i O c2 (CHead x0 (Bind Abst) u1))).\lambda (H19: (csuba g d1 x0)).or_introl (ex2 C (\lambda (d2: C).getl i c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl i c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) (ex_intro2 C (\lambda (d2: C).getl i c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2) x0 (getl_intro i c2 (CHead x0 (Bind Abst) u1) (CHead x0 (Bind Abst) u1) H18 (clear_bind Abst x0 u1)) H19)) H17) (\lambda (H17: (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop i O c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))).ex4_3_ind C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).drop i O c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a) (or (ex2 C (\lambda (d2: C).getl i c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl i c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (x0: C).\lambda (x1: T).\lambda (x2: A).\lambda (H18: (drop i O c2 (CHead x0 (Bind Abbr) x1))).\lambda (H19: (csuba g d1 x0)).\lambda (H20: (arity g d1 u1 (asucc g x2))).\lambda (H21: (arity g x0 x1 x2)).or_intror (ex2 C (\lambda (d2: C).getl i c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl i c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) (ex4_3_intro C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl i c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a) x0 x1 x2 (getl_intro i c2 (CHead x0 (Bind Abbr) x1) (CHead x0 (Bind Abbr) x1) H18 (clear_bind Abbr x0 x1)) H19 H20 H21)) H17) H16) H8) H7) | (Flat f) \Rightarrow (\lambda (H5: (drop i O c1 (CHead c (Flat f) t))).\lambda (H6: (clear (CHead c (Flat f) t) (CHead d1 (Bind Abst) u1))).let H7 \def H5 in unintro C c1 (\lambda (c0: C).(drop i O c0 (CHead c (Flat f) t)) \to \forall (c2: C).(csuba g c0 c2) \to or (ex2 C (\lambda (d2: C).getl i c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl i c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (nat_ind (\lambda (n: nat).\forall (x0: C).(drop n O x0 (CHead c (Flat f) t)) \to \forall (c2: C).(csuba g x0 c2) \to or (ex2 C (\lambda (d2: C).getl n c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl n c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (x0: C).\lambda (H8: (drop O O x0 (CHead c (Flat f) t))).\lambda (c2: C).\lambda (H9: (csuba g x0 c2)).let H10 \def eq_ind C x0 (\lambda (c: C).csuba g c c2) H9 (CHead c (Flat f) t) (drop_gen_refl x0 (CHead c (Flat f) t) H8) in let H_y \def clear_flat c (CHead d1 (Bind Abst) u1) (clear_gen_flat f c (CHead d1 (Bind Abst) u1) t H6) f t in let H11 \def csuba_clear_conf g (CHead c (Flat f) t) c2 H10 (CHead d1 (Bind Abst) u1) H_y in ex2_ind C (\lambda (e2: C).csuba g (CHead d1 (Bind Abst) u1) e2) (\lambda (e2: C).clear c2 e2) (or (ex2 C (\lambda (d2: C).getl O c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl O c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (x1: C).\lambda (H12: (csuba g (CHead d1 (Bind Abst) u1) x1)).\lambda (H13: (clear c2 x1)).let H14 \def csuba_gen_abst g d1 x1 u1 H12 in or_ind (ex2 C (\lambda (d2: C).eq C x1 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).eq C x1 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) (or (ex2 C (\lambda (d2: C).getl O c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl O c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (H15: (ex2 C (\lambda (d2: C).eq C x1 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2))).ex2_ind C (\lambda (d2: C).eq C x1 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2) (or (ex2 C (\lambda (d2: C).getl O c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl O c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (x2: C).\lambda (H16: (eq C x1 (CHead x2 (Bind Abst) u1))).\lambda (H17: (csuba g d1 x2)).let H18 \def eq_ind C x1 (\lambda (c: C).clear c2 c) H13 (CHead x2 (Bind Abst) u1) H16 in or_introl (ex2 C (\lambda (d2: C).getl O c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl O c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) (ex_intro2 C (\lambda (d2: C).getl O c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2) x2 (getl_intro O c2 (CHead x2 (Bind Abst) u1) c2 (drop_refl c2) H18) H17)) H15) (\lambda (H15: (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).eq C x1 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))).ex4_3_ind C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).eq C x1 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a) (or (ex2 C (\lambda (d2: C).getl O c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl O c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (x2: C).\lambda (x3: T).\lambda (x4: A).\lambda (H16: (eq C x1 (CHead x2 (Bind Abbr) x3))).\lambda (H17: (csuba g d1 x2)).\lambda (H18: (arity g d1 u1 (asucc g x4))).\lambda (H19: (arity g x2 x3 x4)).let H20 \def eq_ind C x1 (\lambda (c: C).clear c2 c) H13 (CHead x2 (Bind Abbr) x3) H16 in or_intror (ex2 C (\lambda (d2: C).getl O c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl O c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) (ex4_3_intro C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl O c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a) x2 x3 x4 (getl_intro O c2 (CHead x2 (Bind Abbr) x3) c2 (drop_refl c2) H20) H17 H18 H19)) H15) H14) H11) (\lambda (n: nat).\lambda (H8: ((\forall (x: C).(drop n O x (CHead c (Flat f) t)) \to \forall (c2: C).(csuba g x c2) \to or (ex2 C (\lambda (d2: C).getl n c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl n c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))))).\lambda (x0: C).\lambda (H9: (drop (S n) O x0 (CHead c (Flat f) t))).\lambda (c2: C).\lambda (H10: (csuba g x0 c2)).let H11 \def drop_clear x0 (CHead c (Flat f) t) n H9 in ex2_3_ind B C T (\lambda (b: B).\lambda (e: C).\lambda (v: T).clear x0 (CHead e (Bind b) v)) (\lambda (_: B).\lambda (e: C).\lambda (_: T).drop n O e (CHead c (Flat f) t)) (or (ex2 C (\lambda (d2: C).getl (S n) c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl (S n) c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (x1: B).\lambda (x2: C).\lambda (x3: T).\lambda (H12: (clear x0 (CHead x2 (Bind x1) x3))).\lambda (H13: (drop n O x2 (CHead c (Flat f) t))).let H14 \def csuba_clear_conf g x0 c2 H10 (CHead x2 (Bind x1) x3) H12 in ex2_ind C (\lambda (e2: C).csuba g (CHead x2 (Bind x1) x3) e2) (\lambda (e2: C).clear c2 e2) (or (ex2 C (\lambda (d2: C).getl (S n) c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl (S n) c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (x4: C).\lambda (H15: (csuba g (CHead x2 (Bind x1) x3) x4)).\lambda (H16: (clear c2 x4)).let H17 \def csuba_gen_bind g x1 x2 x4 x3 H15 in ex2_3_ind B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C x4 (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csuba g x2 e2) (or (ex2 C (\lambda (d2: C).getl (S n) c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl (S n) c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (x5: B).\lambda (x6: C).\lambda (x7: T).\lambda (H18: (eq C x4 (CHead x6 (Bind x5) x7))).\lambda (H19: (csuba g x2 x6)).let H20 \def eq_ind C x4 (\lambda (c: C).clear c2 c) H16 (CHead x6 (Bind x5) x7) H18 in let H21 \def H8 x2 H13 x6 H19 in or_ind (ex2 C (\lambda (d2: C).getl n x6 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl n x6 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) (or (ex2 C (\lambda (d2: C).getl (S n) c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl (S n) c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (H22: (ex2 C (\lambda (d2: C).getl n x6 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2))).ex2_ind C (\lambda (d2: C).getl n x6 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2) (or (ex2 C (\lambda (d2: C).getl (S n) c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl (S n) c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (x8: C).\lambda (H23: (getl n x6 (CHead x8 (Bind Abst) u1))).\lambda (H24: (csuba g d1 x8)).or_introl (ex2 C (\lambda (d2: C).getl (S n) c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl (S n) c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) (ex_intro2 C (\lambda (d2: C).getl (S n) c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2) x8 (getl_clear_bind x5 c2 x6 x7 H20 (CHead x8 (Bind Abst) u1) n H23) H24)) H22) (\lambda (H22: (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl n x6 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))).ex4_3_ind C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl n x6 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a) (or (ex2 C (\lambda (d2: C).getl (S n) c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl (S n) c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))) (\lambda (x8: C).\lambda (x9: T).\lambda (x10: A).\lambda (H23: (getl n x6 (CHead x8 (Bind Abbr) x9))).\lambda (H24: (csuba g d1 x8)).\lambda (H25: (arity g d1 u1 (asucc g x10))).\lambda (H26: (arity g x8 x9 x10)).or_intror (ex2 C (\lambda (d2: C).getl (S n) c2 (CHead d2 (Bind Abst) u1)) (\lambda (d2: C).csuba g d1 d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl (S n) c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a)) (ex4_3_intro C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl (S n) c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d1 d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d1 u1 (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a) x8 x9 x10 (getl_clear_bind x5 c2 x6 x7 H20 (CHead x8 (Bind Abbr) x9) n H23) H24 H25 H26)) H22) H21) H17) H14) H11) i) H7)]) H3 H4)]) H1 H2) H0.
+
+theorem csuba_arity: \forall (g: G).\forall (c1: C).\forall (t: T).\forall (a: A).(arity g c1 t a) \to \forall (c2: C).(csuba g c1 c2) \to arity g c2 t a \def \lambda (g: G).\lambda (c1: C).\lambda (t: T).\lambda (a: A).\lambda (H: (arity g c1 t a)).arity_ind g (\lambda (c: C).\lambda (t0: T).\lambda (a0: A).\forall (c2: C).(csuba g c c2) \to arity g c2 t0 a0) (\lambda (c: C).\lambda (n: nat).\lambda (c2: C).\lambda (_: (csuba g c c2)).arity_sort g c2 n) (\lambda (c: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c (CHead d (Bind Abbr) u))).\lambda (a0: A).\lambda (_: (arity g d u a0)).\lambda (H2: ((\forall (c2: C).(csuba g d c2) \to arity g c2 u a0))).\lambda (c2: C).\lambda (H3: (csuba g c c2)).let H4 \def csuba_getl_abbr g c d u i H0 c2 H3 in ex2_ind C (\lambda (d2: C).getl i c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).csuba g d d2) (arity g c2 (TLRef i) a0) (\lambda (x: C).\lambda (H5: (getl i c2 (CHead x (Bind Abbr) u))).\lambda (H6: (csuba g d x)).arity_abbr g c2 x u i H5 a0 (H2 x H6)) H4) (\lambda (c: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c (CHead d (Bind Abst) u))).\lambda (a0: A).\lambda (H1: (arity g d u (asucc g a0))).\lambda (H2: ((\forall (c2: C).(csuba g d c2) \to arity g c2 u (asucc g a0)))).\lambda (c2: C).\lambda (H3: (csuba g c c2)).let H4 \def csuba_getl_abst g c d u i H0 c2 H3 in or_ind (ex2 C (\lambda (d2: C).getl i c2 (CHead d2 (Bind Abst) u)) (\lambda (d2: C).csuba g d d2)) (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl i c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d d2) (\lambda (_: C).\lambda (_: T).\lambda (a1: A).arity g d u (asucc g a1)) (\lambda (d2: C).\lambda (u2: T).\lambda (a1: A).arity g d2 u2 a1)) (arity g c2 (TLRef i) a0) (\lambda (H5: (ex2 C (\lambda (d2: C).getl i c2 (CHead d2 (Bind Abst) u)) (\lambda (d2: C).csuba g d d2))).ex2_ind C (\lambda (d2: C).getl i c2 (CHead d2 (Bind Abst) u)) (\lambda (d2: C).csuba g d d2) (arity g c2 (TLRef i) a0) (\lambda (x: C).\lambda (H6: (getl i c2 (CHead x (Bind Abst) u))).\lambda (H7: (csuba g d x)).arity_abst g c2 x u i H6 a0 (H2 x H7)) H5) (\lambda (H5: (ex4_3 C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl i c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d d2) (\lambda (_: C).\lambda (_: T).\lambda (a: A).arity g d u (asucc g a)) (\lambda (d2: C).\lambda (u2: T).\lambda (a: A).arity g d2 u2 a))).ex4_3_ind C T A (\lambda (d2: C).\lambda (u2: T).\lambda (_: A).getl i c2 (CHead d2 (Bind Abbr) u2)) (\lambda (d2: C).\lambda (_: T).\lambda (_: A).csuba g d d2) (\lambda (_: C).\lambda (_: T).\lambda (a1: A).arity g d u (asucc g a1)) (\lambda (d2: C).\lambda (u2: T).\lambda (a1: A).arity g d2 u2 a1) (arity g c2 (TLRef i) a0) (\lambda (x0: C).\lambda (x1: T).\lambda (x2: A).\lambda (H6: (getl i c2 (CHead x0 (Bind Abbr) x1))).\lambda (_: (csuba g d x0)).\lambda (H8: (arity g d u (asucc g x2))).\lambda (H9: (arity g x0 x1 x2)).arity_repl g c2 (TLRef i) x2 (arity_abbr g c2 x0 x1 i H6 x2 H9) a0 (asucc_inj g x2 a0 (arity_mono g d u (asucc g x2) H8 (asucc g a0) H1))) H5) H4) (\lambda (b: B).\lambda (H0: (not (eq B b Abst))).\lambda (c: C).\lambda (u: T).\lambda (a1: A).\lambda (_: (arity g c u a1)).\lambda (H2: ((\forall (c2: C).(csuba g c c2) \to arity g c2 u a1))).\lambda (t0: T).\lambda (a2: A).\lambda (_: (arity g (CHead c (Bind b) u) t0 a2)).\lambda (H4: ((\forall (c2: C).(csuba g (CHead c (Bind b) u) c2) \to arity g c2 t0 a2))).\lambda (c2: C).\lambda (H5: (csuba g c c2)).arity_bind g b H0 c2 u a1 (H2 c2 H5) t0 a2 (H4 (CHead c2 (Bind b) u) (csuba_head g c c2 H5 (Bind b) u))) (\lambda (c: C).\lambda (u: T).\lambda (a1: A).\lambda (_: (arity g c u (asucc g a1))).\lambda (H1: ((\forall (c2: C).(csuba g c c2) \to arity g c2 u (asucc g a1)))).\lambda (t0: T).\lambda (a2: A).\lambda (_: (arity g (CHead c (Bind Abst) u) t0 a2)).\lambda (H3: ((\forall (c2: C).(csuba g (CHead c (Bind Abst) u) c2) \to arity g c2 t0 a2))).\lambda (c2: C).\lambda (H4: (csuba g c c2)).arity_head g c2 u a1 (H1 c2 H4) t0 a2 (H3 (CHead c2 (Bind Abst) u) (csuba_head g c c2 H4 (Bind Abst) u))) (\lambda (c: C).\lambda (u: T).\lambda (a1: A).\lambda (_: (arity g c u a1)).\lambda (H1: ((\forall (c2: C).(csuba g c c2) \to arity g c2 u a1))).\lambda (t0: T).\lambda (a2: A).\lambda (_: (arity g c t0 (AHead a1 a2))).\lambda (H3: ((\forall (c2: C).(csuba g c c2) \to arity g c2 t0 (AHead a1 a2)))).\lambda (c2: C).\lambda (H4: (csuba g c c2)).arity_appl g c2 u a1 (H1 c2 H4) t0 a2 (H3 c2 H4)) (\lambda (c: C).\lambda (u: T).\lambda (a0: A).\lambda (_: (arity g c u (asucc g a0))).\lambda (H1: ((\forall (c2: C).(csuba g c c2) \to arity g c2 u (asucc g a0)))).\lambda (t0: T).\lambda (_: (arity g c t0 a0)).\lambda (H3: ((\forall (c2: C).(csuba g c c2) \to arity g c2 t0 a0))).\lambda (c2: C).\lambda (H4: (csuba g c c2)).arity_cast g c2 u a0 (H1 c2 H4) t0 (H3 c2 H4)) (\lambda (c: C).\lambda (t0: T).\lambda (a1: A).\lambda (_: (arity g c t0 a1)).\lambda (H1: ((\forall (c2: C).(csuba g c c2) \to arity g c2 t0 a1))).\lambda (a2: A).\lambda (H2: (leq g a1 a2)).\lambda (c2: C).\lambda (H3: (csuba g c c2)).arity_repl g c2 t0 a1 (H1 c2 H3) a2 H2) c1 t a H.
+
+axiom csuba_arity_rev: \forall (g: G).\forall (c1: C).\forall (t: T).\forall (a: A).(arity g c1 t a) \to \forall (c2: C).(csuba g c2 c1) \to arity g c2 t a .
+
+theorem arity_appls_appl: \forall (g: G).\forall (c: C).\forall (v: T).\forall (a1: A).(arity g c v a1) \to \forall (u: T).(arity g c u (asucc g a1)) \to \forall (t: T).\forall (vs: TList).\forall (a2: A).(arity g c (THeads (Flat Appl) vs (THead (Bind Abbr) v t)) a2) \to arity g c (THeads (Flat Appl) vs (THead (Flat Appl) v (THead (Bind Abst) u t))) a2 \def \lambda (g: G).\lambda (c: C).\lambda (v: T).\lambda (a1: A).\lambda (H: (arity g c v a1)).\lambda (u: T).\lambda (H0: (arity g c u (asucc g a1))).\lambda (t: T).\lambda (vs: TList).TList_ind (\lambda (t0: TList).\forall (a2: A).(arity g c (THeads (Flat Appl) t0 (THead (Bind Abbr) v t)) a2) \to arity g c (THeads (Flat Appl) t0 (THead (Flat Appl) v (THead (Bind Abst) u t))) a2) (\lambda (a2: A).\lambda (H1: (arity g c (THead (Bind Abbr) v t) a2)).let H_x \def arity_gen_bind Abbr (\lambda (H2: (eq B Abbr Abst)).not_abbr_abst H2) g c v t a2 H1 in let H2 \def H_x in ex2_ind A (\lambda (a3: A).arity g c v a3) (\lambda (_: A).arity g (CHead c (Bind Abbr) v) t a2) (arity g c (THead (Flat Appl) v (THead (Bind Abst) u t)) a2) (\lambda (x: A).\lambda (_: (arity g c v x)).\lambda (H4: (arity g (CHead c (Bind Abbr) v) t a2)).arity_appl g c v a1 H (THead (Bind Abst) u t) a2 (arity_head g c u a1 H0 t a2 (csuba_arity_rev g (CHead c (Bind Abbr) v) t a2 H4 (CHead c (Bind Abst) u) (csuba_abst g c c (csuba_refl g c) u a1 H0 v H)))) H2) (\lambda (t0: T).\lambda (t1: TList).\lambda (H1: ((\forall (a2: A).(arity g c (THeads (Flat Appl) t1 (THead (Bind Abbr) v t)) a2) \to arity g c (THeads (Flat Appl) t1 (THead (Flat Appl) v (THead (Bind Abst) u t))) a2))).\lambda (a2: A).\lambda (H2: (arity g c (THead (Flat Appl) t0 (THeads (Flat Appl) t1 (THead (Bind Abbr) v t))) a2)).let H3 \def arity_gen_appl g c t0 (THeads (Flat Appl) t1 (THead (Bind Abbr) v t)) a2 H2 in ex2_ind A (\lambda (a3: A).arity g c t0 a3) (\lambda (a3: A).arity g c (THeads (Flat Appl) t1 (THead (Bind Abbr) v t)) (AHead a3 a2)) (arity g c (THead (Flat Appl) t0 (THeads (Flat Appl) t1 (THead (Flat Appl) v (THead (Bind Abst) u t)))) a2) (\lambda (x: A).\lambda (H4: (arity g c t0 x)).\lambda (H5: (arity g c (THeads (Flat Appl) t1 (THead (Bind Abbr) v t)) (AHead x a2))).arity_appl g c t0 x H4 (THeads (Flat Appl) t1 (THead (Flat Appl) v (THead (Bind Abst) u t))) a2 (H1 (AHead x a2) H5)) H3) vs.
+
+theorem arity_sred_wcpr0_pr0: \forall (g: G).\forall (c1: C).\forall (t1: T).\forall (a: A).(arity g c1 t1 a) \to \forall (c2: C).(wcpr0 c1 c2) \to \forall (t2: T).(pr0 t1 t2) \to arity g c2 t2 a \def \lambda (g: G).\lambda (c1: C).\lambda (t1: T).\lambda (a: A).\lambda (H: (arity g c1 t1 a)).arity_ind g (\lambda (c: C).\lambda (t: T).\lambda (a0: A).\forall (c2: C).(wcpr0 c c2) \to \forall (t2: T).(pr0 t t2) \to arity g c2 t2 a0) (\lambda (c: C).\lambda (n: nat).\lambda (c2: C).\lambda (_: (wcpr0 c c2)).\lambda (t2: T).\lambda (H1: (pr0 (TSort n) t2)).eq_ind_r T (TSort n) (\lambda (t: T).arity g c2 t (ASort O n)) (arity_sort g c2 n) t2 (pr0_gen_sort t2 n H1)) (\lambda (c: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c (CHead d (Bind Abbr) u))).\lambda (a0: A).\lambda (_: (arity g d u a0)).\lambda (H2: ((\forall (c2: C).(wcpr0 d c2) \to \forall (t2: T).(pr0 u t2) \to arity g c2 t2 a0))).\lambda (c2: C).\lambda (H3: (wcpr0 c c2)).\lambda (t2: T).\lambda (H4: (pr0 (TLRef i) t2)).eq_ind_r T (TLRef i) (\lambda (t: T).arity g c2 t a0) (ex3_2_ind C T (\lambda (e2: C).\lambda (u2: T).getl i c2 (CHead e2 (Bind Abbr) u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 d e2) (\lambda (_: C).\lambda (u2: T).pr0 u u2) (arity g c2 (TLRef i) a0) (\lambda (x0: C).\lambda (x1: T).\lambda (H5: (getl i c2 (CHead x0 (Bind Abbr) x1))).\lambda (H6: (wcpr0 d x0)).\lambda (H7: (pr0 u x1)).arity_abbr g c2 x0 x1 i H5 a0 (H2 x0 H6 x1 H7)) (wcpr0_getl c c2 H3 i d u (Bind Abbr) H0)) t2 (pr0_gen_lref t2 i H4)) (\lambda (c: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c (CHead d (Bind Abst) u))).\lambda (a0: A).\lambda (_: (arity g d u (asucc g a0))).\lambda (H2: ((\forall (c2: C).(wcpr0 d c2) \to \forall (t2: T).(pr0 u t2) \to arity g c2 t2 (asucc g a0)))).\lambda (c2: C).\lambda (H3: (wcpr0 c c2)).\lambda (t2: T).\lambda (H4: (pr0 (TLRef i) t2)).eq_ind_r T (TLRef i) (\lambda (t: T).arity g c2 t a0) (ex3_2_ind C T (\lambda (e2: C).\lambda (u2: T).getl i c2 (CHead e2 (Bind Abst) u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 d e2) (\lambda (_: C).\lambda (u2: T).pr0 u u2) (arity g c2 (TLRef i) a0) (\lambda (x0: C).\lambda (x1: T).\lambda (H5: (getl i c2 (CHead x0 (Bind Abst) x1))).\lambda (H6: (wcpr0 d x0)).\lambda (H7: (pr0 u x1)).arity_abst g c2 x0 x1 i H5 a0 (H2 x0 H6 x1 H7)) (wcpr0_getl c c2 H3 i d u (Bind Abst) H0)) t2 (pr0_gen_lref t2 i H4)) (\lambda (b: B).\lambda (H0: (not (eq B b Abst))).\lambda (c: C).\lambda (u: T).\lambda (a1: A).\lambda (_: (arity g c u a1)).\lambda (H2: ((\forall (c2: C).(wcpr0 c c2) \to \forall (t2: T).(pr0 u t2) \to arity g c2 t2 a1))).\lambda (t: T).\lambda (a2: A).\lambda (H3: (arity g (CHead c (Bind b) u) t a2)).\lambda (H4: ((\forall (c2: C).(wcpr0 (CHead c (Bind b) u) c2) \to \forall (t2: T).(pr0 t t2) \to arity g c2 t2 a2))).\lambda (c2: C).\lambda (H5: (wcpr0 c c2)).\lambda (t2: T).\lambda (H6: (pr0 (THead (Bind b) u t) t2)).insert_eq T (THead (Bind b) u t) (\lambda (t0: T).pr0 t0 t2) (arity g c2 t2 a2) (\lambda (y: T).\lambda (H7: (pr0 y t2)).pr0_ind (\lambda (t0: T).\lambda (t3: T).(eq T t0 (THead (Bind b) u t)) \to arity g c2 t3 a2) (\lambda (t0: T).\lambda (H8: (eq T t0 (THead (Bind b) u t))).let H9 \def f_equal T T (\lambda (e: T).e) t0 (THead (Bind b) u t) H8 in eq_ind_r T (THead (Bind b) u t) (\lambda (t3: T).arity g c2 t3 a2) (arity_bind g b H0 c2 u a1 (H2 c2 H5 u (pr0_refl u)) t a2 (H4 (CHead c2 (Bind b) u) (wcpr0_comp c c2 H5 u u (pr0_refl u) (Bind b)) t (pr0_refl t))) t0 H9) (\lambda (u1: T).\lambda (u2: T).\lambda (H8: (pr0 u1 u2)).\lambda (H9: (((eq T u1 (THead (Bind b) u t)) \to arity g c2 u2 a2))).\lambda (t3: T).\lambda (t4: T).\lambda (H10: (pr0 t3 t4)).\lambda (H11: (((eq T t3 (THead (Bind b) u t)) \to arity g c2 t4 a2))).\lambda (k: K).\lambda (H12: (eq T (THead k u1 t3) (THead (Bind b) u t))).let H13 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k u1 t3) (THead (Bind b) u t) H12 in (let H14 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u1 | (TLRef _) \Rightarrow u1 | (THead _ t _) \Rightarrow t]) (THead k u1 t3) (THead (Bind b) u t) H12 in (let H15 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t3 | (TLRef _) \Rightarrow t3 | (THead _ _ t) \Rightarrow t]) (THead k u1 t3) (THead (Bind b) u t) H12 in \lambda (H16: (eq T u1 u)).\lambda (H17: (eq K k (Bind b))).eq_ind_r K (Bind b) (\lambda (k0: K).arity g c2 (THead k0 u2 t4) a2) (let H18 \def eq_ind T t3 (\lambda (t0: T).(eq T t0 (THead (Bind b) u t)) \to arity g c2 t4 a2) H11 t H15 in let H19 \def eq_ind T t3 (\lambda (t: T).pr0 t t4) H10 t H15 in let H20 \def eq_ind T u1 (\lambda (t0: T).(eq T t0 (THead (Bind b) u t)) \to arity g c2 u2 a2) H9 u H16 in let H21 \def eq_ind T u1 (\lambda (t: T).pr0 t u2) H8 u H16 in arity_bind g b H0 c2 u2 a1 (H2 c2 H5 u2 H21) t4 a2 (H4 (CHead c2 (Bind b) u2) (wcpr0_comp c c2 H5 u u2 H21 (Bind b)) t4 H19)) k H17) H14) H13) (\lambda (u0: T).\lambda (v1: T).\lambda (v2: T).\lambda (_: (pr0 v1 v2)).\lambda (_: (((eq T v1 (THead (Bind b) u t)) \to arity g c2 v2 a2))).\lambda (t3: T).\lambda (t4: T).\lambda (_: (pr0 t3 t4)).\lambda (_: (((eq T t3 (THead (Bind b) u t)) \to arity g c2 t4 a2))).\lambda (H12: (eq T (THead (Flat Appl) v1 (THead (Bind Abst) u0 t3)) (THead (Bind b) u t))).let H13 \def eq_ind T (THead (Flat Appl) v1 (THead (Bind Abst) u0 t3)) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind b) u t) H12 in False_ind (arity g c2 (THead (Bind Abbr) v2 t4) a2) H13) (\lambda (b0: B).\lambda (_: (not (eq B b0 Abst))).\lambda (v1: T).\lambda (v2: T).\lambda (_: (pr0 v1 v2)).\lambda (_: (((eq T v1 (THead (Bind b) u t)) \to arity g c2 v2 a2))).\lambda (u1: T).\lambda (u2: T).\lambda (_: (pr0 u1 u2)).\lambda (_: (((eq T u1 (THead (Bind b) u t)) \to arity g c2 u2 a2))).\lambda (t3: T).\lambda (t4: T).\lambda (_: (pr0 t3 t4)).\lambda (_: (((eq T t3 (THead (Bind b) u t)) \to arity g c2 t4 a2))).\lambda (H15: (eq T (THead (Flat Appl) v1 (THead (Bind b0) u1 t3)) (THead (Bind b) u t))).let H16 \def eq_ind T (THead (Flat Appl) v1 (THead (Bind b0) u1 t3)) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind b) u t) H15 in False_ind (arity g c2 (THead (Bind b0) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) a2) H16) (\lambda (u1: T).\lambda (u2: T).\lambda (H8: (pr0 u1 u2)).\lambda (H9: (((eq T u1 (THead (Bind b) u t)) \to arity g c2 u2 a2))).\lambda (t3: T).\lambda (t4: T).\lambda (H10: (pr0 t3 t4)).\lambda (H11: (((eq T t3 (THead (Bind b) u t)) \to arity g c2 t4 a2))).\lambda (w: T).\lambda (H12: (subst0 O u2 t4 w)).\lambda (H13: (eq T (THead (Bind Abbr) u1 t3) (THead (Bind b) u t))).let H14 \def f_equal T B (\lambda (e: T).match e return B with [(TSort _) \Rightarrow Abbr | (TLRef _) \Rightarrow Abbr | (THead k _ _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (THead (Bind Abbr) u1 t3) (THead (Bind b) u t) H13 in (let H15 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u1 | (TLRef _) \Rightarrow u1 | (THead _ t _) \Rightarrow t]) (THead (Bind Abbr) u1 t3) (THead (Bind b) u t) H13 in (let H16 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t3 | (TLRef _) \Rightarrow t3 | (THead _ _ t) \Rightarrow t]) (THead (Bind Abbr) u1 t3) (THead (Bind b) u t) H13 in \lambda (H17: (eq T u1 u)).\lambda (H18: (eq B Abbr b)).let H19 \def eq_ind T t3 (\lambda (t0: T).(eq T t0 (THead (Bind b) u t)) \to arity g c2 t4 a2) H11 t H16 in let H20 \def eq_ind T t3 (\lambda (t: T).pr0 t t4) H10 t H16 in let H21 \def eq_ind T u1 (\lambda (t0: T).(eq T t0 (THead (Bind b) u t)) \to arity g c2 u2 a2) H9 u H17 in let H22 \def eq_ind T u1 (\lambda (t: T).pr0 t u2) H8 u H17 in let H23 \def eq_ind_r B b (\lambda (b: B).(eq T t (THead (Bind b) u t)) \to arity g c2 t4 a2) H19 Abbr H18 in let H24 \def eq_ind_r B b (\lambda (b: B).(eq T u (THead (Bind b) u t)) \to arity g c2 u2 a2) H21 Abbr H18 in let H25 \def eq_ind_r B b (\lambda (b: B).\forall (c2: C).(wcpr0 (CHead c (Bind b) u) c2) \to \forall (t2: T).(pr0 t t2) \to arity g c2 t2 a2) H4 Abbr H18 in let H26 \def eq_ind_r B b (\lambda (b: B).arity g (CHead c (Bind b) u) t a2) H3 Abbr H18 in let H27 \def eq_ind_r B b (\lambda (b: B).not (eq B b Abst)) H0 Abbr H18 in arity_bind g Abbr H27 c2 u2 a1 (H2 c2 H5 u2 H22) w a2 (arity_subst0 g (CHead c2 (Bind Abbr) u2) t4 a2 (H25 (CHead c2 (Bind Abbr) u2) (wcpr0_comp c c2 H5 u u2 H22 (Bind Abbr)) t4 H20) c2 u2 O (getl_refl Abbr c2 u2) w H12)) H15) H14) (\lambda (b0: B).\lambda (H8: (not (eq B b0 Abst))).\lambda (t3: T).\lambda (t4: T).\lambda (H9: (pr0 t3 t4)).\lambda (H10: (((eq T t3 (THead (Bind b) u t)) \to arity g c2 t4 a2))).\lambda (u0: T).\lambda (H11: (eq T (THead (Bind b0) u0 (lift (S O) O t3)) (THead (Bind b) u t))).let H12 \def f_equal T B (\lambda (e: T).match e return B with [(TSort _) \Rightarrow b0 | (TLRef _) \Rightarrow b0 | (THead k _ _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow b0])]) (THead (Bind b0) u0 (lift (S O) O t3)) (THead (Bind b) u t) H11 in (let H13 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u0 | (TLRef _) \Rightarrow u0 | (THead _ t _) \Rightarrow t]) (THead (Bind b0) u0 (lift (S O) O t3)) (THead (Bind b) u t) H11 in (let H14 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x (S O)) O t3) | (TLRef _) \Rightarrow ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x (S O)) O t3) | (THead _ _ t) \Rightarrow t]) (THead (Bind b0) u0 (lift (S O) O t3)) (THead (Bind b) u t) H11 in \lambda (_: (eq T u0 u)).\lambda (H16: (eq B b0 b)).let H17 \def eq_ind B b0 (\lambda (b: B).not (eq B b Abst)) H8 b H16 in let H18 \def eq_ind_r T t (\lambda (t: T).(eq T t3 (THead (Bind b) u t)) \to arity g c2 t4 a2) H10 (lift (S O) O t3) H14 in let H19 \def eq_ind_r T t (\lambda (t: T).\forall (c2: C).(wcpr0 (CHead c (Bind b) u) c2) \to \forall (t2: T).(pr0 t t2) \to arity g c2 t2 a2) H4 (lift (S O) O t3) H14 in let H20 \def eq_ind_r T t (\lambda (t: T).arity g (CHead c (Bind b) u) t a2) H3 (lift (S O) O t3) H14 in arity_gen_lift g (CHead c2 (Bind b) u) t4 a2 (S O) O (H19 (CHead c2 (Bind b) u) (wcpr0_comp c c2 H5 u u (pr0_refl u) (Bind b)) (lift (S O) O t4) (pr0_lift t3 t4 H9 (S O) O)) c2 (drop_drop (Bind b) O c2 c2 (drop_refl c2) u)) H13) H12) (\lambda (t3: T).\lambda (t4: T).\lambda (_: (pr0 t3 t4)).\lambda (_: (((eq T t3 (THead (Bind b) u t)) \to arity g c2 t4 a2))).\lambda (u0: T).\lambda (H10: (eq T (THead (Flat Cast) u0 t3) (THead (Bind b) u t))).let H11 \def eq_ind T (THead (Flat Cast) u0 t3) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind b) u t) H10 in False_ind (arity g c2 t4 a2) H11) y t2 H7) H6) (\lambda (c: C).\lambda (u: T).\lambda (a1: A).\lambda (_: (arity g c u (asucc g a1))).\lambda (H1: ((\forall (c2: C).(wcpr0 c c2) \to \forall (t2: T).(pr0 u t2) \to arity g c2 t2 (asucc g a1)))).\lambda (t: T).\lambda (a2: A).\lambda (H2: (arity g (CHead c (Bind Abst) u) t a2)).\lambda (H3: ((\forall (c2: C).(wcpr0 (CHead c (Bind Abst) u) c2) \to \forall (t2: T).(pr0 t t2) \to arity g c2 t2 a2))).\lambda (c2: C).\lambda (H4: (wcpr0 c c2)).\lambda (t2: T).\lambda (H5: (pr0 (THead (Bind Abst) u t) t2)).insert_eq T (THead (Bind Abst) u t) (\lambda (t0: T).pr0 t0 t2) (arity g c2 t2 (AHead a1 a2)) (\lambda (y: T).\lambda (H6: (pr0 y t2)).pr0_ind (\lambda (t0: T).\lambda (t3: T).(eq T t0 (THead (Bind Abst) u t)) \to arity g c2 t3 (AHead a1 a2)) (\lambda (t0: T).\lambda (H7: (eq T t0 (THead (Bind Abst) u t))).let H8 \def f_equal T T (\lambda (e: T).e) t0 (THead (Bind Abst) u t) H7 in eq_ind_r T (THead (Bind Abst) u t) (\lambda (t3: T).arity g c2 t3 (AHead a1 a2)) (arity_head g c2 u a1 (H1 c2 H4 u (pr0_refl u)) t a2 (H3 (CHead c2 (Bind Abst) u) (wcpr0_comp c c2 H4 u u (pr0_refl u) (Bind Abst)) t (pr0_refl t))) t0 H8) (\lambda (u1: T).\lambda (u2: T).\lambda (H7: (pr0 u1 u2)).\lambda (H8: (((eq T u1 (THead (Bind Abst) u t)) \to arity g c2 u2 (AHead a1 a2)))).\lambda (t3: T).\lambda (t4: T).\lambda (H9: (pr0 t3 t4)).\lambda (H10: (((eq T t3 (THead (Bind Abst) u t)) \to arity g c2 t4 (AHead a1 a2)))).\lambda (k: K).\lambda (H11: (eq T (THead k u1 t3) (THead (Bind Abst) u t))).let H12 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k u1 t3) (THead (Bind Abst) u t) H11 in (let H13 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u1 | (TLRef _) \Rightarrow u1 | (THead _ t _) \Rightarrow t]) (THead k u1 t3) (THead (Bind Abst) u t) H11 in (let H14 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t3 | (TLRef _) \Rightarrow t3 | (THead _ _ t) \Rightarrow t]) (THead k u1 t3) (THead (Bind Abst) u t) H11 in \lambda (H15: (eq T u1 u)).\lambda (H16: (eq K k (Bind Abst))).eq_ind_r K (Bind Abst) (\lambda (k0: K).arity g c2 (THead k0 u2 t4) (AHead a1 a2)) (let H17 \def eq_ind T t3 (\lambda (t0: T).(eq T t0 (THead (Bind Abst) u t)) \to arity g c2 t4 (AHead a1 a2)) H10 t H14 in let H18 \def eq_ind T t3 (\lambda (t: T).pr0 t t4) H9 t H14 in let H19 \def eq_ind T u1 (\lambda (t0: T).(eq T t0 (THead (Bind Abst) u t)) \to arity g c2 u2 (AHead a1 a2)) H8 u H15 in let H20 \def eq_ind T u1 (\lambda (t: T).pr0 t u2) H7 u H15 in arity_head g c2 u2 a1 (H1 c2 H4 u2 H20) t4 a2 (H3 (CHead c2 (Bind Abst) u2) (wcpr0_comp c c2 H4 u u2 H20 (Bind Abst)) t4 H18)) k H16) H13) H12) (\lambda (u0: T).\lambda (v1: T).\lambda (v2: T).\lambda (_: (pr0 v1 v2)).\lambda (_: (((eq T v1 (THead (Bind Abst) u t)) \to arity g c2 v2 (AHead a1 a2)))).\lambda (t3: T).\lambda (t4: T).\lambda (_: (pr0 t3 t4)).\lambda (_: (((eq T t3 (THead (Bind Abst) u t)) \to arity g c2 t4 (AHead a1 a2)))).\lambda (H11: (eq T (THead (Flat Appl) v1 (THead (Bind Abst) u0 t3)) (THead (Bind Abst) u t))).let H12 \def eq_ind T (THead (Flat Appl) v1 (THead (Bind Abst) u0 t3)) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind Abst) u t) H11 in False_ind (arity g c2 (THead (Bind Abbr) v2 t4) (AHead a1 a2)) H12) (\lambda (b: B).\lambda (_: (not (eq B b Abst))).\lambda (v1: T).\lambda (v2: T).\lambda (_: (pr0 v1 v2)).\lambda (_: (((eq T v1 (THead (Bind Abst) u t)) \to arity g c2 v2 (AHead a1 a2)))).\lambda (u1: T).\lambda (u2: T).\lambda (_: (pr0 u1 u2)).\lambda (_: (((eq T u1 (THead (Bind Abst) u t)) \to arity g c2 u2 (AHead a1 a2)))).\lambda (t3: T).\lambda (t4: T).\lambda (_: (pr0 t3 t4)).\lambda (_: (((eq T t3 (THead (Bind Abst) u t)) \to arity g c2 t4 (AHead a1 a2)))).\lambda (H14: (eq T (THead (Flat Appl) v1 (THead (Bind b) u1 t3)) (THead (Bind Abst) u t))).let H15 \def eq_ind T (THead (Flat Appl) v1 (THead (Bind b) u1 t3)) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind Abst) u t) H14 in False_ind (arity g c2 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) (AHead a1 a2)) H15) (\lambda (u1: T).\lambda (u2: T).\lambda (_: (pr0 u1 u2)).\lambda (_: (((eq T u1 (THead (Bind Abst) u t)) \to arity g c2 u2 (AHead a1 a2)))).\lambda (t3: T).\lambda (t4: T).\lambda (_: (pr0 t3 t4)).\lambda (_: (((eq T t3 (THead (Bind Abst) u t)) \to arity g c2 t4 (AHead a1 a2)))).\lambda (w: T).\lambda (_: (subst0 O u2 t4 w)).\lambda (H12: (eq T (THead (Bind Abbr) u1 t3) (THead (Bind Abst) u t))).let H13 \def eq_ind T (THead (Bind Abbr) u1 t3) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow True | Abst \Rightarrow False | Void \Rightarrow False]) | (Flat _) \Rightarrow False])]) I (THead (Bind Abst) u t) H12 in False_ind (arity g c2 (THead (Bind Abbr) u2 w) (AHead a1 a2)) H13) (\lambda (b: B).\lambda (H7: (not (eq B b Abst))).\lambda (t3: T).\lambda (t4: T).\lambda (_: (pr0 t3 t4)).\lambda (H9: (((eq T t3 (THead (Bind Abst) u t)) \to arity g c2 t4 (AHead a1 a2)))).\lambda (u0: T).\lambda (H10: (eq T (THead (Bind b) u0 (lift (S O) O t3)) (THead (Bind Abst) u t))).let H11 \def f_equal T B (\lambda (e: T).match e return B with [(TSort _) \Rightarrow b | (TLRef _) \Rightarrow b | (THead k _ _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow b])]) (THead (Bind b) u0 (lift (S O) O t3)) (THead (Bind Abst) u t) H10 in (let H12 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u0 | (TLRef _) \Rightarrow u0 | (THead _ t _) \Rightarrow t]) (THead (Bind b) u0 (lift (S O) O t3)) (THead (Bind Abst) u t) H10 in (let H13 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x (S O)) O t3) | (TLRef _) \Rightarrow ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x (S O)) O t3) | (THead _ _ t) \Rightarrow t]) (THead (Bind b) u0 (lift (S O) O t3)) (THead (Bind Abst) u t) H10 in \lambda (_: (eq T u0 u)).\lambda (H15: (eq B b Abst)).let H16 \def eq_ind B b (\lambda (b: B).not (eq B b Abst)) H7 Abst H15 in let H17 \def eq_ind_r T t (\lambda (t: T).(eq T t3 (THead (Bind Abst) u t)) \to arity g c2 t4 (AHead a1 a2)) H9 (lift (S O) O t3) H13 in let H18 \def eq_ind_r T t (\lambda (t: T).\forall (c2: C).(wcpr0 (CHead c (Bind Abst) u) c2) \to \forall (t2: T).(pr0 t t2) \to arity g c2 t2 a2) H3 (lift (S O) O t3) H13 in let H19 \def eq_ind_r T t (\lambda (t: T).arity g (CHead c (Bind Abst) u) t a2) H2 (lift (S O) O t3) H13 in let H20 \def match (H16 (refl_equal B Abst)) return (arity g c2 t4 (AHead a1 a2)) with [] in H20) H12) H11) (\lambda (t3: T).\lambda (t4: T).\lambda (_: (pr0 t3 t4)).\lambda (_: (((eq T t3 (THead (Bind Abst) u t)) \to arity g c2 t4 (AHead a1 a2)))).\lambda (u0: T).\lambda (H9: (eq T (THead (Flat Cast) u0 t3) (THead (Bind Abst) u t))).let H10 \def eq_ind T (THead (Flat Cast) u0 t3) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind Abst) u t) H9 in False_ind (arity g c2 t4 (AHead a1 a2)) H10) y t2 H6) H5) (\lambda (c: C).\lambda (u: T).\lambda (a1: A).\lambda (_: (arity g c u a1)).\lambda (H1: ((\forall (c2: C).(wcpr0 c c2) \to \forall (t2: T).(pr0 u t2) \to arity g c2 t2 a1))).\lambda (t: T).\lambda (a2: A).\lambda (H2: (arity g c t (AHead a1 a2))).\lambda (H3: ((\forall (c2: C).(wcpr0 c c2) \to \forall (t2: T).(pr0 t t2) \to arity g c2 t2 (AHead a1 a2)))).\lambda (c2: C).\lambda (H4: (wcpr0 c c2)).\lambda (t2: T).\lambda (H5: (pr0 (THead (Flat Appl) u t) t2)).insert_eq T (THead (Flat Appl) u t) (\lambda (t0: T).pr0 t0 t2) (arity g c2 t2 a2) (\lambda (y: T).\lambda (H6: (pr0 y t2)).pr0_ind (\lambda (t0: T).\lambda (t3: T).(eq T t0 (THead (Flat Appl) u t)) \to arity g c2 t3 a2) (\lambda (t0: T).\lambda (H7: (eq T t0 (THead (Flat Appl) u t))).let H8 \def f_equal T T (\lambda (e: T).e) t0 (THead (Flat Appl) u t) H7 in eq_ind_r T (THead (Flat Appl) u t) (\lambda (t3: T).arity g c2 t3 a2) (arity_appl g c2 u a1 (H1 c2 H4 u (pr0_refl u)) t a2 (H3 c2 H4 t (pr0_refl t))) t0 H8) (\lambda (u1: T).\lambda (u2: T).\lambda (H7: (pr0 u1 u2)).\lambda (H8: (((eq T u1 (THead (Flat Appl) u t)) \to arity g c2 u2 a2))).\lambda (t3: T).\lambda (t4: T).\lambda (H9: (pr0 t3 t4)).\lambda (H10: (((eq T t3 (THead (Flat Appl) u t)) \to arity g c2 t4 a2))).\lambda (k: K).\lambda (H11: (eq T (THead k u1 t3) (THead (Flat Appl) u t))).let H12 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k u1 t3) (THead (Flat Appl) u t) H11 in (let H13 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u1 | (TLRef _) \Rightarrow u1 | (THead _ t _) \Rightarrow t]) (THead k u1 t3) (THead (Flat Appl) u t) H11 in (let H14 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t3 | (TLRef _) \Rightarrow t3 | (THead _ _ t) \Rightarrow t]) (THead k u1 t3) (THead (Flat Appl) u t) H11 in \lambda (H15: (eq T u1 u)).\lambda (H16: (eq K k (Flat Appl))).eq_ind_r K (Flat Appl) (\lambda (k0: K).arity g c2 (THead k0 u2 t4) a2) (let H17 \def eq_ind T t3 (\lambda (t0: T).(eq T t0 (THead (Flat Appl) u t)) \to arity g c2 t4 a2) H10 t H14 in let H18 \def eq_ind T t3 (\lambda (t: T).pr0 t t4) H9 t H14 in let H19 \def eq_ind T u1 (\lambda (t0: T).(eq T t0 (THead (Flat Appl) u t)) \to arity g c2 u2 a2) H8 u H15 in let H20 \def eq_ind T u1 (\lambda (t: T).pr0 t u2) H7 u H15 in arity_appl g c2 u2 a1 (H1 c2 H4 u2 H20) t4 a2 (H3 c2 H4 t4 H18)) k H16) H13) H12) (\lambda (u0: T).\lambda (v1: T).\lambda (v2: T).\lambda (H7: (pr0 v1 v2)).\lambda (H8: (((eq T v1 (THead (Flat Appl) u t)) \to arity g c2 v2 a2))).\lambda (t3: T).\lambda (t4: T).\lambda (H9: (pr0 t3 t4)).\lambda (H10: (((eq T t3 (THead (Flat Appl) u t)) \to arity g c2 t4 a2))).\lambda (H11: (eq T (THead (Flat Appl) v1 (THead (Bind Abst) u0 t3)) (THead (Flat Appl) u t))).let H12 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow v1 | (TLRef _) \Rightarrow v1 | (THead _ t _) \Rightarrow t]) (THead (Flat Appl) v1 (THead (Bind Abst) u0 t3)) (THead (Flat Appl) u t) H11 in (let H13 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow (THead (Bind Abst) u0 t3) | (TLRef _) \Rightarrow (THead (Bind Abst) u0 t3) | (THead _ _ t) \Rightarrow t]) (THead (Flat Appl) v1 (THead (Bind Abst) u0 t3)) (THead (Flat Appl) u t) H11 in \lambda (H14: (eq T v1 u)).let H15 \def eq_ind T v1 (\lambda (t0: T).(eq T t0 (THead (Flat Appl) u t)) \to arity g c2 v2 a2) H8 u H14 in let H16 \def eq_ind T v1 (\lambda (t: T).pr0 t v2) H7 u H14 in let H17 \def eq_ind_r T t (\lambda (t: T).(eq T t3 (THead (Flat Appl) u t)) \to arity g c2 t4 a2) H10 (THead (Bind Abst) u0 t3) H13 in let H18 \def eq_ind_r T t (\lambda (t: T).(eq T u (THead (Flat Appl) u t)) \to arity g c2 v2 a2) H15 (THead (Bind Abst) u0 t3) H13 in let H19 \def eq_ind_r T t (\lambda (t: T).\forall (c2: C).(wcpr0 c c2) \to \forall (t2: T).(pr0 t t2) \to arity g c2 t2 (AHead a1 a2)) H3 (THead (Bind Abst) u0 t3) H13 in let H20 \def eq_ind_r T t (\lambda (t: T).arity g c t (AHead a1 a2)) H2 (THead (Bind Abst) u0 t3) H13 in let H21 \def H1 c2 H4 v2 H16 in let H22 \def H19 c2 H4 (THead (Bind Abst) u0 t4) (pr0_comp u0 u0 (pr0_refl u0) t3 t4 H9 (Bind Abst)) in let H23 \def arity_gen_abst g c2 u0 t4 (AHead a1 a2) H22 in ex3_2_ind A A (\lambda (a3: A).\lambda (a4: A).eq A (AHead a1 a2) (AHead a3 a4)) (\lambda (a3: A).\lambda (_: A).arity g c2 u0 (asucc g a3)) (\lambda (_: A).\lambda (a4: A).arity g (CHead c2 (Bind Abst) u0) t4 a4) (arity g c2 (THead (Bind Abbr) v2 t4) a2) (\lambda (x0: A).\lambda (x1: A).\lambda (H24: (eq A (AHead a1 a2) (AHead x0 x1))).\lambda (H25: (arity g c2 u0 (asucc g x0))).\lambda (H26: (arity g (CHead c2 (Bind Abst) u0) t4 x1)).let H27 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a1 | (AHead a _) \Rightarrow a]) (AHead a1 a2) (AHead x0 x1) H24 in (let H28 \def f_equal A A (\lambda (e: A).match e return A with [(ASort _ _) \Rightarrow a2 | (AHead _ a) \Rightarrow a]) (AHead a1 a2) (AHead x0 x1) H24 in \lambda (H29: (eq A a1 x0)).let H30 \def eq_ind_r A x1 (\lambda (a: A).arity g (CHead c2 (Bind Abst) u0) t4 a) H26 a2 H28 in let H31 \def eq_ind_r A x0 (\lambda (a: A).arity g c2 u0 (asucc g a)) H25 a1 H29 in arity_bind g Abbr not_abbr_abst c2 v2 a1 H21 t4 a2 (csuba_arity g (CHead c2 (Bind Abst) u0) t4 a2 H30 (CHead c2 (Bind Abbr) v2) (csuba_abst g c2 c2 (csuba_refl g c2) u0 a1 H31 v2 H21))) H27) H23) H12) (\lambda (b: B).\lambda (H7: (not (eq B b Abst))).\lambda (v1: T).\lambda (v2: T).\lambda (H8: (pr0 v1 v2)).\lambda (H9: (((eq T v1 (THead (Flat Appl) u t)) \to arity g c2 v2 a2))).\lambda (u1: T).\lambda (u2: T).\lambda (H10: (pr0 u1 u2)).\lambda (H11: (((eq T u1 (THead (Flat Appl) u t)) \to arity g c2 u2 a2))).\lambda (t3: T).\lambda (t4: T).\lambda (H12: (pr0 t3 t4)).\lambda (H13: (((eq T t3 (THead (Flat Appl) u t)) \to arity g c2 t4 a2))).\lambda (H14: (eq T (THead (Flat Appl) v1 (THead (Bind b) u1 t3)) (THead (Flat Appl) u t))).let H15 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow v1 | (TLRef _) \Rightarrow v1 | (THead _ t _) \Rightarrow t]) (THead (Flat Appl) v1 (THead (Bind b) u1 t3)) (THead (Flat Appl) u t) H14 in (let H16 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow (THead (Bind b) u1 t3) | (TLRef _) \Rightarrow (THead (Bind b) u1 t3) | (THead _ _ t) \Rightarrow t]) (THead (Flat Appl) v1 (THead (Bind b) u1 t3)) (THead (Flat Appl) u t) H14 in \lambda (H17: (eq T v1 u)).let H18 \def eq_ind T v1 (\lambda (t0: T).(eq T t0 (THead (Flat Appl) u t)) \to arity g c2 v2 a2) H9 u H17 in let H19 \def eq_ind T v1 (\lambda (t: T).pr0 t v2) H8 u H17 in let H20 \def eq_ind_r T t (\lambda (t: T).(eq T t3 (THead (Flat Appl) u t)) \to arity g c2 t4 a2) H13 (THead (Bind b) u1 t3) H16 in let H21 \def eq_ind_r T t (\lambda (t: T).(eq T u1 (THead (Flat Appl) u t)) \to arity g c2 u2 a2) H11 (THead (Bind b) u1 t3) H16 in let H22 \def eq_ind_r T t (\lambda (t: T).(eq T u (THead (Flat Appl) u t)) \to arity g c2 v2 a2) H18 (THead (Bind b) u1 t3) H16 in let H23 \def eq_ind_r T t (\lambda (t: T).\forall (c2: C).(wcpr0 c c2) \to \forall (t2: T).(pr0 t t2) \to arity g c2 t2 (AHead a1 a2)) H3 (THead (Bind b) u1 t3) H16 in let H24 \def eq_ind_r T t (\lambda (t: T).arity g c t (AHead a1 a2)) H2 (THead (Bind b) u1 t3) H16 in let H25 \def H1 c2 H4 v2 H19 in let H26 \def H23 c2 H4 (THead (Bind b) u2 t4) (pr0_comp u1 u2 H10 t3 t4 H12 (Bind b)) in let H27 \def arity_gen_bind b H7 g c2 u2 t4 (AHead a1 a2) H26 in ex2_ind A (\lambda (a3: A).arity g c2 u2 a3) (\lambda (_: A).arity g (CHead c2 (Bind b) u2) t4 (AHead a1 a2)) (arity g c2 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) a2) (\lambda (x: A).\lambda (H28: (arity g c2 u2 x)).\lambda (H29: (arity g (CHead c2 (Bind b) u2) t4 (AHead a1 a2))).arity_bind g b H7 c2 u2 x H28 (THead (Flat Appl) (lift (S O) O v2) t4) a2 (arity_appl g (CHead c2 (Bind b) u2) (lift (S O) O v2) a1 (arity_lift g c2 v2 a1 H25 (CHead c2 (Bind b) u2) (S O) O (drop_drop (Bind b) O c2 c2 (drop_refl c2) u2)) t4 a2 H29)) H27) H15) (\lambda (u1: T).\lambda (u2: T).\lambda (_: (pr0 u1 u2)).\lambda (_: (((eq T u1 (THead (Flat Appl) u t)) \to arity g c2 u2 a2))).\lambda (t3: T).\lambda (t4: T).\lambda (_: (pr0 t3 t4)).\lambda (_: (((eq T t3 (THead (Flat Appl) u t)) \to arity g c2 t4 a2))).\lambda (w: T).\lambda (_: (subst0 O u2 t4 w)).\lambda (H12: (eq T (THead (Bind Abbr) u1 t3) (THead (Flat Appl) u t))).let H13 \def eq_ind T (THead (Bind Abbr) u1 t3) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (THead (Flat Appl) u t) H12 in False_ind (arity g c2 (THead (Bind Abbr) u2 w) a2) H13) (\lambda (b: B).\lambda (_: (not (eq B b Abst))).\lambda (t3: T).\lambda (t4: T).\lambda (_: (pr0 t3 t4)).\lambda (_: (((eq T t3 (THead (Flat Appl) u t)) \to arity g c2 t4 a2))).\lambda (u0: T).\lambda (H10: (eq T (THead (Bind b) u0 (lift (S O) O t3)) (THead (Flat Appl) u t))).let H11 \def eq_ind T (THead (Bind b) u0 (lift (S O) O t3)) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (THead (Flat Appl) u t) H10 in False_ind (arity g c2 t4 a2) H11) (\lambda (t3: T).\lambda (t4: T).\lambda (_: (pr0 t3 t4)).\lambda (_: (((eq T t3 (THead (Flat Appl) u t)) \to arity g c2 t4 a2))).\lambda (u0: T).\lambda (H9: (eq T (THead (Flat Cast) u0 t3) (THead (Flat Appl) u t))).let H10 \def eq_ind T (THead (Flat Cast) u0 t3) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat f) \Rightarrow (match f return (Prop) with [Appl \Rightarrow False | Cast \Rightarrow True])])]) I (THead (Flat Appl) u t) H9 in False_ind (arity g c2 t4 a2) H10) y t2 H6) H5) (\lambda (c: C).\lambda (u: T).\lambda (a0: A).\lambda (_: (arity g c u (asucc g a0))).\lambda (H1: ((\forall (c2: C).(wcpr0 c c2) \to \forall (t2: T).(pr0 u t2) \to arity g c2 t2 (asucc g a0)))).\lambda (t: T).\lambda (_: (arity g c t a0)).\lambda (H3: ((\forall (c2: C).(wcpr0 c c2) \to \forall (t2: T).(pr0 t t2) \to arity g c2 t2 a0))).\lambda (c2: C).\lambda (H4: (wcpr0 c c2)).\lambda (t2: T).\lambda (H5: (pr0 (THead (Flat Cast) u t) t2)).insert_eq T (THead (Flat Cast) u t) (\lambda (t0: T).pr0 t0 t2) (arity g c2 t2 a0) (\lambda (y: T).\lambda (H6: (pr0 y t2)).pr0_ind (\lambda (t0: T).\lambda (t3: T).(eq T t0 (THead (Flat Cast) u t)) \to arity g c2 t3 a0) (\lambda (t0: T).\lambda (H7: (eq T t0 (THead (Flat Cast) u t))).let H8 \def f_equal T T (\lambda (e: T).e) t0 (THead (Flat Cast) u t) H7 in eq_ind_r T (THead (Flat Cast) u t) (\lambda (t3: T).arity g c2 t3 a0) (arity_cast g c2 u a0 (H1 c2 H4 u (pr0_refl u)) t (H3 c2 H4 t (pr0_refl t))) t0 H8) (\lambda (u1: T).\lambda (u2: T).\lambda (H7: (pr0 u1 u2)).\lambda (H8: (((eq T u1 (THead (Flat Cast) u t)) \to arity g c2 u2 a0))).\lambda (t3: T).\lambda (t4: T).\lambda (H9: (pr0 t3 t4)).\lambda (H10: (((eq T t3 (THead (Flat Cast) u t)) \to arity g c2 t4 a0))).\lambda (k: K).\lambda (H11: (eq T (THead k u1 t3) (THead (Flat Cast) u t))).let H12 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k u1 t3) (THead (Flat Cast) u t) H11 in (let H13 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u1 | (TLRef _) \Rightarrow u1 | (THead _ t _) \Rightarrow t]) (THead k u1 t3) (THead (Flat Cast) u t) H11 in (let H14 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t3 | (TLRef _) \Rightarrow t3 | (THead _ _ t) \Rightarrow t]) (THead k u1 t3) (THead (Flat Cast) u t) H11 in \lambda (H15: (eq T u1 u)).\lambda (H16: (eq K k (Flat Cast))).eq_ind_r K (Flat Cast) (\lambda (k0: K).arity g c2 (THead k0 u2 t4) a0) (let H17 \def eq_ind T t3 (\lambda (t0: T).(eq T t0 (THead (Flat Cast) u t)) \to arity g c2 t4 a0) H10 t H14 in let H18 \def eq_ind T t3 (\lambda (t: T).pr0 t t4) H9 t H14 in let H19 \def eq_ind T u1 (\lambda (t0: T).(eq T t0 (THead (Flat Cast) u t)) \to arity g c2 u2 a0) H8 u H15 in let H20 \def eq_ind T u1 (\lambda (t: T).pr0 t u2) H7 u H15 in arity_cast g c2 u2 a0 (H1 c2 H4 u2 H20) t4 (H3 c2 H4 t4 H18)) k H16) H13) H12) (\lambda (u0: T).\lambda (v1: T).\lambda (v2: T).\lambda (_: (pr0 v1 v2)).\lambda (_: (((eq T v1 (THead (Flat Cast) u t)) \to arity g c2 v2 a0))).\lambda (t3: T).\lambda (t4: T).\lambda (_: (pr0 t3 t4)).\lambda (_: (((eq T t3 (THead (Flat Cast) u t)) \to arity g c2 t4 a0))).\lambda (H11: (eq T (THead (Flat Appl) v1 (THead (Bind Abst) u0 t3)) (THead (Flat Cast) u t))).let H12 \def eq_ind T (THead (Flat Appl) v1 (THead (Bind Abst) u0 t3)) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat f) \Rightarrow (match f return (Prop) with [Appl \Rightarrow True | Cast \Rightarrow False])])]) I (THead (Flat Cast) u t) H11 in False_ind (arity g c2 (THead (Bind Abbr) v2 t4) a0) H12) (\lambda (b: B).\lambda (_: (not (eq B b Abst))).\lambda (v1: T).\lambda (v2: T).\lambda (_: (pr0 v1 v2)).\lambda (_: (((eq T v1 (THead (Flat Cast) u t)) \to arity g c2 v2 a0))).\lambda (u1: T).\lambda (u2: T).\lambda (_: (pr0 u1 u2)).\lambda (_: (((eq T u1 (THead (Flat Cast) u t)) \to arity g c2 u2 a0))).\lambda (t3: T).\lambda (t4: T).\lambda (_: (pr0 t3 t4)).\lambda (_: (((eq T t3 (THead (Flat Cast) u t)) \to arity g c2 t4 a0))).\lambda (H14: (eq T (THead (Flat Appl) v1 (THead (Bind b) u1 t3)) (THead (Flat Cast) u t))).let H15 \def eq_ind T (THead (Flat Appl) v1 (THead (Bind b) u1 t3)) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat f) \Rightarrow (match f return (Prop) with [Appl \Rightarrow True | Cast \Rightarrow False])])]) I (THead (Flat Cast) u t) H14 in False_ind (arity g c2 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t4)) a0) H15) (\lambda (u1: T).\lambda (u2: T).\lambda (_: (pr0 u1 u2)).\lambda (_: (((eq T u1 (THead (Flat Cast) u t)) \to arity g c2 u2 a0))).\lambda (t3: T).\lambda (t4: T).\lambda (_: (pr0 t3 t4)).\lambda (_: (((eq T t3 (THead (Flat Cast) u t)) \to arity g c2 t4 a0))).\lambda (w: T).\lambda (_: (subst0 O u2 t4 w)).\lambda (H12: (eq T (THead (Bind Abbr) u1 t3) (THead (Flat Cast) u t))).let H13 \def eq_ind T (THead (Bind Abbr) u1 t3) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (THead (Flat Cast) u t) H12 in False_ind (arity g c2 (THead (Bind Abbr) u2 w) a0) H13) (\lambda (b: B).\lambda (_: (not (eq B b Abst))).\lambda (t3: T).\lambda (t4: T).\lambda (_: (pr0 t3 t4)).\lambda (_: (((eq T t3 (THead (Flat Cast) u t)) \to arity g c2 t4 a0))).\lambda (u0: T).\lambda (H10: (eq T (THead (Bind b) u0 (lift (S O) O t3)) (THead (Flat Cast) u t))).let H11 \def eq_ind T (THead (Bind b) u0 (lift (S O) O t3)) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (THead (Flat Cast) u t) H10 in False_ind (arity g c2 t4 a0) H11) (\lambda (t3: T).\lambda (t4: T).\lambda (H7: (pr0 t3 t4)).\lambda (H8: (((eq T t3 (THead (Flat Cast) u t)) \to arity g c2 t4 a0))).\lambda (u0: T).\lambda (H9: (eq T (THead (Flat Cast) u0 t3) (THead (Flat Cast) u t))).let H10 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u0 | (TLRef _) \Rightarrow u0 | (THead _ t _) \Rightarrow t]) (THead (Flat Cast) u0 t3) (THead (Flat Cast) u t) H9 in (let H11 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t3 | (TLRef _) \Rightarrow t3 | (THead _ _ t) \Rightarrow t]) (THead (Flat Cast) u0 t3) (THead (Flat Cast) u t) H9 in \lambda (_: (eq T u0 u)).let H13 \def eq_ind T t3 (\lambda (t0: T).(eq T t0 (THead (Flat Cast) u t)) \to arity g c2 t4 a0) H8 t H11 in let H14 \def eq_ind T t3 (\lambda (t: T).pr0 t t4) H7 t H11 in H3 c2 H4 t4 H14) H10) y t2 H6) H5) (\lambda (c: C).\lambda (t: T).\lambda (a1: A).\lambda (_: (arity g c t a1)).\lambda (H1: ((\forall (c2: C).(wcpr0 c c2) \to \forall (t2: T).(pr0 t t2) \to arity g c2 t2 a1))).\lambda (a2: A).\lambda (H2: (leq g a1 a2)).\lambda (c2: C).\lambda (H3: (wcpr0 c c2)).\lambda (t2: T).\lambda (H4: (pr0 t t2)).arity_repl g c2 t2 a1 (H1 c2 H3 t2 H4) a2 H2) c1 t1 a H.
+
+theorem arity_sred_wcpr0_pr1: \forall (t1: T).\forall (t2: T).(pr1 t1 t2) \to \forall (g: G).\forall (c1: C).\forall (a: A).(arity g c1 t1 a) \to \forall (c2: C).(wcpr0 c1 c2) \to arity g c2 t2 a \def \lambda (t1: T).\lambda (t2: T).\lambda (H: (pr1 t1 t2)).pr1_ind (\lambda (t: T).\lambda (t0: T).\forall (g: G).\forall (c1: C).\forall (a: A).(arity g c1 t a) \to \forall (c2: C).(wcpr0 c1 c2) \to arity g c2 t0 a) (\lambda (t: T).\lambda (g: G).\lambda (c1: C).\lambda (a: A).\lambda (H0: (arity g c1 t a)).\lambda (c2: C).\lambda (H1: (wcpr0 c1 c2)).arity_sred_wcpr0_pr0 g c1 t a H0 c2 H1 t (pr0_refl t)) (\lambda (t3: T).\lambda (t4: T).\lambda (H0: (pr0 t4 t3)).\lambda (t5: T).\lambda (_: (pr1 t3 t5)).\lambda (H2: ((\forall (g: G).\forall (c1: C).\forall (a: A).(arity g c1 t3 a) \to \forall (c2: C).(wcpr0 c1 c2) \to arity g c2 t5 a))).\lambda (g: G).\lambda (c1: C).\lambda (a: A).\lambda (H3: (arity g c1 t4 a)).\lambda (c2: C).\lambda (H4: (wcpr0 c1 c2)).H2 g c2 a (arity_sred_wcpr0_pr0 g c1 t4 a H3 c2 H4 t3 H0) c2 (wcpr0_refl c2)) t1 t2 H.
+
+theorem arity_sred_pr2: \forall (c: C).\forall (t1: T).\forall (t2: T).(pr2 c t1 t2) \to \forall (g: G).\forall (a: A).(arity g c t1 a) \to arity g c t2 a \def \lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pr2 c t1 t2)).pr2_ind (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).\forall (g: G).\forall (a: A).(arity g c0 t a) \to arity g c0 t0 a) (\lambda (c0: C).\lambda (t3: T).\lambda (t4: T).\lambda (H0: (pr0 t3 t4)).\lambda (g: G).\lambda (a: A).\lambda (H1: (arity g c0 t3 a)).arity_sred_wcpr0_pr0 g c0 t3 a H1 c0 (wcpr0_refl c0) t4 H0) (\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c0 (CHead d (Bind Abbr) u))).\lambda (t3: T).\lambda (t4: T).\lambda (H1: (pr0 t3 t4)).\lambda (t: T).\lambda (H2: (subst0 i u t4 t)).\lambda (g: G).\lambda (a: A).\lambda (H3: (arity g c0 t3 a)).arity_subst0 g c0 t4 a (arity_sred_wcpr0_pr0 g c0 t3 a H3 c0 (wcpr0_refl c0) t4 H1) d u i H0 t H2) c t1 t2 H.
+
+theorem arity_sred_pr3: \forall (c: C).\forall (t1: T).\forall (t2: T).(pr3 c t1 t2) \to \forall (g: G).\forall (a: A).(arity g c t1 a) \to arity g c t2 a \def \lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pr3 c t1 t2)).pr3_ind c (\lambda (t: T).\lambda (t0: T).\forall (g: G).\forall (a: A).(arity g c t a) \to arity g c t0 a) (\lambda (t: T).\lambda (g: G).\lambda (a: A).\lambda (H0: (arity g c t a)).H0) (\lambda (t3: T).\lambda (t4: T).\lambda (H0: (pr2 c t4 t3)).\lambda (t5: T).\lambda (_: (pr3 c t3 t5)).\lambda (H2: ((\forall (g: G).\forall (a: A).(arity g c t3 a) \to arity g c t5 a))).\lambda (g: G).\lambda (a: A).\lambda (H3: (arity g c t4 a)).H2 g a (arity_sred_pr2 c t4 t3 H0 g a H3)) t1 t2 H.
+
+theorem nf2: C \to T \to Prop \def \lambda (c: C).\lambda (t1: T).\forall (t2: T).(pr2 c t1 t2) \to eq T t1 t2.
+
+theorem nf2_gen_base.__aux: \forall (k: K).\forall (t: T).\forall (u: T).(eq T (THead k u t) t) \to \forall (P: (Prop)).P \def \lambda (k: K).\lambda (t: T).T_ind (\lambda (t0: T).\forall (u: T).(eq T (THead k u t0) t0) \to \forall (P: (Prop)).P) (\lambda (n: nat).\lambda (u: T).\lambda (H: (eq T (THead k u (TSort n)) (TSort n))).\lambda (P: (Prop)).let H0 \def eq_ind T (THead k u (TSort n)) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TSort n) H in False_ind P H0) (\lambda (n: nat).\lambda (u: T).\lambda (H: (eq T (THead k u (TLRef n)) (TLRef n))).\lambda (P: (Prop)).let H0 \def eq_ind T (THead k u (TLRef n)) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef n) H in False_ind P H0) (\lambda (k0: K).\lambda (t0: T).\lambda (_: ((\forall (u: T).(eq T (THead k u t0) t0) \to \forall (P: (Prop)).P))).\lambda (t1: T).\lambda (H0: ((\forall (u: T).(eq T (THead k u t1) t1) \to \forall (P: (Prop)).P))).\lambda (u: T).\lambda (H1: (eq T (THead k u (THead k0 t0 t1)) (THead k0 t0 t1))).\lambda (P: (Prop)).let H2 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k u (THead k0 t0 t1)) (THead k0 t0 t1) H1 in (let H3 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u | (TLRef _) \Rightarrow u | (THead _ t _) \Rightarrow t]) (THead k u (THead k0 t0 t1)) (THead k0 t0 t1) H1 in (let H4 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow (THead k0 t0 t1) | (TLRef _) \Rightarrow (THead k0 t0 t1) | (THead _ _ t) \Rightarrow t]) (THead k u (THead k0 t0 t1)) (THead k0 t0 t1) H1 in \lambda (_: (eq T u t0)).\lambda (H6: (eq K k k0)).let H7 \def eq_ind K k (\lambda (k: K).\forall (u: T).(eq T (THead k u t1) t1) \to \forall (P: (Prop)).P) H0 k0 H6 in H7 t0 H4 P) H3) H2) t.
+
+theorem nf2_gen_lref: \forall (c: C).\forall (d: C).\forall (u: T).\forall (i: nat).(getl i c (CHead d (Bind Abbr) u)) \to (nf2 c (TLRef i)) \to \forall (P: (Prop)).P \def \lambda (c: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H: (getl i c (CHead d (Bind Abbr) u))).\lambda (H0: ((\forall (t2: T).(pr2 c (TLRef i) t2) \to eq T (TLRef i) t2))).\lambda (P: (Prop)).lift_gen_lref_false (S i) O i (le_O_n i) (le_n (plus O (S i))) u (H0 (lift (S i) O u) (pr2_delta c d u i H (TLRef i) (TLRef i) (pr0_refl (TLRef i)) (lift (S i) O u) (subst0_lref u i))) P.
+
+theorem nf2_gen_abst: \forall (c: C).\forall (u: T).\forall (t: T).(nf2 c (THead (Bind Abst) u t)) \to and (nf2 c u) (nf2 (CHead c (Bind Abst) u) t) \def \lambda (c: C).\lambda (u: T).\lambda (t: T).\lambda (H: ((\forall (t2: T).(pr2 c (THead (Bind Abst) u t) t2) \to eq T (THead (Bind Abst) u t) t2))).conj (\forall (t2: T).(pr2 c u t2) \to eq T u t2) (\forall (t2: T).(pr2 (CHead c (Bind Abst) u) t t2) \to eq T t t2) (\lambda (t2: T).\lambda (H0: (pr2 c u t2)).let H1 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u | (TLRef _) \Rightarrow u | (THead _ t _) \Rightarrow t]) (THead (Bind Abst) u t) (THead (Bind Abst) t2 t) (H (THead (Bind Abst) t2 t) (pr2_head_1 c u t2 H0 (Bind Abst) t)) in let H2 \def eq_ind_r T t2 (\lambda (t: T).pr2 c u t) H0 u H1 in eq_ind T u (\lambda (t0: T).eq T u t0) (refl_equal T u) t2 H1) (\lambda (t2: T).\lambda (H0: (pr2 (CHead c (Bind Abst) u) t t2)).let H1 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t | (TLRef _) \Rightarrow t | (THead _ _ t) \Rightarrow t]) (THead (Bind Abst) u t) (THead (Bind Abst) u t2) (H (THead (Bind Abst) u t2) (let H_y \def pr2_gen_cbind Abst c u t t2 H0 in H_y)) in let H2 \def eq_ind_r T t2 (\lambda (t0: T).pr2 (CHead c (Bind Abst) u) t t0) H0 t H1 in eq_ind T t (\lambda (t0: T).eq T t t0) (refl_equal T t) t2 H1).
+
+theorem nf2_gen_cast: \forall (c: C).\forall (u: T).\forall (t: T).(nf2 c (THead (Flat Cast) u t)) \to \forall (P: (Prop)).P \def \lambda (c: C).\lambda (u: T).\lambda (t: T).\lambda (H: (nf2 c (THead (Flat Cast) u t))).\lambda (P: (Prop)).nf2_gen_base.__aux (Flat Cast) t u (H t (pr2_free c (THead (Flat Cast) u t) t (pr0_epsilon t t (pr0_refl t) u))) P.
+
+theorem nf2_gen_flat: \forall (f: F).\forall (c: C).\forall (u: T).\forall (t: T).(nf2 c (THead (Flat f) u t)) \to and (nf2 c u) (nf2 c t) \def \lambda (f: F).\lambda (c: C).\lambda (u: T).\lambda (t: T).\lambda (H: ((\forall (t2: T).(pr2 c (THead (Flat f) u t) t2) \to eq T (THead (Flat f) u t) t2))).conj (\forall (t2: T).(pr2 c u t2) \to eq T u t2) (\forall (t2: T).(pr2 c t t2) \to eq T t t2) (\lambda (t2: T).\lambda (H0: (pr2 c u t2)).let H1 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u | (TLRef _) \Rightarrow u | (THead _ t _) \Rightarrow t]) (THead (Flat f) u t) (THead (Flat f) t2 t) (H (THead (Flat f) t2 t) (pr2_head_1 c u t2 H0 (Flat f) t)) in H1) (\lambda (t2: T).\lambda (H0: (pr2 c t t2)).let H1 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t | (TLRef _) \Rightarrow t | (THead _ _ t) \Rightarrow t]) (THead (Flat f) u t) (THead (Flat f) u t2) (H (THead (Flat f) u t2) (pr2_head_2 c u t t2 (Flat f) (pr2_cflat c t t2 H0 f u))) in H1).
+
+theorem nf2_sort: \forall (c: C).\forall (n: nat).nf2 c (TSort n) \def \lambda (c: C).\lambda (n: nat).\lambda (t2: T).\lambda (H: (pr2 c (TSort n) t2)).eq_ind_r T (TSort n) (\lambda (t: T).eq T (TSort n) t) (refl_equal T (TSort n)) t2 (pr2_gen_sort c t2 n H).
+
+theorem nf2_abst: \forall (c: C).\forall (u: T).(nf2 c u) \to \forall (b: B).\forall (v: T).\forall (t: T).(nf2 (CHead c (Bind b) v) t) \to nf2 c (THead (Bind Abst) u t) \def \lambda (c: C).\lambda (u: T).\lambda (H: ((\forall (t2: T).(pr2 c u t2) \to eq T u t2))).\lambda (b: B).\lambda (v: T).\lambda (t: T).\lambda (H0: ((\forall (t2: T).(pr2 (CHead c (Bind b) v) t t2) \to eq T t t2))).\lambda (t2: T).\lambda (H1: (pr2 c (THead (Bind Abst) u t) t2)).let H2 \def pr2_gen_abst c u t t2 H1 in ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u u2) (\lambda (_: T).\lambda (t3: T).\forall (b0: B).\forall (u0: T).pr2 (CHead c (Bind b0) u0) t t3) (eq T (THead (Bind Abst) u t) t2) (\lambda (x0: T).\lambda (x1: T).\lambda (H3: (eq T t2 (THead (Bind Abst) x0 x1))).\lambda (H4: (pr2 c u x0)).\lambda (H5: ((\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) t x1))).eq_ind_r T (THead (Bind Abst) x0 x1) (\lambda (t0: T).eq T (THead (Bind Abst) u t) t0) (f_equal3 K T T T THead (Bind Abst) (Bind Abst) u x0 t x1 (refl_equal K (Bind Abst)) (H x0 H4) (H0 x1 (H5 b v))) t2 H3) H2.
+
+theorem nf2_pr3_unfold: \forall (c: C).\forall (t1: T).\forall (t2: T).(pr3 c t1 t2) \to (nf2 c t1) \to eq T t1 t2 \def \lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pr3 c t1 t2)).pr3_ind c (\lambda (t: T).\lambda (t0: T).(nf2 c t) \to eq T t t0) (\lambda (t: T).\lambda (H0: (nf2 c t)).H0 t (pr2_free c t t (pr0_refl t))) (\lambda (t0: T).\lambda (t3: T).\lambda (H0: (pr2 c t3 t0)).\lambda (t4: T).\lambda (_: (pr3 c t0 t4)).\lambda (H2: (((nf2 c t0) \to eq T t0 t4))).\lambda (H3: (nf2 c t3)).let H4 \def H3 in let H5 \def eq_ind T t3 (\lambda (t: T).nf2 c t) H3 t0 (H4 t0 H0) in let H6 \def eq_ind T t3 (\lambda (t: T).pr2 c t t0) H0 t0 (H4 t0 H0) in eq_ind_r T t0 (\lambda (t: T).eq T t t4) (H2 H5) t3 (H4 t0 H0)) t1 t2 H.
+
+theorem nf2_pr3_confluence: \forall (c: C).\forall (t1: T).(nf2 c t1) \to \forall (t2: T).(nf2 c t2) \to \forall (t: T).(pr3 c t t1) \to (pr3 c t t2) \to eq T t1 t2 \def \lambda (c: C).\lambda (t1: T).\lambda (H: (nf2 c t1)).\lambda (t2: T).\lambda (H0: (nf2 c t2)).\lambda (t: T).\lambda (H1: (pr3 c t t1)).\lambda (H2: (pr3 c t t2)).ex2_ind T (\lambda (t0: T).pr3 c t2 t0) (\lambda (t0: T).pr3 c t1 t0) (eq T t1 t2) (\lambda (x: T).\lambda (H3: (pr3 c t2 x)).\lambda (H4: (pr3 c t1 x)).let H_y \def nf2_pr3_unfold c t1 x H4 H in let H5 \def eq_ind_r T x (\lambda (t: T).pr3 c t1 t) H4 t1 H_y in let H6 \def eq_ind_r T x (\lambda (t: T).pr3 c t2 t) H3 t1 H_y in let H_y0 \def nf2_pr3_unfold c t2 t1 H6 H0 in let H7 \def eq_ind T t2 (\lambda (t: T).pr3 c t t1) H6 t1 H_y0 in eq_ind_r T t1 (\lambda (t0: T).eq T t1 t0) (refl_equal T t1) t2 H_y0) (pr3_confluence c t t2 H2 t1 H1).
+
+theorem nf2_appl_lref: \forall (c: C).\forall (u: T).(nf2 c u) \to \forall (i: nat).(nf2 c (TLRef i)) \to nf2 c (THead (Flat Appl) u (TLRef i)) \def \lambda (c: C).\lambda (u: T).\lambda (H: ((\forall (t2: T).(pr2 c u t2) \to eq T u t2))).\lambda (i: nat).\lambda (H0: ((\forall (t2: T).(pr2 c (TLRef i) t2) \to eq T (TLRef i) t2))).\lambda (t2: T).\lambda (H1: (pr2 c (THead (Flat Appl) u (TLRef i)) t2)).let H2 \def pr2_gen_appl c u (TLRef i) t2 H1 in or3_ind (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u u2) (\lambda (_: T).\lambda (t3: T).pr2 c (TLRef i) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (TLRef i) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (TLRef i) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T t2 (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2)) (eq T (THead (Flat Appl) u (TLRef i)) t2) (\lambda (H3: (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u u2) (\lambda (_: T).\lambda (t2: T).pr2 c (TLRef i) t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c u u2) (\lambda (_: T).\lambda (t3: T).pr2 c (TLRef i) t3) (eq T (THead (Flat Appl) u (TLRef i)) t2) (\lambda (x0: T).\lambda (x1: T).\lambda (H4: (eq T t2 (THead (Flat Appl) x0 x1))).\lambda (H5: (pr2 c u x0)).\lambda (H6: (pr2 c (TLRef i) x1)).eq_ind_r T (THead (Flat Appl) x0 x1) (\lambda (t: T).eq T (THead (Flat Appl) u (TLRef i)) t) (let H7 \def eq_ind_r T x1 (\lambda (t: T).pr2 c (TLRef i) t) H6 (TLRef i) (H0 x1 H6) in eq_ind T (TLRef i) (\lambda (t: T).eq T (THead (Flat Appl) u (TLRef i)) (THead (Flat Appl) x0 t)) (let H8 \def eq_ind_r T x0 (\lambda (t: T).pr2 c u t) H5 u (H x0 H5) in eq_ind T u (\lambda (t: T).eq T (THead (Flat Appl) u (TLRef i)) (THead (Flat Appl) t (TLRef i))) (refl_equal T (THead (Flat Appl) u (TLRef i))) x0 (H x0 H5)) x1 (H0 x1 H6)) t2 H4) H3) (\lambda (H3: (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (TLRef i) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t2))).ex4_4_ind T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (TLRef i) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3) (eq T (THead (Flat Appl) u (TLRef i)) t2) (\lambda (x0: T).\lambda (x1: T).\lambda (x2: T).\lambda (x3: T).\lambda (H4: (eq T (TLRef i) (THead (Bind Abst) x0 x1))).\lambda (H5: (eq T t2 (THead (Bind Abbr) x2 x3))).\lambda (_: (pr2 c u x2)).\lambda (_: ((\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) x1 x3))).eq_ind_r T (THead (Bind Abbr) x2 x3) (\lambda (t: T).eq T (THead (Flat Appl) u (TLRef i)) t) (let H8 \def eq_ind T (TLRef i) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Bind Abst) x0 x1) H4 in False_ind (eq T (THead (Flat Appl) u (TLRef i)) (THead (Bind Abbr) x2 x3)) H8) t2 H5) H3) (\lambda (H3: (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (TLRef i) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T t2 (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))).ex6_6_ind B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (TLRef i) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T t2 (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c u u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2) (eq T (THead (Flat Appl) u (TLRef i)) t2) (\lambda (x0: B).\lambda (x1: T).\lambda (x2: T).\lambda (x3: T).\lambda (x4: T).\lambda (x5: T).\lambda (_: (not (eq B x0 Abst))).\lambda (H5: (eq T (TLRef i) (THead (Bind x0) x1 x2))).\lambda (H6: (eq T t2 (THead (Bind x0) x5 (THead (Flat Appl) (lift (S O) O x4) x3)))).\lambda (_: (pr2 c u x4)).\lambda (_: (pr2 c x1 x5)).\lambda (_: (pr2 (CHead c (Bind x0) x5) x2 x3)).eq_ind_r T (THead (Bind x0) x5 (THead (Flat Appl) (lift (S O) O x4) x3)) (\lambda (t: T).eq T (THead (Flat Appl) u (TLRef i)) t) (let H10 \def eq_ind T (TLRef i) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Bind x0) x1 x2) H5 in False_ind (eq T (THead (Flat Appl) u (TLRef i)) (THead (Bind x0) x5 (THead (Flat Appl) (lift (S O) O x4) x3))) H10) t2 H6) H3) H2.
+
+theorem nf2_lref_abst: \forall (c: C).\forall (e: C).\forall (u: T).\forall (i: nat).(getl i c (CHead e (Bind Abst) u)) \to nf2 c (TLRef i) \def \lambda (c: C).\lambda (e: C).\lambda (u: T).\lambda (i: nat).\lambda (H: (getl i c (CHead e (Bind Abst) u))).\lambda (t2: T).\lambda (H0: (pr2 c (TLRef i) t2)).let H1 \def pr2_gen_lref c t2 i H0 in or_ind (eq T t2 (TLRef i)) (ex2_2 C T (\lambda (d: C).\lambda (u0: T).getl i c (CHead d (Bind Abbr) u0)) (\lambda (_: C).\lambda (u0: T).eq T t2 (lift (S i) O u0))) (eq T (TLRef i) t2) (\lambda (H2: (eq T t2 (TLRef i))).eq_ind_r T (TLRef i) (\lambda (t: T).eq T (TLRef i) t) (refl_equal T (TLRef i)) t2 H2) (\lambda (H2: (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c (CHead d (Bind Abbr) u)) (\lambda (_: C).\lambda (u: T).eq T t2 (lift (S i) O u)))).ex2_2_ind C T (\lambda (d: C).\lambda (u0: T).getl i c (CHead d (Bind Abbr) u0)) (\lambda (_: C).\lambda (u0: T).eq T t2 (lift (S i) O u0)) (eq T (TLRef i) t2) (\lambda (x0: C).\lambda (x1: T).\lambda (H3: (getl i c (CHead x0 (Bind Abbr) x1))).\lambda (H4: (eq T t2 (lift (S i) O x1))).eq_ind_r T (lift (S i) O x1) (\lambda (t: T).eq T (TLRef i) t) (let H5 \def eq_ind C (CHead e (Bind Abst) u) (\lambda (c0: C).getl i c c0) H (CHead x0 (Bind Abbr) x1) (getl_mono c (CHead e (Bind Abst) u) i H (CHead x0 (Bind Abbr) x1) H3) in let H6 \def eq_ind C (CHead e (Bind Abst) u) (\lambda (ee: C).match ee return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow False | Abst \Rightarrow True | Void \Rightarrow False]) | (Flat _) \Rightarrow False])]) I (CHead x0 (Bind Abbr) x1) (getl_mono c (CHead e (Bind Abst) u) i H (CHead x0 (Bind Abbr) x1) H3) in False_ind (eq T (TLRef i) (lift (S i) O x1)) H6) t2 H4) H2) H1.
+
+theorem nf2_lift: \forall (d: C).\forall (t: T).(nf2 d t) \to \forall (c: C).\forall (h: nat).\forall (i: nat).(drop h i c d) \to nf2 c (lift h i t) \def \lambda (d: C).\lambda (t: T).\lambda (H: ((\forall (t2: T).(pr2 d t t2) \to eq T t t2))).\lambda (c: C).\lambda (h: nat).\lambda (i: nat).\lambda (H0: (drop h i c d)).\lambda (t2: T).\lambda (H1: (pr2 c (lift h i t) t2)).let H2 \def pr2_gen_lift c t t2 h i H1 d H0 in ex2_ind T (\lambda (t3: T).eq T t2 (lift h i t3)) (\lambda (t3: T).pr2 d t t3) (eq T (lift h i t) t2) (\lambda (x: T).\lambda (H3: (eq T t2 (lift h i x))).\lambda (H4: (pr2 d t x)).eq_ind_r T (lift h i x) (\lambda (t0: T).eq T (lift h i t) t0) (let H_y \def H x H4 in let H5 \def eq_ind_r T x (\lambda (t0: T).pr2 d t t0) H4 t H_y in eq_ind T t (\lambda (t0: T).eq T (lift h i t) (lift h i t0)) (refl_equal T (lift h i t)) x H_y) t2 H3) H2.
+
+theorem nf2_lift1: \forall (e: C).\forall (hds: PList).\forall (c: C).\forall (t: T).(drop1 hds c e) \to (nf2 e t) \to nf2 c (lift1 hds t) \def \lambda (e: C).\lambda (hds: PList).PList_ind (\lambda (p: PList).\forall (c: C).\forall (t: T).(drop1 p c e) \to (nf2 e t) \to nf2 c (lift1 p t)) (\lambda (c: C).\lambda (t: T).\lambda (H: (drop1 PNil c e)).\lambda (H0: (nf2 e t)).let H1 \def match H return (\lambda (p: PList).\lambda (c0: C).\lambda (c1: C).(eq PList p PNil) \to (eq C c0 c) \to (eq C c1 e) \to nf2 c t) with [(drop1_nil c0) \Rightarrow (\lambda (_: (eq PList PNil PNil)).\lambda (H2: (eq C c0 c)).\lambda (H3: (eq C c0 e)).eq_ind C c (\lambda (c1: C).(eq C c1 e) \to nf2 c t) (\lambda (H4: (eq C c e)).eq_ind C e (\lambda (c: C).nf2 c t) H0 c (sym_eq C c e H4)) c0 (sym_eq C c0 c H2) H3) | (drop1_cons c1 c2 h d H1 c3 hds H2) \Rightarrow (\lambda (H3: (eq PList (PCons h d hds) PNil)).\lambda (H4: (eq C c1 c)).\lambda (H5: (eq C c3 e)).(let H6 \def eq_ind PList (PCons h d hds) (\lambda (e0: PList).match e0 return (Prop) with [PNil \Rightarrow False | (PCons _ _ _) \Rightarrow True]) I PNil H3 in False_ind ((eq C c1 c) \to (eq C c3 e) \to (drop h d c1 c2) \to (drop1 hds c2 c3) \to nf2 c t) H6) H4 H5 H1 H2)] in H1 (refl_equal PList PNil) (refl_equal C c) (refl_equal C e)) (\lambda (n: nat).\lambda (n0: nat).\lambda (p: PList).\lambda (H: ((\forall (c: C).\forall (t: T).(drop1 p c e) \to (nf2 e t) \to nf2 c (lift1 p t)))).\lambda (c: C).\lambda (t: T).\lambda (H0: (drop1 (PCons n n0 p) c e)).\lambda (H1: (nf2 e t)).let H2 \def match H0 return (\lambda (p0: PList).\lambda (c0: C).\lambda (c1: C).(eq PList p0 (PCons n n0 p)) \to (eq C c0 c) \to (eq C c1 e) \to nf2 c (lift n n0 (lift1 p t))) with [(drop1_nil c0) \Rightarrow (\lambda (H2: (eq PList PNil (PCons n n0 p))).\lambda (H3: (eq C c0 c)).\lambda (H4: (eq C c0 e)).(let H5 \def eq_ind PList PNil (\lambda (e0: PList).match e0 return (Prop) with [PNil \Rightarrow True | (PCons _ _ _) \Rightarrow False]) I (PCons n n0 p) H2 in False_ind ((eq C c0 c) \to (eq C c0 e) \to nf2 c (lift n n0 (lift1 p t))) H5) H3 H4) | (drop1_cons c1 c2 h d H2 c3 hds H3) \Rightarrow (\lambda (H4: (eq PList (PCons h d hds) (PCons n n0 p))).\lambda (H5: (eq C c1 c)).\lambda (H6: (eq C c3 e)).(let H7 \def f_equal PList PList (\lambda (e0: PList).match e0 return PList with [PNil \Rightarrow hds | (PCons _ _ p) \Rightarrow p]) (PCons h d hds) (PCons n n0 p) H4 in (let H8 \def f_equal PList nat (\lambda (e0: PList).match e0 return nat with [PNil \Rightarrow d | (PCons _ n _) \Rightarrow n]) (PCons h d hds) (PCons n n0 p) H4 in (let H9 \def f_equal PList nat (\lambda (e0: PList).match e0 return nat with [PNil \Rightarrow h | (PCons n _ _) \Rightarrow n]) (PCons h d hds) (PCons n n0 p) H4 in eq_ind nat n (\lambda (n1: nat).(eq nat d n0) \to (eq PList hds p) \to (eq C c1 c) \to (eq C c3 e) \to (drop n1 d c1 c2) \to (drop1 hds c2 c3) \to nf2 c (lift n n0 (lift1 p t))) (\lambda (H10: (eq nat d n0)).eq_ind nat n0 (\lambda (n1: nat).(eq PList hds p) \to (eq C c1 c) \to (eq C c3 e) \to (drop n n1 c1 c2) \to (drop1 hds c2 c3) \to nf2 c (lift n n0 (lift1 p t))) (\lambda (H11: (eq PList hds p)).eq_ind PList p (\lambda (p0: PList).(eq C c1 c) \to (eq C c3 e) \to (drop n n0 c1 c2) \to (drop1 p0 c2 c3) \to nf2 c (lift n n0 (lift1 p t))) (\lambda (H12: (eq C c1 c)).eq_ind C c (\lambda (c0: C).(eq C c3 e) \to (drop n n0 c0 c2) \to (drop1 p c2 c3) \to nf2 c (lift n n0 (lift1 p t))) (\lambda (H13: (eq C c3 e)).eq_ind C e (\lambda (c0: C).(drop n n0 c c2) \to (drop1 p c2 c0) \to nf2 c (lift n n0 (lift1 p t))) (\lambda (H14: (drop n n0 c c2)).\lambda (H15: (drop1 p c2 e)).nf2_lift c2 (lift1 p t) (H c2 t H15 H1) c n n0 H14) c3 (sym_eq C c3 e H13)) c1 (sym_eq C c1 c H12)) hds (sym_eq PList hds p H11)) d (sym_eq nat d n0 H10)) h (sym_eq nat h n H9)) H8) H7) H5 H6 H2 H3)] in H2 (refl_equal PList (PCons n n0 p)) (refl_equal C c) (refl_equal C e)) hds.
+
+theorem nf2_iso_appls_lref: \forall (c: C).\forall (i: nat).(nf2 c (TLRef i)) \to \forall (vs: TList).\forall (u: T).(pr3 c (THeads (Flat Appl) vs (TLRef i)) u) \to iso (THeads (Flat Appl) vs (TLRef i)) u \def \lambda (c: C).\lambda (i: nat).\lambda (H: (nf2 c (TLRef i))).\lambda (vs: TList).TList_ind (\lambda (t: TList).\forall (u: T).(pr3 c (THeads (Flat Appl) t (TLRef i)) u) \to iso (THeads (Flat Appl) t (TLRef i)) u) (\lambda (u: T).\lambda (H0: (pr3 c (TLRef i) u)).let H_y \def nf2_pr3_unfold c (TLRef i) u H0 H in let H1 \def eq_ind_r T u (\lambda (t: T).pr3 c (TLRef i) t) H0 (TLRef i) H_y in eq_ind T (TLRef i) (\lambda (t: T).iso (TLRef i) t) (iso_lref i i) u H_y) (\lambda (t: T).\lambda (t0: TList).\lambda (H0: ((\forall (u: T).(pr3 c (THeads (Flat Appl) t0 (TLRef i)) u) \to iso (THeads (Flat Appl) t0 (TLRef i)) u))).\lambda (u: T).\lambda (H1: (pr3 c (THead (Flat Appl) t (THeads (Flat Appl) t0 (TLRef i))) u)).let H2 \def pr3_gen_appl c t (THeads (Flat Appl) t0 (TLRef i)) u H1 in or3_ind (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T u (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c t u2) (\lambda (_: T).\lambda (t2: T).pr3 c (THeads (Flat Appl) t0 (TLRef i)) t2)) (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t2: T).pr3 c (THead (Bind Abbr) u2 t2) u) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c t u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c (THeads (Flat Appl) t0 (TLRef i)) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u0: T).pr3 (CHead c (Bind b) u0) z1 t2)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c (THeads (Flat Appl) t0 (TLRef i)) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) u) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c t u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2)) (iso (THead (Flat Appl) t (THeads (Flat Appl) t0 (TLRef i))) u) (\lambda (H3: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T u (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c t u2) (\lambda (_: T).\lambda (t2: T).pr3 c (THeads (Flat Appl) t0 (TLRef i)) t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t2: T).eq T u (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c t u2) (\lambda (_: T).\lambda (t2: T).pr3 c (THeads (Flat Appl) t0 (TLRef i)) t2) (iso (THead (Flat Appl) t (THeads (Flat Appl) t0 (TLRef i))) u) (\lambda (x0: T).\lambda (x1: T).\lambda (H4: (eq T u (THead (Flat Appl) x0 x1))).\lambda (_: (pr3 c t x0)).\lambda (_: (pr3 c (THeads (Flat Appl) t0 (TLRef i)) x1)).eq_ind_r T (THead (Flat Appl) x0 x1) (\lambda (t1: T).iso (THead (Flat Appl) t (THeads (Flat Appl) t0 (TLRef i))) t1) (iso_head (Flat Appl) t x0 (THeads (Flat Appl) t0 (TLRef i)) x1) u H4) H3) (\lambda (H3: (ex4_4 T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t2: T).pr3 c (THead (Bind Abbr) u2 t2) u) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c t u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c (THeads (Flat Appl) t0 (TLRef i)) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) z1 t2))).ex4_4_ind T T T T (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t2: T).pr3 c (THead (Bind Abbr) u2 t2) u) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c t u2) (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).pr3 c (THeads (Flat Appl) t0 (TLRef i)) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u0: T).pr3 (CHead c (Bind b) u0) z1 t2) (iso (THead (Flat Appl) t (THeads (Flat Appl) t0 (TLRef i))) u) (\lambda (x0: T).\lambda (x1: T).\lambda (x2: T).\lambda (x3: T).\lambda (_: (pr3 c (THead (Bind Abbr) x2 x3) u)).\lambda (_: (pr3 c t x2)).\lambda (H6: (pr3 c (THeads (Flat Appl) t0 (TLRef i)) (THead (Bind Abst) x0 x1))).\lambda (_: ((\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x1 x3))).let H_y \def H0 (THead (Bind Abst) x0 x1) H6 in iso_flats_lref_bind_false Appl Abst i x0 x1 t0 H_y (iso (THead (Flat Appl) t (THeads (Flat Appl) t0 (TLRef i))) u)) H3) (\lambda (H3: (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c (THeads (Flat Appl) t0 (TLRef i)) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) u) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c t u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2))).ex6_6_ind B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).pr3 c (THeads (Flat Appl) t0 (TLRef i)) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).pr3 c (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2)) u) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr3 c t u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr3 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr3 (CHead c (Bind b) y2) z1 z2) (iso (THead (Flat Appl) t (THeads (Flat Appl) t0 (TLRef i))) u) (\lambda (x0: B).\lambda (x1: T).\lambda (x2: T).\lambda (x3: T).\lambda (x4: T).\lambda (x5: T).\lambda (_: (not (eq B x0 Abst))).\lambda (H5: (pr3 c (THeads (Flat Appl) t0 (TLRef i)) (THead (Bind x0) x1 x2))).\lambda (_: (pr3 c (THead (Bind x0) x5 (THead (Flat Appl) (lift (S O) O x4) x3)) u)).\lambda (_: (pr3 c t x4)).\lambda (_: (pr3 c x1 x5)).\lambda (_: (pr3 (CHead c (Bind x0) x5) x2 x3)).let H_y \def H0 (THead (Bind x0) x1 x2) H5 in iso_flats_lref_bind_false Appl x0 i x1 x2 t0 H_y (iso (THead (Flat Appl) t (THeads (Flat Appl) t0 (TLRef i))) u)) H3) H2) vs.
+
+theorem nf2_dec: \forall (c: C).\forall (t1: T).or (nf2 c t1) (ex2 T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr2 c t1 t2)) \def \lambda (c: C).c_tail_ind (\lambda (c0: C).\forall (t1: T).or (\forall (t2: T).(pr2 c0 t1 t2) \to eq T t1 t2) (ex2 T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr2 c0 t1 t2))) (\lambda (n: nat).\lambda (t1: T).let H_x \def nf0_dec t1 in let H \def H_x in or_ind (\forall (t2: T).(pr0 t1 t2) \to eq T t1 t2) (ex2 T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 t1 t2)) (or (\forall (t2: T).(pr2 (CSort n) t1 t2) \to eq T t1 t2) (ex2 T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr2 (CSort n) t1 t2))) (\lambda (H0: ((\forall (t2: T).(pr0 t1 t2) \to eq T t1 t2))).or_introl (\forall (t2: T).(pr2 (CSort n) t1 t2) \to eq T t1 t2) (ex2 T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr2 (CSort n) t1 t2)) (\lambda (t2: T).\lambda (H1: (pr2 (CSort n) t1 t2)).let H_y \def pr2_gen_csort t1 t2 n H1 in H0 t2 H_y)) (\lambda (H0: (ex2 T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 t1 t2))).ex2_ind T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr0 t1 t2) (or (\forall (t2: T).(pr2 (CSort n) t1 t2) \to eq T t1 t2) (ex2 T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr2 (CSort n) t1 t2))) (\lambda (x: T).\lambda (H1: (((eq T t1 x) \to \forall (P: (Prop)).P))).\lambda (H2: (pr0 t1 x)).or_intror (\forall (t2: T).(pr2 (CSort n) t1 t2) \to eq T t1 t2) (ex2 T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr2 (CSort n) t1 t2)) (ex_intro2 T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr2 (CSort n) t1 t2) x H1 (pr2_free (CSort n) t1 x H2))) H0) H) (\lambda (c0: C).\lambda (H: ((\forall (t1: T).or (\forall (t2: T).(pr2 c0 t1 t2) \to eq T t1 t2) (ex2 T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr2 c0 t1 t2))))).\lambda (k: K).\lambda (t: T).\lambda (t1: T).let H_x \def H t1 in let H0 \def H_x in or_ind (\forall (t2: T).(pr2 c0 t1 t2) \to eq T t1 t2) (ex2 T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr2 c0 t1 t2)) (or (\forall (t2: T).(pr2 (CTail k t c0) t1 t2) \to eq T t1 t2) (ex2 T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr2 (CTail k t c0) t1 t2))) (\lambda (H1: ((\forall (t2: T).(pr2 c0 t1 t2) \to eq T t1 t2))).match k return (\lambda (k0: K).or (\forall (t2: T).(pr2 (CTail k0 t c0) t1 t2) \to eq T t1 t2) (ex2 T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr2 (CTail k0 t c0) t1 t2))) with [(Bind b) \Rightarrow (match b return (\lambda (b0: B).or (\forall (t2: T).(pr2 (CTail (Bind b0) t c0) t1 t2) \to eq T t1 t2) (ex2 T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr2 (CTail (Bind b0) t c0) t1 t2))) with [Abbr \Rightarrow (let H_x0 \def dnf_dec t t1 (clen c0) in let H2 \def H_x0 in ex_ind T (\lambda (v: T).or (subst0 (clen c0) t t1 (lift (S O) (clen c0) v)) (eq T t1 (lift (S O) (clen c0) v))) (or (\forall (t2: T).(pr2 (CTail (Bind Abbr) t c0) t1 t2) \to eq T t1 t2) (ex2 T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr2 (CTail (Bind Abbr) t c0) t1 t2))) (\lambda (x: T).\lambda (H3: (or (subst0 (clen c0) t t1 (lift (S O) (clen c0) x)) (eq T t1 (lift (S O) (clen c0) x)))).or_ind (subst0 (clen c0) t t1 (lift (S O) (clen c0) x)) (eq T t1 (lift (S O) (clen c0) x)) (or (\forall (t2: T).(pr2 (CTail (Bind Abbr) t c0) t1 t2) \to eq T t1 t2) (ex2 T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr2 (CTail (Bind Abbr) t c0) t1 t2))) (\lambda (H4: (subst0 (clen c0) t t1 (lift (S O) (clen c0) x))).let H_x1 \def getl_ctail_clen Abbr t c0 in let H5 \def H_x1 in ex_ind nat (\lambda (n: nat).getl (clen c0) (CTail (Bind Abbr) t c0) (CHead (CSort n) (Bind Abbr) t)) (or (\forall (t2: T).(pr2 (CTail (Bind Abbr) t c0) t1 t2) \to eq T t1 t2) (ex2 T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr2 (CTail (Bind Abbr) t c0) t1 t2))) (\lambda (x0: nat).\lambda (H6: (getl (clen c0) (CTail (Bind Abbr) t c0) (CHead (CSort x0) (Bind Abbr) t))).or_intror (\forall (t2: T).(pr2 (CTail (Bind Abbr) t c0) t1 t2) \to eq T t1 t2) (ex2 T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr2 (CTail (Bind Abbr) t c0) t1 t2)) (ex_intro2 T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr2 (CTail (Bind Abbr) t c0) t1 t2) (lift (S O) (clen c0) x) (\lambda (H7: (eq T t1 (lift (S O) (clen c0) x))).\lambda (P: (Prop)).let H8 \def eq_ind T t1 (\lambda (t0: T).subst0 (clen c0) t t0 (lift (S O) (clen c0) x)) H4 (lift (S O) (clen c0) x) H7 in subst0_gen_lift_false x t (lift (S O) (clen c0) x) (S O) (clen c0) (clen c0) (le_n (clen c0)) (eq_ind_r nat (plus (S O) (clen c0)) (\lambda (n: nat).lt (clen c0) n) (le_n (plus (S O) (clen c0))) (plus (clen c0) (S O)) (plus_sym (clen c0) (S O))) H8 P) (pr2_delta (CTail (Bind Abbr) t c0) (CSort x0) t (clen c0) H6 t1 t1 (pr0_refl t1) (lift (S O) (clen c0) x) H4))) H5) (\lambda (H4: (eq T t1 (lift (S O) (clen c0) x))).let H5 \def eq_ind T t1 (\lambda (t: T).\forall (t2: T).(pr2 c0 t t2) \to eq T t t2) H1 (lift (S O) (clen c0) x) H4 in eq_ind_r T (lift (S O) (clen c0) x) (\lambda (t0: T).or (\forall (t2: T).(pr2 (CTail (Bind Abbr) t c0) t0 t2) \to eq T t0 t2) (ex2 T (\lambda (t2: T).(eq T t0 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr2 (CTail (Bind Abbr) t c0) t0 t2))) (or_introl (\forall (t2: T).(pr2 (CTail (Bind Abbr) t c0) (lift (S O) (clen c0) x) t2) \to eq T (lift (S O) (clen c0) x) t2) (ex2 T (\lambda (t2: T).(eq T (lift (S O) (clen c0) x) t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr2 (CTail (Bind Abbr) t c0) (lift (S O) (clen c0) x) t2)) (\lambda (t2: T).\lambda (H6: (pr2 (CTail (Bind Abbr) t c0) (lift (S O) (clen c0) x) t2)).let H_x1 \def pr2_gen_ctail (Bind Abbr) c0 t (lift (S O) (clen c0) x) t2 H6 in let H7 \def H_x1 in or_ind (pr2 c0 (lift (S O) (clen c0) x) t2) (ex3 T (\lambda (_: T).eq K (Bind Abbr) (Bind Abbr)) (\lambda (t0: T).pr0 (lift (S O) (clen c0) x) t0) (\lambda (t0: T).subst0 (clen c0) t t0 t2)) (eq T (lift (S O) (clen c0) x) t2) (\lambda (H8: (pr2 c0 (lift (S O) (clen c0) x) t2)).H5 t2 H8) (\lambda (H8: (ex3 T (\lambda (_: T).eq K (Bind Abbr) (Bind Abbr)) (\lambda (t: T).pr0 (lift (S O) (clen c0) x) t) (\lambda (t0: T).subst0 (clen c0) t t0 t2))).ex3_ind T (\lambda (_: T).eq K (Bind Abbr) (Bind Abbr)) (\lambda (t0: T).pr0 (lift (S O) (clen c0) x) t0) (\lambda (t0: T).subst0 (clen c0) t t0 t2) (eq T (lift (S O) (clen c0) x) t2) (\lambda (x0: T).\lambda (_: (eq K (Bind Abbr) (Bind Abbr))).\lambda (H10: (pr0 (lift (S O) (clen c0) x) x0)).\lambda (H11: (subst0 (clen c0) t x0 t2)).ex2_ind T (\lambda (t3: T).eq T x0 (lift (S O) (clen c0) t3)) (\lambda (t3: T).pr0 x t3) (eq T (lift (S O) (clen c0) x) t2) (\lambda (x1: T).\lambda (H12: (eq T x0 (lift (S O) (clen c0) x1))).\lambda (_: (pr0 x x1)).let H14 \def eq_ind T x0 (\lambda (t0: T).subst0 (clen c0) t t0 t2) H11 (lift (S O) (clen c0) x1) H12 in subst0_gen_lift_false x1 t t2 (S O) (clen c0) (clen c0) (le_n (clen c0)) (eq_ind_r nat (plus (S O) (clen c0)) (\lambda (n: nat).lt (clen c0) n) (le_n (plus (S O) (clen c0))) (plus (clen c0) (S O)) (plus_sym (clen c0) (S O))) H14 (eq T (lift (S O) (clen c0) x) t2)) (pr0_gen_lift x x0 (S O) (clen c0) H10)) H8) H7)) t1 H4) H3) H2) | Abst \Rightarrow (or_introl (\forall (t2: T).(pr2 (CTail (Bind Abst) t c0) t1 t2) \to eq T t1 t2) (ex2 T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr2 (CTail (Bind Abst) t c0) t1 t2)) (\lambda (t2: T).\lambda (H2: (pr2 (CTail (Bind Abst) t c0) t1 t2)).let H_x0 \def pr2_gen_ctail (Bind Abst) c0 t t1 t2 H2 in let H3 \def H_x0 in or_ind (pr2 c0 t1 t2) (ex3 T (\lambda (_: T).eq K (Bind Abst) (Bind Abbr)) (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).subst0 (clen c0) t t0 t2)) (eq T t1 t2) (\lambda (H4: (pr2 c0 t1 t2)).H1 t2 H4) (\lambda (H4: (ex3 T (\lambda (_: T).eq K (Bind Abst) (Bind Abbr)) (\lambda (t: T).pr0 t1 t) (\lambda (t0: T).subst0 (clen c0) t t0 t2))).ex3_ind T (\lambda (_: T).eq K (Bind Abst) (Bind Abbr)) (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).subst0 (clen c0) t t0 t2) (eq T t1 t2) (\lambda (x0: T).\lambda (H5: (eq K (Bind Abst) (Bind Abbr))).\lambda (_: (pr0 t1 x0)).\lambda (_: (subst0 (clen c0) t x0 t2)).let H8 \def eq_ind K (Bind Abst) (\lambda (ee: K).match ee return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow False | Abst \Rightarrow True | Void \Rightarrow False]) | (Flat _) \Rightarrow False]) I (Bind Abbr) H5 in False_ind (eq T t1 t2) H8) H4) H3)) | Void \Rightarrow (or_introl (\forall (t2: T).(pr2 (CTail (Bind Void) t c0) t1 t2) \to eq T t1 t2) (ex2 T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr2 (CTail (Bind Void) t c0) t1 t2)) (\lambda (t2: T).\lambda (H2: (pr2 (CTail (Bind Void) t c0) t1 t2)).let H_x0 \def pr2_gen_ctail (Bind Void) c0 t t1 t2 H2 in let H3 \def H_x0 in or_ind (pr2 c0 t1 t2) (ex3 T (\lambda (_: T).eq K (Bind Void) (Bind Abbr)) (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).subst0 (clen c0) t t0 t2)) (eq T t1 t2) (\lambda (H4: (pr2 c0 t1 t2)).H1 t2 H4) (\lambda (H4: (ex3 T (\lambda (_: T).eq K (Bind Void) (Bind Abbr)) (\lambda (t: T).pr0 t1 t) (\lambda (t0: T).subst0 (clen c0) t t0 t2))).ex3_ind T (\lambda (_: T).eq K (Bind Void) (Bind Abbr)) (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).subst0 (clen c0) t t0 t2) (eq T t1 t2) (\lambda (x0: T).\lambda (H5: (eq K (Bind Void) (Bind Abbr))).\lambda (_: (pr0 t1 x0)).\lambda (_: (subst0 (clen c0) t x0 t2)).let H8 \def eq_ind K (Bind Void) (\lambda (ee: K).match ee return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow False | Abst \Rightarrow False | Void \Rightarrow True]) | (Flat _) \Rightarrow False]) I (Bind Abbr) H5 in False_ind (eq T t1 t2) H8) H4) H3))]) | (Flat f) \Rightarrow (or_introl (\forall (t2: T).(pr2 (CTail (Flat f) t c0) t1 t2) \to eq T t1 t2) (ex2 T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr2 (CTail (Flat f) t c0) t1 t2)) (\lambda (t2: T).\lambda (H2: (pr2 (CTail (Flat f) t c0) t1 t2)).let H_x0 \def pr2_gen_ctail (Flat f) c0 t t1 t2 H2 in let H3 \def H_x0 in or_ind (pr2 c0 t1 t2) (ex3 T (\lambda (_: T).eq K (Flat f) (Bind Abbr)) (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).subst0 (clen c0) t t0 t2)) (eq T t1 t2) (\lambda (H4: (pr2 c0 t1 t2)).H1 t2 H4) (\lambda (H4: (ex3 T (\lambda (_: T).eq K (Flat f) (Bind Abbr)) (\lambda (t: T).pr0 t1 t) (\lambda (t0: T).subst0 (clen c0) t t0 t2))).ex3_ind T (\lambda (_: T).eq K (Flat f) (Bind Abbr)) (\lambda (t0: T).pr0 t1 t0) (\lambda (t0: T).subst0 (clen c0) t t0 t2) (eq T t1 t2) (\lambda (x0: T).\lambda (H5: (eq K (Flat f) (Bind Abbr))).\lambda (_: (pr0 t1 x0)).\lambda (_: (subst0 (clen c0) t x0 t2)).let H8 \def eq_ind K (Flat f) (\lambda (ee: K).match ee return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True]) I (Bind Abbr) H5 in False_ind (eq T t1 t2) H8) H4) H3))]) (\lambda (H1: (ex2 T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr2 c0 t1 t2))).ex2_ind T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr2 c0 t1 t2) (or (\forall (t2: T).(pr2 (CTail k t c0) t1 t2) \to eq T t1 t2) (ex2 T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr2 (CTail k t c0) t1 t2))) (\lambda (x: T).\lambda (H2: (((eq T t1 x) \to \forall (P: (Prop)).P))).\lambda (H3: (pr2 c0 t1 x)).or_intror (\forall (t2: T).(pr2 (CTail k t c0) t1 t2) \to eq T t1 t2) (ex2 T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr2 (CTail k t c0) t1 t2)) (ex_intro2 T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr2 (CTail k t c0) t1 t2) x H2 (pr2_ctail c0 t1 x H3 k t))) H1) H0) c.
+
+inductive sn3 (c:C): T \to Prop \def
+| sn3_sing: \forall (t1: T).((\forall (t2: T).(((eq T t1 t2) \to \forall (P: (Prop)).P)) \to (pr3 c t1 t2) \to sn3 c t2)) \to sn3 c t1.
+
+theorem sns3: C \to TList \to Prop \def let rec (sns3: (\forall (c: C).\forall (ts: TList).Prop)) = (\lambda (c: C).\lambda (ts: TList).match ts with [TNil \Rightarrow True | (TCons t ts0) \Rightarrow (and (sn3 c t) (sns3 c ts0))]) in sns3.
+
+theorem sn3_gen_flat: \forall (f: F).\forall (c: C).\forall (u: T).\forall (t: T).(sn3 c (THead (Flat f) u t)) \to and (sn3 c u) (sn3 c t) \def \lambda (f: F).\lambda (c: C).\lambda (u: T).\lambda (t: T).\lambda (H: (sn3 c (THead (Flat f) u t))).insert_eq T (THead (Flat f) u t) (\lambda (t0: T).sn3 c t0) (and (sn3 c u) (sn3 c t)) (\lambda (y: T).\lambda (H0: (sn3 c y)).unintro T t (\lambda (t0: T).(eq T y (THead (Flat f) u t0)) \to and (sn3 c u) (sn3 c t0)) (unintro T u (\lambda (t0: T).\forall (x: T).(eq T y (THead (Flat f) t0 x)) \to and (sn3 c t0) (sn3 c x)) (sn3_ind c (\lambda (t0: T).\forall (x: T).\forall (x0: T).(eq T t0 (THead (Flat f) x x0)) \to and (sn3 c x) (sn3 c x0)) (\lambda (t1: T).\lambda (H1: ((\forall (t2: T).(((eq T t1 t2) \to \forall (P: (Prop)).P)) \to (pr3 c t1 t2) \to sn3 c t2))).\lambda (H2: ((\forall (t2: T).(((eq T t1 t2) \to \forall (P: (Prop)).P)) \to (pr3 c t1 t2) \to \forall (x: T).\forall (x0: T).(eq T t2 (THead (Flat f) x x0)) \to and (sn3 c x) (sn3 c x0)))).\lambda (x: T).\lambda (x0: T).\lambda (H3: (eq T t1 (THead (Flat f) x x0))).let H4 \def eq_ind T t1 (\lambda (t: T).\forall (t2: T).(((eq T t t2) \to \forall (P: (Prop)).P)) \to (pr3 c t t2) \to \forall (x: T).\forall (x0: T).(eq T t2 (THead (Flat f) x x0)) \to and (sn3 c x) (sn3 c x0)) H2 (THead (Flat f) x x0) H3 in let H5 \def eq_ind T t1 (\lambda (t: T).\forall (t2: T).(((eq T t t2) \to \forall (P: (Prop)).P)) \to (pr3 c t t2) \to sn3 c t2) H1 (THead (Flat f) x x0) H3 in conj (sn3 c x) (sn3 c x0) (sn3_sing c x (\lambda (t2: T).\lambda (H6: (((eq T x t2) \to \forall (P: (Prop)).P))).\lambda (H7: (pr3 c x t2)).let H8 \def H4 (THead (Flat f) t2 x0) (\lambda (H3: (eq T (THead (Flat f) x x0) (THead (Flat f) t2 x0))).\lambda (P: (Prop)).let H4 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow x | (TLRef _) \Rightarrow x | (THead _ t _) \Rightarrow t]) (THead (Flat f) x x0) (THead (Flat f) t2 x0) H3 in let H5 \def eq_ind_r T t2 (\lambda (t: T).pr3 c x t) H7 x H4 in let H6 \def eq_ind_r T t2 (\lambda (t: T).(eq T x t) \to \forall (P: (Prop)).P) H6 x H4 in H6 (refl_equal T x) P) (pr3_head_12 c x t2 H7 (Flat f) x0 x0 (pr3_refl (CHead c (Flat f) t2) x0)) t2 x0 (refl_equal T (THead (Flat f) t2 x0)) in and_ind (sn3 c t2) (sn3 c x0) (sn3 c t2) (\lambda (H9: (sn3 c t2)).\lambda (_: (sn3 c x0)).H9) H8)) (sn3_sing c x0 (\lambda (t2: T).\lambda (H6: (((eq T x0 t2) \to \forall (P: (Prop)).P))).\lambda (H7: (pr3 c x0 t2)).let H8 \def H4 (THead (Flat f) x t2) (\lambda (H3: (eq T (THead (Flat f) x x0) (THead (Flat f) x t2))).\lambda (P: (Prop)).let H4 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow x0 | (TLRef _) \Rightarrow x0 | (THead _ _ t) \Rightarrow t]) (THead (Flat f) x x0) (THead (Flat f) x t2) H3 in let H5 \def eq_ind_r T t2 (\lambda (t: T).pr3 c x0 t) H7 x0 H4 in let H6 \def eq_ind_r T t2 (\lambda (t: T).(eq T x0 t) \to \forall (P: (Prop)).P) H6 x0 H4 in H6 (refl_equal T x0) P) (pr3_thin_dx c x0 t2 H7 x f) x t2 (refl_equal T (THead (Flat f) x t2)) in and_ind (sn3 c x) (sn3 c t2) (sn3 c t2) (\lambda (_: (sn3 c x)).\lambda (H10: (sn3 c t2)).H10) H8))) y H0))) H.
+
+theorem sn3_nf2: \forall (c: C).\forall (t: T).(nf2 c t) \to sn3 c t \def \lambda (c: C).\lambda (t: T).\lambda (H: (nf2 c t)).sn3_sing c t (\lambda (t2: T).\lambda (H0: (((eq T t t2) \to \forall (P: (Prop)).P))).\lambda (H1: (pr3 c t t2)).let H_y \def nf2_pr3_unfold c t t2 H1 H in let H2 \def eq_ind_r T t2 (\lambda (t0: T).pr3 c t t0) H1 t H_y in let H3 \def eq_ind_r T t2 (\lambda (t0: T).(eq T t t0) \to \forall (P: (Prop)).P) H0 t H_y in eq_ind T t (\lambda (t0: T).sn3 c t0) (H3 (refl_equal T t) (sn3 c t)) t2 H_y).
+
+theorem sn3_pr3_trans: \forall (c: C).\forall (t1: T).(sn3 c t1) \to \forall (t2: T).(pr3 c t1 t2) \to sn3 c t2 \def \lambda (c: C).\lambda (t1: T).\lambda (H: (sn3 c t1)).sn3_ind c (\lambda (t: T).\forall (t2: T).(pr3 c t t2) \to sn3 c t2) (\lambda (t2: T).\lambda (H0: ((\forall (t3: T).(((eq T t2 t3) \to \forall (P: (Prop)).P)) \to (pr3 c t2 t3) \to sn3 c t3))).\lambda (H1: ((\forall (t3: T).(((eq T t2 t3) \to \forall (P: (Prop)).P)) \to (pr3 c t2 t3) \to \forall (t2: T).(pr3 c t3 t2) \to sn3 c t2))).\lambda (t3: T).\lambda (H2: (pr3 c t2 t3)).sn3_sing c t3 (\lambda (t0: T).\lambda (H3: (((eq T t3 t0) \to \forall (P: (Prop)).P))).\lambda (H4: (pr3 c t3 t0)).let H_x \def term_dec t2 t3 in let H5 \def H_x in or_ind (eq T t2 t3) ((eq T t2 t3) \to \forall (P: (Prop)).P) (sn3 c t0) (\lambda (H6: (eq T t2 t3)).let H7 \def eq_ind_r T t3 (\lambda (t: T).pr3 c t t0) H4 t2 H6 in let H8 \def eq_ind_r T t3 (\lambda (t: T).(eq T t t0) \to \forall (P: (Prop)).P) H3 t2 H6 in let H9 \def eq_ind_r T t3 (\lambda (t: T).pr3 c t2 t) H2 t2 H6 in H0 t0 H8 H7) (\lambda (H6: (((eq T t2 t3) \to \forall (P: (Prop)).P))).H1 t3 H6 H2 t0 H4) H5)) t1 H.
+
+theorem sn3_pr2_intro: \forall (c: C).\forall (t1: T).((\forall (t2: T).(((eq T t1 t2) \to \forall (P: (Prop)).P)) \to (pr2 c t1 t2) \to sn3 c t2)) \to sn3 c t1 \def \lambda (c: C).\lambda (t1: T).\lambda (H: ((\forall (t2: T).(((eq T t1 t2) \to \forall (P: (Prop)).P)) \to (pr2 c t1 t2) \to sn3 c t2))).sn3_sing c t1 (\lambda (t2: T).\lambda (H0: (((eq T t1 t2) \to \forall (P: (Prop)).P))).\lambda (H1: (pr3 c t1 t2)).let H2 \def H0 in (let H3 \def H in pr3_ind c (\lambda (t: T).\lambda (t0: T).((\forall (t2: T).(((eq T t t2) \to \forall (P: (Prop)).P)) \to (pr2 c t t2) \to sn3 c t2)) \to (((eq T t t0) \to \forall (P: (Prop)).P)) \to sn3 c t0) (\lambda (t: T).\lambda (H4: ((\forall (t2: T).(((eq T t t2) \to \forall (P: (Prop)).P)) \to (pr2 c t t2) \to sn3 c t2))).\lambda (H5: (((eq T t t) \to \forall (P: (Prop)).P))).H4 t H5 (pr2_free c t t (pr0_refl t))) (\lambda (t3: T).\lambda (t4: T).\lambda (H4: (pr2 c t4 t3)).\lambda (t5: T).\lambda (H5: (pr3 c t3 t5)).\lambda (H6: ((((\forall (t2: T).(((eq T t3 t2) \to \forall (P: (Prop)).P)) \to (pr2 c t3 t2) \to sn3 c t2)) \to (((eq T t3 t5) \to \forall (P: (Prop)).P)) \to sn3 c t5))).\lambda (H7: ((\forall (t2: T).(((eq T t4 t2) \to \forall (P: (Prop)).P)) \to (pr2 c t4 t2) \to sn3 c t2))).\lambda (H8: (((eq T t4 t5) \to \forall (P: (Prop)).P))).let H_x \def term_dec t4 t3 in let H9 \def H_x in or_ind (eq T t4 t3) ((eq T t4 t3) \to \forall (P: (Prop)).P) (sn3 c t5) (\lambda (H10: (eq T t4 t3)).let H11 \def eq_ind T t4 (\lambda (t: T).(eq T t t5) \to \forall (P: (Prop)).P) H8 t3 H10 in let H12 \def eq_ind T t4 (\lambda (t: T).\forall (t2: T).(((eq T t t2) \to \forall (P: (Prop)).P)) \to (pr2 c t t2) \to sn3 c t2) H7 t3 H10 in let H13 \def eq_ind T t4 (\lambda (t: T).pr2 c t t3) H4 t3 H10 in H6 H12 H11) (\lambda (H10: (((eq T t4 t3) \to \forall (P: (Prop)).P))).sn3_pr3_trans c t3 (H7 t3 H10 H4) t5 H5) H9) t1 t2 H1 H3) H2).
+
+theorem sn3_cast: \forall (c: C).\forall (u: T).(sn3 c u) \to \forall (t: T).(sn3 c t) \to sn3 c (THead (Flat Cast) u t) \def \lambda (c: C).\lambda (u: T).\lambda (H: (sn3 c u)).sn3_ind c (\lambda (t: T).\forall (t0: T).(sn3 c t0) \to sn3 c (THead (Flat Cast) t t0)) (\lambda (t1: T).\lambda (_: ((\forall (t2: T).(((eq T t1 t2) \to \forall (P: (Prop)).P)) \to (pr3 c t1 t2) \to sn3 c t2))).\lambda (H1: ((\forall (t2: T).(((eq T t1 t2) \to \forall (P: (Prop)).P)) \to (pr3 c t1 t2) \to \forall (t: T).(sn3 c t) \to sn3 c (THead (Flat Cast) t2 t)))).\lambda (t: T).\lambda (H2: (sn3 c t)).sn3_ind c (\lambda (t0: T).sn3 c (THead (Flat Cast) t1 t0)) (\lambda (t0: T).\lambda (H3: ((\forall (t2: T).(((eq T t0 t2) \to \forall (P: (Prop)).P)) \to (pr3 c t0 t2) \to sn3 c t2))).\lambda (H4: ((\forall (t2: T).(((eq T t0 t2) \to \forall (P: (Prop)).P)) \to (pr3 c t0 t2) \to sn3 c (THead (Flat Cast) t1 t2)))).sn3_pr2_intro c (THead (Flat Cast) t1 t0) (\lambda (t2: T).\lambda (H5: (((eq T (THead (Flat Cast) t1 t0) t2) \to \forall (P: (Prop)).P))).\lambda (H6: (pr2 c (THead (Flat Cast) t1 t0) t2)).let H7 \def pr2_gen_cast c t1 t0 t2 H6 in or_ind (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c t1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t0 t3)) (pr2 c t0 t2) (sn3 c t2) (\lambda (H8: (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c t1 u2) (\lambda (_: T).\lambda (t2: T).pr2 c t0 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c t1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c t0 t3) (sn3 c t2) (\lambda (x0: T).\lambda (x1: T).\lambda (H9: (eq T t2 (THead (Flat Cast) x0 x1))).\lambda (H10: (pr2 c t1 x0)).\lambda (H11: (pr2 c t0 x1)).let H12 \def eq_ind T t2 (\lambda (t: T).(eq T (THead (Flat Cast) t1 t0) t) \to \forall (P: (Prop)).P) H5 (THead (Flat Cast) x0 x1) H9 in eq_ind_r T (THead (Flat Cast) x0 x1) (\lambda (t3: T).sn3 c t3) (let H_x \def term_dec x0 t1 in let H13 \def H_x in or_ind (eq T x0 t1) ((eq T x0 t1) \to \forall (P: (Prop)).P) (sn3 c (THead (Flat Cast) x0 x1)) (\lambda (H14: (eq T x0 t1)).let H15 \def eq_ind T x0 (\lambda (t: T).(eq T (THead (Flat Cast) t1 t0) (THead (Flat Cast) t x1)) \to \forall (P: (Prop)).P) H12 t1 H14 in let H16 \def eq_ind T x0 (\lambda (t: T).pr2 c t1 t) H10 t1 H14 in eq_ind_r T t1 (\lambda (t3: T).sn3 c (THead (Flat Cast) t3 x1)) (let H_x0 \def term_dec t0 x1 in let H17 \def H_x0 in or_ind (eq T t0 x1) ((eq T t0 x1) \to \forall (P: (Prop)).P) (sn3 c (THead (Flat Cast) t1 x1)) (\lambda (H18: (eq T t0 x1)).let H19 \def eq_ind_r T x1 (\lambda (t: T).(eq T (THead (Flat Cast) t1 t0) (THead (Flat Cast) t1 t)) \to \forall (P: (Prop)).P) H15 t0 H18 in let H20 \def eq_ind_r T x1 (\lambda (t: T).pr2 c t0 t) H11 t0 H18 in eq_ind T t0 (\lambda (t3: T).sn3 c (THead (Flat Cast) t1 t3)) (H19 (refl_equal T (THead (Flat Cast) t1 t0)) (sn3 c (THead (Flat Cast) t1 t0))) x1 H18) (\lambda (H18: (((eq T t0 x1) \to \forall (P: (Prop)).P))).H4 x1 H18 (pr3_pr2 c t0 x1 H11)) H17) x0 H14) (\lambda (H14: (((eq T x0 t1) \to \forall (P: (Prop)).P))).H1 x0 (\lambda (H15: (eq T t1 x0)).\lambda (P: (Prop)).let H16 \def eq_ind_r T x0 (\lambda (t: T).(eq T t t1) \to \forall (P: (Prop)).P) H14 t1 H15 in let H17 \def eq_ind_r T x0 (\lambda (t: T).(eq T (THead (Flat Cast) t1 t0) (THead (Flat Cast) t x1)) \to \forall (P: (Prop)).P) H12 t1 H15 in let H18 \def eq_ind_r T x0 (\lambda (t: T).pr2 c t1 t) H10 t1 H15 in H16 (refl_equal T t1) P) (pr3_pr2 c t1 x0 H10) x1 (let H_x0 \def term_dec t0 x1 in let H15 \def H_x0 in or_ind (eq T t0 x1) ((eq T t0 x1) \to \forall (P: (Prop)).P) (sn3 c x1) (\lambda (H16: (eq T t0 x1)).let H17 \def eq_ind_r T x1 (\lambda (t: T).(eq T (THead (Flat Cast) t1 t0) (THead (Flat Cast) x0 t)) \to \forall (P: (Prop)).P) H12 t0 H16 in let H18 \def eq_ind_r T x1 (\lambda (t: T).pr2 c t0 t) H11 t0 H16 in eq_ind T t0 (\lambda (t3: T).sn3 c t3) (sn3_sing c t0 H3) x1 H16) (\lambda (H16: (((eq T t0 x1) \to \forall (P: (Prop)).P))).H3 x1 H16 (pr3_pr2 c t0 x1 H11)) H15)) H13) t2 H9) H8) (\lambda (H8: (pr2 c t0 t2)).sn3_pr3_trans c t0 (sn3_sing c t0 H3) t2 (pr3_pr2 c t0 t2 H8)) H7)) t H2) u H.
+
+theorem nf2_sn3: \forall (c: C).\forall (t: T).(sn3 c t) \to ex2 T (\lambda (u: T).pr3 c t u) (\lambda (u: T).nf2 c u) \def \lambda (c: C).\lambda (t: T).\lambda (H: (sn3 c t)).sn3_ind c (\lambda (t0: T).ex2 T (\lambda (u: T).pr3 c t0 u) (\lambda (u: T).nf2 c u)) (\lambda (t1: T).\lambda (_: ((\forall (t2: T).(((eq T t1 t2) \to \forall (P: (Prop)).P)) \to (pr3 c t1 t2) \to sn3 c t2))).\lambda (H1: ((\forall (t2: T).(((eq T t1 t2) \to \forall (P: (Prop)).P)) \to (pr3 c t1 t2) \to ex2 T (\lambda (u: T).pr3 c t2 u) (\lambda (u: T).nf2 c u)))).let H_x \def nf2_dec c t1 in let H2 \def H_x in or_ind (nf2 c t1) (ex2 T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr2 c t1 t2)) (ex2 T (\lambda (u: T).pr3 c t1 u) (\lambda (u: T).nf2 c u)) (\lambda (H3: (nf2 c t1)).ex_intro2 T (\lambda (u: T).pr3 c t1 u) (\lambda (u: T).nf2 c u) t1 (pr3_refl c t1) H3) (\lambda (H3: (ex2 T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr2 c t1 t2))).ex2_ind T (\lambda (t2: T).(eq T t1 t2) \to \forall (P: (Prop)).P) (\lambda (t2: T).pr2 c t1 t2) (ex2 T (\lambda (u: T).pr3 c t1 u) (\lambda (u: T).nf2 c u)) (\lambda (x: T).\lambda (H4: (((eq T t1 x) \to \forall (P: (Prop)).P))).\lambda (H5: (pr2 c t1 x)).let H_y \def H1 x H4 in let H6 \def H_y (pr3_pr2 c t1 x H5) in ex2_ind T (\lambda (u: T).pr3 c x u) (\lambda (u: T).nf2 c u) (ex2 T (\lambda (u: T).pr3 c t1 u) (\lambda (u: T).nf2 c u)) (\lambda (x0: T).\lambda (H7: (pr3 c x x0)).\lambda (H8: (nf2 c x0)).ex_intro2 T (\lambda (u: T).pr3 c t1 u) (\lambda (u: T).nf2 c u) x0 (pr3_sing c x t1 H5 x0 H7) H8) H6) H3) H2) t H.
+
+theorem sn3_appl_lref: \forall (c: C).\forall (i: nat).(nf2 c (TLRef i)) \to \forall (v: T).(sn3 c v) \to sn3 c (THead (Flat Appl) v (TLRef i)) \def \lambda (c: C).\lambda (i: nat).\lambda (H: (nf2 c (TLRef i))).\lambda (v: T).\lambda (H0: (sn3 c v)).sn3_ind c (\lambda (t: T).sn3 c (THead (Flat Appl) t (TLRef i))) (\lambda (t1: T).\lambda (_: ((\forall (t2: T).(((eq T t1 t2) \to \forall (P: (Prop)).P)) \to (pr3 c t1 t2) \to sn3 c t2))).\lambda (H2: ((\forall (t2: T).(((eq T t1 t2) \to \forall (P: (Prop)).P)) \to (pr3 c t1 t2) \to sn3 c (THead (Flat Appl) t2 (TLRef i))))).sn3_pr2_intro c (THead (Flat Appl) t1 (TLRef i)) (\lambda (t2: T).\lambda (H3: (((eq T (THead (Flat Appl) t1 (TLRef i)) t2) \to \forall (P: (Prop)).P))).\lambda (H4: (pr2 c (THead (Flat Appl) t1 (TLRef i)) t2)).let H5 \def pr2_gen_appl c t1 (TLRef i) t2 H4 in or3_ind (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c t1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (TLRef i) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (TLRef i) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c t1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (TLRef i) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T t2 (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c t1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2)) (sn3 c t2) (\lambda (H6: (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c t1 u2) (\lambda (_: T).\lambda (t2: T).pr2 c (TLRef i) t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c t1 u2) (\lambda (_: T).\lambda (t3: T).pr2 c (TLRef i) t3) (sn3 c t2) (\lambda (x0: T).\lambda (x1: T).\lambda (H7: (eq T t2 (THead (Flat Appl) x0 x1))).\lambda (H8: (pr2 c t1 x0)).\lambda (H9: (pr2 c (TLRef i) x1)).let H10 \def eq_ind T t2 (\lambda (t: T).(eq T (THead (Flat Appl) t1 (TLRef i)) t) \to \forall (P: (Prop)).P) H3 (THead (Flat Appl) x0 x1) H7 in eq_ind_r T (THead (Flat Appl) x0 x1) (\lambda (t: T).sn3 c t) (let H11 \def eq_ind_r T x1 (\lambda (t: T).(eq T (THead (Flat Appl) t1 (TLRef i)) (THead (Flat Appl) x0 t)) \to \forall (P: (Prop)).P) H10 (TLRef i) (H x1 H9) in let H12 \def eq_ind_r T x1 (\lambda (t: T).pr2 c (TLRef i) t) H9 (TLRef i) (H x1 H9) in eq_ind T (TLRef i) (\lambda (t: T).sn3 c (THead (Flat Appl) x0 t)) (let H_x \def term_dec t1 x0 in let H13 \def H_x in or_ind (eq T t1 x0) ((eq T t1 x0) \to \forall (P: (Prop)).P) (sn3 c (THead (Flat Appl) x0 (TLRef i))) (\lambda (H14: (eq T t1 x0)).let H15 \def eq_ind_r T x0 (\lambda (t: T).(eq T (THead (Flat Appl) t1 (TLRef i)) (THead (Flat Appl) t (TLRef i))) \to \forall (P: (Prop)).P) H11 t1 H14 in let H16 \def eq_ind_r T x0 (\lambda (t: T).pr2 c t1 t) H8 t1 H14 in eq_ind T t1 (\lambda (t: T).sn3 c (THead (Flat Appl) t (TLRef i))) (H15 (refl_equal T (THead (Flat Appl) t1 (TLRef i))) (sn3 c (THead (Flat Appl) t1 (TLRef i)))) x0 H14) (\lambda (H14: (((eq T t1 x0) \to \forall (P: (Prop)).P))).H2 x0 H14 (pr3_pr2 c t1 x0 H8)) H13) x1 (H x1 H9)) t2 H7) H6) (\lambda (H6: (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (TLRef i) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c t1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t2))).ex4_4_ind T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (TLRef i) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c t1 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t3) (sn3 c t2) (\lambda (x0: T).\lambda (x1: T).\lambda (x2: T).\lambda (x3: T).\lambda (H7: (eq T (TLRef i) (THead (Bind Abst) x0 x1))).\lambda (H8: (eq T t2 (THead (Bind Abbr) x2 x3))).\lambda (_: (pr2 c t1 x2)).\lambda (_: ((\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) x1 x3))).let H11 \def eq_ind T t2 (\lambda (t: T).(eq T (THead (Flat Appl) t1 (TLRef i)) t) \to \forall (P: (Prop)).P) H3 (THead (Bind Abbr) x2 x3) H8 in eq_ind_r T (THead (Bind Abbr) x2 x3) (\lambda (t: T).sn3 c t) (let H12 \def eq_ind T (TLRef i) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Bind Abst) x0 x1) H7 in False_ind (sn3 c (THead (Bind Abbr) x2 x3)) H12) t2 H8) H6) (\lambda (H6: (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (TLRef i) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T t2 (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c t1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))).ex6_6_ind B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (TLRef i) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T t2 (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c t1 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2) (sn3 c t2) (\lambda (x0: B).\lambda (x1: T).\lambda (x2: T).\lambda (x3: T).\lambda (x4: T).\lambda (x5: T).\lambda (_: (not (eq B x0 Abst))).\lambda (H8: (eq T (TLRef i) (THead (Bind x0) x1 x2))).\lambda (H9: (eq T t2 (THead (Bind x0) x5 (THead (Flat Appl) (lift (S O) O x4) x3)))).\lambda (_: (pr2 c t1 x4)).\lambda (_: (pr2 c x1 x5)).\lambda (_: (pr2 (CHead c (Bind x0) x5) x2 x3)).let H13 \def eq_ind T t2 (\lambda (t: T).(eq T (THead (Flat Appl) t1 (TLRef i)) t) \to \forall (P: (Prop)).P) H3 (THead (Bind x0) x5 (THead (Flat Appl) (lift (S O) O x4) x3)) H9 in eq_ind_r T (THead (Bind x0) x5 (THead (Flat Appl) (lift (S O) O x4) x3)) (\lambda (t: T).sn3 c t) (let H14 \def eq_ind T (TLRef i) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Bind x0) x1 x2) H8 in False_ind (sn3 c (THead (Bind x0) x5 (THead (Flat Appl) (lift (S O) O x4) x3))) H14) t2 H9) H6) H5)) v H0.
+
+theorem sn3_appl_cast: \forall (c: C).\forall (v: T).\forall (u: T).(sn3 c (THead (Flat Appl) v u)) \to \forall (t: T).(sn3 c (THead (Flat Appl) v t)) \to sn3 c (THead (Flat Appl) v (THead (Flat Cast) u t)) \def \lambda (c: C).\lambda (v: T).\lambda (u: T).\lambda (H: (sn3 c (THead (Flat Appl) v u))).insert_eq T (THead (Flat Appl) v u) (\lambda (t: T).sn3 c t) (\forall (t: T).(sn3 c (THead (Flat Appl) v t)) \to sn3 c (THead (Flat Appl) v (THead (Flat Cast) u t))) (\lambda (y: T).\lambda (H0: (sn3 c y)).unintro T u (\lambda (t: T).(eq T y (THead (Flat Appl) v t)) \to \forall (t0: T).(sn3 c (THead (Flat Appl) v t0)) \to sn3 c (THead (Flat Appl) v (THead (Flat Cast) t t0))) (unintro T v (\lambda (t: T).\forall (x: T).(eq T y (THead (Flat Appl) t x)) \to \forall (t0: T).(sn3 c (THead (Flat Appl) t t0)) \to sn3 c (THead (Flat Appl) t (THead (Flat Cast) x t0))) (sn3_ind c (\lambda (t: T).\forall (x: T).\forall (x0: T).(eq T t (THead (Flat Appl) x x0)) \to \forall (t0: T).(sn3 c (THead (Flat Appl) x t0)) \to sn3 c (THead (Flat Appl) x (THead (Flat Cast) x0 t0))) (\lambda (t1: T).\lambda (H1: ((\forall (t2: T).(((eq T t1 t2) \to \forall (P: (Prop)).P)) \to (pr3 c t1 t2) \to sn3 c t2))).\lambda (H2: ((\forall (t2: T).(((eq T t1 t2) \to \forall (P: (Prop)).P)) \to (pr3 c t1 t2) \to \forall (x: T).\forall (x0: T).(eq T t2 (THead (Flat Appl) x x0)) \to \forall (t: T).(sn3 c (THead (Flat Appl) x t)) \to sn3 c (THead (Flat Appl) x (THead (Flat Cast) x0 t))))).\lambda (x: T).\lambda (x0: T).\lambda (H3: (eq T t1 (THead (Flat Appl) x x0))).\lambda (t: T).\lambda (H4: (sn3 c (THead (Flat Appl) x t))).insert_eq T (THead (Flat Appl) x t) (\lambda (t0: T).sn3 c t0) (sn3 c (THead (Flat Appl) x (THead (Flat Cast) x0 t))) (\lambda (y0: T).\lambda (H5: (sn3 c y0)).unintro T t (\lambda (t0: T).(eq T y0 (THead (Flat Appl) x t0)) \to sn3 c (THead (Flat Appl) x (THead (Flat Cast) x0 t0))) (sn3_ind c (\lambda (t0: T).\forall (x1: T).(eq T t0 (THead (Flat Appl) x x1)) \to sn3 c (THead (Flat Appl) x (THead (Flat Cast) x0 x1))) (\lambda (t0: T).\lambda (H6: ((\forall (t2: T).(((eq T t0 t2) \to \forall (P: (Prop)).P)) \to (pr3 c t0 t2) \to sn3 c t2))).\lambda (H7: ((\forall (t2: T).(((eq T t0 t2) \to \forall (P: (Prop)).P)) \to (pr3 c t0 t2) \to \forall (x1: T).(eq T t2 (THead (Flat Appl) x x1)) \to sn3 c (THead (Flat Appl) x (THead (Flat Cast) x0 x1))))).\lambda (x1: T).\lambda (H8: (eq T t0 (THead (Flat Appl) x x1))).let H9 \def eq_ind T t0 (\lambda (t: T).\forall (t2: T).(((eq T t t2) \to \forall (P: (Prop)).P)) \to (pr3 c t t2) \to \forall (x1: T).(eq T t2 (THead (Flat Appl) x x1)) \to sn3 c (THead (Flat Appl) x (THead (Flat Cast) x0 x1))) H7 (THead (Flat Appl) x x1) H8 in let H10 \def eq_ind T t0 (\lambda (t: T).\forall (t2: T).(((eq T t t2) \to \forall (P: (Prop)).P)) \to (pr3 c t t2) \to sn3 c t2) H6 (THead (Flat Appl) x x1) H8 in let H11 \def eq_ind T t1 (\lambda (t: T).\forall (t2: T).(((eq T t t2) \to \forall (P: (Prop)).P)) \to (pr3 c t t2) \to \forall (x: T).\forall (x0: T).(eq T t2 (THead (Flat Appl) x x0)) \to \forall (t0: T).(sn3 c (THead (Flat Appl) x t0)) \to sn3 c (THead (Flat Appl) x (THead (Flat Cast) x0 t0))) H2 (THead (Flat Appl) x x0) H3 in let H12 \def eq_ind T t1 (\lambda (t: T).\forall (t2: T).(((eq T t t2) \to \forall (P: (Prop)).P)) \to (pr3 c t t2) \to sn3 c t2) H1 (THead (Flat Appl) x x0) H3 in sn3_pr2_intro c (THead (Flat Appl) x (THead (Flat Cast) x0 x1)) (\lambda (t2: T).\lambda (H13: (((eq T (THead (Flat Appl) x (THead (Flat Cast) x0 x1)) t2) \to \forall (P: (Prop)).P))).\lambda (H14: (pr2 c (THead (Flat Appl) x (THead (Flat Cast) x0 x1)) t2)).let H15 \def pr2_gen_appl c x (THead (Flat Cast) x0 x1) t2 H14 in or3_ind (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c x u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Flat Cast) x0 x1) t3)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Flat Cast) x0 x1) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c x u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Flat Cast) x0 x1) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T t2 (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c x u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2)) (sn3 c t2) (\lambda (H16: (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c x u2) (\lambda (_: T).\lambda (t2: T).pr2 c (THead (Flat Cast) x0 x1) t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Flat Appl) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c x u2) (\lambda (_: T).\lambda (t3: T).pr2 c (THead (Flat Cast) x0 x1) t3) (sn3 c t2) (\lambda (x2: T).\lambda (x3: T).\lambda (H17: (eq T t2 (THead (Flat Appl) x2 x3))).\lambda (H18: (pr2 c x x2)).\lambda (H19: (pr2 c (THead (Flat Cast) x0 x1) x3)).let H20 \def eq_ind T t2 (\lambda (t: T).(eq T (THead (Flat Appl) x (THead (Flat Cast) x0 x1)) t) \to \forall (P: (Prop)).P) H13 (THead (Flat Appl) x2 x3) H17 in eq_ind_r T (THead (Flat Appl) x2 x3) (\lambda (t3: T).sn3 c t3) (let H21 \def pr2_gen_cast c x0 x1 x3 H19 in or_ind (ex3_2 T T (\lambda (u2: T).\lambda (t3: T).eq T x3 (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c x0 u2) (\lambda (_: T).\lambda (t3: T).pr2 c x1 t3)) (pr2 c x1 x3) (sn3 c (THead (Flat Appl) x2 x3)) (\lambda (H22: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x3 (THead (Flat Cast) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr2 c x0 u2) (\lambda (_: T).\lambda (t2: T).pr2 c x1 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T x3 (THead (Flat Cast) u2 t3)) (\lambda (u2: T).\lambda (_: T).pr2 c x0 u2) (\lambda (_: T).\lambda (t3: T).pr2 c x1 t3) (sn3 c (THead (Flat Appl) x2 x3)) (\lambda (x4: T).\lambda (x5: T).\lambda (H23: (eq T x3 (THead (Flat Cast) x4 x5))).\lambda (H24: (pr2 c x0 x4)).\lambda (H25: (pr2 c x1 x5)).let H26 \def eq_ind T x3 (\lambda (t: T).(eq T (THead (Flat Appl) x (THead (Flat Cast) x0 x1)) (THead (Flat Appl) x2 t)) \to \forall (P: (Prop)).P) H20 (THead (Flat Cast) x4 x5) H23 in eq_ind_r T (THead (Flat Cast) x4 x5) (\lambda (t3: T).sn3 c (THead (Flat Appl) x2 t3)) (let H_x \def term_dec (THead (Flat Appl) x x0) (THead (Flat Appl) x2 x4) in let H27 \def H_x in or_ind (eq T (THead (Flat Appl) x x0) (THead (Flat Appl) x2 x4)) ((eq T (THead (Flat Appl) x x0) (THead (Flat Appl) x2 x4)) \to \forall (P: (Prop)).P) (sn3 c (THead (Flat Appl) x2 (THead (Flat Cast) x4 x5))) (\lambda (H28: (eq T (THead (Flat Appl) x x0) (THead (Flat Appl) x2 x4))).let H29 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow x | (TLRef _) \Rightarrow x | (THead _ t _) \Rightarrow t]) (THead (Flat Appl) x x0) (THead (Flat Appl) x2 x4) H28 in (let H30 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow x0 | (TLRef _) \Rightarrow x0 | (THead _ _ t) \Rightarrow t]) (THead (Flat Appl) x x0) (THead (Flat Appl) x2 x4) H28 in \lambda (H31: (eq T x x2)).let H32 \def eq_ind_r T x4 (\lambda (t: T).(eq T (THead (Flat Appl) x (THead (Flat Cast) x0 x1)) (THead (Flat Appl) x2 (THead (Flat Cast) t x5))) \to \forall (P: (Prop)).P) H26 x0 H30 in let H33 \def eq_ind_r T x4 (\lambda (t: T).pr2 c x0 t) H24 x0 H30 in eq_ind T x0 (\lambda (t3: T).sn3 c (THead (Flat Appl) x2 (THead (Flat Cast) t3 x5))) (let H34 \def eq_ind_r T x2 (\lambda (t: T).(eq T (THead (Flat Appl) x (THead (Flat Cast) x0 x1)) (THead (Flat Appl) t (THead (Flat Cast) x0 x5))) \to \forall (P: (Prop)).P) H32 x H31 in let H35 \def eq_ind_r T x2 (\lambda (t: T).pr2 c x t) H18 x H31 in eq_ind T x (\lambda (t3: T).sn3 c (THead (Flat Appl) t3 (THead (Flat Cast) x0 x5))) (let H_x0 \def term_dec (THead (Flat Appl) x x1) (THead (Flat Appl) x x5) in let H36 \def H_x0 in or_ind (eq T (THead (Flat Appl) x x1) (THead (Flat Appl) x x5)) ((eq T (THead (Flat Appl) x x1) (THead (Flat Appl) x x5)) \to \forall (P: (Prop)).P) (sn3 c (THead (Flat Appl) x (THead (Flat Cast) x0 x5))) (\lambda (H37: (eq T (THead (Flat Appl) x x1) (THead (Flat Appl) x x5))).let H38 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow x1 | (TLRef _) \Rightarrow x1 | (THead _ _ t) \Rightarrow t]) (THead (Flat Appl) x x1) (THead (Flat Appl) x x5) H37 in let H39 \def eq_ind_r T x5 (\lambda (t: T).(eq T (THead (Flat Appl) x (THead (Flat Cast) x0 x1)) (THead (Flat Appl) x (THead (Flat Cast) x0 t))) \to \forall (P: (Prop)).P) H34 x1 H38 in let H40 \def eq_ind_r T x5 (\lambda (t: T).pr2 c x1 t) H25 x1 H38 in eq_ind T x1 (\lambda (t3: T).sn3 c (THead (Flat Appl) x (THead (Flat Cast) x0 t3))) (H39 (refl_equal T (THead (Flat Appl) x (THead (Flat Cast) x0 x1))) (sn3 c (THead (Flat Appl) x (THead (Flat Cast) x0 x1)))) x5 H38) (\lambda (H37: (((eq T (THead (Flat Appl) x x1) (THead (Flat Appl) x x5)) \to \forall (P: (Prop)).P))).H9 (THead (Flat Appl) x x5) H37 (pr3_pr2 c (THead (Flat Appl) x x1) (THead (Flat Appl) x x5) (pr2_thin_dx c x1 x5 H25 x Appl)) x5 (refl_equal T (THead (Flat Appl) x x5))) H36) x2 H31) x4 H30) H29) (\lambda (H28: (((eq T (THead (Flat Appl) x x0) (THead (Flat Appl) x2 x4)) \to \forall (P: (Prop)).P))).let H_x0 \def term_dec (THead (Flat Appl) x x1) (THead (Flat Appl) x2 x5) in let H29 \def H_x0 in or_ind (eq T (THead (Flat Appl) x x1) (THead (Flat Appl) x2 x5)) ((eq T (THead (Flat Appl) x x1) (THead (Flat Appl) x2 x5)) \to \forall (P: (Prop)).P) (sn3 c (THead (Flat Appl) x2 (THead (Flat Cast) x4 x5))) (\lambda (H30: (eq T (THead (Flat Appl) x x1) (THead (Flat Appl) x2 x5))).let H31 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow x | (TLRef _) \Rightarrow x | (THead _ t _) \Rightarrow t]) (THead (Flat Appl) x x1) (THead (Flat Appl) x2 x5) H30 in (let H32 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow x1 | (TLRef _) \Rightarrow x1 | (THead _ _ t) \Rightarrow t]) (THead (Flat Appl) x x1) (THead (Flat Appl) x2 x5) H30 in \lambda (H33: (eq T x x2)).let H34 \def eq_ind_r T x5 (\lambda (t: T).pr2 c x1 t) H25 x1 H32 in eq_ind T x1 (\lambda (t3: T).sn3 c (THead (Flat Appl) x2 (THead (Flat Cast) x4 t3))) (let H35 \def eq_ind_r T x2 (\lambda (t: T).(eq T (THead (Flat Appl) x x0) (THead (Flat Appl) t x4)) \to \forall (P: (Prop)).P) H28 x H33 in let H36 \def eq_ind_r T x2 (\lambda (t: T).pr2 c x t) H18 x H33 in eq_ind T x (\lambda (t3: T).sn3 c (THead (Flat Appl) t3 (THead (Flat Cast) x4 x1))) (H11 (THead (Flat Appl) x x4) H35 (pr3_pr2 c (THead (Flat Appl) x x0) (THead (Flat Appl) x x4) (pr2_thin_dx c x0 x4 H24 x Appl)) x x4 (refl_equal T (THead (Flat Appl) x x4)) x1 (sn3_sing c (THead (Flat Appl) x x1) H10)) x2 H33) x5 H32) H31) (\lambda (H30: (((eq T (THead (Flat Appl) x x1) (THead (Flat Appl) x2 x5)) \to \forall (P: (Prop)).P))).H11 (THead (Flat Appl) x2 x4) H28 (pr3_head_12 c x x2 (pr3_pr2 c x x2 H18) (Flat Appl) x0 x4 (pr3_pr2 (CHead c (Flat Appl) x2) x0 x4 (pr2_cflat c x0 x4 H24 Appl x2))) x2 x4 (refl_equal T (THead (Flat Appl) x2 x4)) x5 (H10 (THead (Flat Appl) x2 x5) H30 (pr3_head_12 c x x2 (pr3_pr2 c x x2 H18) (Flat Appl) x1 x5 (pr3_pr2 (CHead c (Flat Appl) x2) x1 x5 (pr2_cflat c x1 x5 H25 Appl x2))))) H29) H27) x3 H23) H22) (\lambda (H22: (pr2 c x1 x3)).let H_x \def term_dec (THead (Flat Appl) x x1) (THead (Flat Appl) x2 x3) in let H23 \def H_x in or_ind (eq T (THead (Flat Appl) x x1) (THead (Flat Appl) x2 x3)) ((eq T (THead (Flat Appl) x x1) (THead (Flat Appl) x2 x3)) \to \forall (P: (Prop)).P) (sn3 c (THead (Flat Appl) x2 x3)) (\lambda (H24: (eq T (THead (Flat Appl) x x1) (THead (Flat Appl) x2 x3))).let H25 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow x | (TLRef _) \Rightarrow x | (THead _ t _) \Rightarrow t]) (THead (Flat Appl) x x1) (THead (Flat Appl) x2 x3) H24 in (let H26 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow x1 | (TLRef _) \Rightarrow x1 | (THead _ _ t) \Rightarrow t]) (THead (Flat Appl) x x1) (THead (Flat Appl) x2 x3) H24 in \lambda (H27: (eq T x x2)).let H28 \def eq_ind_r T x3 (\lambda (t: T).pr2 c x1 t) H22 x1 H26 in let H29 \def eq_ind_r T x3 (\lambda (t: T).(eq T (THead (Flat Appl) x (THead (Flat Cast) x0 x1)) (THead (Flat Appl) x2 t)) \to \forall (P: (Prop)).P) H20 x1 H26 in eq_ind T x1 (\lambda (t3: T).sn3 c (THead (Flat Appl) x2 t3)) (let H30 \def eq_ind_r T x2 (\lambda (t: T).(eq T (THead (Flat Appl) x (THead (Flat Cast) x0 x1)) (THead (Flat Appl) t x1)) \to \forall (P: (Prop)).P) H29 x H27 in let H31 \def eq_ind_r T x2 (\lambda (t: T).pr2 c x t) H18 x H27 in eq_ind T x (\lambda (t3: T).sn3 c (THead (Flat Appl) t3 x1)) (sn3_sing c (THead (Flat Appl) x x1) H10) x2 H27) x3 H26) H25) (\lambda (H24: (((eq T (THead (Flat Appl) x x1) (THead (Flat Appl) x2 x3)) \to \forall (P: (Prop)).P))).H10 (THead (Flat Appl) x2 x3) H24 (pr3_head_12 c x x2 (pr3_pr2 c x x2 H18) (Flat Appl) x1 x3 (pr3_pr2 (CHead c (Flat Appl) x2) x1 x3 (pr2_cflat c x1 x3 H22 Appl x2)))) H23) H21) t2 H17) H16) (\lambda (H16: (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Flat Cast) x0 x1) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c x u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t2))).ex4_4_ind T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Flat Cast) x0 x1) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t3: T).eq T t2 (THead (Bind Abbr) u2 t3)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c x u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr2 (CHead c (Bind b) u0) z1 t3) (sn3 c t2) (\lambda (x2: T).\lambda (x3: T).\lambda (x4: T).\lambda (x5: T).\lambda (H17: (eq T (THead (Flat Cast) x0 x1) (THead (Bind Abst) x2 x3))).\lambda (H18: (eq T t2 (THead (Bind Abbr) x4 x5))).\lambda (_: (pr2 c x x4)).\lambda (_: ((\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) x3 x5))).let H21 \def eq_ind T t2 (\lambda (t: T).(eq T (THead (Flat Appl) x (THead (Flat Cast) x0 x1)) t) \to \forall (P: (Prop)).P) H13 (THead (Bind Abbr) x4 x5) H18 in eq_ind_r T (THead (Bind Abbr) x4 x5) (\lambda (t3: T).sn3 c t3) (let H22 \def eq_ind T (THead (Flat Cast) x0 x1) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind Abst) x2 x3) H17 in False_ind (sn3 c (THead (Bind Abbr) x4 x5)) H22) t2 H18) H16) (\lambda (H16: (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Flat Cast) x0 x1) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T t2 (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c x u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))).ex6_6_ind B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Flat Cast) x0 x1) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T t2 (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c x u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2) (sn3 c t2) (\lambda (x2: B).\lambda (x3: T).\lambda (x4: T).\lambda (x5: T).\lambda (x6: T).\lambda (x7: T).\lambda (_: (not (eq B x2 Abst))).\lambda (H18: (eq T (THead (Flat Cast) x0 x1) (THead (Bind x2) x3 x4))).\lambda (H19: (eq T t2 (THead (Bind x2) x7 (THead (Flat Appl) (lift (S O) O x6) x5)))).\lambda (_: (pr2 c x x6)).\lambda (_: (pr2 c x3 x7)).\lambda (_: (pr2 (CHead c (Bind x2) x7) x4 x5)).let H23 \def eq_ind T t2 (\lambda (t: T).(eq T (THead (Flat Appl) x (THead (Flat Cast) x0 x1)) t) \to \forall (P: (Prop)).P) H13 (THead (Bind x2) x7 (THead (Flat Appl) (lift (S O) O x6) x5)) H19 in eq_ind_r T (THead (Bind x2) x7 (THead (Flat Appl) (lift (S O) O x6) x5)) (\lambda (t3: T).sn3 c t3) (let H24 \def eq_ind T (THead (Flat Cast) x0 x1) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind x2) x3 x4) H18 in False_ind (sn3 c (THead (Bind x2) x7 (THead (Flat Appl) (lift (S O) O x6) x5))) H24) t2 H19) H16) H15)) y0 H5)) H4) y H0))) H.
+
+theorem sn3_appl_appl: \forall (v1: T).\forall (t1: T).let u1 \def THead (Flat Appl) v1 t1 in \forall (c: C).(sn3 c u1) \to \forall (v2: T).(sn3 c v2) \to ((\forall (u2: T).(pr3 c u1 u2) \to (((iso u1 u2) \to \forall (P: (Prop)).P)) \to sn3 c (THead (Flat Appl) v2 u2))) \to sn3 c (THead (Flat Appl) v2 u1) \def \lambda (v1: T).\lambda (t1: T).let u1 \def THead (Flat Appl) v1 t1 in \lambda (c: C).\lambda (H: (sn3 c (THead (Flat Appl) v1 t1))).insert_eq T (THead (Flat Appl) v1 t1) (\lambda (t: T).sn3 c t) (\forall (v2: T).(sn3 c v2) \to ((\forall (u2: T).(pr3 c (THead (Flat Appl) v1 t1) u2) \to (((iso (THead (Flat Appl) v1 t1) u2) \to \forall (P: (Prop)).P)) \to sn3 c (THead (Flat Appl) v2 u2))) \to sn3 c (THead (Flat Appl) v2 (THead (Flat Appl) v1 t1))) (\lambda (y: T).\lambda (H0: (sn3 c y)).unintro T t1 (\lambda (t: T).(eq T y (THead (Flat Appl) v1 t)) \to \forall (v2: T).(sn3 c v2) \to ((\forall (u2: T).(pr3 c (THead (Flat Appl) v1 t) u2) \to (((iso (THead (Flat Appl) v1 t) u2) \to \forall (P: (Prop)).P)) \to sn3 c (THead (Flat Appl) v2 u2))) \to sn3 c (THead (Flat Appl) v2 (THead (Flat Appl) v1 t))) (unintro T v1 (\lambda (t: T).\forall (x: T).(eq T y (THead (Flat Appl) t x)) \to \forall (v2: T).(sn3 c v2) \to ((\forall (u2: T).(pr3 c (THead (Flat Appl) t x) u2) \to (((iso (THead (Flat Appl) t x) u2) \to \forall (P: (Prop)).P)) \to sn3 c (THead (Flat Appl) v2 u2))) \to sn3 c (THead (Flat Appl) v2 (THead (Flat Appl) t x))) (sn3_ind c (\lambda (t: T).\forall (x: T).\forall (x0: T).(eq T t (THead (Flat Appl) x x0)) \to \forall (v2: T).(sn3 c v2) \to ((\forall (u2: T).(pr3 c (THead (Flat Appl) x x0) u2) \to (((iso (THead (Flat Appl) x x0) u2) \to \forall (P: (Prop)).P)) \to sn3 c (THead (Flat Appl) v2 u2))) \to sn3 c (THead (Flat Appl) v2 (THead (Flat Appl) x x0))) (\lambda (t2: T).\lambda (H1: ((\forall (t3: T).(((eq T t2 t3) \to \forall (P: (Prop)).P)) \to (pr3 c t2 t3) \to sn3 c t3))).\lambda (H2: ((\forall (t3: T).(((eq T t2 t3) \to \forall (P: (Prop)).P)) \to (pr3 c t2 t3) \to \forall (x: T).\forall (x0: T).(eq T t3 (THead (Flat Appl) x x0)) \to \forall (v2: T).(sn3 c v2) \to ((\forall (u2: T).(pr3 c (THead (Flat Appl) x x0) u2) \to (((iso (THead (Flat Appl) x x0) u2) \to \forall (P: (Prop)).P)) \to sn3 c (THead (Flat Appl) v2 u2))) \to sn3 c (THead (Flat Appl) v2 (THead (Flat Appl) x x0))))).\lambda (x: T).\lambda (x0: T).\lambda (H3: (eq T t2 (THead (Flat Appl) x x0))).\lambda (v2: T).\lambda (H4: (sn3 c v2)).sn3_ind c (\lambda (t: T).((\forall (u2: T).(pr3 c (THead (Flat Appl) x x0) u2) \to (((iso (THead (Flat Appl) x x0) u2) \to \forall (P: (Prop)).P)) \to sn3 c (THead (Flat Appl) t u2))) \to sn3 c (THead (Flat Appl) t (THead (Flat Appl) x x0))) (\lambda (t0: T).\lambda (H5: ((\forall (t2: T).(((eq T t0 t2) \to \forall (P: (Prop)).P)) \to (pr3 c t0 t2) \to sn3 c t2))).\lambda (H6: ((\forall (t2: T).(((eq T t0 t2) \to \forall (P: (Prop)).P)) \to (pr3 c t0 t2) \to ((\forall (u2: T).(pr3 c (THead (Flat Appl) x x0) u2) \to (((iso (THead (Flat Appl) x x0) u2) \to \forall (P: (Prop)).P)) \to sn3 c (THead (Flat Appl) t2 u2))) \to sn3 c (THead (Flat Appl) t2 (THead (Flat Appl) x x0))))).\lambda (H7: ((\forall (u2: T).(pr3 c (THead (Flat Appl) x x0) u2) \to (((iso (THead (Flat Appl) x x0) u2) \to \forall (P: (Prop)).P)) \to sn3 c (THead (Flat Appl) t0 u2)))).let H8 \def eq_ind T t2 (\lambda (t: T).\forall (t2: T).(((eq T t t2) \to \forall (P: (Prop)).P)) \to (pr3 c t t2) \to \forall (x: T).\forall (x0: T).(eq T t2 (THead (Flat Appl) x x0)) \to \forall (v2: T).(sn3 c v2) \to ((\forall (u2: T).(pr3 c (THead (Flat Appl) x x0) u2) \to (((iso (THead (Flat Appl) x x0) u2) \to \forall (P: (Prop)).P)) \to sn3 c (THead (Flat Appl) v2 u2))) \to sn3 c (THead (Flat Appl) v2 (THead (Flat Appl) x x0))) H2 (THead (Flat Appl) x x0) H3 in let H9 \def eq_ind T t2 (\lambda (t: T).\forall (t2: T).(((eq T t t2) \to \forall (P: (Prop)).P)) \to (pr3 c t t2) \to sn3 c t2) H1 (THead (Flat Appl) x x0) H3 in sn3_pr2_intro c (THead (Flat Appl) t0 (THead (Flat Appl) x x0)) (\lambda (t3: T).\lambda (H10: (((eq T (THead (Flat Appl) t0 (THead (Flat Appl) x x0)) t3) \to \forall (P: (Prop)).P))).\lambda (H11: (pr2 c (THead (Flat Appl) t0 (THead (Flat Appl) x x0)) t3)).let H12 \def pr2_gen_appl c t0 (THead (Flat Appl) x x0) t3 H11 in or3_ind (ex3_2 T T (\lambda (u2: T).\lambda (t4: T).eq T t3 (THead (Flat Appl) u2 t4)) (\lambda (u2: T).\lambda (_: T).pr2 c t0 u2) (\lambda (_: T).\lambda (t4: T).pr2 c (THead (Flat Appl) x x0) t4)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Flat Appl) x x0) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t4: T).eq T t3 (THead (Bind Abbr) u2 t4)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c t0 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t4: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t4)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Flat Appl) x x0) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T t3 (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c t0 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2)) (sn3 c t3) (\lambda (H13: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t3 (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr2 c t0 u2) (\lambda (_: T).\lambda (t2: T).pr2 c (THead (Flat Appl) x x0) t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t4: T).eq T t3 (THead (Flat Appl) u2 t4)) (\lambda (u2: T).\lambda (_: T).pr2 c t0 u2) (\lambda (_: T).\lambda (t4: T).pr2 c (THead (Flat Appl) x x0) t4) (sn3 c t3) (\lambda (x1: T).\lambda (x2: T).\lambda (H14: (eq T t3 (THead (Flat Appl) x1 x2))).\lambda (H15: (pr2 c t0 x1)).\lambda (H16: (pr2 c (THead (Flat Appl) x x0) x2)).let H17 \def eq_ind T t3 (\lambda (t: T).(eq T (THead (Flat Appl) t0 (THead (Flat Appl) x x0)) t) \to \forall (P: (Prop)).P) H10 (THead (Flat Appl) x1 x2) H14 in eq_ind_r T (THead (Flat Appl) x1 x2) (\lambda (t: T).sn3 c t) (let H18 \def pr2_gen_appl c x x0 x2 H16 in or3_ind (ex3_2 T T (\lambda (u2: T).\lambda (t4: T).eq T x2 (THead (Flat Appl) u2 t4)) (\lambda (u2: T).\lambda (_: T).pr2 c x u2) (\lambda (_: T).\lambda (t4: T).pr2 c x0 t4)) (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T x0 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t4: T).eq T x2 (THead (Bind Abbr) u2 t4)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c x u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t4: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t4)) (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T x0 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x2 (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c x u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2)) (sn3 c (THead (Flat Appl) x1 x2)) (\lambda (H19: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x2 (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr2 c x u2) (\lambda (_: T).\lambda (t2: T).pr2 c x0 t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t4: T).eq T x2 (THead (Flat Appl) u2 t4)) (\lambda (u2: T).\lambda (_: T).pr2 c x u2) (\lambda (_: T).\lambda (t4: T).pr2 c x0 t4) (sn3 c (THead (Flat Appl) x1 x2)) (\lambda (x3: T).\lambda (x4: T).\lambda (H20: (eq T x2 (THead (Flat Appl) x3 x4))).\lambda (H21: (pr2 c x x3)).\lambda (H22: (pr2 c x0 x4)).let H23 \def eq_ind T x2 (\lambda (t: T).(eq T (THead (Flat Appl) t0 (THead (Flat Appl) x x0)) (THead (Flat Appl) x1 t)) \to \forall (P: (Prop)).P) H17 (THead (Flat Appl) x3 x4) H20 in eq_ind_r T (THead (Flat Appl) x3 x4) (\lambda (t: T).sn3 c (THead (Flat Appl) x1 t)) (let H_x \def term_dec (THead (Flat Appl) x x0) (THead (Flat Appl) x3 x4) in let H24 \def H_x in or_ind (eq T (THead (Flat Appl) x x0) (THead (Flat Appl) x3 x4)) ((eq T (THead (Flat Appl) x x0) (THead (Flat Appl) x3 x4)) \to \forall (P: (Prop)).P) (sn3 c (THead (Flat Appl) x1 (THead (Flat Appl) x3 x4))) (\lambda (H25: (eq T (THead (Flat Appl) x x0) (THead (Flat Appl) x3 x4))).let H26 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow x | (TLRef _) \Rightarrow x | (THead _ t _) \Rightarrow t]) (THead (Flat Appl) x x0) (THead (Flat Appl) x3 x4) H25 in (let H27 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow x0 | (TLRef _) \Rightarrow x0 | (THead _ _ t) \Rightarrow t]) (THead (Flat Appl) x x0) (THead (Flat Appl) x3 x4) H25 in \lambda (H28: (eq T x x3)).let H29 \def eq_ind_r T x4 (\lambda (t: T).(eq T (THead (Flat Appl) t0 (THead (Flat Appl) x x0)) (THead (Flat Appl) x1 (THead (Flat Appl) x3 t))) \to \forall (P: (Prop)).P) H23 x0 H27 in let H30 \def eq_ind_r T x4 (\lambda (t: T).pr2 c x0 t) H22 x0 H27 in eq_ind T x0 (\lambda (t: T).sn3 c (THead (Flat Appl) x1 (THead (Flat Appl) x3 t))) (let H31 \def eq_ind_r T x3 (\lambda (t: T).(eq T (THead (Flat Appl) t0 (THead (Flat Appl) x x0)) (THead (Flat Appl) x1 (THead (Flat Appl) t x0))) \to \forall (P: (Prop)).P) H29 x H28 in let H32 \def eq_ind_r T x3 (\lambda (t: T).pr2 c x t) H21 x H28 in eq_ind T x (\lambda (t: T).sn3 c (THead (Flat Appl) x1 (THead (Flat Appl) t x0))) (let H_x0 \def term_dec t0 x1 in let H33 \def H_x0 in or_ind (eq T t0 x1) ((eq T t0 x1) \to \forall (P: (Prop)).P) (sn3 c (THead (Flat Appl) x1 (THead (Flat Appl) x x0))) (\lambda (H34: (eq T t0 x1)).let H35 \def eq_ind_r T x1 (\lambda (t: T).(eq T (THead (Flat Appl) t0 (THead (Flat Appl) x x0)) (THead (Flat Appl) t (THead (Flat Appl) x x0))) \to \forall (P: (Prop)).P) H31 t0 H34 in let H36 \def eq_ind_r T x1 (\lambda (t: T).pr2 c t0 t) H15 t0 H34 in eq_ind T t0 (\lambda (t: T).sn3 c (THead (Flat Appl) t (THead (Flat Appl) x x0))) (H35 (refl_equal T (THead (Flat Appl) t0 (THead (Flat Appl) x x0))) (sn3 c (THead (Flat Appl) t0 (THead (Flat Appl) x x0)))) x1 H34) (\lambda (H34: (((eq T t0 x1) \to \forall (P: (Prop)).P))).H6 x1 H34 (pr3_pr2 c t0 x1 H15) (\lambda (u2: T).\lambda (H35: (pr3 c (THead (Flat Appl) x x0) u2)).\lambda (H36: (((iso (THead (Flat Appl) x x0) u2) \to \forall (P: (Prop)).P))).sn3_pr3_trans c (THead (Flat Appl) t0 u2) (H7 u2 H35 H36) (THead (Flat Appl) x1 u2) (pr3_pr2 c (THead (Flat Appl) t0 u2) (THead (Flat Appl) x1 u2) (pr2_head_1 c t0 x1 H15 (Flat Appl) u2)))) H33) x3 H28) x4 H27) H26) (\lambda (H25: (((eq T (THead (Flat Appl) x x0) (THead (Flat Appl) x3 x4)) \to \forall (P: (Prop)).P))).H8 (THead (Flat Appl) x3 x4) H25 (pr3_head_12 c x x3 (pr3_pr2 c x x3 H21) (Flat Appl) x0 x4 (pr3_pr2 (CHead c (Flat Appl) x3) x0 x4 (pr2_cflat c x0 x4 H22 Appl x3))) x3 x4 (refl_equal T (THead (Flat Appl) x3 x4)) x1 (sn3_pr3_trans c t0 (sn3_sing c t0 H5) x1 (pr3_pr2 c t0 x1 H15)) (\lambda (u2: T).\lambda (H26: (pr3 c (THead (Flat Appl) x3 x4) u2)).\lambda (H27: (((iso (THead (Flat Appl) x3 x4) u2) \to \forall (P: (Prop)).P))).sn3_pr3_trans c (THead (Flat Appl) t0 u2) (H7 u2 (pr3_sing c (THead (Flat Appl) x x4) (THead (Flat Appl) x x0) (pr2_thin_dx c x0 x4 H22 x Appl) u2 (pr3_sing c (THead (Flat Appl) x3 x4) (THead (Flat Appl) x x4) (pr2_head_1 c x x3 H21 (Flat Appl) x4) u2 H26)) (\lambda (H28: (iso (THead (Flat Appl) x x0) u2)).\lambda (P: (Prop)).H27 (iso_trans (THead (Flat Appl) x3 x4) (THead (Flat Appl) x x0) (iso_head (Flat Appl) x3 x x4 x0) u2 H28) P)) (THead (Flat Appl) x1 u2) (pr3_pr2 c (THead (Flat Appl) t0 u2) (THead (Flat Appl) x1 u2) (pr2_head_1 c t0 x1 H15 (Flat Appl) u2)))) H24) x2 H20) H19) (\lambda (H19: (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T x0 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t2: T).eq T x2 (THead (Bind Abbr) u2 t2)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c x u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t2))).ex4_4_ind T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T x0 (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t4: T).eq T x2 (THead (Bind Abbr) u2 t4)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c x u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t4: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t4) (sn3 c (THead (Flat Appl) x1 x2)) (\lambda (x3: T).\lambda (x4: T).\lambda (x5: T).\lambda (x6: T).\lambda (H20: (eq T x0 (THead (Bind Abst) x3 x4))).\lambda (H21: (eq T x2 (THead (Bind Abbr) x5 x6))).\lambda (H22: (pr2 c x x5)).\lambda (H23: ((\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) x4 x6))).let H24 \def eq_ind T x2 (\lambda (t: T).(eq T (THead (Flat Appl) t0 (THead (Flat Appl) x x0)) (THead (Flat Appl) x1 t)) \to \forall (P: (Prop)).P) H17 (THead (Bind Abbr) x5 x6) H21 in eq_ind_r T (THead (Bind Abbr) x5 x6) (\lambda (t: T).sn3 c (THead (Flat Appl) x1 t)) (let H25 \def eq_ind T x0 (\lambda (t: T).(eq T (THead (Flat Appl) t0 (THead (Flat Appl) x t)) (THead (Flat Appl) x1 (THead (Bind Abbr) x5 x6))) \to \forall (P: (Prop)).P) H24 (THead (Bind Abst) x3 x4) H20 in let H26 \def eq_ind T x0 (\lambda (t: T).\forall (t2: T).(((eq T (THead (Flat Appl) x t) t2) \to \forall (P: (Prop)).P)) \to (pr3 c (THead (Flat Appl) x t) t2) \to sn3 c t2) H9 (THead (Bind Abst) x3 x4) H20 in let H27 \def eq_ind T x0 (\lambda (t: T).\forall (t2: T).(((eq T (THead (Flat Appl) x t) t2) \to \forall (P: (Prop)).P)) \to (pr3 c (THead (Flat Appl) x t) t2) \to \forall (x: T).\forall (x0: T).(eq T t2 (THead (Flat Appl) x x0)) \to \forall (v2: T).(sn3 c v2) \to ((\forall (u2: T).(pr3 c (THead (Flat Appl) x x0) u2) \to (((iso (THead (Flat Appl) x x0) u2) \to \forall (P: (Prop)).P)) \to sn3 c (THead (Flat Appl) v2 u2))) \to sn3 c (THead (Flat Appl) v2 (THead (Flat Appl) x x0))) H8 (THead (Bind Abst) x3 x4) H20 in let H28 \def eq_ind T x0 (\lambda (t: T).\forall (u2: T).(pr3 c (THead (Flat Appl) x t) u2) \to (((iso (THead (Flat Appl) x t) u2) \to \forall (P: (Prop)).P)) \to sn3 c (THead (Flat Appl) t0 u2)) H7 (THead (Bind Abst) x3 x4) H20 in let H29 \def eq_ind T x0 (\lambda (t: T).\forall (t2: T).(((eq T t0 t2) \to \forall (P: (Prop)).P)) \to (pr3 c t0 t2) \to ((\forall (u2: T).(pr3 c (THead (Flat Appl) x t) u2) \to (((iso (THead (Flat Appl) x t) u2) \to \forall (P: (Prop)).P)) \to sn3 c (THead (Flat Appl) t2 u2))) \to sn3 c (THead (Flat Appl) t2 (THead (Flat Appl) x t))) H6 (THead (Bind Abst) x3 x4) H20 in sn3_pr3_trans c (THead (Flat Appl) t0 (THead (Bind Abbr) x5 x6)) (H28 (THead (Bind Abbr) x5 x6) (pr3_sing c (THead (Bind Abbr) x x4) (THead (Flat Appl) x (THead (Bind Abst) x3 x4)) (pr2_free c (THead (Flat Appl) x (THead (Bind Abst) x3 x4)) (THead (Bind Abbr) x x4) (pr0_beta x3 x x (pr0_refl x) x4 x4 (pr0_refl x4))) (THead (Bind Abbr) x5 x6) (pr3_head_12 c x x5 (pr3_pr2 c x x5 H22) (Bind Abbr) x4 x6 (pr3_pr2 (CHead c (Bind Abbr) x5) x4 x6 (H23 Abbr x5)))) (\lambda (H30: (iso (THead (Flat Appl) x (THead (Bind Abst) x3 x4)) (THead (Bind Abbr) x5 x6))).\lambda (P: (Prop)).let H31 \def match H30 return (\lambda (t: T).\lambda (t0: T).(eq T t (THead (Flat Appl) x (THead (Bind Abst) x3 x4))) \to (eq T t0 (THead (Bind Abbr) x5 x6)) \to P) with [(iso_sort n1 n2) \Rightarrow (\lambda (H0: (eq T (TSort n1) (THead (Flat Appl) x (THead (Bind Abst) x3 x4)))).\lambda (H1: (eq T (TSort n2) (THead (Bind Abbr) x5 x6))).(let H2 \def eq_ind T (TSort n1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow True | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow False]) I (THead (Flat Appl) x (THead (Bind Abst) x3 x4)) H0 in False_ind ((eq T (TSort n2) (THead (Bind Abbr) x5 x6)) \to P) H2) H1) | (iso_lref i1 i2) \Rightarrow (\lambda (H0: (eq T (TLRef i1) (THead (Flat Appl) x (THead (Bind Abst) x3 x4)))).\lambda (H1: (eq T (TLRef i2) (THead (Bind Abbr) x5 x6))).(let H2 \def eq_ind T (TLRef i1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Flat Appl) x (THead (Bind Abst) x3 x4)) H0 in False_ind ((eq T (TLRef i2) (THead (Bind Abbr) x5 x6)) \to P) H2) H1) | (iso_head k v4 v5 t1 t2) \Rightarrow (\lambda (H0: (eq T (THead k v4 t1) (THead (Flat Appl) x (THead (Bind Abst) x3 x4)))).\lambda (H1: (eq T (THead k v5 t2) (THead (Bind Abbr) x5 x6))).(let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t1 | (TLRef _) \Rightarrow t1 | (THead _ _ t) \Rightarrow t]) (THead k v4 t1) (THead (Flat Appl) x (THead (Bind Abst) x3 x4)) H0 in (let H3 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow v4 | (TLRef _) \Rightarrow v4 | (THead _ t _) \Rightarrow t]) (THead k v4 t1) (THead (Flat Appl) x (THead (Bind Abst) x3 x4)) H0 in (let H4 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k v4 t1) (THead (Flat Appl) x (THead (Bind Abst) x3 x4)) H0 in eq_ind K (Flat Appl) (\lambda (k0: K).(eq T v4 x) \to (eq T t1 (THead (Bind Abst) x3 x4)) \to (eq T (THead k0 v5 t2) (THead (Bind Abbr) x5 x6)) \to P) (\lambda (H5: (eq T v4 x)).eq_ind T x (\lambda (_: T).(eq T t1 (THead (Bind Abst) x3 x4)) \to (eq T (THead (Flat Appl) v5 t2) (THead (Bind Abbr) x5 x6)) \to P) (\lambda (H6: (eq T t1 (THead (Bind Abst) x3 x4))).eq_ind T (THead (Bind Abst) x3 x4) (\lambda (_: T).(eq T (THead (Flat Appl) v5 t2) (THead (Bind Abbr) x5 x6)) \to P) (\lambda (H7: (eq T (THead (Flat Appl) v5 t2) (THead (Bind Abbr) x5 x6))).let H8 \def eq_ind T (THead (Flat Appl) v5 t2) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind Abbr) x5 x6) H7 in False_ind P H8) t1 (sym_eq T t1 (THead (Bind Abst) x3 x4) H6)) v4 (sym_eq T v4 x H5)) k (sym_eq K k (Flat Appl) H4)) H3) H2) H1)] in H31 (refl_equal T (THead (Flat Appl) x (THead (Bind Abst) x3 x4))) (refl_equal T (THead (Bind Abbr) x5 x6)))) (THead (Flat Appl) x1 (THead (Bind Abbr) x5 x6)) (pr3_pr2 c (THead (Flat Appl) t0 (THead (Bind Abbr) x5 x6)) (THead (Flat Appl) x1 (THead (Bind Abbr) x5 x6)) (pr2_head_1 c t0 x1 H15 (Flat Appl) (THead (Bind Abbr) x5 x6)))) x2 H21) H19) (\lambda (H19: (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T x0 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x2 (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c x u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))).ex6_6_ind B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T x0 (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T x2 (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c x u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2) (sn3 c (THead (Flat Appl) x1 x2)) (\lambda (x3: B).\lambda (x4: T).\lambda (x5: T).\lambda (x6: T).\lambda (x7: T).\lambda (x8: T).\lambda (H20: (not (eq B x3 Abst))).\lambda (H21: (eq T x0 (THead (Bind x3) x4 x5))).\lambda (H22: (eq T x2 (THead (Bind x3) x8 (THead (Flat Appl) (lift (S O) O x7) x6)))).\lambda (H23: (pr2 c x x7)).\lambda (H24: (pr2 c x4 x8)).\lambda (H25: (pr2 (CHead c (Bind x3) x8) x5 x6)).let H26 \def eq_ind T x2 (\lambda (t: T).(eq T (THead (Flat Appl) t0 (THead (Flat Appl) x x0)) (THead (Flat Appl) x1 t)) \to \forall (P: (Prop)).P) H17 (THead (Bind x3) x8 (THead (Flat Appl) (lift (S O) O x7) x6)) H22 in eq_ind_r T (THead (Bind x3) x8 (THead (Flat Appl) (lift (S O) O x7) x6)) (\lambda (t: T).sn3 c (THead (Flat Appl) x1 t)) (let H27 \def eq_ind T x0 (\lambda (t: T).(eq T (THead (Flat Appl) t0 (THead (Flat Appl) x t)) (THead (Flat Appl) x1 (THead (Bind x3) x8 (THead (Flat Appl) (lift (S O) O x7) x6)))) \to \forall (P: (Prop)).P) H26 (THead (Bind x3) x4 x5) H21 in let H28 \def eq_ind T x0 (\lambda (t: T).\forall (t2: T).(((eq T (THead (Flat Appl) x t) t2) \to \forall (P: (Prop)).P)) \to (pr3 c (THead (Flat Appl) x t) t2) \to sn3 c t2) H9 (THead (Bind x3) x4 x5) H21 in let H29 \def eq_ind T x0 (\lambda (t: T).\forall (t2: T).(((eq T (THead (Flat Appl) x t) t2) \to \forall (P: (Prop)).P)) \to (pr3 c (THead (Flat Appl) x t) t2) \to \forall (x: T).\forall (x0: T).(eq T t2 (THead (Flat Appl) x x0)) \to \forall (v2: T).(sn3 c v2) \to ((\forall (u2: T).(pr3 c (THead (Flat Appl) x x0) u2) \to (((iso (THead (Flat Appl) x x0) u2) \to \forall (P: (Prop)).P)) \to sn3 c (THead (Flat Appl) v2 u2))) \to sn3 c (THead (Flat Appl) v2 (THead (Flat Appl) x x0))) H8 (THead (Bind x3) x4 x5) H21 in let H30 \def eq_ind T x0 (\lambda (t: T).\forall (u2: T).(pr3 c (THead (Flat Appl) x t) u2) \to (((iso (THead (Flat Appl) x t) u2) \to \forall (P: (Prop)).P)) \to sn3 c (THead (Flat Appl) t0 u2)) H7 (THead (Bind x3) x4 x5) H21 in let H31 \def eq_ind T x0 (\lambda (t: T).\forall (t2: T).(((eq T t0 t2) \to \forall (P: (Prop)).P)) \to (pr3 c t0 t2) \to ((\forall (u2: T).(pr3 c (THead (Flat Appl) x t) u2) \to (((iso (THead (Flat Appl) x t) u2) \to \forall (P: (Prop)).P)) \to sn3 c (THead (Flat Appl) t2 u2))) \to sn3 c (THead (Flat Appl) t2 (THead (Flat Appl) x t))) H6 (THead (Bind x3) x4 x5) H21 in sn3_pr3_trans c (THead (Flat Appl) t0 (THead (Bind x3) x8 (THead (Flat Appl) (lift (S O) O x7) x6))) (H30 (THead (Bind x3) x8 (THead (Flat Appl) (lift (S O) O x7) x6)) (pr3_sing c (THead (Bind x3) x4 (THead (Flat Appl) (lift (S O) O x) x5)) (THead (Flat Appl) x (THead (Bind x3) x4 x5)) (pr2_free c (THead (Flat Appl) x (THead (Bind x3) x4 x5)) (THead (Bind x3) x4 (THead (Flat Appl) (lift (S O) O x) x5)) (pr0_upsilon x3 H20 x x (pr0_refl x) x4 x4 (pr0_refl x4) x5 x5 (pr0_refl x5))) (THead (Bind x3) x8 (THead (Flat Appl) (lift (S O) O x7) x6)) (pr3_head_12 c x4 x8 (pr3_pr2 c x4 x8 H24) (Bind x3) (THead (Flat Appl) (lift (S O) O x) x5) (THead (Flat Appl) (lift (S O) O x7) x6) (pr3_head_12 (CHead c (Bind x3) x8) (lift (S O) O x) (lift (S O) O x7) (pr3_lift (CHead c (Bind x3) x8) c (S O) O (drop_drop (Bind x3) O c c (drop_refl c) x8) x x7 (pr3_pr2 c x x7 H23)) (Flat Appl) x5 x6 (pr3_pr2 (CHead (CHead c (Bind x3) x8) (Flat Appl) (lift (S O) O x7)) x5 x6 (pr2_cflat (CHead c (Bind x3) x8) x5 x6 H25 Appl (lift (S O) O x7)))))) (\lambda (H32: (iso (THead (Flat Appl) x (THead (Bind x3) x4 x5)) (THead (Bind x3) x8 (THead (Flat Appl) (lift (S O) O x7) x6)))).\lambda (P: (Prop)).let H33 \def match H32 return (\lambda (t: T).\lambda (t0: T).(eq T t (THead (Flat Appl) x (THead (Bind x3) x4 x5))) \to (eq T t0 (THead (Bind x3) x8 (THead (Flat Appl) (lift (S O) O x7) x6))) \to P) with [(iso_sort n1 n2) \Rightarrow (\lambda (H0: (eq T (TSort n1) (THead (Flat Appl) x (THead (Bind x3) x4 x5)))).\lambda (H1: (eq T (TSort n2) (THead (Bind x3) x8 (THead (Flat Appl) (lift (S O) O x7) x6)))).(let H2 \def eq_ind T (TSort n1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow True | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow False]) I (THead (Flat Appl) x (THead (Bind x3) x4 x5)) H0 in False_ind ((eq T (TSort n2) (THead (Bind x3) x8 (THead (Flat Appl) (lift (S O) O x7) x6))) \to P) H2) H1) | (iso_lref i1 i2) \Rightarrow (\lambda (H0: (eq T (TLRef i1) (THead (Flat Appl) x (THead (Bind x3) x4 x5)))).\lambda (H1: (eq T (TLRef i2) (THead (Bind x3) x8 (THead (Flat Appl) (lift (S O) O x7) x6)))).(let H2 \def eq_ind T (TLRef i1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Flat Appl) x (THead (Bind x3) x4 x5)) H0 in False_ind ((eq T (TLRef i2) (THead (Bind x3) x8 (THead (Flat Appl) (lift (S O) O x7) x6))) \to P) H2) H1) | (iso_head k v4 v5 t1 t2) \Rightarrow (\lambda (H0: (eq T (THead k v4 t1) (THead (Flat Appl) x (THead (Bind x3) x4 x5)))).\lambda (H1: (eq T (THead k v5 t2) (THead (Bind x3) x8 (THead (Flat Appl) (lift (S O) O x7) x6)))).(let H2 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t1 | (TLRef _) \Rightarrow t1 | (THead _ _ t) \Rightarrow t]) (THead k v4 t1) (THead (Flat Appl) x (THead (Bind x3) x4 x5)) H0 in (let H3 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow v4 | (TLRef _) \Rightarrow v4 | (THead _ t _) \Rightarrow t]) (THead k v4 t1) (THead (Flat Appl) x (THead (Bind x3) x4 x5)) H0 in (let H4 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k v4 t1) (THead (Flat Appl) x (THead (Bind x3) x4 x5)) H0 in eq_ind K (Flat Appl) (\lambda (k0: K).(eq T v4 x) \to (eq T t1 (THead (Bind x3) x4 x5)) \to (eq T (THead k0 v5 t2) (THead (Bind x3) x8 (THead (Flat Appl) (lift (S O) O x7) x6))) \to P) (\lambda (H5: (eq T v4 x)).eq_ind T x (\lambda (_: T).(eq T t1 (THead (Bind x3) x4 x5)) \to (eq T (THead (Flat Appl) v5 t2) (THead (Bind x3) x8 (THead (Flat Appl) (lift (S O) O x7) x6))) \to P) (\lambda (H6: (eq T t1 (THead (Bind x3) x4 x5))).eq_ind T (THead (Bind x3) x4 x5) (\lambda (_: T).(eq T (THead (Flat Appl) v5 t2) (THead (Bind x3) x8 (THead (Flat Appl) (lift (S O) O x7) x6))) \to P) (\lambda (H7: (eq T (THead (Flat Appl) v5 t2) (THead (Bind x3) x8 (THead (Flat Appl) (lift (S O) O x7) x6)))).let H8 \def eq_ind T (THead (Flat Appl) v5 t2) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind x3) x8 (THead (Flat Appl) (lift (S O) O x7) x6)) H7 in False_ind P H8) t1 (sym_eq T t1 (THead (Bind x3) x4 x5) H6)) v4 (sym_eq T v4 x H5)) k (sym_eq K k (Flat Appl) H4)) H3) H2) H1)] in H33 (refl_equal T (THead (Flat Appl) x (THead (Bind x3) x4 x5))) (refl_equal T (THead (Bind x3) x8 (THead (Flat Appl) (lift (S O) O x7) x6))))) (THead (Flat Appl) x1 (THead (Bind x3) x8 (THead (Flat Appl) (lift (S O) O x7) x6))) (pr3_pr2 c (THead (Flat Appl) t0 (THead (Bind x3) x8 (THead (Flat Appl) (lift (S O) O x7) x6))) (THead (Flat Appl) x1 (THead (Bind x3) x8 (THead (Flat Appl) (lift (S O) O x7) x6))) (pr2_head_1 c t0 x1 H15 (Flat Appl) (THead (Bind x3) x8 (THead (Flat Appl) (lift (S O) O x7) x6))))) x2 H22) H19) H18) t3 H14) H13) (\lambda (H13: (ex4_4 T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Flat Appl) x x0) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t2: T).eq T t3 (THead (Bind Abbr) u2 t2)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c t0 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t2))).ex4_4_ind T T T T (\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).eq T (THead (Flat Appl) x x0) (THead (Bind Abst) y1 z1)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (t4: T).eq T t3 (THead (Bind Abbr) u2 t4)) (\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c t0 u2) (\lambda (_: T).\lambda (z1: T).\lambda (_: T).\lambda (t4: T).\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) z1 t4) (sn3 c t3) (\lambda (x1: T).\lambda (x2: T).\lambda (x3: T).\lambda (x4: T).\lambda (H14: (eq T (THead (Flat Appl) x x0) (THead (Bind Abst) x1 x2))).\lambda (H15: (eq T t3 (THead (Bind Abbr) x3 x4))).\lambda (_: (pr2 c t0 x3)).\lambda (_: ((\forall (b: B).\forall (u: T).pr2 (CHead c (Bind b) u) x2 x4))).let H18 \def eq_ind T t3 (\lambda (t: T).(eq T (THead (Flat Appl) t0 (THead (Flat Appl) x x0)) t) \to \forall (P: (Prop)).P) H10 (THead (Bind Abbr) x3 x4) H15 in eq_ind_r T (THead (Bind Abbr) x3 x4) (\lambda (t: T).sn3 c t) (let H19 \def eq_ind T (THead (Flat Appl) x x0) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind Abst) x1 x2) H14 in False_ind (sn3 c (THead (Bind Abbr) x3 x4)) H19) t3 H15) H13) (\lambda (H13: (ex6_6 B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Flat Appl) x x0) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T t3 (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c t0 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2))).ex6_6_ind B T T T T T (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).not (eq B b Abst)) (\lambda (b: B).\lambda (y1: T).\lambda (z1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).eq T (THead (Flat Appl) x x0) (THead (Bind b) y1 z1)) (\lambda (b: B).\lambda (_: T).\lambda (_: T).\lambda (z2: T).\lambda (u2: T).\lambda (y2: T).eq T t3 (THead (Bind b) y2 (THead (Flat Appl) (lift (S O) O u2) z2))) (\lambda (_: B).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (u2: T).\lambda (_: T).pr2 c t0 u2) (\lambda (_: B).\lambda (y1: T).\lambda (_: T).\lambda (_: T).\lambda (_: T).\lambda (y2: T).pr2 c y1 y2) (\lambda (b: B).\lambda (_: T).\lambda (z1: T).\lambda (z2: T).\lambda (_: T).\lambda (y2: T).pr2 (CHead c (Bind b) y2) z1 z2) (sn3 c t3) (\lambda (x1: B).\lambda (x2: T).\lambda (x3: T).\lambda (x4: T).\lambda (x5: T).\lambda (x6: T).\lambda (_: (not (eq B x1 Abst))).\lambda (H15: (eq T (THead (Flat Appl) x x0) (THead (Bind x1) x2 x3))).\lambda (H16: (eq T t3 (THead (Bind x1) x6 (THead (Flat Appl) (lift (S O) O x5) x4)))).\lambda (_: (pr2 c t0 x5)).\lambda (_: (pr2 c x2 x6)).\lambda (_: (pr2 (CHead c (Bind x1) x6) x3 x4)).let H20 \def eq_ind T t3 (\lambda (t: T).(eq T (THead (Flat Appl) t0 (THead (Flat Appl) x x0)) t) \to \forall (P: (Prop)).P) H10 (THead (Bind x1) x6 (THead (Flat Appl) (lift (S O) O x5) x4)) H16 in eq_ind_r T (THead (Bind x1) x6 (THead (Flat Appl) (lift (S O) O x5) x4)) (\lambda (t: T).sn3 c t) (let H21 \def eq_ind T (THead (Flat Appl) x x0) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind x1) x2 x3) H15 in False_ind (sn3 c (THead (Bind x1) x6 (THead (Flat Appl) (lift (S O) O x5) x4))) H21) t3 H16) H13) H12)) v2 H4) y H0))) H.
+
+theorem sn3_appl_appls: \forall (v1: T).\forall (t1: T).\forall (vs: TList).let u1 \def THeads (Flat Appl) (TCons v1 vs) t1 in \forall (c: C).(sn3 c u1) \to \forall (v2: T).(sn3 c v2) \to ((\forall (u2: T).(pr3 c u1 u2) \to (((iso u1 u2) \to \forall (P: (Prop)).P)) \to sn3 c (THead (Flat Appl) v2 u2))) \to sn3 c (THead (Flat Appl) v2 u1) \def \lambda (v1: T).\lambda (t1: T).\lambda (vs: TList).let u1 \def THeads (Flat Appl) (TCons v1 vs) t1 in \lambda (c: C).\lambda (H: (sn3 c (THead (Flat Appl) v1 (THeads (Flat Appl) vs t1)))).\lambda (v2: T).\lambda (H0: (sn3 c v2)).\lambda (H1: ((\forall (u2: T).(pr3 c (THead (Flat Appl) v1 (THeads (Flat Appl) vs t1)) u2) \to (((iso (THead (Flat Appl) v1 (THeads (Flat Appl) vs t1)) u2) \to \forall (P: (Prop)).P)) \to sn3 c (THead (Flat Appl) v2 u2)))).sn3_appl_appl v1 (THeads (Flat Appl) vs t1) c H v2 H0 H1.
+
+theorem sn3_appls_lref: \forall (c: C).\forall (i: nat).(nf2 c (TLRef i)) \to \forall (us: TList).(sns3 c us) \to sn3 c (THeads (Flat Appl) us (TLRef i)) \def \lambda (c: C).\lambda (i: nat).\lambda (H: (nf2 c (TLRef i))).\lambda (us: TList).TList_ind (\lambda (t: TList).(sns3 c t) \to sn3 c (THeads (Flat Appl) t (TLRef i))) (\lambda (_: True).sn3_nf2 c (TLRef i) H) (\lambda (t: T).\lambda (t0: TList).TList_ind (\lambda (t1: TList).(((sns3 c t1) \to sn3 c (THeads (Flat Appl) t1 (TLRef i)))) \to (and (sn3 c t) (sns3 c t1)) \to sn3 c (THead (Flat Appl) t (THeads (Flat Appl) t1 (TLRef i)))) (\lambda (_: (((sns3 c TNil) \to sn3 c (THeads (Flat Appl) TNil (TLRef i))))).\lambda (H1: (and (sn3 c t) (sns3 c TNil))).let H2 \def H1 in and_ind (sn3 c t) True (sn3 c (THead (Flat Appl) t (THeads (Flat Appl) TNil (TLRef i)))) (\lambda (H3: (sn3 c t)).\lambda (_: True).sn3_appl_lref c i H t H3) H2) (\lambda (t1: T).\lambda (t2: TList).\lambda (_: (((((sns3 c t2) \to sn3 c (THeads (Flat Appl) t2 (TLRef i)))) \to (and (sn3 c t) (sns3 c t2)) \to sn3 c (THead (Flat Appl) t (THeads (Flat Appl) t2 (TLRef i)))))).\lambda (H1: (((sns3 c (TCons t1 t2)) \to sn3 c (THeads (Flat Appl) (TCons t1 t2) (TLRef i))))).\lambda (H2: (and (sn3 c t) (sns3 c (TCons t1 t2)))).let H3 \def H2 in and_ind (sn3 c t) (and (sn3 c t1) (sns3 c t2)) (sn3 c (THead (Flat Appl) t (THeads (Flat Appl) (TCons t1 t2) (TLRef i)))) (\lambda (H4: (sn3 c t)).\lambda (H5: (and (sn3 c t1) (sns3 c t2))).and_ind (sn3 c t1) (sns3 c t2) (sn3 c (THead (Flat Appl) t (THeads (Flat Appl) (TCons t1 t2) (TLRef i)))) (\lambda (H6: (sn3 c t1)).\lambda (H7: (sns3 c t2)).sn3_appl_appls t1 (TLRef i) t2 c (H1 (conj (sn3 c t1) (sns3 c t2) H6 H7)) t H4 (\lambda (u2: T).\lambda (H8: (pr3 c (THeads (Flat Appl) (TCons t1 t2) (TLRef i)) u2)).\lambda (H9: (((iso (THeads (Flat Appl) (TCons t1 t2) (TLRef i)) u2) \to \forall (P: (Prop)).P))).H9 (nf2_iso_appls_lref c i H (TCons t1 t2) u2 H8) (sn3 c (THead (Flat Appl) t u2)))) H5) H3) t0) us.
+
+theorem sn3_appls_cast: \forall (c: C).\forall (vs: TList).\forall (u: T).(sn3 c (THeads (Flat Appl) vs u)) \to \forall (t: T).(sn3 c (THeads (Flat Appl) vs t)) \to sn3 c (THeads (Flat Appl) vs (THead (Flat Cast) u t)) \def \lambda (c: C).\lambda (vs: TList).TList_ind (\lambda (t: TList).\forall (u: T).(sn3 c (THeads (Flat Appl) t u)) \to \forall (t0: T).(sn3 c (THeads (Flat Appl) t t0)) \to sn3 c (THeads (Flat Appl) t (THead (Flat Cast) u t0))) (\lambda (u: T).\lambda (H: (sn3 c u)).\lambda (t: T).\lambda (H0: (sn3 c t)).sn3_cast c u H t H0) (\lambda (t: T).\lambda (t0: TList).TList_ind (\lambda (t1: TList).((\forall (u: T).(sn3 c (THeads (Flat Appl) t1 u)) \to \forall (t: T).(sn3 c (THeads (Flat Appl) t1 t)) \to sn3 c (THeads (Flat Appl) t1 (THead (Flat Cast) u t)))) \to \forall (u: T).(sn3 c (THead (Flat Appl) t (THeads (Flat Appl) t1 u))) \to \forall (t2: T).(sn3 c (THead (Flat Appl) t (THeads (Flat Appl) t1 t2))) \to sn3 c (THead (Flat Appl) t (THeads (Flat Appl) t1 (THead (Flat Cast) u t2)))) (\lambda (_: ((\forall (u: T).(sn3 c (THeads (Flat Appl) TNil u)) \to \forall (t: T).(sn3 c (THeads (Flat Appl) TNil t)) \to sn3 c (THeads (Flat Appl) TNil (THead (Flat Cast) u t))))).\lambda (u: T).\lambda (H0: (sn3 c (THead (Flat Appl) t (THeads (Flat Appl) TNil u)))).\lambda (t1: T).\lambda (H1: (sn3 c (THead (Flat Appl) t (THeads (Flat Appl) TNil t1)))).sn3_appl_cast c t u H0 t1 H1) (\lambda (t1: T).\lambda (t2: TList).\lambda (_: ((((\forall (u: T).(sn3 c (THeads (Flat Appl) t2 u)) \to \forall (t: T).(sn3 c (THeads (Flat Appl) t2 t)) \to sn3 c (THeads (Flat Appl) t2 (THead (Flat Cast) u t)))) \to \forall (u: T).(sn3 c (THead (Flat Appl) t (THeads (Flat Appl) t2 u))) \to \forall (t0: T).(sn3 c (THead (Flat Appl) t (THeads (Flat Appl) t2 t0))) \to sn3 c (THead (Flat Appl) t (THeads (Flat Appl) t2 (THead (Flat Cast) u t0)))))).\lambda (H0: ((\forall (u: T).(sn3 c (THeads (Flat Appl) (TCons t1 t2) u)) \to \forall (t: T).(sn3 c (THeads (Flat Appl) (TCons t1 t2) t)) \to sn3 c (THeads (Flat Appl) (TCons t1 t2) (THead (Flat Cast) u t))))).\lambda (u: T).\lambda (H1: (sn3 c (THead (Flat Appl) t (THeads (Flat Appl) (TCons t1 t2) u)))).\lambda (t3: T).\lambda (H2: (sn3 c (THead (Flat Appl) t (THeads (Flat Appl) (TCons t1 t2) t3)))).let H3 \def sn3_gen_flat Appl c t (THeads (Flat Appl) (TCons t1 t2) t3) H2 in and_ind (sn3 c t) (sn3 c (THead (Flat Appl) t1 (THeads (Flat Appl) t2 t3))) (sn3 c (THead (Flat Appl) t (THeads (Flat Appl) (TCons t1 t2) (THead (Flat Cast) u t3)))) (\lambda (_: (sn3 c t)).\lambda (H5: (sn3 c (THead (Flat Appl) t1 (THeads (Flat Appl) t2 t3)))).let H6 \def H5 in let H7 \def sn3_gen_flat Appl c t (THeads (Flat Appl) (TCons t1 t2) u) H1 in and_ind (sn3 c t) (sn3 c (THead (Flat Appl) t1 (THeads (Flat Appl) t2 u))) (sn3 c (THead (Flat Appl) t (THeads (Flat Appl) (TCons t1 t2) (THead (Flat Cast) u t3)))) (\lambda (H8: (sn3 c t)).\lambda (H9: (sn3 c (THead (Flat Appl) t1 (THeads (Flat Appl) t2 u)))).let H10 \def H9 in sn3_appl_appls t1 (THead (Flat Cast) u t3) t2 c (H0 u H10 t3 H6) t H8 (\lambda (u2: T).\lambda (H11: (pr3 c (THeads (Flat Appl) (TCons t1 t2) (THead (Flat Cast) u t3)) u2)).\lambda (H12: (((iso (THeads (Flat Appl) (TCons t1 t2) (THead (Flat Cast) u t3)) u2) \to \forall (P: (Prop)).P))).sn3_pr3_trans c (THead (Flat Appl) t (THeads (Flat Appl) (TCons t1 t2) t3)) H2 (THead (Flat Appl) t u2) (pr3_thin_dx c (THeads (Flat Appl) (TCons t1 t2) t3) u2 (pr3_iso_appls_cast c u t3 (TCons t1 t2) u2 H11 H12) t Appl))) H7) H3) t0) vs.
+
+theorem sn3_lift: \forall (d: C).\forall (t: T).(sn3 d t) \to \forall (c: C).\forall (h: nat).\forall (i: nat).(drop h i c d) \to sn3 c (lift h i t) \def \lambda (d: C).\lambda (t: T).\lambda (H: (sn3 d t)).sn3_ind d (\lambda (t0: T).\forall (c: C).\forall (h: nat).\forall (i: nat).(drop h i c d) \to sn3 c (lift h i t0)) (\lambda (t1: T).\lambda (_: ((\forall (t2: T).(((eq T t1 t2) \to \forall (P: (Prop)).P)) \to (pr3 d t1 t2) \to sn3 d t2))).\lambda (H1: ((\forall (t2: T).(((eq T t1 t2) \to \forall (P: (Prop)).P)) \to (pr3 d t1 t2) \to \forall (c: C).\forall (h: nat).\forall (i: nat).(drop h i c d) \to sn3 c (lift h i t2)))).\lambda (c: C).\lambda (h: nat).\lambda (i: nat).\lambda (H2: (drop h i c d)).sn3_pr2_intro c (lift h i t1) (\lambda (t2: T).\lambda (H3: (((eq T (lift h i t1) t2) \to \forall (P: (Prop)).P))).\lambda (H4: (pr2 c (lift h i t1) t2)).let H5 \def pr2_gen_lift c t1 t2 h i H4 d H2 in ex2_ind T (\lambda (t3: T).eq T t2 (lift h i t3)) (\lambda (t3: T).pr2 d t1 t3) (sn3 c t2) (\lambda (x: T).\lambda (H6: (eq T t2 (lift h i x))).\lambda (H7: (pr2 d t1 x)).let H8 \def eq_ind T t2 (\lambda (t: T).(eq T (lift h i t1) t) \to \forall (P: (Prop)).P) H3 (lift h i x) H6 in eq_ind_r T (lift h i x) (\lambda (t0: T).sn3 c t0) (H1 x (\lambda (H9: (eq T t1 x)).\lambda (P: (Prop)).let H10 \def eq_ind_r T x (\lambda (t: T).(eq T (lift h i t1) (lift h i t)) \to \forall (P: (Prop)).P) H8 t1 H9 in let H11 \def eq_ind_r T x (\lambda (t: T).pr2 d t1 t) H7 t1 H9 in H10 (refl_equal T (lift h i t1)) P) (pr3_pr2 d t1 x H7) c h i H2) t2 H6) H5)) t H.
+
+theorem sn3_abbr: \forall (c: C).\forall (d: C).\forall (v: T).\forall (i: nat).(getl i c (CHead d (Bind Abbr) v)) \to (sn3 d v) \to sn3 c (TLRef i) \def \lambda (c: C).\lambda (d: C).\lambda (v: T).\lambda (i: nat).\lambda (H: (getl i c (CHead d (Bind Abbr) v))).\lambda (H0: (sn3 d v)).sn3_pr2_intro c (TLRef i) (\lambda (t2: T).\lambda (H1: (((eq T (TLRef i) t2) \to \forall (P: (Prop)).P))).\lambda (H2: (pr2 c (TLRef i) t2)).let H3 \def pr2_gen_lref c t2 i H2 in or_ind (eq T t2 (TLRef i)) (ex2_2 C T (\lambda (d0: C).\lambda (u: T).getl i c (CHead d0 (Bind Abbr) u)) (\lambda (_: C).\lambda (u: T).eq T t2 (lift (S i) O u))) (sn3 c t2) (\lambda (H4: (eq T t2 (TLRef i))).let H5 \def eq_ind T t2 (\lambda (t: T).(eq T (TLRef i) t) \to \forall (P: (Prop)).P) H1 (TLRef i) H4 in eq_ind_r T (TLRef i) (\lambda (t: T).sn3 c t) (H5 (refl_equal T (TLRef i)) (sn3 c (TLRef i))) t2 H4) (\lambda (H4: (ex2_2 C T (\lambda (d: C).\lambda (u: T).getl i c (CHead d (Bind Abbr) u)) (\lambda (_: C).\lambda (u: T).eq T t2 (lift (S i) O u)))).ex2_2_ind C T (\lambda (d0: C).\lambda (u: T).getl i c (CHead d0 (Bind Abbr) u)) (\lambda (_: C).\lambda (u: T).eq T t2 (lift (S i) O u)) (sn3 c t2) (\lambda (x0: C).\lambda (x1: T).\lambda (H5: (getl i c (CHead x0 (Bind Abbr) x1))).\lambda (H6: (eq T t2 (lift (S i) O x1))).let H7 \def eq_ind T t2 (\lambda (t: T).(eq T (TLRef i) t) \to \forall (P: (Prop)).P) H1 (lift (S i) O x1) H6 in eq_ind_r T (lift (S i) O x1) (\lambda (t: T).sn3 c t) (let H8 \def eq_ind C (CHead d (Bind Abbr) v) (\lambda (c0: C).getl i c c0) H (CHead x0 (Bind Abbr) x1) (getl_mono c (CHead d (Bind Abbr) v) i H (CHead x0 (Bind Abbr) x1) H5) in let H9 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) v) (CHead x0 (Bind Abbr) x1) (getl_mono c (CHead d (Bind Abbr) v) i H (CHead x0 (Bind Abbr) x1) H5) in (let H10 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow v | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) v) (CHead x0 (Bind Abbr) x1) (getl_mono c (CHead d (Bind Abbr) v) i H (CHead x0 (Bind Abbr) x1) H5) in \lambda (H11: (eq C d x0)).let H12 \def eq_ind_r T x1 (\lambda (t: T).getl i c (CHead x0 (Bind Abbr) t)) H8 v H10 in eq_ind T v (\lambda (t: T).sn3 c (lift (S i) O t)) (let H13 \def eq_ind_r C x0 (\lambda (c0: C).getl i c (CHead c0 (Bind Abbr) v)) H12 d H11 in sn3_lift d v H0 c (S i) O (getl_drop Abbr c d v i H13)) x1 H10) H9) t2 H6) H4) H3).
+
+theorem sns3_lifts: \forall (c: C).\forall (d: C).\forall (h: nat).\forall (i: nat).(drop h i c d) \to \forall (ts: TList).(sns3 d ts) \to sns3 c (lifts h i ts) \def \lambda (c: C).\lambda (d: C).\lambda (h: nat).\lambda (i: nat).\lambda (H: (drop h i c d)).\lambda (ts: TList).TList_ind (\lambda (t: TList).(sns3 d t) \to sns3 c (lifts h i t)) (\lambda (H0: True).H0) (\lambda (t: T).\lambda (t0: TList).\lambda (H0: (((sns3 d t0) \to sns3 c (lifts h i t0)))).\lambda (H1: (and (sn3 d t) (sns3 d t0))).let H2 \def H1 in and_ind (sn3 d t) (sns3 d t0) (and (sn3 c (lift h i t)) (sns3 c (lifts h i t0))) (\lambda (H3: (sn3 d t)).\lambda (H4: (sns3 d t0)).conj (sn3 c (lift h i t)) (sns3 c (lifts h i t0)) (sn3_lift d t H3 c h i H) (H0 H4)) H2) ts.
+
+theorem sns3_lifts1: \forall (e: C).\forall (hds: PList).\forall (c: C).(drop1 hds c e) \to \forall (ts: TList).(sns3 e ts) \to sns3 c (lifts1 hds ts) \def \lambda (e: C).\lambda (hds: PList).PList_ind (\lambda (p: PList).\forall (c: C).(drop1 p c e) \to \forall (ts: TList).(sns3 e ts) \to sns3 c (lifts1 p ts)) (\lambda (c: C).\lambda (H: (drop1 PNil c e)).\lambda (ts: TList).\lambda (H0: (sns3 e ts)).let H1 \def match H return (\lambda (p: PList).\lambda (c0: C).\lambda (c1: C).(eq PList p PNil) \to (eq C c0 c) \to (eq C c1 e) \to sns3 c (lifts1 PNil ts)) with [(drop1_nil c0) \Rightarrow (\lambda (_: (eq PList PNil PNil)).\lambda (H2: (eq C c0 c)).\lambda (H3: (eq C c0 e)).eq_ind C c (\lambda (c1: C).(eq C c1 e) \to sns3 c (lifts1 PNil ts)) (\lambda (H4: (eq C c e)).eq_ind C e (\lambda (c: C).sns3 c (lifts1 PNil ts)) (eq_ind_r TList ts (\lambda (t: TList).sns3 e t) H0 (lifts1 PNil ts) (lifts1_nil ts)) c (sym_eq C c e H4)) c0 (sym_eq C c0 c H2) H3) | (drop1_cons c1 c2 h d H1 c3 hds H2) \Rightarrow (\lambda (H3: (eq PList (PCons h d hds) PNil)).\lambda (H4: (eq C c1 c)).\lambda (H5: (eq C c3 e)).(let H6 \def eq_ind PList (PCons h d hds) (\lambda (e0: PList).match e0 return (Prop) with [PNil \Rightarrow False | (PCons _ _ _) \Rightarrow True]) I PNil H3 in False_ind ((eq C c1 c) \to (eq C c3 e) \to (drop h d c1 c2) \to (drop1 hds c2 c3) \to sns3 c (lifts1 PNil ts)) H6) H4 H5 H1 H2)] in H1 (refl_equal PList PNil) (refl_equal C c) (refl_equal C e)) (\lambda (n: nat).\lambda (n0: nat).\lambda (p: PList).\lambda (H: ((\forall (c: C).(drop1 p c e) \to \forall (ts: TList).(sns3 e ts) \to sns3 c (lifts1 p ts)))).\lambda (c: C).\lambda (H0: (drop1 (PCons n n0 p) c e)).\lambda (ts: TList).\lambda (H1: (sns3 e ts)).let H2 \def match H0 return (\lambda (p0: PList).\lambda (c0: C).\lambda (c1: C).(eq PList p0 (PCons n n0 p)) \to (eq C c0 c) \to (eq C c1 e) \to sns3 c (lifts1 (PCons n n0 p) ts)) with [(drop1_nil c0) \Rightarrow (\lambda (H2: (eq PList PNil (PCons n n0 p))).\lambda (H3: (eq C c0 c)).\lambda (H4: (eq C c0 e)).(let H5 \def eq_ind PList PNil (\lambda (e0: PList).match e0 return (Prop) with [PNil \Rightarrow True | (PCons _ _ _) \Rightarrow False]) I (PCons n n0 p) H2 in False_ind ((eq C c0 c) \to (eq C c0 e) \to sns3 c (lifts1 (PCons n n0 p) ts)) H5) H3 H4) | (drop1_cons c1 c2 h d H2 c3 hds H3) \Rightarrow (\lambda (H4: (eq PList (PCons h d hds) (PCons n n0 p))).\lambda (H5: (eq C c1 c)).\lambda (H6: (eq C c3 e)).(let H7 \def f_equal PList PList (\lambda (e0: PList).match e0 return PList with [PNil \Rightarrow hds | (PCons _ _ p) \Rightarrow p]) (PCons h d hds) (PCons n n0 p) H4 in (let H8 \def f_equal PList nat (\lambda (e0: PList).match e0 return nat with [PNil \Rightarrow d | (PCons _ n _) \Rightarrow n]) (PCons h d hds) (PCons n n0 p) H4 in (let H9 \def f_equal PList nat (\lambda (e0: PList).match e0 return nat with [PNil \Rightarrow h | (PCons n _ _) \Rightarrow n]) (PCons h d hds) (PCons n n0 p) H4 in eq_ind nat n (\lambda (n1: nat).(eq nat d n0) \to (eq PList hds p) \to (eq C c1 c) \to (eq C c3 e) \to (drop n1 d c1 c2) \to (drop1 hds c2 c3) \to sns3 c (lifts1 (PCons n n0 p) ts)) (\lambda (H10: (eq nat d n0)).eq_ind nat n0 (\lambda (n1: nat).(eq PList hds p) \to (eq C c1 c) \to (eq C c3 e) \to (drop n n1 c1 c2) \to (drop1 hds c2 c3) \to sns3 c (lifts1 (PCons n n0 p) ts)) (\lambda (H11: (eq PList hds p)).eq_ind PList p (\lambda (p0: PList).(eq C c1 c) \to (eq C c3 e) \to (drop n n0 c1 c2) \to (drop1 p0 c2 c3) \to sns3 c (lifts1 (PCons n n0 p) ts)) (\lambda (H12: (eq C c1 c)).eq_ind C c (\lambda (c0: C).(eq C c3 e) \to (drop n n0 c0 c2) \to (drop1 p c2 c3) \to sns3 c (lifts1 (PCons n n0 p) ts)) (\lambda (H13: (eq C c3 e)).eq_ind C e (\lambda (c0: C).(drop n n0 c c2) \to (drop1 p c2 c0) \to sns3 c (lifts1 (PCons n n0 p) ts)) (\lambda (H14: (drop n n0 c c2)).\lambda (H15: (drop1 p c2 e)).eq_ind_r TList (lifts n n0 (lifts1 p ts)) (\lambda (t: TList).sns3 c t) (sns3_lifts c c2 n n0 H14 (lifts1 p ts) (H c2 H15 ts H1)) (lifts1 (PCons n n0 p) ts) (lifts1_cons n n0 p ts)) c3 (sym_eq C c3 e H13)) c1 (sym_eq C c1 c H12)) hds (sym_eq PList hds p H11)) d (sym_eq nat d n0 H10)) h (sym_eq nat h n H9)) H8) H7) H5 H6 H2 H3)] in H2 (refl_equal PList (PCons n n0 p)) (refl_equal C c) (refl_equal C e)) hds.
+
+theorem sn3_gen_lift: \forall (c1: C).\forall (t: T).\forall (h: nat).\forall (d: nat).(sn3 c1 (lift h d t)) \to \forall (c2: C).(drop h d c1 c2) \to sn3 c2 t \def \lambda (c1: C).\lambda (t: T).\lambda (h: nat).\lambda (d: nat).\lambda (H: (sn3 c1 (lift h d t))).insert_eq T (lift h d t) (\lambda (t0: T).sn3 c1 t0) (\forall (c2: C).(drop h d c1 c2) \to sn3 c2 t) (\lambda (y: T).\lambda (H0: (sn3 c1 y)).unintro T t (\lambda (t0: T).(eq T y (lift h d t0)) \to \forall (c2: C).(drop h d c1 c2) \to sn3 c2 t0) (sn3_ind c1 (\lambda (t0: T).\forall (x: T).(eq T t0 (lift h d x)) \to \forall (c2: C).(drop h d c1 c2) \to sn3 c2 x) (\lambda (t1: T).\lambda (H1: ((\forall (t2: T).(((eq T t1 t2) \to \forall (P: (Prop)).P)) \to (pr3 c1 t1 t2) \to sn3 c1 t2))).\lambda (H2: ((\forall (t2: T).(((eq T t1 t2) \to \forall (P: (Prop)).P)) \to (pr3 c1 t1 t2) \to \forall (x: T).(eq T t2 (lift h d x)) \to \forall (c2: C).(drop h d c1 c2) \to sn3 c2 x))).\lambda (x: T).\lambda (H3: (eq T t1 (lift h d x))).\lambda (c2: C).\lambda (H4: (drop h d c1 c2)).let H5 \def eq_ind T t1 (\lambda (t: T).\forall (t2: T).(((eq T t t2) \to \forall (P: (Prop)).P)) \to (pr3 c1 t t2) \to \forall (x: T).(eq T t2 (lift h d x)) \to \forall (c2: C).(drop h d c1 c2) \to sn3 c2 x) H2 (lift h d x) H3 in let H6 \def eq_ind T t1 (\lambda (t: T).\forall (t2: T).(((eq T t t2) \to \forall (P: (Prop)).P)) \to (pr3 c1 t t2) \to sn3 c1 t2) H1 (lift h d x) H3 in sn3_sing c2 x (\lambda (t2: T).\lambda (H7: (((eq T x t2) \to \forall (P: (Prop)).P))).\lambda (H8: (pr3 c2 x t2)).H5 (lift h d t2) (\lambda (H9: (eq T (lift h d x) (lift h d t2))).\lambda (P: (Prop)).let H10 \def eq_ind_r T t2 (\lambda (t: T).pr3 c2 x t) H8 x (lift_inj x t2 h d H9) in let H11 \def eq_ind_r T t2 (\lambda (t: T).(eq T x t) \to \forall (P: (Prop)).P) H7 x (lift_inj x t2 h d H9) in H11 (refl_equal T x) P) (pr3_lift c1 c2 h d H4 x t2 H8) t2 (refl_equal T (lift h d t2)) c2 H4)) y H0)) H.
+
+theorem sc3: G \to A \to C \to T \to Prop \def let rec (sc3: (\forall (g: G).\forall (a: A).C \to T \to Prop)) = (\lambda (g: G).\lambda (a: A).\lambda (c: C).\lambda (t: T).match a with [(ASort h n) \Rightarrow (and (arity g c t (ASort h n)) (sn3 c t)) | (AHead a1 a2) \Rightarrow (and (arity g c t (AHead a1 a2)) (\forall (d: C).\forall (w: T).(sc3 g a1 d w) \to \forall (is: PList).(drop1 is d c) \to sc3 g a2 d (THead (Flat Appl) w (lift1 is t))))]) in sc3.
+
+theorem sc3_arity_gen: \forall (g: G).\forall (c: C).\forall (t: T).\forall (a: A).(sc3 g a c t) \to arity g c t a \def \lambda (g: G).\lambda (c: C).\lambda (t: T).\lambda (a: A).A_ind (\lambda (a0: A).(sc3 g a0 c t) \to arity g c t a0) (\lambda (n: nat).\lambda (n0: nat).\lambda (H: (and (arity g c t (ASort n n0)) (sn3 c t))).let H0 \def H in and_ind (arity g c t (ASort n n0)) (sn3 c t) (arity g c t (ASort n n0)) (\lambda (H1: (arity g c t (ASort n n0))).\lambda (_: (sn3 c t)).H1) H0) (\lambda (a0: A).\lambda (_: (((sc3 g a0 c t) \to arity g c t a0))).\lambda (a1: A).\lambda (_: (((sc3 g a1 c t) \to arity g c t a1))).\lambda (H1: (and (arity g c t (AHead a0 a1)) (\forall (d: C).\forall (w: T).(sc3 g a0 d w) \to \forall (is: PList).(drop1 is d c) \to sc3 g a1 d (THead (Flat Appl) w (lift1 is t))))).let H2 \def H1 in and_ind (arity g c t (AHead a0 a1)) (\forall (d: C).\forall (w: T).(sc3 g a0 d w) \to \forall (is: PList).(drop1 is d c) \to sc3 g a1 d (THead (Flat Appl) w (lift1 is t))) (arity g c t (AHead a0 a1)) (\lambda (H3: (arity g c t (AHead a0 a1))).\lambda (_: ((\forall (d: C).\forall (w: T).(sc3 g a0 d w) \to \forall (is: PList).(drop1 is d c) \to sc3 g a1 d (THead (Flat Appl) w (lift1 is t))))).H3) H2) a.
+
+theorem sc3_repl: \forall (g: G).\forall (a1: A).\forall (c: C).\forall (t: T).(sc3 g a1 c t) \to \forall (a2: A).(leq g a1 a2) \to sc3 g a2 c t \def \lambda (g: G).\lambda (a1: A).llt_wf_ind (\lambda (a: A).\forall (c: C).\forall (t: T).(sc3 g a c t) \to \forall (a2: A).(leq g a a2) \to sc3 g a2 c t) (\lambda (a2: A).A_ind (\lambda (a: A).((\forall (a1: A).(llt a1 a) \to \forall (c: C).\forall (t: T).(sc3 g a1 c t) \to \forall (a2: A).(leq g a1 a2) \to sc3 g a2 c t)) \to \forall (c: C).\forall (t: T).(sc3 g a c t) \to \forall (a3: A).(leq g a a3) \to sc3 g a3 c t) (\lambda (n: nat).\lambda (n0: nat).\lambda (_: ((\forall (a1: A).(llt a1 (ASort n n0)) \to \forall (c: C).\forall (t: T).(sc3 g a1 c t) \to \forall (a2: A).(leq g a1 a2) \to sc3 g a2 c t))).\lambda (c: C).\lambda (t: T).\lambda (H0: (and (arity g c t (ASort n n0)) (sn3 c t))).\lambda (a3: A).\lambda (H1: (leq g (ASort n n0) a3)).let H2 \def H0 in and_ind (arity g c t (ASort n n0)) (sn3 c t) (sc3 g a3 c t) (\lambda (H3: (arity g c t (ASort n n0))).\lambda (H4: (sn3 c t)).let H_y \def arity_repl g c t (ASort n n0) H3 a3 H1 in let H_x \def leq_gen_sort g n n0 a3 H1 in let H5 \def H_x in ex2_3_ind nat nat nat (\lambda (n2: nat).\lambda (h2: nat).\lambda (_: nat).eq A a3 (ASort h2 n2)) (\lambda (n2: nat).\lambda (h2: nat).\lambda (k: nat).eq A (aplus g (ASort n n0) k) (aplus g (ASort h2 n2) k)) (sc3 g a3 c t) (\lambda (x0: nat).\lambda (x1: nat).\lambda (x2: nat).\lambda (H6: (eq A a3 (ASort x1 x0))).\lambda (_: (eq A (aplus g (ASort n n0) x2) (aplus g (ASort x1 x0) x2))).let H8 \def eq_ind A a3 (\lambda (a: A).arity g c t a) H_y (ASort x1 x0) H6 in eq_ind_r A (ASort x1 x0) (\lambda (a: A).sc3 g a c t) (conj (arity g c t (ASort x1 x0)) (sn3 c t) H8 H4) a3 H6) H5) H2) (\lambda (a: A).\lambda (_: ((((\forall (a1: A).(llt a1 a) \to \forall (c: C).\forall (t: T).(sc3 g a1 c t) \to \forall (a2: A).(leq g a1 a2) \to sc3 g a2 c t)) \to \forall (c: C).\forall (t: T).(sc3 g a c t) \to \forall (a2: A).(leq g a a2) \to sc3 g a2 c t))).\lambda (a0: A).\lambda (H0: ((((\forall (a1: A).(llt a1 a0) \to \forall (c: C).\forall (t: T).(sc3 g a1 c t) \to \forall (a2: A).(leq g a1 a2) \to sc3 g a2 c t)) \to \forall (c: C).\forall (t: T).(sc3 g a0 c t) \to \forall (a2: A).(leq g a0 a2) \to sc3 g a2 c t))).\lambda (H1: ((\forall (a1: A).(llt a1 (AHead a a0)) \to \forall (c: C).\forall (t: T).(sc3 g a1 c t) \to \forall (a2: A).(leq g a1 a2) \to sc3 g a2 c t))).\lambda (c: C).\lambda (t: T).\lambda (H2: (and (arity g c t (AHead a a0)) (\forall (d: C).\forall (w: T).(sc3 g a d w) \to \forall (is: PList).(drop1 is d c) \to sc3 g a0 d (THead (Flat Appl) w (lift1 is t))))).\lambda (a3: A).\lambda (H3: (leq g (AHead a a0) a3)).let H4 \def H2 in and_ind (arity g c t (AHead a a0)) (\forall (d: C).\forall (w: T).(sc3 g a d w) \to \forall (is: PList).(drop1 is d c) \to sc3 g a0 d (THead (Flat Appl) w (lift1 is t))) (sc3 g a3 c t) (\lambda (H5: (arity g c t (AHead a a0))).\lambda (H6: ((\forall (d: C).\forall (w: T).(sc3 g a d w) \to \forall (is: PList).(drop1 is d c) \to sc3 g a0 d (THead (Flat Appl) w (lift1 is t))))).let H_x \def leq_gen_head g a a0 a3 H3 in let H7 \def H_x in ex3_2_ind A A (\lambda (a4: A).\lambda (a5: A).eq A a3 (AHead a4 a5)) (\lambda (a4: A).\lambda (_: A).leq g a a4) (\lambda (_: A).\lambda (a5: A).leq g a0 a5) (sc3 g a3 c t) (\lambda (x0: A).\lambda (x1: A).\lambda (H8: (eq A a3 (AHead x0 x1))).\lambda (H9: (leq g a x0)).\lambda (H10: (leq g a0 x1)).eq_ind_r A (AHead x0 x1) (\lambda (a4: A).sc3 g a4 c t) (conj (arity g c t (AHead x0 x1)) (\forall (d: C).\forall (w: T).(sc3 g x0 d w) \to \forall (is: PList).(drop1 is d c) \to sc3 g x1 d (THead (Flat Appl) w (lift1 is t))) (arity_repl g c t (AHead a a0) H5 (AHead x0 x1) (leq_head g a x0 H9 a0 x1 H10)) (\lambda (d: C).\lambda (w: T).\lambda (H11: (sc3 g x0 d w)).\lambda (is: PList).\lambda (H12: (drop1 is d c)).H0 (\lambda (a4: A).\lambda (H13: (llt a4 a0)).\lambda (c0: C).\lambda (t0: T).\lambda (H14: (sc3 g a4 c0 t0)).\lambda (a5: A).\lambda (H15: (leq g a4 a5)).H1 a4 (llt_trans a4 a0 (AHead a a0) H13 (llt_head_dx a a0)) c0 t0 H14 a5 H15) d (THead (Flat Appl) w (lift1 is t)) (H6 d w (H1 x0 (llt_repl g a x0 H9 (AHead a a0) (llt_head_sx a a0)) d w H11 a (leq_sym g a x0 H9)) is H12) x1 H10)) a3 H8) H7) H4) a2) a1.
+
+theorem sc3_lift: \forall (g: G).\forall (a: A).\forall (e: C).\forall (t: T).(sc3 g a e t) \to \forall (c: C).\forall (h: nat).\forall (d: nat).(drop h d c e) \to sc3 g a c (lift h d t) \def \lambda (g: G).\lambda (a: A).A_ind (\lambda (a0: A).\forall (e: C).\forall (t: T).(sc3 g a0 e t) \to \forall (c: C).\forall (h: nat).\forall (d: nat).(drop h d c e) \to sc3 g a0 c (lift h d t)) (\lambda (n: nat).\lambda (n0: nat).\lambda (e: C).\lambda (t: T).\lambda (H: (and (arity g e t (ASort n n0)) (sn3 e t))).\lambda (c: C).\lambda (h: nat).\lambda (d: nat).\lambda (H0: (drop h d c e)).let H1 \def H in and_ind (arity g e t (ASort n n0)) (sn3 e t) (and (arity g c (lift h d t) (ASort n n0)) (sn3 c (lift h d t))) (\lambda (H2: (arity g e t (ASort n n0))).\lambda (H3: (sn3 e t)).conj (arity g c (lift h d t) (ASort n n0)) (sn3 c (lift h d t)) (arity_lift g e t (ASort n n0) H2 c h d H0) (sn3_lift e t H3 c h d H0)) H1) (\lambda (a0: A).\lambda (_: ((\forall (e: C).\forall (t: T).(sc3 g a0 e t) \to \forall (c: C).\forall (h: nat).\forall (d: nat).(drop h d c e) \to sc3 g a0 c (lift h d t)))).\lambda (a1: A).\lambda (_: ((\forall (e: C).\forall (t: T).(sc3 g a1 e t) \to \forall (c: C).\forall (h: nat).\forall (d: nat).(drop h d c e) \to sc3 g a1 c (lift h d t)))).\lambda (e: C).\lambda (t: T).\lambda (H1: (and (arity g e t (AHead a0 a1)) (\forall (d: C).\forall (w: T).(sc3 g a0 d w) \to \forall (is: PList).(drop1 is d e) \to sc3 g a1 d (THead (Flat Appl) w (lift1 is t))))).\lambda (c: C).\lambda (h: nat).\lambda (d: nat).\lambda (H2: (drop h d c e)).let H3 \def H1 in and_ind (arity g e t (AHead a0 a1)) (\forall (d0: C).\forall (w: T).(sc3 g a0 d0 w) \to \forall (is: PList).(drop1 is d0 e) \to sc3 g a1 d0 (THead (Flat Appl) w (lift1 is t))) (and (arity g c (lift h d t) (AHead a0 a1)) (\forall (d0: C).\forall (w: T).(sc3 g a0 d0 w) \to \forall (is: PList).(drop1 is d0 c) \to sc3 g a1 d0 (THead (Flat Appl) w (lift1 is (lift h d t))))) (\lambda (H4: (arity g e t (AHead a0 a1))).\lambda (H5: ((\forall (d: C).\forall (w: T).(sc3 g a0 d w) \to \forall (is: PList).(drop1 is d e) \to sc3 g a1 d (THead (Flat Appl) w (lift1 is t))))).conj (arity g c (lift h d t) (AHead a0 a1)) (\forall (d0: C).\forall (w: T).(sc3 g a0 d0 w) \to \forall (is: PList).(drop1 is d0 c) \to sc3 g a1 d0 (THead (Flat Appl) w (lift1 is (lift h d t)))) (arity_lift g e t (AHead a0 a1) H4 c h d H2) (\lambda (d0: C).\lambda (w: T).\lambda (H6: (sc3 g a0 d0 w)).\lambda (is: PList).\lambda (H7: (drop1 is d0 c)).let H_y \def H5 d0 w H6 (PConsTail is h d) in eq_ind T (lift1 (PConsTail is h d) t) (\lambda (t0: T).sc3 g a1 d0 (THead (Flat Appl) w t0)) (H_y (drop1_cons_tail c e h d H2 is d0 H7)) (lift1 is (lift h d t)) (lift1_cons_tail t h d is))) H3) a.
+
+theorem sc3_lift1: \forall (g: G).\forall (e: C).\forall (a: A).\forall (hds: PList).\forall (c: C).\forall (t: T).(sc3 g a e t) \to (drop1 hds c e) \to sc3 g a c (lift1 hds t) \def \lambda (g: G).\lambda (e: C).\lambda (a: A).\lambda (hds: PList).PList_ind (\lambda (p: PList).\forall (c: C).\forall (t: T).(sc3 g a e t) \to (drop1 p c e) \to sc3 g a c (lift1 p t)) (\lambda (c: C).\lambda (t: T).\lambda (H: (sc3 g a e t)).\lambda (H0: (drop1 PNil c e)).let H1 \def match H0 return (\lambda (p: PList).\lambda (c0: C).\lambda (c1: C).(eq PList p PNil) \to (eq C c0 c) \to (eq C c1 e) \to sc3 g a c t) with [(drop1_nil c0) \Rightarrow (\lambda (_: (eq PList PNil PNil)).\lambda (H2: (eq C c0 c)).\lambda (H3: (eq C c0 e)).eq_ind C c (\lambda (c1: C).(eq C c1 e) \to sc3 g a c t) (\lambda (H4: (eq C c e)).eq_ind C e (\lambda (c: C).sc3 g a c t) H c (sym_eq C c e H4)) c0 (sym_eq C c0 c H2) H3) | (drop1_cons c1 c2 h d H1 c3 hds H2) \Rightarrow (\lambda (H3: (eq PList (PCons h d hds) PNil)).\lambda (H4: (eq C c1 c)).\lambda (H5: (eq C c3 e)).(let H6 \def eq_ind PList (PCons h d hds) (\lambda (e0: PList).match e0 return (Prop) with [PNil \Rightarrow False | (PCons _ _ _) \Rightarrow True]) I PNil H3 in False_ind ((eq C c1 c) \to (eq C c3 e) \to (drop h d c1 c2) \to (drop1 hds c2 c3) \to sc3 g a c t) H6) H4 H5 H1 H2)] in H1 (refl_equal PList PNil) (refl_equal C c) (refl_equal C e)) (\lambda (n: nat).\lambda (n0: nat).\lambda (p: PList).\lambda (H: ((\forall (c: C).\forall (t: T).(sc3 g a e t) \to (drop1 p c e) \to sc3 g a c (lift1 p t)))).\lambda (c: C).\lambda (t: T).\lambda (H0: (sc3 g a e t)).\lambda (H1: (drop1 (PCons n n0 p) c e)).let H2 \def match H1 return (\lambda (p0: PList).\lambda (c0: C).\lambda (c1: C).(eq PList p0 (PCons n n0 p)) \to (eq C c0 c) \to (eq C c1 e) \to sc3 g a c (lift n n0 (lift1 p t))) with [(drop1_nil c0) \Rightarrow (\lambda (H2: (eq PList PNil (PCons n n0 p))).\lambda (H3: (eq C c0 c)).\lambda (H4: (eq C c0 e)).(let H5 \def eq_ind PList PNil (\lambda (e0: PList).match e0 return (Prop) with [PNil \Rightarrow True | (PCons _ _ _) \Rightarrow False]) I (PCons n n0 p) H2 in False_ind ((eq C c0 c) \to (eq C c0 e) \to sc3 g a c (lift n n0 (lift1 p t))) H5) H3 H4) | (drop1_cons c1 c2 h d H2 c3 hds H3) \Rightarrow (\lambda (H4: (eq PList (PCons h d hds) (PCons n n0 p))).\lambda (H5: (eq C c1 c)).\lambda (H6: (eq C c3 e)).(let H7 \def f_equal PList PList (\lambda (e0: PList).match e0 return PList with [PNil \Rightarrow hds | (PCons _ _ p) \Rightarrow p]) (PCons h d hds) (PCons n n0 p) H4 in (let H8 \def f_equal PList nat (\lambda (e0: PList).match e0 return nat with [PNil \Rightarrow d | (PCons _ n _) \Rightarrow n]) (PCons h d hds) (PCons n n0 p) H4 in (let H9 \def f_equal PList nat (\lambda (e0: PList).match e0 return nat with [PNil \Rightarrow h | (PCons n _ _) \Rightarrow n]) (PCons h d hds) (PCons n n0 p) H4 in eq_ind nat n (\lambda (n1: nat).(eq nat d n0) \to (eq PList hds p) \to (eq C c1 c) \to (eq C c3 e) \to (drop n1 d c1 c2) \to (drop1 hds c2 c3) \to sc3 g a c (lift n n0 (lift1 p t))) (\lambda (H10: (eq nat d n0)).eq_ind nat n0 (\lambda (n1: nat).(eq PList hds p) \to (eq C c1 c) \to (eq C c3 e) \to (drop n n1 c1 c2) \to (drop1 hds c2 c3) \to sc3 g a c (lift n n0 (lift1 p t))) (\lambda (H11: (eq PList hds p)).eq_ind PList p (\lambda (p0: PList).(eq C c1 c) \to (eq C c3 e) \to (drop n n0 c1 c2) \to (drop1 p0 c2 c3) \to sc3 g a c (lift n n0 (lift1 p t))) (\lambda (H12: (eq C c1 c)).eq_ind C c (\lambda (c0: C).(eq C c3 e) \to (drop n n0 c0 c2) \to (drop1 p c2 c3) \to sc3 g a c (lift n n0 (lift1 p t))) (\lambda (H13: (eq C c3 e)).eq_ind C e (\lambda (c0: C).(drop n n0 c c2) \to (drop1 p c2 c0) \to sc3 g a c (lift n n0 (lift1 p t))) (\lambda (H14: (drop n n0 c c2)).\lambda (H15: (drop1 p c2 e)).sc3_lift g a c2 (lift1 p t) (H c2 t H0 H15) c n n0 H14) c3 (sym_eq C c3 e H13)) c1 (sym_eq C c1 c H12)) hds (sym_eq PList hds p H11)) d (sym_eq nat d n0 H10)) h (sym_eq nat h n H9)) H8) H7) H5 H6 H2 H3)] in H2 (refl_equal PList (PCons n n0 p)) (refl_equal C c) (refl_equal C e)) hds.
+
+axiom sc3_abbr: \forall (g: G).\forall (a: A).\forall (vs: TList).\forall (i: nat).\forall (d: C).\forall (v: T).\forall (c: C).(sc3 g a c (THeads (Flat Appl) vs (lift (S i) O v))) \to (getl i c (CHead d (Bind Abbr) v)) \to sc3 g a c (THeads (Flat Appl) vs (TLRef i)) .
+
+theorem sc3_cast: \forall (g: G).\forall (a: A).\forall (vs: TList).\forall (c: C).\forall (u: T).(sc3 g (asucc g a) c (THeads (Flat Appl) vs u)) \to \forall (t: T).(sc3 g a c (THeads (Flat Appl) vs t)) \to sc3 g a c (THeads (Flat Appl) vs (THead (Flat Cast) u t)) \def \lambda (g: G).\lambda (a: A).A_ind (\lambda (a0: A).\forall (vs: TList).\forall (c: C).\forall (u: T).(sc3 g (asucc g a0) c (THeads (Flat Appl) vs u)) \to \forall (t: T).(sc3 g a0 c (THeads (Flat Appl) vs t)) \to sc3 g a0 c (THeads (Flat Appl) vs (THead (Flat Cast) u t))) (\lambda (n: nat).\lambda (n0: nat).\lambda (vs: TList).\lambda (c: C).\lambda (u: T).\lambda (H: (sc3 g (match n with [O \Rightarrow (ASort O (next g n0)) | (S h) \Rightarrow (ASort h n0)]) c (THeads (Flat Appl) vs u))).\lambda (t: T).\lambda (H0: (and (arity g c (THeads (Flat Appl) vs t) (ASort n n0)) (sn3 c (THeads (Flat Appl) vs t)))).(match n return (\lambda (n1: nat).(sc3 g (match n1 with [O \Rightarrow (ASort O (next g n0)) | (S h) \Rightarrow (ASort h n0)]) c (THeads (Flat Appl) vs u)) \to (and (arity g c (THeads (Flat Appl) vs t) (ASort n1 n0)) (sn3 c (THeads (Flat Appl) vs t))) \to and (arity g c (THeads (Flat Appl) vs (THead (Flat Cast) u t)) (ASort n1 n0)) (sn3 c (THeads (Flat Appl) vs (THead (Flat Cast) u t)))) with [O \Rightarrow (\lambda (H1: (sc3 g (ASort O (next g n0)) c (THeads (Flat Appl) vs u))).\lambda (H2: (and (arity g c (THeads (Flat Appl) vs t) (ASort O n0)) (sn3 c (THeads (Flat Appl) vs t)))).let H3 \def H1 in and_ind (arity g c (THeads (Flat Appl) vs u) (ASort O (next g n0))) (sn3 c (THeads (Flat Appl) vs u)) (and (arity g c (THeads (Flat Appl) vs (THead (Flat Cast) u t)) (ASort O n0)) (sn3 c (THeads (Flat Appl) vs (THead (Flat Cast) u t)))) (\lambda (H4: (arity g c (THeads (Flat Appl) vs u) (ASort O (next g n0)))).\lambda (H5: (sn3 c (THeads (Flat Appl) vs u))).let H6 \def H2 in and_ind (arity g c (THeads (Flat Appl) vs t) (ASort O n0)) (sn3 c (THeads (Flat Appl) vs t)) (and (arity g c (THeads (Flat Appl) vs (THead (Flat Cast) u t)) (ASort O n0)) (sn3 c (THeads (Flat Appl) vs (THead (Flat Cast) u t)))) (\lambda (H7: (arity g c (THeads (Flat Appl) vs t) (ASort O n0))).\lambda (H8: (sn3 c (THeads (Flat Appl) vs t))).conj (arity g c (THeads (Flat Appl) vs (THead (Flat Cast) u t)) (ASort O n0)) (sn3 c (THeads (Flat Appl) vs (THead (Flat Cast) u t))) (arity_appls_cast g c u t vs (ASort O n0) H4 H7) (sn3_appls_cast c vs u H5 t H8)) H6) H3) | (S n1) \Rightarrow (\lambda (H1: (sc3 g (ASort n1 n0) c (THeads (Flat Appl) vs u))).\lambda (H2: (and (arity g c (THeads (Flat Appl) vs t) (ASort (S n1) n0)) (sn3 c (THeads (Flat Appl) vs t)))).let H3 \def H1 in and_ind (arity g c (THeads (Flat Appl) vs u) (ASort n1 n0)) (sn3 c (THeads (Flat Appl) vs u)) (and (arity g c (THeads (Flat Appl) vs (THead (Flat Cast) u t)) (ASort (S n1) n0)) (sn3 c (THeads (Flat Appl) vs (THead (Flat Cast) u t)))) (\lambda (H4: (arity g c (THeads (Flat Appl) vs u) (ASort n1 n0))).\lambda (H5: (sn3 c (THeads (Flat Appl) vs u))).let H6 \def H2 in and_ind (arity g c (THeads (Flat Appl) vs t) (ASort (S n1) n0)) (sn3 c (THeads (Flat Appl) vs t)) (and (arity g c (THeads (Flat Appl) vs (THead (Flat Cast) u t)) (ASort (S n1) n0)) (sn3 c (THeads (Flat Appl) vs (THead (Flat Cast) u t)))) (\lambda (H7: (arity g c (THeads (Flat Appl) vs t) (ASort (S n1) n0))).\lambda (H8: (sn3 c (THeads (Flat Appl) vs t))).conj (arity g c (THeads (Flat Appl) vs (THead (Flat Cast) u t)) (ASort (S n1) n0)) (sn3 c (THeads (Flat Appl) vs (THead (Flat Cast) u t))) (arity_appls_cast g c u t vs (ASort (S n1) n0) H4 H7) (sn3_appls_cast c vs u H5 t H8)) H6) H3)]) H H0) (\lambda (a0: A).\lambda (_: ((\forall (vs: TList).\forall (c: C).\forall (u: T).(sc3 g (asucc g a0) c (THeads (Flat Appl) vs u)) \to \forall (t: T).(sc3 g a0 c (THeads (Flat Appl) vs t)) \to sc3 g a0 c (THeads (Flat Appl) vs (THead (Flat Cast) u t))))).\lambda (a1: A).\lambda (H0: ((\forall (vs: TList).\forall (c: C).\forall (u: T).(sc3 g (asucc g a1) c (THeads (Flat Appl) vs u)) \to \forall (t: T).(sc3 g a1 c (THeads (Flat Appl) vs t)) \to sc3 g a1 c (THeads (Flat Appl) vs (THead (Flat Cast) u t))))).\lambda (vs: TList).\lambda (c: C).\lambda (u: T).\lambda (H1: (and (arity g c (THeads (Flat Appl) vs u) (AHead a0 (asucc g a1))) (\forall (d: C).\forall (w: T).(sc3 g a0 d w) \to \forall (is: PList).(drop1 is d c) \to sc3 g (asucc g a1) d (THead (Flat Appl) w (lift1 is (THeads (Flat Appl) vs u)))))).\lambda (t: T).\lambda (H2: (and (arity g c (THeads (Flat Appl) vs t) (AHead a0 a1)) (\forall (d: C).\forall (w: T).(sc3 g a0 d w) \to \forall (is: PList).(drop1 is d c) \to sc3 g a1 d (THead (Flat Appl) w (lift1 is (THeads (Flat Appl) vs t)))))).let H3 \def H1 in and_ind (arity g c (THeads (Flat Appl) vs u) (AHead a0 (asucc g a1))) (\forall (d: C).\forall (w: T).(sc3 g a0 d w) \to \forall (is: PList).(drop1 is d c) \to sc3 g (asucc g a1) d (THead (Flat Appl) w (lift1 is (THeads (Flat Appl) vs u)))) (and (arity g c (THeads (Flat Appl) vs (THead (Flat Cast) u t)) (AHead a0 a1)) (\forall (d: C).\forall (w: T).(sc3 g a0 d w) \to \forall (is: PList).(drop1 is d c) \to sc3 g a1 d (THead (Flat Appl) w (lift1 is (THeads (Flat Appl) vs (THead (Flat Cast) u t)))))) (\lambda (H4: (arity g c (THeads (Flat Appl) vs u) (AHead a0 (asucc g a1)))).\lambda (H5: ((\forall (d: C).\forall (w: T).(sc3 g a0 d w) \to \forall (is: PList).(drop1 is d c) \to sc3 g (asucc g a1) d (THead (Flat Appl) w (lift1 is (THeads (Flat Appl) vs u)))))).let H6 \def H2 in and_ind (arity g c (THeads (Flat Appl) vs t) (AHead a0 a1)) (\forall (d: C).\forall (w: T).(sc3 g a0 d w) \to \forall (is: PList).(drop1 is d c) \to sc3 g a1 d (THead (Flat Appl) w (lift1 is (THeads (Flat Appl) vs t)))) (and (arity g c (THeads (Flat Appl) vs (THead (Flat Cast) u t)) (AHead a0 a1)) (\forall (d: C).\forall (w: T).(sc3 g a0 d w) \to \forall (is: PList).(drop1 is d c) \to sc3 g a1 d (THead (Flat Appl) w (lift1 is (THeads (Flat Appl) vs (THead (Flat Cast) u t)))))) (\lambda (H7: (arity g c (THeads (Flat Appl) vs t) (AHead a0 a1))).\lambda (H8: ((\forall (d: C).\forall (w: T).(sc3 g a0 d w) \to \forall (is: PList).(drop1 is d c) \to sc3 g a1 d (THead (Flat Appl) w (lift1 is (THeads (Flat Appl) vs t)))))).conj (arity g c (THeads (Flat Appl) vs (THead (Flat Cast) u t)) (AHead a0 a1)) (\forall (d: C).\forall (w: T).(sc3 g a0 d w) \to \forall (is: PList).(drop1 is d c) \to sc3 g a1 d (THead (Flat Appl) w (lift1 is (THeads (Flat Appl) vs (THead (Flat Cast) u t))))) (arity_appls_cast g c u t vs (AHead a0 a1) H4 H7) (\lambda (d: C).\lambda (w: T).\lambda (H9: (sc3 g a0 d w)).\lambda (is: PList).\lambda (H10: (drop1 is d c)).let H_y \def H0 (TCons w (lifts1 is vs)) in eq_ind_r T (THeads (Flat Appl) (lifts1 is vs) (lift1 is (THead (Flat Cast) u t))) (\lambda (t0: T).sc3 g a1 d (THead (Flat Appl) w t0)) (eq_ind_r T (THead (Flat Cast) (lift1 is u) (lift1 is t)) (\lambda (t0: T).sc3 g a1 d (THead (Flat Appl) w (THeads (Flat Appl) (lifts1 is vs) t0))) (H_y d (lift1 is u) (eq_ind T (lift1 is (THeads (Flat Appl) vs u)) (\lambda (t0: T).sc3 g (asucc g a1) d (THead (Flat Appl) w t0)) (H5 d w H9 is H10) (THeads (Flat Appl) (lifts1 is vs) (lift1 is u)) (lifts1_flat Appl is u vs)) (lift1 is t) (eq_ind T (lift1 is (THeads (Flat Appl) vs t)) (\lambda (t0: T).sc3 g a1 d (THead (Flat Appl) w t0)) (H8 d w H9 is H10) (THeads (Flat Appl) (lifts1 is vs) (lift1 is t)) (lifts1_flat Appl is t vs))) (lift1 is (THead (Flat Cast) u t)) (lift1_flat Cast is u t)) (lift1 is (THeads (Flat Appl) vs (THead (Flat Cast) u t))) (lifts1_flat Appl is (THead (Flat Cast) u t) vs))) H6) H3) a.
+
+axiom sc3_bind: \forall (g: G).\forall (b: B).(not (eq B b Abst)) \to \forall (a1: A).\forall (a2: A).\forall (vs: TList).\forall (c: C).\forall (v: T).\forall (t: T).(sc3 g a2 (CHead c (Bind b) v) (THeads (Flat Appl) (lifts (S O) O vs) t)) \to (sc3 g a1 c v) \to sc3 g a2 c (THeads (Flat Appl) vs (THead (Bind b) v t)) .
+
+axiom sc3_appl: \forall (g: G).\forall (a1: A).\forall (a2: A).\forall (vs: TList).\forall (c: C).\forall (v: T).\forall (t: T).(sc3 g a2 c (THeads (Flat Appl) vs (THead (Bind Abbr) v t))) \to (sc3 g a1 c v) \to \forall (w: T).(sc3 g (asucc g a1) c w) \to sc3 g a2 c (THeads (Flat Appl) vs (THead (Flat Appl) v (THead (Bind Abst) w t))) .
+
+theorem sc3_props.__sc3_sn3_abst: \forall (g: G).\forall (a: A).and (\forall (c: C).\forall (t: T).(sc3 g a c t) \to sn3 c t) (\forall (vs: TList).\forall (i: nat).let t \def THeads (Flat Appl) vs (TLRef i) in \forall (c: C).(arity g c t a) \to (nf2 c (TLRef i)) \to (sns3 c vs) \to sc3 g a c t) \def \lambda (g: G).\lambda (a: A).A_ind (\lambda (a0: A).and (\forall (c: C).\forall (t: T).(sc3 g a0 c t) \to sn3 c t) (\forall (vs: TList).\forall (i: nat).let t \def THeads (Flat Appl) vs (TLRef i) in \forall (c: C).(arity g c t a0) \to (nf2 c (TLRef i)) \to (sns3 c vs) \to sc3 g a0 c t)) (\lambda (n: nat).\lambda (n0: nat).conj (\forall (c: C).\forall (t: T).(and (arity g c t (ASort n n0)) (sn3 c t)) \to sn3 c t) (\forall (vs: TList).\forall (i: nat).\forall (c: C).(arity g c (THeads (Flat Appl) vs (TLRef i)) (ASort n n0)) \to (nf2 c (TLRef i)) \to (sns3 c vs) \to and (arity g c (THeads (Flat Appl) vs (TLRef i)) (ASort n n0)) (sn3 c (THeads (Flat Appl) vs (TLRef i)))) (\lambda (c: C).\lambda (t: T).\lambda (H: (and (arity g c t (ASort n n0)) (sn3 c t))).let H0 \def H in and_ind (arity g c t (ASort n n0)) (sn3 c t) (sn3 c t) (\lambda (_: (arity g c t (ASort n n0))).\lambda (H2: (sn3 c t)).H2) H0) (\lambda (vs: TList).\lambda (i: nat).\lambda (c: C).\lambda (H: (arity g c (THeads (Flat Appl) vs (TLRef i)) (ASort n n0))).\lambda (H0: (nf2 c (TLRef i))).\lambda (H1: (sns3 c vs)).conj (arity g c (THeads (Flat Appl) vs (TLRef i)) (ASort n n0)) (sn3 c (THeads (Flat Appl) vs (TLRef i))) H (sn3_appls_lref c i H0 vs H1))) (\lambda (a0: A).\lambda (H: (and (\forall (c: C).\forall (t: T).(sc3 g a0 c t) \to sn3 c t) (\forall (vs: TList).\forall (i: nat).\forall (c: C).(arity g c (THeads (Flat Appl) vs (TLRef i)) a0) \to (nf2 c (TLRef i)) \to (sns3 c vs) \to sc3 g a0 c (THeads (Flat Appl) vs (TLRef i))))).\lambda (a1: A).\lambda (H0: (and (\forall (c: C).\forall (t: T).(sc3 g a1 c t) \to sn3 c t) (\forall (vs: TList).\forall (i: nat).\forall (c: C).(arity g c (THeads (Flat Appl) vs (TLRef i)) a1) \to (nf2 c (TLRef i)) \to (sns3 c vs) \to sc3 g a1 c (THeads (Flat Appl) vs (TLRef i))))).conj (\forall (c: C).\forall (t: T).(and (arity g c t (AHead a0 a1)) (\forall (d: C).\forall (w: T).(sc3 g a0 d w) \to \forall (is: PList).(drop1 is d c) \to sc3 g a1 d (THead (Flat Appl) w (lift1 is t)))) \to sn3 c t) (\forall (vs: TList).\forall (i: nat).\forall (c: C).(arity g c (THeads (Flat Appl) vs (TLRef i)) (AHead a0 a1)) \to (nf2 c (TLRef i)) \to (sns3 c vs) \to and (arity g c (THeads (Flat Appl) vs (TLRef i)) (AHead a0 a1)) (\forall (d: C).\forall (w: T).(sc3 g a0 d w) \to \forall (is: PList).(drop1 is d c) \to sc3 g a1 d (THead (Flat Appl) w (lift1 is (THeads (Flat Appl) vs (TLRef i)))))) (\lambda (c: C).\lambda (t: T).\lambda (H1: (and (arity g c t (AHead a0 a1)) (\forall (d: C).\forall (w: T).(sc3 g a0 d w) \to \forall (is: PList).(drop1 is d c) \to sc3 g a1 d (THead (Flat Appl) w (lift1 is t))))).let H2 \def H in and_ind (\forall (c0: C).\forall (t0: T).(sc3 g a0 c0 t0) \to sn3 c0 t0) (\forall (vs: TList).\forall (i: nat).\forall (c0: C).(arity g c0 (THeads (Flat Appl) vs (TLRef i)) a0) \to (nf2 c0 (TLRef i)) \to (sns3 c0 vs) \to sc3 g a0 c0 (THeads (Flat Appl) vs (TLRef i))) (sn3 c t) (\lambda (_: ((\forall (c: C).\forall (t: T).(sc3 g a0 c t) \to sn3 c t))).\lambda (H4: ((\forall (vs: TList).\forall (i: nat).\forall (c: C).(arity g c (THeads (Flat Appl) vs (TLRef i)) a0) \to (nf2 c (TLRef i)) \to (sns3 c vs) \to sc3 g a0 c (THeads (Flat Appl) vs (TLRef i))))).let H5 \def H0 in and_ind (\forall (c0: C).\forall (t0: T).(sc3 g a1 c0 t0) \to sn3 c0 t0) (\forall (vs: TList).\forall (i: nat).\forall (c0: C).(arity g c0 (THeads (Flat Appl) vs (TLRef i)) a1) \to (nf2 c0 (TLRef i)) \to (sns3 c0 vs) \to sc3 g a1 c0 (THeads (Flat Appl) vs (TLRef i))) (sn3 c t) (\lambda (H6: ((\forall (c: C).\forall (t: T).(sc3 g a1 c t) \to sn3 c t))).\lambda (_: ((\forall (vs: TList).\forall (i: nat).\forall (c: C).(arity g c (THeads (Flat Appl) vs (TLRef i)) a1) \to (nf2 c (TLRef i)) \to (sns3 c vs) \to sc3 g a1 c (THeads (Flat Appl) vs (TLRef i))))).let H8 \def H1 in and_ind (arity g c t (AHead a0 a1)) (\forall (d: C).\forall (w: T).(sc3 g a0 d w) \to \forall (is: PList).(drop1 is d c) \to sc3 g a1 d (THead (Flat Appl) w (lift1 is t))) (sn3 c t) (\lambda (H9: (arity g c t (AHead a0 a1))).\lambda (H10: ((\forall (d: C).\forall (w: T).(sc3 g a0 d w) \to \forall (is: PList).(drop1 is d c) \to sc3 g a1 d (THead (Flat Appl) w (lift1 is t))))).let H_y \def arity_aprem g c t (AHead a0 a1) H9 O a0 in let H11 \def H_y (aprem_zero a0 a1) in ex2_3_ind C T nat (\lambda (d: C).\lambda (_: T).\lambda (j: nat).drop j O d c) (\lambda (d: C).\lambda (u: T).\lambda (_: nat).arity g d u (asucc g a0)) (sn3 c t) (\lambda (x0: C).\lambda (x1: T).\lambda (x2: nat).\lambda (H12: (drop x2 O x0 c)).\lambda (H13: (arity g x0 x1 (asucc g a0))).let H_y0 \def H10 (CHead x0 (Bind Abst) x1) (TLRef O) (H4 TNil O (CHead x0 (Bind Abst) x1) (arity_abst g (CHead x0 (Bind Abst) x1) x0 x1 O (getl_refl Abst x0 x1) a0 H13) (nf2_lref_abst (CHead x0 (Bind Abst) x1) x0 x1 O (getl_refl Abst x0 x1)) I) (PCons (S x2) O PNil) in let H_y1 \def H6 (CHead x0 (Bind Abst) x1) (THead (Flat Appl) (TLRef O) (lift (S x2) O t)) (H_y0 (drop1_cons (CHead x0 (Bind Abst) x1) c (S x2) O (drop_drop (Bind Abst) x2 x0 c H12 x1) c PNil (drop1_nil c))) in let H14 \def sn3_gen_flat Appl (CHead x0 (Bind Abst) x1) (TLRef O) (lift (S x2) O t) H_y1 in and_ind (sn3 (CHead x0 (Bind Abst) x1) (TLRef O)) (sn3 (CHead x0 (Bind Abst) x1) (lift (S x2) O t)) (sn3 c t) (\lambda (_: (sn3 (CHead x0 (Bind Abst) x1) (TLRef O))).\lambda (H16: (sn3 (CHead x0 (Bind Abst) x1) (lift (S x2) O t))).sn3_gen_lift (CHead x0 (Bind Abst) x1) t (S x2) O H16 c (drop_drop (Bind Abst) x2 x0 c H12 x1)) H14) H11) H8) H5) H2) (\lambda (vs: TList).\lambda (i: nat).\lambda (c: C).\lambda (H1: (arity g c (THeads (Flat Appl) vs (TLRef i)) (AHead a0 a1))).\lambda (H2: (nf2 c (TLRef i))).\lambda (H3: (sns3 c vs)).conj (arity g c (THeads (Flat Appl) vs (TLRef i)) (AHead a0 a1)) (\forall (d: C).\forall (w: T).(sc3 g a0 d w) \to \forall (is: PList).(drop1 is d c) \to sc3 g a1 d (THead (Flat Appl) w (lift1 is (THeads (Flat Appl) vs (TLRef i))))) H1 (\lambda (d: C).\lambda (w: T).\lambda (H4: (sc3 g a0 d w)).\lambda (is: PList).\lambda (H5: (drop1 is d c)).let H6 \def H in and_ind (\forall (c0: C).\forall (t: T).(sc3 g a0 c0 t) \to sn3 c0 t) (\forall (vs0: TList).\forall (i0: nat).\forall (c0: C).(arity g c0 (THeads (Flat Appl) vs0 (TLRef i0)) a0) \to (nf2 c0 (TLRef i0)) \to (sns3 c0 vs0) \to sc3 g a0 c0 (THeads (Flat Appl) vs0 (TLRef i0))) (sc3 g a1 d (THead (Flat Appl) w (lift1 is (THeads (Flat Appl) vs (TLRef i))))) (\lambda (H7: ((\forall (c: C).\forall (t: T).(sc3 g a0 c t) \to sn3 c t))).\lambda (_: ((\forall (vs: TList).\forall (i: nat).\forall (c: C).(arity g c (THeads (Flat Appl) vs (TLRef i)) a0) \to (nf2 c (TLRef i)) \to (sns3 c vs) \to sc3 g a0 c (THeads (Flat Appl) vs (TLRef i))))).let H9 \def H0 in and_ind (\forall (c0: C).\forall (t: T).(sc3 g a1 c0 t) \to sn3 c0 t) (\forall (vs0: TList).\forall (i0: nat).\forall (c0: C).(arity g c0 (THeads (Flat Appl) vs0 (TLRef i0)) a1) \to (nf2 c0 (TLRef i0)) \to (sns3 c0 vs0) \to sc3 g a1 c0 (THeads (Flat Appl) vs0 (TLRef i0))) (sc3 g a1 d (THead (Flat Appl) w (lift1 is (THeads (Flat Appl) vs (TLRef i))))) (\lambda (_: ((\forall (c: C).\forall (t: T).(sc3 g a1 c t) \to sn3 c t))).\lambda (H11: ((\forall (vs: TList).\forall (i: nat).\forall (c: C).(arity g c (THeads (Flat Appl) vs (TLRef i)) a1) \to (nf2 c (TLRef i)) \to (sns3 c vs) \to sc3 g a1 c (THeads (Flat Appl) vs (TLRef i))))).let H_y \def H11 (TCons w (lifts1 is vs)) in eq_ind_r T (THeads (Flat Appl) (lifts1 is vs) (lift1 is (TLRef i))) (\lambda (t: T).sc3 g a1 d (THead (Flat Appl) w t)) (eq_ind_r T (TLRef (trans is i)) (\lambda (t: T).sc3 g a1 d (THead (Flat Appl) w (THeads (Flat Appl) (lifts1 is vs) t))) (H_y (trans is i) d (eq_ind T (lift1 is (TLRef i)) (\lambda (t: T).arity g d (THead (Flat Appl) w (THeads (Flat Appl) (lifts1 is vs) t)) a1) (eq_ind T (lift1 is (THeads (Flat Appl) vs (TLRef i))) (\lambda (t: T).arity g d (THead (Flat Appl) w t) a1) (arity_appl g d w a0 (sc3_arity_gen g d w a0 H4) (lift1 is (THeads (Flat Appl) vs (TLRef i))) a1 (arity_lift1 g (AHead a0 a1) c is d (THeads (Flat Appl) vs (TLRef i)) H5 H1)) (THeads (Flat Appl) (lifts1 is vs) (lift1 is (TLRef i))) (lifts1_flat Appl is (TLRef i) vs)) (TLRef (trans is i)) (lift1_lref is i)) (eq_ind T (lift1 is (TLRef i)) (\lambda (t: T).nf2 d t) (nf2_lift1 c is d (TLRef i) H5 H2) (TLRef (trans is i)) (lift1_lref is i)) (conj (sn3 d w) (sns3 d (lifts1 is vs)) (H7 d w H4) (sns3_lifts1 c is d H5 vs H3))) (lift1 is (TLRef i)) (lift1_lref is i)) (lift1 is (THeads (Flat Appl) vs (TLRef i))) (lifts1_flat Appl is (TLRef i) vs)) H9) H6))) a.
+
+theorem sc3_sn3: \forall (g: G).\forall (a: A).\forall (c: C).\forall (t: T).(sc3 g a c t) \to sn3 c t \def \lambda (g: G).\lambda (a: A).\lambda (c: C).\lambda (t: T).\lambda (H: (sc3 g a c t)).let H_x \def sc3_props.__sc3_sn3_abst g a in let H0 \def H_x in and_ind (\forall (c0: C).\forall (t0: T).(sc3 g a c0 t0) \to sn3 c0 t0) (\forall (vs: TList).\forall (i: nat).let t0 \def THeads (Flat Appl) vs (TLRef i) in \forall (c0: C).(arity g c0 t0 a) \to (nf2 c0 (TLRef i)) \to (sns3 c0 vs) \to sc3 g a c0 t0) (sn3 c t) (\lambda (H1: ((\forall (c: C).\forall (t: T).(sc3 g a c t) \to sn3 c t))).\lambda (_: ((\forall (vs: TList).\forall (i: nat).let t \def THeads (Flat Appl) vs (TLRef i) in \forall (c: C).(arity g c t a) \to (nf2 c (TLRef i)) \to (sns3 c vs) \to sc3 g a c t))).H1 c t H) H0.
+
+theorem sc3_abst: \forall (g: G).\forall (a: A).\forall (vs: TList).\forall (c: C).\forall (i: nat).(arity g c (THeads (Flat Appl) vs (TLRef i)) a) \to (nf2 c (TLRef i)) \to (sns3 c vs) \to sc3 g a c (THeads (Flat Appl) vs (TLRef i)) \def \lambda (g: G).\lambda (a: A).\lambda (vs: TList).\lambda (c: C).\lambda (i: nat).\lambda (H: (arity g c (THeads (Flat Appl) vs (TLRef i)) a)).\lambda (H0: (nf2 c (TLRef i))).\lambda (H1: (sns3 c vs)).let H_x \def sc3_props.__sc3_sn3_abst g a in let H2 \def H_x in and_ind (\forall (c0: C).\forall (t: T).(sc3 g a c0 t) \to sn3 c0 t) (\forall (vs0: TList).\forall (i0: nat).let t \def THeads (Flat Appl) vs0 (TLRef i0) in \forall (c0: C).(arity g c0 t a) \to (nf2 c0 (TLRef i0)) \to (sns3 c0 vs0) \to sc3 g a c0 t) (sc3 g a c (THeads (Flat Appl) vs (TLRef i))) (\lambda (_: ((\forall (c: C).\forall (t: T).(sc3 g a c t) \to sn3 c t))).\lambda (H4: ((\forall (vs: TList).\forall (i: nat).let t \def THeads (Flat Appl) vs (TLRef i) in \forall (c: C).(arity g c t a) \to (nf2 c (TLRef i)) \to (sns3 c vs) \to sc3 g a c t))).H4 vs i c H H0 H1) H2.
+
+inductive csubc (g:G): C \to C \to Prop \def
+| csubc_sort: \forall (n: nat).csubc g (CSort n) (CSort n)
+| csubc_head: \forall (c1: C).\forall (c2: C).(csubc g c1 c2) \to \forall (k: K).\forall (v: T).csubc g (CHead c1 k v) (CHead c2 k v)
+| csubc_abst: \forall (c1: C).\forall (c2: C).(csubc g c1 c2) \to \forall (v: T).\forall (a: A).(sc3 g (asucc g a) c1 v) \to \forall (w: T).(sc3 g a c2 w) \to csubc g (CHead c1 (Bind Abst) v) (CHead c2 (Bind Abbr) w).
+
+theorem ceqc: G \to C \to C \to Prop \def \lambda (g: G).\lambda (c1: C).\lambda (c2: C).or (csubc g c1 c2) (csubc g c2 c1).
+
+theorem scubc_refl: \forall (g: G).\forall (c: C).csubc g c c \def \lambda (g: G).\lambda (c: C).C_ind (\lambda (c0: C).csubc g c0 c0) (\lambda (n: nat).csubc_sort g n) (\lambda (c0: C).\lambda (H: (csubc g c0 c0)).\lambda (k: K).\lambda (t: T).csubc_head g c0 c0 H k t) c.
+
+theorem ceqc_sym: \forall (g: G).\forall (c1: C).\forall (c2: C).(ceqc g c1 c2) \to ceqc g c2 c1 \def \lambda (g: G).\lambda (c1: C).\lambda (c2: C).\lambda (H: (ceqc g c1 c2)).let H0 \def H in or_ind (csubc g c1 c2) (csubc g c2 c1) (ceqc g c2 c1) (\lambda (H1: (csubc g c1 c2)).or_intror (csubc g c2 c1) (csubc g c1 c2) H1) (\lambda (H1: (csubc g c2 c1)).or_introl (csubc g c2 c1) (csubc g c1 c2) H1) H0.
+
+theorem drop_csubc_trans: \forall (g: G).\forall (c2: C).\forall (e2: C).\forall (d: nat).\forall (h: nat).(drop h d c2 e2) \to \forall (e1: C).(csubc g e2 e1) \to ex2 C (\lambda (c1: C).drop h d c1 e1) (\lambda (c1: C).csubc g c2 c1) \def \lambda (g: G).\lambda (c2: C).C_ind (\lambda (c: C).\forall (e2: C).\forall (d: nat).\forall (h: nat).(drop h d c e2) \to \forall (e1: C).(csubc g e2 e1) \to ex2 C (\lambda (c1: C).drop h d c1 e1) (\lambda (c1: C).csubc g c c1)) (\lambda (n: nat).\lambda (e2: C).\lambda (d: nat).\lambda (h: nat).\lambda (H: (drop h d (CSort n) e2)).\lambda (e1: C).\lambda (H0: (csubc g e2 e1)).and3_ind (eq C e2 (CSort n)) (eq nat h O) (eq nat d O) (ex2 C (\lambda (c1: C).drop h d c1 e1) (\lambda (c1: C).csubc g (CSort n) c1)) (\lambda (H1: (eq C e2 (CSort n))).\lambda (H2: (eq nat h O)).\lambda (H3: (eq nat d O)).eq_ind_r nat O (\lambda (n0: nat).ex2 C (\lambda (c1: C).drop n0 d c1 e1) (\lambda (c1: C).csubc g (CSort n) c1)) (eq_ind_r nat O (\lambda (n0: nat).ex2 C (\lambda (c1: C).drop O n0 c1 e1) (\lambda (c1: C).csubc g (CSort n) c1)) (let H4 \def eq_ind C e2 (\lambda (c: C).csubc g c e1) H0 (CSort n) H1 in ex_intro2 C (\lambda (c1: C).drop O O c1 e1) (\lambda (c1: C).csubc g (CSort n) c1) e1 (drop_refl e1) H4) d H3) h H2) (drop_gen_sort n h d e2 H)) (\lambda (c: C).\lambda (H: ((\forall (e2: C).\forall (d: nat).\forall (h: nat).(drop h d c e2) \to \forall (e1: C).(csubc g e2 e1) \to ex2 C (\lambda (c1: C).drop h d c1 e1) (\lambda (c1: C).csubc g c c1)))).\lambda (k: K).\lambda (t: T).\lambda (e2: C).\lambda (d: nat).nat_ind (\lambda (n: nat).\forall (h: nat).(drop h n (CHead c k t) e2) \to \forall (e1: C).(csubc g e2 e1) \to ex2 C (\lambda (c1: C).drop h n c1 e1) (\lambda (c1: C).csubc g (CHead c k t) c1)) (\lambda (h: nat).nat_ind (\lambda (n: nat).(drop n O (CHead c k t) e2) \to \forall (e1: C).(csubc g e2 e1) \to ex2 C (\lambda (c1: C).drop n O c1 e1) (\lambda (c1: C).csubc g (CHead c k t) c1)) (\lambda (H0: (drop O O (CHead c k t) e2)).\lambda (e1: C).\lambda (H1: (csubc g e2 e1)).let H2 \def eq_ind_r C e2 (\lambda (c: C).csubc g c e1) H1 (CHead c k t) (drop_gen_refl (CHead c k t) e2 H0) in ex_intro2 C (\lambda (c1: C).drop O O c1 e1) (\lambda (c1: C).csubc g (CHead c k t) c1) e1 (drop_refl e1) H2) (\lambda (n: nat).\lambda (_: (((drop n O (CHead c k t) e2) \to \forall (e1: C).(csubc g e2 e1) \to ex2 C (\lambda (c1: C).drop n O c1 e1) (\lambda (c1: C).csubc g (CHead c k t) c1)))).\lambda (H1: (drop (S n) O (CHead c k t) e2)).\lambda (e1: C).\lambda (H2: (csubc g e2 e1)).let H_x \def H e2 O (r k n) (drop_gen_drop k c e2 t n H1) e1 H2 in let H3 \def H_x in ex2_ind C (\lambda (c1: C).drop (r k n) O c1 e1) (\lambda (c1: C).csubc g c c1) (ex2 C (\lambda (c1: C).drop (S n) O c1 e1) (\lambda (c1: C).csubc g (CHead c k t) c1)) (\lambda (x: C).\lambda (H4: (drop (r k n) O x e1)).\lambda (H5: (csubc g c x)).ex_intro2 C (\lambda (c1: C).drop (S n) O c1 e1) (\lambda (c1: C).csubc g (CHead c k t) c1) (CHead x k t) (drop_drop k n x e1 H4 t) (csubc_head g c x H5 k t)) H3) h) (\lambda (n: nat).\lambda (H0: ((\forall (h: nat).(drop h n (CHead c k t) e2) \to \forall (e1: C).(csubc g e2 e1) \to ex2 C (\lambda (c1: C).drop h n c1 e1) (\lambda (c1: C).csubc g (CHead c k t) c1)))).\lambda (h: nat).\lambda (H1: (drop h (S n) (CHead c k t) e2)).\lambda (e1: C).\lambda (H2: (csubc g e2 e1)).ex3_2_ind C T (\lambda (e: C).\lambda (v: T).eq C e2 (CHead e k v)) (\lambda (_: C).\lambda (v: T).eq T t (lift h (r k n) v)) (\lambda (e: C).\lambda (_: T).drop h (r k n) c e) (ex2 C (\lambda (c1: C).drop h (S n) c1 e1) (\lambda (c1: C).csubc g (CHead c k t) c1)) (\lambda (x0: C).\lambda (x1: T).\lambda (H3: (eq C e2 (CHead x0 k x1))).\lambda (H4: (eq T t (lift h (r k n) x1))).\lambda (H5: (drop h (r k n) c x0)).let H6 \def eq_ind C e2 (\lambda (c: C).csubc g c e1) H2 (CHead x0 k x1) H3 in let H7 \def eq_ind C e2 (\lambda (c0: C).\forall (h: nat).(drop h n (CHead c k t) c0) \to \forall (e1: C).(csubc g c0 e1) \to ex2 C (\lambda (c1: C).drop h n c1 e1) (\lambda (c1: C).csubc g (CHead c k t) c1)) H0 (CHead x0 k x1) H3 in let H8 \def eq_ind T t (\lambda (t: T).\forall (h: nat).(drop h n (CHead c k t) (CHead x0 k x1)) \to \forall (e1: C).(csubc g (CHead x0 k x1) e1) \to ex2 C (\lambda (c1: C).drop h n c1 e1) (\lambda (c1: C).csubc g (CHead c k t) c1)) H7 (lift h (r k n) x1) H4 in eq_ind_r T (lift h (r k n) x1) (\lambda (t0: T).ex2 C (\lambda (c1: C).drop h (S n) c1 e1) (\lambda (c1: C).csubc g (CHead c k t0) c1)) (let H9 \def match H6 return (\lambda (c0: C).\lambda (c1: C).(eq C c0 (CHead x0 k x1)) \to (eq C c1 e1) \to ex2 C (\lambda (c2: C).drop h (S n) c2 e1) (\lambda (c2: C).csubc g (CHead c k (lift h (r k n) x1)) c2)) with [(csubc_sort n0) \Rightarrow (\lambda (H1: (eq C (CSort n0) (CHead x0 k x1))).\lambda (H3: (eq C (CSort n0) e1)).(let H4 \def eq_ind C (CSort n0) (\lambda (e: C).match e return (Prop) with [(CSort _) \Rightarrow True | (CHead _ _ _) \Rightarrow False]) I (CHead x0 k x1) H1 in False_ind ((eq C (CSort n0) e1) \to ex2 C (\lambda (c1: C).drop h (S n) c1 e1) (\lambda (c1: C).csubc g (CHead c k (lift h (r k n) x1)) c1)) H4) H3) | (csubc_head c1 c2 H1 k0 v) \Rightarrow (\lambda (H3: (eq C (CHead c1 k0 v) (CHead x0 k x1))).\lambda (H6: (eq C (CHead c2 k0 v) e1)).(let H2 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow v | (CHead _ _ t) \Rightarrow t]) (CHead c1 k0 v) (CHead x0 k x1) H3 in (let H4 \def f_equal C K (\lambda (e: C).match e return K with [(CSort _) \Rightarrow k0 | (CHead _ k _) \Rightarrow k]) (CHead c1 k0 v) (CHead x0 k x1) H3 in (let H7 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c1 | (CHead c _ _) \Rightarrow c]) (CHead c1 k0 v) (CHead x0 k x1) H3 in eq_ind C x0 (\lambda (c0: C).(eq K k0 k) \to (eq T v x1) \to (eq C (CHead c2 k0 v) e1) \to (csubc g c0 c2) \to ex2 C (\lambda (c3: C).drop h (S n) c3 e1) (\lambda (c3: C).csubc g (CHead c k (lift h (r k n) x1)) c3)) (\lambda (H8: (eq K k0 k)).eq_ind K k (\lambda (k1: K).(eq T v x1) \to (eq C (CHead c2 k1 v) e1) \to (csubc g x0 c2) \to ex2 C (\lambda (c3: C).drop h (S n) c3 e1) (\lambda (c3: C).csubc g (CHead c k (lift h (r k n) x1)) c3)) (\lambda (H9: (eq T v x1)).eq_ind T x1 (\lambda (t: T).(eq C (CHead c2 k t) e1) \to (csubc g x0 c2) \to ex2 C (\lambda (c3: C).drop h (S n) c3 e1) (\lambda (c3: C).csubc g (CHead c k (lift h (r k n) x1)) c3)) (\lambda (H10: (eq C (CHead c2 k x1) e1)).eq_ind C (CHead c2 k x1) (\lambda (c0: C).(csubc g x0 c2) \to ex2 C (\lambda (c3: C).drop h (S n) c3 c0) (\lambda (c3: C).csubc g (CHead c k (lift h (r k n) x1)) c3)) (\lambda (H11: (csubc g x0 c2)).let H_x \def H x0 (r k n) h H5 c2 H11 in let H5 \def H_x in ex2_ind C (\lambda (c3: C).drop h (r k n) c3 c2) (\lambda (c3: C).csubc g c c3) (ex2 C (\lambda (c3: C).drop h (S n) c3 (CHead c2 k x1)) (\lambda (c3: C).csubc g (CHead c k (lift h (r k n) x1)) c3)) (\lambda (x: C).\lambda (H12: (drop h (r k n) x c2)).\lambda (H13: (csubc g c x)).ex_intro2 C (\lambda (c3: C).drop h (S n) c3 (CHead c2 k x1)) (\lambda (c3: C).csubc g (CHead c k (lift h (r k n) x1)) c3) (CHead x k (lift h (r k n) x1)) (drop_skip k h n x c2 H12 x1) (csubc_head g c x H13 k (lift h (r k n) x1))) H5) e1 H10) v (sym_eq T v x1 H9)) k0 (sym_eq K k0 k H8)) c1 (sym_eq C c1 x0 H7)) H4) H2) H6 H1) | (csubc_abst c1 c2 H1 v a H3 w H5) \Rightarrow (\lambda (H6: (eq C (CHead c1 (Bind Abst) v) (CHead x0 k x1))).\lambda (H7: (eq C (CHead c2 (Bind Abbr) w) e1)).(let H2 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow v | (CHead _ _ t) \Rightarrow t]) (CHead c1 (Bind Abst) v) (CHead x0 k x1) H6 in (let H4 \def f_equal C K (\lambda (e: C).match e return K with [(CSort _) \Rightarrow (Bind Abst) | (CHead _ k _) \Rightarrow k]) (CHead c1 (Bind Abst) v) (CHead x0 k x1) H6 in (let H9 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c1 | (CHead c _ _) \Rightarrow c]) (CHead c1 (Bind Abst) v) (CHead x0 k x1) H6 in eq_ind C x0 (\lambda (c0: C).(eq K (Bind Abst) k) \to (eq T v x1) \to (eq C (CHead c2 (Bind Abbr) w) e1) \to (csubc g c0 c2) \to (sc3 g (asucc g a) c0 v) \to (sc3 g a c2 w) \to ex2 C (\lambda (c3: C).drop h (S n) c3 e1) (\lambda (c3: C).csubc g (CHead c k (lift h (r k n) x1)) c3)) (\lambda (H10: (eq K (Bind Abst) k)).eq_ind K (Bind Abst) (\lambda (k: K).(eq T v x1) \to (eq C (CHead c2 (Bind Abbr) w) e1) \to (csubc g x0 c2) \to (sc3 g (asucc g a) x0 v) \to (sc3 g a c2 w) \to ex2 C (\lambda (c3: C).drop h (S n) c3 e1) (\lambda (c3: C).csubc g (CHead c k (lift h (r k n) x1)) c3)) (\lambda (H11: (eq T v x1)).eq_ind T x1 (\lambda (t: T).(eq C (CHead c2 (Bind Abbr) w) e1) \to (csubc g x0 c2) \to (sc3 g (asucc g a) x0 t) \to (sc3 g a c2 w) \to ex2 C (\lambda (c3: C).drop h (S n) c3 e1) (\lambda (c3: C).csubc g (CHead c (Bind Abst) (lift h (r (Bind Abst) n) x1)) c3)) (\lambda (H12: (eq C (CHead c2 (Bind Abbr) w) e1)).eq_ind C (CHead c2 (Bind Abbr) w) (\lambda (c0: C).(csubc g x0 c2) \to (sc3 g (asucc g a) x0 x1) \to (sc3 g a c2 w) \to ex2 C (\lambda (c3: C).drop h (S n) c3 c0) (\lambda (c3: C).csubc g (CHead c (Bind Abst) (lift h (r (Bind Abst) n) x1)) c3)) (\lambda (H13: (csubc g x0 c2)).\lambda (H14: (sc3 g (asucc g a) x0 x1)).\lambda (H15: (sc3 g a c2 w)).let H8 \def eq_ind_r K k (\lambda (k: K).\forall (h0: nat).(drop h0 n (CHead c k (lift h (r k n) x1)) (CHead x0 k x1)) \to \forall (e1: C).(csubc g (CHead x0 k x1) e1) \to ex2 C (\lambda (c1: C).drop h0 n c1 e1) (\lambda (c1: C).csubc g (CHead c k (lift h (r k n) x1)) c1)) H8 (Bind Abst) H10 in let H16 \def eq_ind_r K k (\lambda (k: K).drop h (r k n) c x0) H5 (Bind Abst) H10 in let H_x \def H x0 (r (Bind Abst) n) h H16 c2 H13 in let H17 \def H_x in ex2_ind C (\lambda (c3: C).drop h (r (Bind Abst) n) c3 c2) (\lambda (c3: C).csubc g c c3) (ex2 C (\lambda (c3: C).drop h (S n) c3 (CHead c2 (Bind Abbr) w)) (\lambda (c3: C).csubc g (CHead c (Bind Abst) (lift h (r (Bind Abst) n) x1)) c3)) (\lambda (x: C).\lambda (H18: (drop h (r (Bind Abst) n) x c2)).\lambda (H19: (csubc g c x)).ex_intro2 C (\lambda (c3: C).drop h (S n) c3 (CHead c2 (Bind Abbr) w)) (\lambda (c3: C).csubc g (CHead c (Bind Abst) (lift h (r (Bind Abst) n) x1)) c3) (CHead x (Bind Abbr) (lift h n w)) (drop_skip_bind h n x c2 H18 Abbr w) (csubc_abst g c x H19 (lift h (r (Bind Abst) n) x1) a (sc3_lift g (asucc g a) x0 x1 H14 c h (r (Bind Abst) n) H16) (lift h n w) (sc3_lift g a c2 w H15 x h n H18))) H17) e1 H12) v (sym_eq T v x1 H11)) k H10) c1 (sym_eq C c1 x0 H9)) H4) H2) H7 H1 H3 H5)] in H9 (refl_equal C (CHead x0 k x1)) (refl_equal C e1)) t H4) (drop_gen_skip_l c e2 t h n k H1)) d) c2.
+
+theorem csubc_drop_conf_rev: \forall (g: G).\forall (c2: C).\forall (e2: C).\forall (d: nat).\forall (h: nat).(drop h d c2 e2) \to \forall (e1: C).(csubc g e1 e2) \to ex2 C (\lambda (c1: C).drop h d c1 e1) (\lambda (c1: C).csubc g c1 c2) \def \lambda (g: G).\lambda (c2: C).C_ind (\lambda (c: C).\forall (e2: C).\forall (d: nat).\forall (h: nat).(drop h d c e2) \to \forall (e1: C).(csubc g e1 e2) \to ex2 C (\lambda (c1: C).drop h d c1 e1) (\lambda (c1: C).csubc g c1 c)) (\lambda (n: nat).\lambda (e2: C).\lambda (d: nat).\lambda (h: nat).\lambda (H: (drop h d (CSort n) e2)).\lambda (e1: C).\lambda (H0: (csubc g e1 e2)).and3_ind (eq C e2 (CSort n)) (eq nat h O) (eq nat d O) (ex2 C (\lambda (c1: C).drop h d c1 e1) (\lambda (c1: C).csubc g c1 (CSort n))) (\lambda (H1: (eq C e2 (CSort n))).\lambda (H2: (eq nat h O)).\lambda (H3: (eq nat d O)).eq_ind_r nat O (\lambda (n0: nat).ex2 C (\lambda (c1: C).drop n0 d c1 e1) (\lambda (c1: C).csubc g c1 (CSort n))) (eq_ind_r nat O (\lambda (n0: nat).ex2 C (\lambda (c1: C).drop O n0 c1 e1) (\lambda (c1: C).csubc g c1 (CSort n))) (let H4 \def eq_ind C e2 (\lambda (c: C).csubc g e1 c) H0 (CSort n) H1 in ex_intro2 C (\lambda (c1: C).drop O O c1 e1) (\lambda (c1: C).csubc g c1 (CSort n)) e1 (drop_refl e1) H4) d H3) h H2) (drop_gen_sort n h d e2 H)) (\lambda (c: C).\lambda (H: ((\forall (e2: C).\forall (d: nat).\forall (h: nat).(drop h d c e2) \to \forall (e1: C).(csubc g e1 e2) \to ex2 C (\lambda (c1: C).drop h d c1 e1) (\lambda (c1: C).csubc g c1 c)))).\lambda (k: K).\lambda (t: T).\lambda (e2: C).\lambda (d: nat).nat_ind (\lambda (n: nat).\forall (h: nat).(drop h n (CHead c k t) e2) \to \forall (e1: C).(csubc g e1 e2) \to ex2 C (\lambda (c1: C).drop h n c1 e1) (\lambda (c1: C).csubc g c1 (CHead c k t))) (\lambda (h: nat).nat_ind (\lambda (n: nat).(drop n O (CHead c k t) e2) \to \forall (e1: C).(csubc g e1 e2) \to ex2 C (\lambda (c1: C).drop n O c1 e1) (\lambda (c1: C).csubc g c1 (CHead c k t))) (\lambda (H0: (drop O O (CHead c k t) e2)).\lambda (e1: C).\lambda (H1: (csubc g e1 e2)).let H2 \def eq_ind_r C e2 (\lambda (c: C).csubc g e1 c) H1 (CHead c k t) (drop_gen_refl (CHead c k t) e2 H0) in ex_intro2 C (\lambda (c1: C).drop O O c1 e1) (\lambda (c1: C).csubc g c1 (CHead c k t)) e1 (drop_refl e1) H2) (\lambda (n: nat).\lambda (_: (((drop n O (CHead c k t) e2) \to \forall (e1: C).(csubc g e1 e2) \to ex2 C (\lambda (c1: C).drop n O c1 e1) (\lambda (c1: C).csubc g c1 (CHead c k t))))).\lambda (H1: (drop (S n) O (CHead c k t) e2)).\lambda (e1: C).\lambda (H2: (csubc g e1 e2)).let H_x \def H e2 O (r k n) (drop_gen_drop k c e2 t n H1) e1 H2 in let H3 \def H_x in ex2_ind C (\lambda (c1: C).drop (r k n) O c1 e1) (\lambda (c1: C).csubc g c1 c) (ex2 C (\lambda (c1: C).drop (S n) O c1 e1) (\lambda (c1: C).csubc g c1 (CHead c k t))) (\lambda (x: C).\lambda (H4: (drop (r k n) O x e1)).\lambda (H5: (csubc g x c)).ex_intro2 C (\lambda (c1: C).drop (S n) O c1 e1) (\lambda (c1: C).csubc g c1 (CHead c k t)) (CHead x k t) (drop_drop k n x e1 H4 t) (csubc_head g x c H5 k t)) H3) h) (\lambda (n: nat).\lambda (H0: ((\forall (h: nat).(drop h n (CHead c k t) e2) \to \forall (e1: C).(csubc g e1 e2) \to ex2 C (\lambda (c1: C).drop h n c1 e1) (\lambda (c1: C).csubc g c1 (CHead c k t))))).\lambda (h: nat).\lambda (H1: (drop h (S n) (CHead c k t) e2)).\lambda (e1: C).\lambda (H2: (csubc g e1 e2)).ex3_2_ind C T (\lambda (e: C).\lambda (v: T).eq C e2 (CHead e k v)) (\lambda (_: C).\lambda (v: T).eq T t (lift h (r k n) v)) (\lambda (e: C).\lambda (_: T).drop h (r k n) c e) (ex2 C (\lambda (c1: C).drop h (S n) c1 e1) (\lambda (c1: C).csubc g c1 (CHead c k t))) (\lambda (x0: C).\lambda (x1: T).\lambda (H3: (eq C e2 (CHead x0 k x1))).\lambda (H4: (eq T t (lift h (r k n) x1))).\lambda (H5: (drop h (r k n) c x0)).let H6 \def eq_ind C e2 (\lambda (c: C).csubc g e1 c) H2 (CHead x0 k x1) H3 in let H7 \def eq_ind C e2 (\lambda (c0: C).\forall (h: nat).(drop h n (CHead c k t) c0) \to \forall (e1: C).(csubc g e1 c0) \to ex2 C (\lambda (c1: C).drop h n c1 e1) (\lambda (c1: C).csubc g c1 (CHead c k t))) H0 (CHead x0 k x1) H3 in let H8 \def eq_ind T t (\lambda (t: T).\forall (h: nat).(drop h n (CHead c k t) (CHead x0 k x1)) \to \forall (e1: C).(csubc g e1 (CHead x0 k x1)) \to ex2 C (\lambda (c1: C).drop h n c1 e1) (\lambda (c1: C).csubc g c1 (CHead c k t))) H7 (lift h (r k n) x1) H4 in eq_ind_r T (lift h (r k n) x1) (\lambda (t0: T).ex2 C (\lambda (c1: C).drop h (S n) c1 e1) (\lambda (c1: C).csubc g c1 (CHead c k t0))) (let H9 \def match H6 return (\lambda (c0: C).\lambda (c1: C).(eq C c0 e1) \to (eq C c1 (CHead x0 k x1)) \to ex2 C (\lambda (c2: C).drop h (S n) c2 e1) (\lambda (c2: C).csubc g c2 (CHead c k (lift h (r k n) x1)))) with [(csubc_sort n0) \Rightarrow (\lambda (H1: (eq C (CSort n0) e1)).\lambda (H3: (eq C (CSort n0) (CHead x0 k x1))).eq_ind C (CSort n0) (\lambda (c0: C).(eq C (CSort n0) (CHead x0 k x1)) \to ex2 C (\lambda (c1: C).drop h (S n) c1 c0) (\lambda (c1: C).csubc g c1 (CHead c k (lift h (r k n) x1)))) (\lambda (H4: (eq C (CSort n0) (CHead x0 k x1))).let H5 \def eq_ind C (CSort n0) (\lambda (e: C).match e return (Prop) with [(CSort _) \Rightarrow True | (CHead _ _ _) \Rightarrow False]) I (CHead x0 k x1) H4 in False_ind (ex2 C (\lambda (c1: C).drop h (S n) c1 (CSort n0)) (\lambda (c1: C).csubc g c1 (CHead c k (lift h (r k n) x1)))) H5) e1 H1 H3) | (csubc_head c1 c2 H1 k0 v) \Rightarrow (\lambda (H3: (eq C (CHead c1 k0 v) e1)).\lambda (H6: (eq C (CHead c2 k0 v) (CHead x0 k x1))).eq_ind C (CHead c1 k0 v) (\lambda (c0: C).(eq C (CHead c2 k0 v) (CHead x0 k x1)) \to (csubc g c1 c2) \to ex2 C (\lambda (c3: C).drop h (S n) c3 c0) (\lambda (c3: C).csubc g c3 (CHead c k (lift h (r k n) x1)))) (\lambda (H7: (eq C (CHead c2 k0 v) (CHead x0 k x1))).let H2 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow v | (CHead _ _ t) \Rightarrow t]) (CHead c2 k0 v) (CHead x0 k x1) H7 in (let H4 \def f_equal C K (\lambda (e: C).match e return K with [(CSort _) \Rightarrow k0 | (CHead _ k _) \Rightarrow k]) (CHead c2 k0 v) (CHead x0 k x1) H7 in (let H8 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c2 | (CHead c _ _) \Rightarrow c]) (CHead c2 k0 v) (CHead x0 k x1) H7 in eq_ind C x0 (\lambda (c0: C).(eq K k0 k) \to (eq T v x1) \to (csubc g c1 c0) \to ex2 C (\lambda (c3: C).drop h (S n) c3 (CHead c1 k0 v)) (\lambda (c3: C).csubc g c3 (CHead c k (lift h (r k n) x1)))) (\lambda (H9: (eq K k0 k)).eq_ind K k (\lambda (k1: K).(eq T v x1) \to (csubc g c1 x0) \to ex2 C (\lambda (c3: C).drop h (S n) c3 (CHead c1 k1 v)) (\lambda (c3: C).csubc g c3 (CHead c k (lift h (r k n) x1)))) (\lambda (H10: (eq T v x1)).eq_ind T x1 (\lambda (t: T).(csubc g c1 x0) \to ex2 C (\lambda (c3: C).drop h (S n) c3 (CHead c1 k t)) (\lambda (c3: C).csubc g c3 (CHead c k (lift h (r k n) x1)))) (\lambda (H11: (csubc g c1 x0)).let H12 \def eq_ind T v (\lambda (t: T).eq C (CHead c1 k0 t) e1) H3 x1 H10 in let H13 \def eq_ind K k0 (\lambda (k: K).eq C (CHead c1 k x1) e1) H12 k H9 in let H_x \def H x0 (r k n) h H5 c1 H11 in let H5 \def H_x in ex2_ind C (\lambda (c3: C).drop h (r k n) c3 c1) (\lambda (c3: C).csubc g c3 c) (ex2 C (\lambda (c3: C).drop h (S n) c3 (CHead c1 k x1)) (\lambda (c3: C).csubc g c3 (CHead c k (lift h (r k n) x1)))) (\lambda (x: C).\lambda (H14: (drop h (r k n) x c1)).\lambda (H15: (csubc g x c)).ex_intro2 C (\lambda (c3: C).drop h (S n) c3 (CHead c1 k x1)) (\lambda (c3: C).csubc g c3 (CHead c k (lift h (r k n) x1))) (CHead x k (lift h (r k n) x1)) (drop_skip k h n x c1 H14 x1) (csubc_head g x c H15 k (lift h (r k n) x1))) H5) v (sym_eq T v x1 H10)) k0 (sym_eq K k0 k H9)) c2 (sym_eq C c2 x0 H8)) H4) H2) e1 H3 H6 H1) | (csubc_abst c1 c2 H1 v a H3 w H5) \Rightarrow (\lambda (H6: (eq C (CHead c1 (Bind Abst) v) e1)).\lambda (H7: (eq C (CHead c2 (Bind Abbr) w) (CHead x0 k x1))).eq_ind C (CHead c1 (Bind Abst) v) (\lambda (c0: C).(eq C (CHead c2 (Bind Abbr) w) (CHead x0 k x1)) \to (csubc g c1 c2) \to (sc3 g (asucc g a) c1 v) \to (sc3 g a c2 w) \to ex2 C (\lambda (c3: C).drop h (S n) c3 c0) (\lambda (c3: C).csubc g c3 (CHead c k (lift h (r k n) x1)))) (\lambda (H9: (eq C (CHead c2 (Bind Abbr) w) (CHead x0 k x1))).let H2 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow w | (CHead _ _ t) \Rightarrow t]) (CHead c2 (Bind Abbr) w) (CHead x0 k x1) H9 in (let H4 \def f_equal C K (\lambda (e: C).match e return K with [(CSort _) \Rightarrow (Bind Abbr) | (CHead _ k _) \Rightarrow k]) (CHead c2 (Bind Abbr) w) (CHead x0 k x1) H9 in (let H10 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c2 | (CHead c _ _) \Rightarrow c]) (CHead c2 (Bind Abbr) w) (CHead x0 k x1) H9 in eq_ind C x0 (\lambda (c0: C).(eq K (Bind Abbr) k) \to (eq T w x1) \to (csubc g c1 c0) \to (sc3 g (asucc g a) c1 v) \to (sc3 g a c0 w) \to ex2 C (\lambda (c3: C).drop h (S n) c3 (CHead c1 (Bind Abst) v)) (\lambda (c3: C).csubc g c3 (CHead c k (lift h (r k n) x1)))) (\lambda (H11: (eq K (Bind Abbr) k)).eq_ind K (Bind Abbr) (\lambda (k: K).(eq T w x1) \to (csubc g c1 x0) \to (sc3 g (asucc g a) c1 v) \to (sc3 g a x0 w) \to ex2 C (\lambda (c3: C).drop h (S n) c3 (CHead c1 (Bind Abst) v)) (\lambda (c3: C).csubc g c3 (CHead c k (lift h (r k n) x1)))) (\lambda (H12: (eq T w x1)).eq_ind T x1 (\lambda (t: T).(csubc g c1 x0) \to (sc3 g (asucc g a) c1 v) \to (sc3 g a x0 t) \to ex2 C (\lambda (c3: C).drop h (S n) c3 (CHead c1 (Bind Abst) v)) (\lambda (c3: C).csubc g c3 (CHead c (Bind Abbr) (lift h (r (Bind Abbr) n) x1)))) (\lambda (H13: (csubc g c1 x0)).\lambda (H14: (sc3 g (asucc g a) c1 v)).\lambda (H15: (sc3 g a x0 x1)).let H8 \def eq_ind_r K k (\lambda (k: K).\forall (h0: nat).(drop h0 n (CHead c k (lift h (r k n) x1)) (CHead x0 k x1)) \to \forall (e1: C).(csubc g e1 (CHead x0 k x1)) \to ex2 C (\lambda (c1: C).drop h0 n c1 e1) (\lambda (c1: C).csubc g c1 (CHead c k (lift h (r k n) x1)))) H8 (Bind Abbr) H11 in let H16 \def eq_ind_r K k (\lambda (k: K).drop h (r k n) c x0) H5 (Bind Abbr) H11 in let H_x \def H x0 (r (Bind Abbr) n) h H16 c1 H13 in let H17 \def H_x in ex2_ind C (\lambda (c3: C).drop h (r (Bind Abbr) n) c3 c1) (\lambda (c3: C).csubc g c3 c) (ex2 C (\lambda (c3: C).drop h (S n) c3 (CHead c1 (Bind Abst) v)) (\lambda (c3: C).csubc g c3 (CHead c (Bind Abbr) (lift h (r (Bind Abbr) n) x1)))) (\lambda (x: C).\lambda (H18: (drop h (r (Bind Abbr) n) x c1)).\lambda (H19: (csubc g x c)).ex_intro2 C (\lambda (c3: C).drop h (S n) c3 (CHead c1 (Bind Abst) v)) (\lambda (c3: C).csubc g c3 (CHead c (Bind Abbr) (lift h (r (Bind Abbr) n) x1))) (CHead x (Bind Abst) (lift h n v)) (drop_skip_bind h n x c1 H18 Abst v) (csubc_abst g x c H19 (lift h n v) a (sc3_lift g (asucc g a) c1 v H14 x h n H18) (lift h (r (Bind Abbr) n) x1) (sc3_lift g a x0 x1 H15 c h (r (Bind Abbr) n) H16))) H17) w (sym_eq T w x1 H12)) k H11) c2 (sym_eq C c2 x0 H10)) H4) H2) e1 H6 H7 H1 H3 H5)] in H9 (refl_equal C e1) (refl_equal C (CHead x0 k x1))) t H4) (drop_gen_skip_l c e2 t h n k H1)) d) c2.
+
+theorem drop1_csubc_trans: \forall (g: G).\forall (hds: PList).\forall (c2: C).\forall (e2: C).(drop1 hds c2 e2) \to \forall (e1: C).(csubc g e2 e1) \to ex2 C (\lambda (c1: C).drop1 hds c1 e1) (\lambda (c1: C).csubc g c2 c1) \def \lambda (g: G).\lambda (hds: PList).PList_ind (\lambda (p: PList).\forall (c2: C).\forall (e2: C).(drop1 p c2 e2) \to \forall (e1: C).(csubc g e2 e1) \to ex2 C (\lambda (c1: C).drop1 p c1 e1) (\lambda (c1: C).csubc g c2 c1)) (\lambda (c2: C).\lambda (e2: C).\lambda (H: (drop1 PNil c2 e2)).\lambda (e1: C).\lambda (H0: (csubc g e2 e1)).let H1 \def match H return (\lambda (p: PList).\lambda (c: C).\lambda (c0: C).(eq PList p PNil) \to (eq C c c2) \to (eq C c0 e2) \to ex2 C (\lambda (c1: C).drop1 PNil c1 e1) (\lambda (c1: C).csubc g c2 c1)) with [(drop1_nil c) \Rightarrow (\lambda (_: (eq PList PNil PNil)).\lambda (H2: (eq C c c2)).\lambda (H3: (eq C c e2)).eq_ind C c2 (\lambda (c0: C).(eq C c0 e2) \to ex2 C (\lambda (c1: C).drop1 PNil c1 e1) (\lambda (c1: C).csubc g c2 c1)) (\lambda (H4: (eq C c2 e2)).eq_ind C e2 (\lambda (c0: C).ex2 C (\lambda (c1: C).drop1 PNil c1 e1) (\lambda (c1: C).csubc g c0 c1)) (let H \def eq_ind_r C e2 (\lambda (c: C).csubc g c e1) H0 c2 H4 in eq_ind C c2 (\lambda (c0: C).ex2 C (\lambda (c1: C).drop1 PNil c1 e1) (\lambda (c1: C).csubc g c0 c1)) (ex_intro2 C (\lambda (c1: C).drop1 PNil c1 e1) (\lambda (c1: C).csubc g c2 c1) e1 (drop1_nil e1) H) e2 H4) c2 (sym_eq C c2 e2 H4)) c (sym_eq C c c2 H2) H3) | (drop1_cons c1 c0 h d H1 c3 hds H2) \Rightarrow (\lambda (H3: (eq PList (PCons h d hds) PNil)).\lambda (H4: (eq C c1 c2)).\lambda (H5: (eq C c3 e2)).(let H6 \def eq_ind PList (PCons h d hds) (\lambda (e: PList).match e return (Prop) with [PNil \Rightarrow False | (PCons _ _ _) \Rightarrow True]) I PNil H3 in False_ind ((eq C c1 c2) \to (eq C c3 e2) \to (drop h d c1 c0) \to (drop1 hds c0 c3) \to ex2 C (\lambda (c2: C).drop1 PNil c2 e1) (\lambda (c4: C).csubc g c2 c4)) H6) H4 H5 H1 H2)] in H1 (refl_equal PList PNil) (refl_equal C c2) (refl_equal C e2)) (\lambda (n: nat).\lambda (n0: nat).\lambda (p: PList).\lambda (H: ((\forall (c2: C).\forall (e2: C).(drop1 p c2 e2) \to \forall (e1: C).(csubc g e2 e1) \to ex2 C (\lambda (c1: C).drop1 p c1 e1) (\lambda (c1: C).csubc g c2 c1)))).\lambda (c2: C).\lambda (e2: C).\lambda (H0: (drop1 (PCons n n0 p) c2 e2)).\lambda (e1: C).\lambda (H1: (csubc g e2 e1)).let H2 \def match H0 return (\lambda (p0: PList).\lambda (c: C).\lambda (c0: C).(eq PList p0 (PCons n n0 p)) \to (eq C c c2) \to (eq C c0 e2) \to ex2 C (\lambda (c1: C).drop1 (PCons n n0 p) c1 e1) (\lambda (c1: C).csubc g c2 c1)) with [(drop1_nil c) \Rightarrow (\lambda (H2: (eq PList PNil (PCons n n0 p))).\lambda (H3: (eq C c c2)).\lambda (H4: (eq C c e2)).(let H5 \def eq_ind PList PNil (\lambda (e: PList).match e return (Prop) with [PNil \Rightarrow True | (PCons _ _ _) \Rightarrow False]) I (PCons n n0 p) H2 in False_ind ((eq C c c2) \to (eq C c e2) \to ex2 C (\lambda (c1: C).drop1 (PCons n n0 p) c1 e1) (\lambda (c1: C).csubc g c2 c1)) H5) H3 H4) | (drop1_cons c1 c0 h d H2 c3 hds H3) \Rightarrow (\lambda (H4: (eq PList (PCons h d hds) (PCons n n0 p))).\lambda (H5: (eq C c1 c2)).\lambda (H6: (eq C c3 e2)).(let H7 \def f_equal PList PList (\lambda (e: PList).match e return PList with [PNil \Rightarrow hds | (PCons _ _ p) \Rightarrow p]) (PCons h d hds) (PCons n n0 p) H4 in (let H8 \def f_equal PList nat (\lambda (e: PList).match e return nat with [PNil \Rightarrow d | (PCons _ n _) \Rightarrow n]) (PCons h d hds) (PCons n n0 p) H4 in (let H9 \def f_equal PList nat (\lambda (e: PList).match e return nat with [PNil \Rightarrow h | (PCons n _ _) \Rightarrow n]) (PCons h d hds) (PCons n n0 p) H4 in eq_ind nat n (\lambda (n1: nat).(eq nat d n0) \to (eq PList hds p) \to (eq C c1 c2) \to (eq C c3 e2) \to (drop n1 d c1 c0) \to (drop1 hds c0 c3) \to ex2 C (\lambda (c2: C).drop1 (PCons n n0 p) c2 e1) (\lambda (c4: C).csubc g c2 c4)) (\lambda (H10: (eq nat d n0)).eq_ind nat n0 (\lambda (n1: nat).(eq PList hds p) \to (eq C c1 c2) \to (eq C c3 e2) \to (drop n n1 c1 c0) \to (drop1 hds c0 c3) \to ex2 C (\lambda (c2: C).drop1 (PCons n n0 p) c2 e1) (\lambda (c4: C).csubc g c2 c4)) (\lambda (H11: (eq PList hds p)).eq_ind PList p (\lambda (p0: PList).(eq C c1 c2) \to (eq C c3 e2) \to (drop n n0 c1 c0) \to (drop1 p0 c0 c3) \to ex2 C (\lambda (c2: C).drop1 (PCons n n0 p) c2 e1) (\lambda (c4: C).csubc g c2 c4)) (\lambda (H12: (eq C c1 c2)).eq_ind C c2 (\lambda (c: C).(eq C c3 e2) \to (drop n n0 c c0) \to (drop1 p c0 c3) \to ex2 C (\lambda (c2: C).drop1 (PCons n n0 p) c2 e1) (\lambda (c4: C).csubc g c2 c4)) (\lambda (H13: (eq C c3 e2)).eq_ind C e2 (\lambda (c: C).(drop n n0 c2 c0) \to (drop1 p c0 c) \to ex2 C (\lambda (c2: C).drop1 (PCons n n0 p) c2 e1) (\lambda (c4: C).csubc g c2 c4)) (\lambda (H14: (drop n n0 c2 c0)).\lambda (H15: (drop1 p c0 e2)).let H_x \def H c0 e2 H15 e1 H1 in let H0 \def H_x in ex2_ind C (\lambda (c2: C).drop1 p c2 e1) (\lambda (c2: C).csubc g c0 c2) (ex2 C (\lambda (c2: C).drop1 (PCons n n0 p) c2 e1) (\lambda (c4: C).csubc g c2 c4)) (\lambda (x: C).\lambda (H1: (drop1 p x e1)).\lambda (H16: (csubc g c0 x)).let H_x0 \def drop_csubc_trans g c2 c0 n0 n H14 x H16 in let H \def H_x0 in ex2_ind C (\lambda (c2: C).drop n n0 c2 x) (\lambda (c4: C).csubc g c2 c4) (ex2 C (\lambda (c2: C).drop1 (PCons n n0 p) c2 e1) (\lambda (c4: C).csubc g c2 c4)) (\lambda (x0: C).\lambda (H17: (drop n n0 x0 x)).\lambda (H18: (csubc g c2 x0)).ex_intro2 C (\lambda (c2: C).drop1 (PCons n n0 p) c2 e1) (\lambda (c4: C).csubc g c2 c4) x0 (drop1_cons x0 x n n0 H17 e1 p H1) H18) H) H0) c3 (sym_eq C c3 e2 H13)) c1 (sym_eq C c1 c2 H12)) hds (sym_eq PList hds p H11)) d (sym_eq nat d n0 H10)) h (sym_eq nat h n H9)) H8) H7) H5 H6 H2 H3)] in H2 (refl_equal PList (PCons n n0 p)) (refl_equal C c2) (refl_equal C e2)) hds.
+
+theorem csubc_drop1_conf_rev: \forall (g: G).\forall (hds: PList).\forall (c2: C).\forall (e2: C).(drop1 hds c2 e2) \to \forall (e1: C).(csubc g e1 e2) \to ex2 C (\lambda (c1: C).drop1 hds c1 e1) (\lambda (c1: C).csubc g c1 c2) \def \lambda (g: G).\lambda (hds: PList).PList_ind (\lambda (p: PList).\forall (c2: C).\forall (e2: C).(drop1 p c2 e2) \to \forall (e1: C).(csubc g e1 e2) \to ex2 C (\lambda (c1: C).drop1 p c1 e1) (\lambda (c1: C).csubc g c1 c2)) (\lambda (c2: C).\lambda (e2: C).\lambda (H: (drop1 PNil c2 e2)).\lambda (e1: C).\lambda (H0: (csubc g e1 e2)).let H1 \def match H return (\lambda (p: PList).\lambda (c: C).\lambda (c0: C).(eq PList p PNil) \to (eq C c c2) \to (eq C c0 e2) \to ex2 C (\lambda (c1: C).drop1 PNil c1 e1) (\lambda (c1: C).csubc g c1 c2)) with [(drop1_nil c) \Rightarrow (\lambda (_: (eq PList PNil PNil)).\lambda (H2: (eq C c c2)).\lambda (H3: (eq C c e2)).eq_ind C c2 (\lambda (c0: C).(eq C c0 e2) \to ex2 C (\lambda (c1: C).drop1 PNil c1 e1) (\lambda (c1: C).csubc g c1 c2)) (\lambda (H4: (eq C c2 e2)).eq_ind C e2 (\lambda (c0: C).ex2 C (\lambda (c1: C).drop1 PNil c1 e1) (\lambda (c1: C).csubc g c1 c0)) (let H \def eq_ind_r C e2 (\lambda (c: C).csubc g e1 c) H0 c2 H4 in eq_ind C c2 (\lambda (c0: C).ex2 C (\lambda (c1: C).drop1 PNil c1 e1) (\lambda (c1: C).csubc g c1 c0)) (ex_intro2 C (\lambda (c1: C).drop1 PNil c1 e1) (\lambda (c1: C).csubc g c1 c2) e1 (drop1_nil e1) H) e2 H4) c2 (sym_eq C c2 e2 H4)) c (sym_eq C c c2 H2) H3) | (drop1_cons c1 c0 h d H1 c3 hds H2) \Rightarrow (\lambda (H3: (eq PList (PCons h d hds) PNil)).\lambda (H4: (eq C c1 c2)).\lambda (H5: (eq C c3 e2)).(let H6 \def eq_ind PList (PCons h d hds) (\lambda (e: PList).match e return (Prop) with [PNil \Rightarrow False | (PCons _ _ _) \Rightarrow True]) I PNil H3 in False_ind ((eq C c1 c2) \to (eq C c3 e2) \to (drop h d c1 c0) \to (drop1 hds c0 c3) \to ex2 C (\lambda (c2: C).drop1 PNil c2 e1) (\lambda (c4: C).csubc g c4 c2)) H6) H4 H5 H1 H2)] in H1 (refl_equal PList PNil) (refl_equal C c2) (refl_equal C e2)) (\lambda (n: nat).\lambda (n0: nat).\lambda (p: PList).\lambda (H: ((\forall (c2: C).\forall (e2: C).(drop1 p c2 e2) \to \forall (e1: C).(csubc g e1 e2) \to ex2 C (\lambda (c1: C).drop1 p c1 e1) (\lambda (c1: C).csubc g c1 c2)))).\lambda (c2: C).\lambda (e2: C).\lambda (H0: (drop1 (PCons n n0 p) c2 e2)).\lambda (e1: C).\lambda (H1: (csubc g e1 e2)).let H2 \def match H0 return (\lambda (p0: PList).\lambda (c: C).\lambda (c0: C).(eq PList p0 (PCons n n0 p)) \to (eq C c c2) \to (eq C c0 e2) \to ex2 C (\lambda (c1: C).drop1 (PCons n n0 p) c1 e1) (\lambda (c1: C).csubc g c1 c2)) with [(drop1_nil c) \Rightarrow (\lambda (H2: (eq PList PNil (PCons n n0 p))).\lambda (H3: (eq C c c2)).\lambda (H4: (eq C c e2)).(let H5 \def eq_ind PList PNil (\lambda (e: PList).match e return (Prop) with [PNil \Rightarrow True | (PCons _ _ _) \Rightarrow False]) I (PCons n n0 p) H2 in False_ind ((eq C c c2) \to (eq C c e2) \to ex2 C (\lambda (c1: C).drop1 (PCons n n0 p) c1 e1) (\lambda (c1: C).csubc g c1 c2)) H5) H3 H4) | (drop1_cons c1 c0 h d H2 c3 hds H3) \Rightarrow (\lambda (H4: (eq PList (PCons h d hds) (PCons n n0 p))).\lambda (H5: (eq C c1 c2)).\lambda (H6: (eq C c3 e2)).(let H7 \def f_equal PList PList (\lambda (e: PList).match e return PList with [PNil \Rightarrow hds | (PCons _ _ p) \Rightarrow p]) (PCons h d hds) (PCons n n0 p) H4 in (let H8 \def f_equal PList nat (\lambda (e: PList).match e return nat with [PNil \Rightarrow d | (PCons _ n _) \Rightarrow n]) (PCons h d hds) (PCons n n0 p) H4 in (let H9 \def f_equal PList nat (\lambda (e: PList).match e return nat with [PNil \Rightarrow h | (PCons n _ _) \Rightarrow n]) (PCons h d hds) (PCons n n0 p) H4 in eq_ind nat n (\lambda (n1: nat).(eq nat d n0) \to (eq PList hds p) \to (eq C c1 c2) \to (eq C c3 e2) \to (drop n1 d c1 c0) \to (drop1 hds c0 c3) \to ex2 C (\lambda (c2: C).drop1 (PCons n n0 p) c2 e1) (\lambda (c4: C).csubc g c4 c2)) (\lambda (H10: (eq nat d n0)).eq_ind nat n0 (\lambda (n1: nat).(eq PList hds p) \to (eq C c1 c2) \to (eq C c3 e2) \to (drop n n1 c1 c0) \to (drop1 hds c0 c3) \to ex2 C (\lambda (c2: C).drop1 (PCons n n0 p) c2 e1) (\lambda (c4: C).csubc g c4 c2)) (\lambda (H11: (eq PList hds p)).eq_ind PList p (\lambda (p0: PList).(eq C c1 c2) \to (eq C c3 e2) \to (drop n n0 c1 c0) \to (drop1 p0 c0 c3) \to ex2 C (\lambda (c2: C).drop1 (PCons n n0 p) c2 e1) (\lambda (c4: C).csubc g c4 c2)) (\lambda (H12: (eq C c1 c2)).eq_ind C c2 (\lambda (c: C).(eq C c3 e2) \to (drop n n0 c c0) \to (drop1 p c0 c3) \to ex2 C (\lambda (c2: C).drop1 (PCons n n0 p) c2 e1) (\lambda (c4: C).csubc g c4 c2)) (\lambda (H13: (eq C c3 e2)).eq_ind C e2 (\lambda (c: C).(drop n n0 c2 c0) \to (drop1 p c0 c) \to ex2 C (\lambda (c2: C).drop1 (PCons n n0 p) c2 e1) (\lambda (c4: C).csubc g c4 c2)) (\lambda (H14: (drop n n0 c2 c0)).\lambda (H15: (drop1 p c0 e2)).let H_x \def H c0 e2 H15 e1 H1 in let H0 \def H_x in ex2_ind C (\lambda (c2: C).drop1 p c2 e1) (\lambda (c2: C).csubc g c2 c0) (ex2 C (\lambda (c2: C).drop1 (PCons n n0 p) c2 e1) (\lambda (c4: C).csubc g c4 c2)) (\lambda (x: C).\lambda (H1: (drop1 p x e1)).\lambda (H16: (csubc g x c0)).let H_x0 \def csubc_drop_conf_rev g c2 c0 n0 n H14 x H16 in let H \def H_x0 in ex2_ind C (\lambda (c2: C).drop n n0 c2 x) (\lambda (c4: C).csubc g c4 c2) (ex2 C (\lambda (c2: C).drop1 (PCons n n0 p) c2 e1) (\lambda (c4: C).csubc g c4 c2)) (\lambda (x0: C).\lambda (H17: (drop n n0 x0 x)).\lambda (H18: (csubc g x0 c2)).ex_intro2 C (\lambda (c2: C).drop1 (PCons n n0 p) c2 e1) (\lambda (c4: C).csubc g c4 c2) x0 (drop1_cons x0 x n n0 H17 e1 p H1) H18) H) H0) c3 (sym_eq C c3 e2 H13)) c1 (sym_eq C c1 c2 H12)) hds (sym_eq PList hds p H11)) d (sym_eq nat d n0 H10)) h (sym_eq nat h n H9)) H8) H7) H5 H6 H2 H3)] in H2 (refl_equal PList (PCons n n0 p)) (refl_equal C c2) (refl_equal C e2)) hds.
+
+theorem drop1_ceqc_trans: \forall (g: G).\forall (hds: PList).\forall (c2: C).\forall (e2: C).(drop1 hds c2 e2) \to \forall (e1: C).(ceqc g e2 e1) \to ex2 C (\lambda (c1: C).drop1 hds c1 e1) (\lambda (c1: C).ceqc g c2 c1) \def \lambda (g: G).\lambda (hds: PList).\lambda (c2: C).\lambda (e2: C).\lambda (H: (drop1 hds c2 e2)).\lambda (e1: C).\lambda (H0: (ceqc g e2 e1)).let H1 \def H0 in or_ind (csubc g e2 e1) (csubc g e1 e2) (ex2 C (\lambda (c1: C).drop1 hds c1 e1) (\lambda (c1: C).ceqc g c2 c1)) (\lambda (H2: (csubc g e2 e1)).let H_x \def drop1_csubc_trans g hds c2 e2 H e1 H2 in let H3 \def H_x in ex2_ind C (\lambda (c1: C).drop1 hds c1 e1) (\lambda (c1: C).csubc g c2 c1) (ex2 C (\lambda (c1: C).drop1 hds c1 e1) (\lambda (c1: C).ceqc g c2 c1)) (\lambda (x: C).\lambda (H4: (drop1 hds x e1)).\lambda (H5: (csubc g c2 x)).ex_intro2 C (\lambda (c1: C).drop1 hds c1 e1) (\lambda (c1: C).ceqc g c2 c1) x H4 (or_introl (csubc g c2 x) (csubc g x c2) H5)) H3) (\lambda (H2: (csubc g e1 e2)).let H_x \def csubc_drop1_conf_rev g hds c2 e2 H e1 H2 in let H3 \def H_x in ex2_ind C (\lambda (c1: C).drop1 hds c1 e1) (\lambda (c1: C).csubc g c1 c2) (ex2 C (\lambda (c1: C).drop1 hds c1 e1) (\lambda (c1: C).ceqc g c2 c1)) (\lambda (x: C).\lambda (H4: (drop1 hds x e1)).\lambda (H5: (csubc g x c2)).ex_intro2 C (\lambda (c1: C).drop1 hds c1 e1) (\lambda (c1: C).ceqc g c2 c1) x H4 (or_intror (csubc g c2 x) (csubc g x c2) H5)) H3) H1.
+
+axiom sc3_ceqc_trans: \forall (g: G).\forall (a: A).\forall (vs: TList).\forall (c1: C).\forall (t: T).(sc3 g a c1 (THeads (Flat Appl) vs t)) \to \forall (c2: C).(ceqc g c2 c1) \to sc3 g a c2 (THeads (Flat Appl) vs t) .
+
+theorem sc3_arity: \forall (g: G).\forall (c: C).\forall (t: T).\forall (a: A).(arity g c t a) \to sc3 g a c t \def \lambda (g: G).\lambda (c: C).\lambda (t: T).\lambda (a: A).\lambda (H: (arity g c t a)).arity_ind g (\lambda (c0: C).\lambda (t0: T).\lambda (a0: A).sc3 g a0 c0 t0) (\lambda (c0: C).\lambda (n: nat).conj (arity g c0 (TSort n) (ASort O n)) (sn3 c0 (TSort n)) (arity_sort g c0 n) (sn3_nf2 c0 (TSort n) (nf2_sort c0 n))) (\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c0 (CHead d (Bind Abbr) u))).\lambda (a0: A).\lambda (_: (arity g d u a0)).\lambda (H2: (sc3 g a0 d u)).let H_y \def sc3_abbr g a0 TNil in H_y i d u c0 (sc3_lift g a0 d u H2 c0 (S i) O (getl_drop Abbr c0 d u i H0)) H0) (\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c0 (CHead d (Bind Abst) u))).\lambda (a0: A).\lambda (H1: (arity g d u (asucc g a0))).\lambda (_: (sc3 g (asucc g a0) d u)).let H3 \def sc3_abst g a0 TNil in H3 c0 i (arity_abst g c0 d u i H0 a0 H1) (nf2_lref_abst c0 d u i H0) I) (\lambda (b: B).\lambda (H0: (not (eq B b Abst))).\lambda (c0: C).\lambda (u: T).\lambda (a1: A).\lambda (_: (arity g c0 u a1)).\lambda (H2: (sc3 g a1 c0 u)).\lambda (t0: T).\lambda (a2: A).\lambda (_: (arity g (CHead c0 (Bind b) u) t0 a2)).\lambda (H4: (sc3 g a2 (CHead c0 (Bind b) u) t0)).let H_y \def sc3_bind g b H0 a1 a2 TNil in H_y c0 u t0 H4 H2) (\lambda (c0: C).\lambda (u: T).\lambda (a1: A).\lambda (H0: (arity g c0 u (asucc g a1))).\lambda (H1: (sc3 g (asucc g a1) c0 u)).\lambda (t0: T).\lambda (a2: A).\lambda (H2: (arity g (CHead c0 (Bind Abst) u) t0 a2)).\lambda (H3: (sc3 g a2 (CHead c0 (Bind Abst) u) t0)).conj (arity g c0 (THead (Bind Abst) u t0) (AHead a1 a2)) (\forall (d: C).\forall (w: T).(sc3 g a1 d w) \to \forall (is: PList).(drop1 is d c0) \to sc3 g a2 d (THead (Flat Appl) w (lift1 is (THead (Bind Abst) u t0)))) (arity_head g c0 u a1 H0 t0 a2 H2) (\lambda (d: C).\lambda (w: T).\lambda (H4: (sc3 g a1 d w)).\lambda (is: PList).\lambda (H5: (drop1 is d c0)).let H6 \def sc3_appl g a1 a2 TNil in eq_ind_r T (THead (Bind Abst) (lift1 is u) (lift1 (Ss is) t0)) (\lambda (t1: T).sc3 g a2 d (THead (Flat Appl) w t1)) (H6 d w (lift1 (Ss is) t0) (let H_y \def sc3_bind g Abbr (\lambda (H3: (eq B Abbr Abst)).not_abbr_abst H3) a1 a2 TNil in H_y d w (lift1 (Ss is) t0) (let H7 \def sc3_ceqc_trans g a2 TNil in H7 (CHead d (Bind Abst) (lift1 is u)) (lift1 (Ss is) t0) (sc3_lift1 g (CHead c0 (Bind Abst) u) a2 (Ss is) (CHead d (Bind Abst) (lift1 is u)) t0 H3 (drop1_skip_bind Abst c0 is d u H5)) (CHead d (Bind Abbr) w) (or_intror (csubc g (CHead d (Bind Abbr) w) (CHead d (Bind Abst) (lift1 is u))) (csubc g (CHead d (Bind Abst) (lift1 is u)) (CHead d (Bind Abbr) w)) (csubc_abst g d d (scubc_refl g d) (lift1 is u) a1 (sc3_lift1 g c0 (asucc g a1) is d u H1 H5) w H4))) H4) H4 (lift1 is u) (sc3_lift1 g c0 (asucc g a1) is d u H1 H5)) (lift1 is (THead (Bind Abst) u t0)) (lift1_bind Abst is u t0))) (\lambda (c0: C).\lambda (u: T).\lambda (a1: A).\lambda (_: (arity g c0 u a1)).\lambda (H1: (sc3 g a1 c0 u)).\lambda (t0: T).\lambda (a2: A).\lambda (_: (arity g c0 t0 (AHead a1 a2))).\lambda (H3: (sc3 g (AHead a1 a2) c0 t0)).let H4 \def H3 in and_ind (arity g c0 t0 (AHead a1 a2)) (\forall (d: C).\forall (w: T).(sc3 g a1 d w) \to \forall (is: PList).(drop1 is d c0) \to sc3 g a2 d (THead (Flat Appl) w (lift1 is t0))) (sc3 g a2 c0 (THead (Flat Appl) u t0)) (\lambda (_: (arity g c0 t0 (AHead a1 a2))).\lambda (H6: ((\forall (d: C).\forall (w: T).(sc3 g a1 d w) \to \forall (is: PList).(drop1 is d c0) \to sc3 g a2 d (THead (Flat Appl) w (lift1 is t0))))).let H_y \def H6 c0 u H1 PNil in H_y (drop1_nil c0)) H4) (\lambda (c0: C).\lambda (u: T).\lambda (a0: A).\lambda (_: (arity g c0 u (asucc g a0))).\lambda (H1: (sc3 g (asucc g a0) c0 u)).\lambda (t0: T).\lambda (_: (arity g c0 t0 a0)).\lambda (H3: (sc3 g a0 c0 t0)).let H_y \def sc3_cast g a0 TNil in H_y c0 u H1 t0 H3) (\lambda (c0: C).\lambda (t0: T).\lambda (a1: A).\lambda (_: (arity g c0 t0 a1)).\lambda (H1: (sc3 g a1 c0 t0)).\lambda (a2: A).\lambda (H2: (leq g a1 a2)).sc3_repl g a1 c0 t0 H1 a2 H2) c t a H.
+
+theorem pc1: T \to T \to Prop \def \lambda (t1: T).\lambda (t2: T).ex2 T (\lambda (t: T).pr1 t1 t) (\lambda (t: T).pr1 t2 t).
+
+theorem pc1_pr0_r: \forall (t1: T).\forall (t2: T).(pr0 t1 t2) \to pc1 t1 t2 \def \lambda (t1: T).\lambda (t2: T).\lambda (H: (pr0 t1 t2)).ex_intro2 T (\lambda (t: T).pr1 t1 t) (\lambda (t: T).pr1 t2 t) t2 (pr1_pr0 t1 t2 H) (pr1_r t2).
+
+theorem pc1_pr0_x: \forall (t1: T).\forall (t2: T).(pr0 t2 t1) \to pc1 t1 t2 \def \lambda (t1: T).\lambda (t2: T).\lambda (H: (pr0 t2 t1)).ex_intro2 T (\lambda (t: T).pr1 t1 t) (\lambda (t: T).pr1 t2 t) t1 (pr1_r t1) (pr1_pr0 t2 t1 H).
+
+theorem pc1_pr0_u: \forall (t2: T).\forall (t1: T).(pr0 t1 t2) \to \forall (t3: T).(pc1 t2 t3) \to pc1 t1 t3 \def \lambda (t2: T).\lambda (t1: T).\lambda (H: (pr0 t1 t2)).\lambda (t3: T).\lambda (H0: (pc1 t2 t3)).let H1 \def H0 in ex2_ind T (\lambda (t: T).pr1 t2 t) (\lambda (t: T).pr1 t3 t) (pc1 t1 t3) (\lambda (x: T).\lambda (H2: (pr1 t2 x)).\lambda (H3: (pr1 t3 x)).ex_intro2 T (\lambda (t: T).pr1 t1 t) (\lambda (t: T).pr1 t3 t) x (pr1_u t2 t1 H x H2) H3) H1.
+
+theorem pc1_refl: \forall (t: T).pc1 t t \def \lambda (t: T).ex_intro2 T (\lambda (t0: T).pr1 t t0) (\lambda (t0: T).pr1 t t0) t (pr1_r t) (pr1_r t).
+
+theorem pc1_s: \forall (t2: T).\forall (t1: T).(pc1 t1 t2) \to pc1 t2 t1 \def \lambda (t2: T).\lambda (t1: T).\lambda (H: (pc1 t1 t2)).let H0 \def H in ex2_ind T (\lambda (t: T).pr1 t1 t) (\lambda (t: T).pr1 t2 t) (pc1 t2 t1) (\lambda (x: T).\lambda (H1: (pr1 t1 x)).\lambda (H2: (pr1 t2 x)).ex_intro2 T (\lambda (t: T).pr1 t2 t) (\lambda (t: T).pr1 t1 t) x H2 H1) H0.
+
+theorem pc1_head_1: \forall (u1: T).\forall (u2: T).(pc1 u1 u2) \to \forall (t: T).\forall (k: K).pc1 (THead k u1 t) (THead k u2 t) \def \lambda (u1: T).\lambda (u2: T).\lambda (H: (pc1 u1 u2)).\lambda (t: T).\lambda (k: K).let H0 \def H in ex2_ind T (\lambda (t0: T).pr1 u1 t0) (\lambda (t0: T).pr1 u2 t0) (pc1 (THead k u1 t) (THead k u2 t)) (\lambda (x: T).\lambda (H1: (pr1 u1 x)).\lambda (H2: (pr1 u2 x)).ex_intro2 T (\lambda (t0: T).pr1 (THead k u1 t) t0) (\lambda (t0: T).pr1 (THead k u2 t) t0) (THead k x t) (pr1_head_1 u1 x H1 t k) (pr1_head_1 u2 x H2 t k)) H0.
+
+theorem pc1_head_2: \forall (t1: T).\forall (t2: T).(pc1 t1 t2) \to \forall (u: T).\forall (k: K).pc1 (THead k u t1) (THead k u t2) \def \lambda (t1: T).\lambda (t2: T).\lambda (H: (pc1 t1 t2)).\lambda (u: T).\lambda (k: K).let H0 \def H in ex2_ind T (\lambda (t: T).pr1 t1 t) (\lambda (t: T).pr1 t2 t) (pc1 (THead k u t1) (THead k u t2)) (\lambda (x: T).\lambda (H1: (pr1 t1 x)).\lambda (H2: (pr1 t2 x)).ex_intro2 T (\lambda (t: T).pr1 (THead k u t1) t) (\lambda (t: T).pr1 (THead k u t2) t) (THead k u x) (pr1_head_2 t1 x H1 u k) (pr1_head_2 t2 x H2 u k)) H0.
+
+theorem pc1_t: \forall (t2: T).\forall (t1: T).(pc1 t1 t2) \to \forall (t3: T).(pc1 t2 t3) \to pc1 t1 t3 \def \lambda (t2: T).\lambda (t1: T).\lambda (H: (pc1 t1 t2)).\lambda (t3: T).\lambda (H0: (pc1 t2 t3)).let H1 \def H0 in ex2_ind T (\lambda (t: T).pr1 t2 t) (\lambda (t: T).pr1 t3 t) (pc1 t1 t3) (\lambda (x: T).\lambda (H2: (pr1 t2 x)).\lambda (H3: (pr1 t3 x)).let H4 \def H in ex2_ind T (\lambda (t: T).pr1 t1 t) (\lambda (t: T).pr1 t2 t) (pc1 t1 t3) (\lambda (x0: T).\lambda (H5: (pr1 t1 x0)).\lambda (H6: (pr1 t2 x0)).ex2_ind T (\lambda (t: T).pr1 x0 t) (\lambda (t: T).pr1 x t) (pc1 t1 t3) (\lambda (x1: T).\lambda (H7: (pr1 x0 x1)).\lambda (H8: (pr1 x x1)).ex_intro2 T (\lambda (t: T).pr1 t1 t) (\lambda (t: T).pr1 t3 t) x1 (pr1_t x0 t1 H5 x1 H7) (pr1_t x t3 H3 x1 H8)) (pr1_confluence t2 x0 H6 x H2)) H4) H1.
+
+theorem pc1_pr0_u2: \forall (t0: T).\forall (t1: T).(pr0 t0 t1) \to \forall (t2: T).(pc1 t0 t2) \to pc1 t1 t2 \def \lambda (t0: T).\lambda (t1: T).\lambda (H: (pr0 t0 t1)).\lambda (t2: T).\lambda (H0: (pc1 t0 t2)).pc1_t t0 t1 (pc1_pr0_x t1 t0 H) t2 H0.
+
+theorem pc1_head: \forall (u1: T).\forall (u2: T).(pc1 u1 u2) \to \forall (t1: T).\forall (t2: T).(pc1 t1 t2) \to \forall (k: K).pc1 (THead k u1 t1) (THead k u2 t2) \def \lambda (u1: T).\lambda (u2: T).\lambda (H: (pc1 u1 u2)).\lambda (t1: T).\lambda (t2: T).\lambda (H0: (pc1 t1 t2)).\lambda (k: K).pc1_t (THead k u2 t1) (THead k u1 t1) (pc1_head_1 u1 u2 H t1 k) (THead k u2 t2) (pc1_head_2 t1 t2 H0 u2 k).
+
+theorem pc3: C \to T \to T \to Prop \def \lambda (c: C).\lambda (t1: T).\lambda (t2: T).ex2 T (\lambda (t: T).pr3 c t1 t) (\lambda (t: T).pr3 c t2 t).
+
+theorem clear_pc3_trans: \forall (c2: C).\forall (t1: T).\forall (t2: T).(pc3 c2 t1 t2) \to \forall (c1: C).(clear c1 c2) \to pc3 c1 t1 t2 \def \lambda (c2: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pc3 c2 t1 t2)).\lambda (c1: C).\lambda (H0: (clear c1 c2)).let H1 \def H in ex2_ind T (\lambda (t: T).pr3 c2 t1 t) (\lambda (t: T).pr3 c2 t2 t) (pc3 c1 t1 t2) (\lambda (x: T).\lambda (H2: (pr3 c2 t1 x)).\lambda (H3: (pr3 c2 t2 x)).ex_intro2 T (\lambda (t: T).pr3 c1 t1 t) (\lambda (t: T).pr3 c1 t2 t) x (clear_pr3_trans c2 t1 x H2 c1 H0) (clear_pr3_trans c2 t2 x H3 c1 H0)) H1.
+
+theorem pc3_pr2_r: \forall (c: C).\forall (t1: T).\forall (t2: T).(pr2 c t1 t2) \to pc3 c t1 t2 \def \lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pr2 c t1 t2)).ex_intro2 T (\lambda (t: T).pr3 c t1 t) (\lambda (t: T).pr3 c t2 t) t2 (pr3_pr2 c t1 t2 H) (pr3_refl c t2).
+
+theorem pc3_pr2_x: \forall (c: C).\forall (t1: T).\forall (t2: T).(pr2 c t2 t1) \to pc3 c t1 t2 \def \lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pr2 c t2 t1)).ex_intro2 T (\lambda (t: T).pr3 c t1 t) (\lambda (t: T).pr3 c t2 t) t1 (pr3_refl c t1) (pr3_pr2 c t2 t1 H).
+
+theorem pc3_pr3_r: \forall (c: C).\forall (t1: T).\forall (t2: T).(pr3 c t1 t2) \to pc3 c t1 t2 \def \lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pr3 c t1 t2)).ex_intro2 T (\lambda (t: T).pr3 c t1 t) (\lambda (t: T).pr3 c t2 t) t2 H (pr3_refl c t2).
+
+theorem pc3_pr3_x: \forall (c: C).\forall (t1: T).\forall (t2: T).(pr3 c t2 t1) \to pc3 c t1 t2 \def \lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pr3 c t2 t1)).ex_intro2 T (\lambda (t: T).pr3 c t1 t) (\lambda (t: T).pr3 c t2 t) t1 (pr3_refl c t1) H.
+
+theorem pc3_pr3_t: \forall (c: C).\forall (t1: T).\forall (t0: T).(pr3 c t1 t0) \to \forall (t2: T).(pr3 c t2 t0) \to pc3 c t1 t2 \def \lambda (c: C).\lambda (t1: T).\lambda (t0: T).\lambda (H: (pr3 c t1 t0)).\lambda (t2: T).\lambda (H0: (pr3 c t2 t0)).ex_intro2 T (\lambda (t: T).pr3 c t1 t) (\lambda (t: T).pr3 c t2 t) t0 H H0.
+
+theorem pc3_pr2_u: \forall (c: C).\forall (t2: T).\forall (t1: T).(pr2 c t1 t2) \to \forall (t3: T).(pc3 c t2 t3) \to pc3 c t1 t3 \def \lambda (c: C).\lambda (t2: T).\lambda (t1: T).\lambda (H: (pr2 c t1 t2)).\lambda (t3: T).\lambda (H0: (pc3 c t2 t3)).let H1 \def H0 in ex2_ind T (\lambda (t: T).pr3 c t2 t) (\lambda (t: T).pr3 c t3 t) (pc3 c t1 t3) (\lambda (x: T).\lambda (H2: (pr3 c t2 x)).\lambda (H3: (pr3 c t3 x)).ex_intro2 T (\lambda (t: T).pr3 c t1 t) (\lambda (t: T).pr3 c t3 t) x (pr3_sing c t2 t1 H x H2) H3) H1.
+
+theorem pc3_refl: \forall (c: C).\forall (t: T).pc3 c t t \def \lambda (c: C).\lambda (t: T).ex_intro2 T (\lambda (t0: T).pr3 c t t0) (\lambda (t0: T).pr3 c t t0) t (pr3_refl c t) (pr3_refl c t).
+
+theorem pc3_s: \forall (c: C).\forall (t2: T).\forall (t1: T).(pc3 c t1 t2) \to pc3 c t2 t1 \def \lambda (c: C).\lambda (t2: T).\lambda (t1: T).\lambda (H: (pc3 c t1 t2)).let H0 \def H in ex2_ind T (\lambda (t: T).pr3 c t1 t) (\lambda (t: T).pr3 c t2 t) (pc3 c t2 t1) (\lambda (x: T).\lambda (H1: (pr3 c t1 x)).\lambda (H2: (pr3 c t2 x)).ex_intro2 T (\lambda (t: T).pr3 c t2 t) (\lambda (t: T).pr3 c t1 t) x H2 H1) H0.
+
+theorem pc3_thin_dx: \forall (c: C).\forall (t1: T).\forall (t2: T).(pc3 c t1 t2) \to \forall (u: T).\forall (f: F).pc3 c (THead (Flat f) u t1) (THead (Flat f) u t2) \def \lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pc3 c t1 t2)).\lambda (u: T).\lambda (f: F).let H0 \def H in ex2_ind T (\lambda (t: T).pr3 c t1 t) (\lambda (t: T).pr3 c t2 t) (pc3 c (THead (Flat f) u t1) (THead (Flat f) u t2)) (\lambda (x: T).\lambda (H1: (pr3 c t1 x)).\lambda (H2: (pr3 c t2 x)).ex_intro2 T (\lambda (t: T).pr3 c (THead (Flat f) u t1) t) (\lambda (t: T).pr3 c (THead (Flat f) u t2) t) (THead (Flat f) u x) (pr3_thin_dx c t1 x H1 u f) (pr3_thin_dx c t2 x H2 u f)) H0.
+
+theorem pc3_head_1: \forall (c: C).\forall (u1: T).\forall (u2: T).(pc3 c u1 u2) \to \forall (k: K).\forall (t: T).pc3 c (THead k u1 t) (THead k u2 t) \def \lambda (c: C).\lambda (u1: T).\lambda (u2: T).\lambda (H: (pc3 c u1 u2)).\lambda (k: K).\lambda (t: T).let H0 \def H in ex2_ind T (\lambda (t0: T).pr3 c u1 t0) (\lambda (t0: T).pr3 c u2 t0) (pc3 c (THead k u1 t) (THead k u2 t)) (\lambda (x: T).\lambda (H1: (pr3 c u1 x)).\lambda (H2: (pr3 c u2 x)).ex_intro2 T (\lambda (t0: T).pr3 c (THead k u1 t) t0) (\lambda (t0: T).pr3 c (THead k u2 t) t0) (THead k x t) (pr3_head_12 c u1 x H1 k t t (pr3_refl (CHead c k x) t)) (pr3_head_12 c u2 x H2 k t t (pr3_refl (CHead c k x) t))) H0.
+
+theorem pc3_head_2: \forall (c: C).\forall (u: T).\forall (t1: T).\forall (t2: T).\forall (k: K).(pc3 (CHead c k u) t1 t2) \to pc3 c (THead k u t1) (THead k u t2) \def \lambda (c: C).\lambda (u: T).\lambda (t1: T).\lambda (t2: T).\lambda (k: K).\lambda (H: (pc3 (CHead c k u) t1 t2)).let H0 \def H in ex2_ind T (\lambda (t: T).pr3 (CHead c k u) t1 t) (\lambda (t: T).pr3 (CHead c k u) t2 t) (pc3 c (THead k u t1) (THead k u t2)) (\lambda (x: T).\lambda (H1: (pr3 (CHead c k u) t1 x)).\lambda (H2: (pr3 (CHead c k u) t2 x)).ex_intro2 T (\lambda (t: T).pr3 c (THead k u t1) t) (\lambda (t: T).pr3 c (THead k u t2) t) (THead k u x) (pr3_head_12 c u u (pr3_refl c u) k t1 x H1) (pr3_head_12 c u u (pr3_refl c u) k t2 x H2)) H0.
+
+theorem pc3_pc1: \forall (t1: T).\forall (t2: T).(pc1 t1 t2) \to \forall (c: C).pc3 c t1 t2 \def \lambda (t1: T).\lambda (t2: T).\lambda (H: (pc1 t1 t2)).\lambda (c: C).let H0 \def H in ex2_ind T (\lambda (t: T).pr1 t1 t) (\lambda (t: T).pr1 t2 t) (pc3 c t1 t2) (\lambda (x: T).\lambda (H1: (pr1 t1 x)).\lambda (H2: (pr1 t2 x)).ex_intro2 T (\lambda (t: T).pr3 c t1 t) (\lambda (t: T).pr3 c t2 t) x (pr3_pr1 t1 x H1 c) (pr3_pr1 t2 x H2 c)) H0.
+
+theorem pc3_t: \forall (t2: T).\forall (c: C).\forall (t1: T).(pc3 c t1 t2) \to \forall (t3: T).(pc3 c t2 t3) \to pc3 c t1 t3 \def \lambda (t2: T).\lambda (c: C).\lambda (t1: T).\lambda (H: (pc3 c t1 t2)).\lambda (t3: T).\lambda (H0: (pc3 c t2 t3)).let H1 \def H0 in ex2_ind T (\lambda (t: T).pr3 c t2 t) (\lambda (t: T).pr3 c t3 t) (pc3 c t1 t3) (\lambda (x: T).\lambda (H2: (pr3 c t2 x)).\lambda (H3: (pr3 c t3 x)).let H4 \def H in ex2_ind T (\lambda (t: T).pr3 c t1 t) (\lambda (t: T).pr3 c t2 t) (pc3 c t1 t3) (\lambda (x0: T).\lambda (H5: (pr3 c t1 x0)).\lambda (H6: (pr3 c t2 x0)).ex2_ind T (\lambda (t: T).pr3 c x0 t) (\lambda (t: T).pr3 c x t) (pc3 c t1 t3) (\lambda (x1: T).\lambda (H7: (pr3 c x0 x1)).\lambda (H8: (pr3 c x x1)).pc3_pr3_t c t1 x1 (pr3_t x0 t1 c H5 x1 H7) t3 (pr3_t x t3 c H3 x1 H8)) (pr3_confluence c t2 x0 H6 x H2)) H4) H1.
+
+theorem pc3_pr2_u2: \forall (c: C).\forall (t0: T).\forall (t1: T).(pr2 c t0 t1) \to \forall (t2: T).(pc3 c t0 t2) \to pc3 c t1 t2 \def \lambda (c: C).\lambda (t0: T).\lambda (t1: T).\lambda (H: (pr2 c t0 t1)).\lambda (t2: T).\lambda (H0: (pc3 c t0 t2)).pc3_t t0 c t1 (pc3_pr2_x c t1 t0 H) t2 H0.
+
+theorem pc3_head_12: \forall (c: C).\forall (u1: T).\forall (u2: T).(pc3 c u1 u2) \to \forall (k: K).\forall (t1: T).\forall (t2: T).(pc3 (CHead c k u2) t1 t2) \to pc3 c (THead k u1 t1) (THead k u2 t2) \def \lambda (c: C).\lambda (u1: T).\lambda (u2: T).\lambda (H: (pc3 c u1 u2)).\lambda (k: K).\lambda (t1: T).\lambda (t2: T).\lambda (H0: (pc3 (CHead c k u2) t1 t2)).pc3_t (THead k u2 t1) c (THead k u1 t1) (pc3_head_1 c u1 u2 H k t1) (THead k u2 t2) (pc3_head_2 c u2 t1 t2 k H0).
+
+theorem pc3_head_21: \forall (c: C).\forall (u1: T).\forall (u2: T).(pc3 c u1 u2) \to \forall (k: K).\forall (t1: T).\forall (t2: T).(pc3 (CHead c k u1) t1 t2) \to pc3 c (THead k u1 t1) (THead k u2 t2) \def \lambda (c: C).\lambda (u1: T).\lambda (u2: T).\lambda (H: (pc3 c u1 u2)).\lambda (k: K).\lambda (t1: T).\lambda (t2: T).\lambda (H0: (pc3 (CHead c k u1) t1 t2)).pc3_t (THead k u1 t2) c (THead k u1 t1) (pc3_head_2 c u1 t1 t2 k H0) (THead k u2 t2) (pc3_head_1 c u1 u2 H k t2).
+
+theorem pc3_pr0_pr2_t: \forall (u1: T).\forall (u2: T).(pr0 u2 u1) \to \forall (c: C).\forall (t1: T).\forall (t2: T).\forall (k: K).(pr2 (CHead c k u2) t1 t2) \to pc3 (CHead c k u1) t1 t2 \def \lambda (u1: T).\lambda (u2: T).\lambda (H: (pr0 u2 u1)).\lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (k: K).\lambda (H0: (pr2 (CHead c k u2) t1 t2)).let H1 \def match H0 return (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).(eq C c0 (CHead c k u2)) \to (eq T t t1) \to (eq T t0 t2) \to pc3 (CHead c k u1) t1 t2) with [(pr2_free c0 t0 t3 H1) \Rightarrow (\lambda (H2: (eq C c0 (CHead c k u2))).\lambda (H3: (eq T t0 t1)).\lambda (H4: (eq T t3 t2)).eq_ind C (CHead c k u2) (\lambda (_: C).(eq T t0 t1) \to (eq T t3 t2) \to (pr0 t0 t3) \to pc3 (CHead c k u1) t1 t2) (\lambda (H5: (eq T t0 t1)).eq_ind T t1 (\lambda (t: T).(eq T t3 t2) \to (pr0 t t3) \to pc3 (CHead c k u1) t1 t2) (\lambda (H6: (eq T t3 t2)).eq_ind T t2 (\lambda (t: T).(pr0 t1 t) \to pc3 (CHead c k u1) t1 t2) (\lambda (H7: (pr0 t1 t2)).pc3_pr2_r (CHead c k u1) t1 t2 (pr2_free (CHead c k u1) t1 t2 H7)) t3 (sym_eq T t3 t2 H6)) t0 (sym_eq T t0 t1 H5)) c0 (sym_eq C c0 (CHead c k u2) H2) H3 H4 H1) | (pr2_delta c0 d u i H1 t0 t3 H2 t H3) \Rightarrow (\lambda (H4: (eq C c0 (CHead c k u2))).\lambda (H5: (eq T t0 t1)).\lambda (H6: (eq T t t2)).eq_ind C (CHead c k u2) (\lambda (c1: C).(eq T t0 t1) \to (eq T t t2) \to (getl i c1 (CHead d (Bind Abbr) u)) \to (pr0 t0 t3) \to (subst0 i u t3 t) \to pc3 (CHead c k u1) t1 t2) (\lambda (H7: (eq T t0 t1)).eq_ind T t1 (\lambda (t4: T).(eq T t t2) \to (getl i (CHead c k u2) (CHead d (Bind Abbr) u)) \to (pr0 t4 t3) \to (subst0 i u t3 t) \to pc3 (CHead c k u1) t1 t2) (\lambda (H8: (eq T t t2)).eq_ind T t2 (\lambda (t4: T).(getl i (CHead c k u2) (CHead d (Bind Abbr) u)) \to (pr0 t1 t3) \to (subst0 i u t3 t4) \to pc3 (CHead c k u1) t1 t2) (\lambda (H9: (getl i (CHead c k u2) (CHead d (Bind Abbr) u))).\lambda (H10: (pr0 t1 t3)).\lambda (H11: (subst0 i u t3 t2)).nat_ind (\lambda (n: nat).(getl n (CHead c k u2) (CHead d (Bind Abbr) u)) \to (subst0 n u t3 t2) \to pc3 (CHead c k u1) t1 t2) (\lambda (H12: (getl O (CHead c k u2) (CHead d (Bind Abbr) u))).\lambda (H13: (subst0 O u t3 t2)).K_ind (\lambda (k: K).(clear (CHead c k u2) (CHead d (Bind Abbr) u)) \to pc3 (CHead c k u1) t1 t2) (\lambda (b: B).\lambda (H14: (clear (CHead c (Bind b) u2) (CHead d (Bind Abbr) u))).let H0 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u) (CHead c (Bind b) u2) (clear_gen_bind b c (CHead d (Bind Abbr) u) u2 H14) in (let H15 \def f_equal C B (\lambda (e: C).match e return B with [(CSort _) \Rightarrow Abbr | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (CHead d (Bind Abbr) u) (CHead c (Bind b) u2) (clear_gen_bind b c (CHead d (Bind Abbr) u) u2 H14) in (let H16 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u) (CHead c (Bind b) u2) (clear_gen_bind b c (CHead d (Bind Abbr) u) u2 H14) in \lambda (H17: (eq B Abbr b)).\lambda (_: (eq C d c)).let H19 \def eq_ind T u (\lambda (t: T).subst0 O t t3 t2) H13 u2 H16 in eq_ind B Abbr (\lambda (b0: B).pc3 (CHead c (Bind b0) u1) t1 t2) (ex2_ind T (\lambda (t1: T).subst0 O u1 t3 t1) (\lambda (t1: T).pr0 t2 t1) (pc3 (CHead c (Bind Abbr) u1) t1 t2) (\lambda (x: T).\lambda (H: (subst0 O u1 t3 x)).\lambda (H20: (pr0 t2 x)).pc3_pr3_t (CHead c (Bind Abbr) u1) t1 x (pr3_pr2 (CHead c (Bind Abbr) u1) t1 x (pr2_delta (CHead c (Bind Abbr) u1) c u1 O (getl_refl Abbr c u1) t1 t3 H10 x H)) t2 (pr3_pr2 (CHead c (Bind Abbr) u1) t2 x (pr2_free (CHead c (Bind Abbr) u1) t2 x H20))) (pr0_subst0_fwd u2 t3 t2 O H19 u1 H)) b H17) H15) H0) (\lambda (f: F).\lambda (H14: (clear (CHead c (Flat f) u2) (CHead d (Bind Abbr) u))).clear_pc3_trans (CHead d (Bind Abbr) u) t1 t2 (pc3_pr2_r (CHead d (Bind Abbr) u) t1 t2 (pr2_delta (CHead d (Bind Abbr) u) d u O (getl_refl Abbr d u) t1 t3 H10 t2 H13)) (CHead c (Flat f) u1) (clear_flat c (CHead d (Bind Abbr) u) (clear_gen_flat f c (CHead d (Bind Abbr) u) u2 H14) f u1)) k (getl_gen_O (CHead c k u2) (CHead d (Bind Abbr) u) H12)) (\lambda (i0: nat).\lambda (IHi: (((getl i0 (CHead c k u2) (CHead d (Bind Abbr) u)) \to (subst0 i0 u t3 t2) \to pc3 (CHead c k u1) t1 t2))).\lambda (H12: (getl (S i0) (CHead c k u2) (CHead d (Bind Abbr) u))).\lambda (H13: (subst0 (S i0) u t3 t2)).K_ind (\lambda (k: K).(((getl i0 (CHead c k u2) (CHead d (Bind Abbr) u)) \to (subst0 i0 u t3 t2) \to pc3 (CHead c k u1) t1 t2)) \to (getl (r k i0) c (CHead d (Bind Abbr) u)) \to pc3 (CHead c k u1) t1 t2) (\lambda (b: B).\lambda (_: (((getl i0 (CHead c (Bind b) u2) (CHead d (Bind Abbr) u)) \to (subst0 i0 u t3 t2) \to pc3 (CHead c (Bind b) u1) t1 t2))).\lambda (H0: (getl (r (Bind b) i0) c (CHead d (Bind Abbr) u))).pc3_pr2_r (CHead c (Bind b) u1) t1 t2 (pr2_delta (CHead c (Bind b) u1) d u (S i0) (getl_head (Bind b) i0 c (CHead d (Bind Abbr) u) H0 u1) t1 t3 H10 t2 H13)) (\lambda (f: F).\lambda (_: (((getl i0 (CHead c (Flat f) u2) (CHead d (Bind Abbr) u)) \to (subst0 i0 u t3 t2) \to pc3 (CHead c (Flat f) u1) t1 t2))).\lambda (H0: (getl (r (Flat f) i0) c (CHead d (Bind Abbr) u))).pc3_pr2_r (CHead c (Flat f) u1) t1 t2 (pr2_cflat c t1 t2 (pr2_delta c d u (r (Flat f) i0) H0 t1 t3 H10 t2 H13) f u1)) k IHi (getl_gen_S k c (CHead d (Bind Abbr) u) u2 i0 H12)) i H9 H11) t (sym_eq T t t2 H8)) t0 (sym_eq T t0 t1 H7)) c0 (sym_eq C c0 (CHead c k u2) H4) H5 H6 H1 H2 H3)] in H1 (refl_equal C (CHead c k u2)) (refl_equal T t1) (refl_equal T t2).
+
+theorem pc3_pr2_pr2_t: \forall (c: C).\forall (u1: T).\forall (u2: T).(pr2 c u2 u1) \to \forall (t1: T).\forall (t2: T).\forall (k: K).(pr2 (CHead c k u2) t1 t2) \to pc3 (CHead c k u1) t1 t2 \def \lambda (c: C).\lambda (u1: T).\lambda (u2: T).\lambda (H: (pr2 c u2 u1)).let H0 \def match H return (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).(eq C c0 c) \to (eq T t u2) \to (eq T t0 u1) \to \forall (t1: T).\forall (t2: T).\forall (k: K).(pr2 (CHead c k u2) t1 t2) \to pc3 (CHead c k u1) t1 t2) with [(pr2_free c0 t1 t2 H0) \Rightarrow (\lambda (H1: (eq C c0 c)).\lambda (H2: (eq T t1 u2)).\lambda (H3: (eq T t2 u1)).eq_ind C c (\lambda (_: C).(eq T t1 u2) \to (eq T t2 u1) \to (pr0 t1 t2) \to \forall (t3: T).\forall (t4: T).\forall (k: K).(pr2 (CHead c k u2) t3 t4) \to pc3 (CHead c k u1) t3 t4) (\lambda (H4: (eq T t1 u2)).eq_ind T u2 (\lambda (t: T).(eq T t2 u1) \to (pr0 t t2) \to \forall (t3: T).\forall (t4: T).\forall (k: K).(pr2 (CHead c k u2) t3 t4) \to pc3 (CHead c k u1) t3 t4) (\lambda (H5: (eq T t2 u1)).eq_ind T u1 (\lambda (t: T).(pr0 u2 t) \to \forall (t3: T).\forall (t4: T).\forall (k: K).(pr2 (CHead c k u2) t3 t4) \to pc3 (CHead c k u1) t3 t4) (\lambda (H6: (pr0 u2 u1)).\lambda (t0: T).\lambda (t3: T).\lambda (k: K).\lambda (H: (pr2 (CHead c k u2) t0 t3)).pc3_pr0_pr2_t u1 u2 H6 c t0 t3 k H) t2 (sym_eq T t2 u1 H5)) t1 (sym_eq T t1 u2 H4)) c0 (sym_eq C c0 c H1) H2 H3 H0) | (pr2_delta c0 d u i H0 t1 t2 H1 t H2) \Rightarrow (\lambda (H3: (eq C c0 c)).\lambda (H4: (eq T t1 u2)).\lambda (H5: (eq T t u1)).eq_ind C c (\lambda (c1: C).(eq T t1 u2) \to (eq T t u1) \to (getl i c1 (CHead d (Bind Abbr) u)) \to (pr0 t1 t2) \to (subst0 i u t2 t) \to \forall (t3: T).\forall (t4: T).\forall (k: K).(pr2 (CHead c k u2) t3 t4) \to pc3 (CHead c k u1) t3 t4) (\lambda (H6: (eq T t1 u2)).eq_ind T u2 (\lambda (t0: T).(eq T t u1) \to (getl i c (CHead d (Bind Abbr) u)) \to (pr0 t0 t2) \to (subst0 i u t2 t) \to \forall (t3: T).\forall (t4: T).\forall (k: K).(pr2 (CHead c k u2) t3 t4) \to pc3 (CHead c k u1) t3 t4) (\lambda (H7: (eq T t u1)).eq_ind T u1 (\lambda (t0: T).(getl i c (CHead d (Bind Abbr) u)) \to (pr0 u2 t2) \to (subst0 i u t2 t0) \to \forall (t3: T).\forall (t4: T).\forall (k: K).(pr2 (CHead c k u2) t3 t4) \to pc3 (CHead c k u1) t3 t4) (\lambda (H8: (getl i c (CHead d (Bind Abbr) u))).\lambda (H9: (pr0 u2 t2)).\lambda (H10: (subst0 i u t2 u1)).\lambda (t0: T).\lambda (t3: T).\lambda (k: K).\lambda (H: (pr2 (CHead c k u2) t0 t3)).let H11 \def match H return (\lambda (c0: C).\lambda (t: T).\lambda (t1: T).(eq C c0 (CHead c k u2)) \to (eq T t t0) \to (eq T t1 t3) \to pc3 (CHead c k u1) t0 t3) with [(pr2_free c0 t1 t4 H3) \Rightarrow (\lambda (H4: (eq C c0 (CHead c k u2))).\lambda (H5: (eq T t1 t0)).\lambda (H6: (eq T t4 t3)).eq_ind C (CHead c k u2) (\lambda (_: C).(eq T t1 t0) \to (eq T t4 t3) \to (pr0 t1 t4) \to pc3 (CHead c k u1) t0 t3) (\lambda (H7: (eq T t1 t0)).eq_ind T t0 (\lambda (t: T).(eq T t4 t3) \to (pr0 t t4) \to pc3 (CHead c k u1) t0 t3) (\lambda (H8: (eq T t4 t3)).eq_ind T t3 (\lambda (t: T).(pr0 t0 t) \to pc3 (CHead c k u1) t0 t3) (\lambda (H9: (pr0 t0 t3)).pc3_pr2_r (CHead c k u1) t0 t3 (pr2_free (CHead c k u1) t0 t3 H9)) t4 (sym_eq T t4 t3 H8)) t1 (sym_eq T t1 t0 H7)) c0 (sym_eq C c0 (CHead c k u2) H4) H5 H6 H3) | (pr2_delta c0 d0 u0 i0 H3 t1 t4 H4 t H5) \Rightarrow (\lambda (H6: (eq C c0 (CHead c k u2))).\lambda (H7: (eq T t1 t0)).\lambda (H11: (eq T t t3)).eq_ind C (CHead c k u2) (\lambda (c1: C).(eq T t1 t0) \to (eq T t t3) \to (getl i0 c1 (CHead d0 (Bind Abbr) u0)) \to (pr0 t1 t4) \to (subst0 i0 u0 t4 t) \to pc3 (CHead c k u1) t0 t3) (\lambda (H12: (eq T t1 t0)).eq_ind T t0 (\lambda (t2: T).(eq T t t3) \to (getl i0 (CHead c k u2) (CHead d0 (Bind Abbr) u0)) \to (pr0 t2 t4) \to (subst0 i0 u0 t4 t) \to pc3 (CHead c k u1) t0 t3) (\lambda (H13: (eq T t t3)).eq_ind T t3 (\lambda (t2: T).(getl i0 (CHead c k u2) (CHead d0 (Bind Abbr) u0)) \to (pr0 t0 t4) \to (subst0 i0 u0 t4 t2) \to pc3 (CHead c k u1) t0 t3) (\lambda (H14: (getl i0 (CHead c k u2) (CHead d0 (Bind Abbr) u0))).\lambda (H15: (pr0 t0 t4)).\lambda (H16: (subst0 i0 u0 t4 t3)).nat_ind (\lambda (n: nat).(getl n (CHead c k u2) (CHead d0 (Bind Abbr) u0)) \to (subst0 n u0 t4 t3) \to pc3 (CHead c k u1) t0 t3) (\lambda (H17: (getl O (CHead c k u2) (CHead d0 (Bind Abbr) u0))).\lambda (H18: (subst0 O u0 t4 t3)).(match k return (\lambda (k: K).(clear (CHead c k u2) (CHead d0 (Bind Abbr) u0)) \to pc3 (CHead c k u1) t0 t3) with [(Bind b) \Rightarrow (\lambda (H19: (clear (CHead c (Bind b) u2) (CHead d0 (Bind Abbr) u0))).let H \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow d0 | (CHead c _ _) \Rightarrow c]) (CHead d0 (Bind Abbr) u0) (CHead c (Bind b) u2) (clear_gen_bind b c (CHead d0 (Bind Abbr) u0) u2 H19) in (let H0 \def f_equal C B (\lambda (e: C).match e return B with [(CSort _) \Rightarrow Abbr | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (CHead d0 (Bind Abbr) u0) (CHead c (Bind b) u2) (clear_gen_bind b c (CHead d0 (Bind Abbr) u0) u2 H19) in (let H1 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u0 | (CHead _ _ t) \Rightarrow t]) (CHead d0 (Bind Abbr) u0) (CHead c (Bind b) u2) (clear_gen_bind b c (CHead d0 (Bind Abbr) u0) u2 H19) in \lambda (H20: (eq B Abbr b)).\lambda (_: (eq C d0 c)).let H22 \def eq_ind T u0 (\lambda (t: T).subst0 O t t4 t3) H18 u2 H1 in eq_ind B Abbr (\lambda (b0: B).pc3 (CHead c (Bind b0) u1) t0 t3) (ex2_ind T (\lambda (t0: T).subst0 O t2 t4 t0) (\lambda (t0: T).pr0 t3 t0) (pc3 (CHead c (Bind Abbr) u1) t0 t3) (\lambda (x: T).\lambda (H2: (subst0 O t2 t4 x)).\lambda (H9: (pr0 t3 x)).ex2_ind T (\lambda (t0: T).subst0 O u1 t4 t0) (\lambda (t0: T).subst0 (S (plus i O)) u x t0) (pc3 (CHead c (Bind Abbr) u1) t0 t3) (\lambda (x0: T).\lambda (H10: (subst0 O u1 t4 x0)).\lambda (H23: (subst0 (S (plus i O)) u x x0)).let H24 \def f_equal nat nat S (plus i O) i (sym_eq nat i (plus i O) (plus_n_O i)) in let H25 \def eq_ind nat (S (plus i O)) (\lambda (n: nat).subst0 n u x x0) H23 (S i) H24 in pc3_pr2_u (CHead c (Bind Abbr) u1) x0 t0 (pr2_delta (CHead c (Bind Abbr) u1) c u1 O (getl_refl Abbr c u1) t0 t4 H15 x0 H10) t3 (pc3_pr2_x (CHead c (Bind Abbr) u1) x0 t3 (pr2_delta (CHead c (Bind Abbr) u1) d u (S i) (getl_head (Bind Abbr) i c (CHead d (Bind Abbr) u) H8 u1) t3 x H9 x0 H25))) (subst0_subst0_back t4 x t2 O H2 u1 u i H10)) (pr0_subst0_fwd u2 t4 t3 O H22 t2 H9)) b H20) H0) H) | (Flat f) \Rightarrow (\lambda (H8: (clear (CHead c (Flat f) u2) (CHead d0 (Bind Abbr) u0))).clear_pc3_trans (CHead d0 (Bind Abbr) u0) t0 t3 (pc3_pr2_r (CHead d0 (Bind Abbr) u0) t0 t3 (pr2_delta (CHead d0 (Bind Abbr) u0) d0 u0 O (getl_refl Abbr d0 u0) t0 t4 H15 t3 H18)) (CHead c (Flat f) u1) (clear_flat c (CHead d0 (Bind Abbr) u0) (clear_gen_flat f c (CHead d0 (Bind Abbr) u0) u2 H8) f u1))]) (getl_gen_O (CHead c k u2) (CHead d0 (Bind Abbr) u0) H17)) (\lambda (i1: nat).\lambda (_: (((getl i1 (CHead c k u2) (CHead d0 (Bind Abbr) u0)) \to (subst0 i1 u0 t4 t3) \to pc3 (CHead c k u1) t0 t3))).\lambda (H8: (getl (S i1) (CHead c k u2) (CHead d0 (Bind Abbr) u0))).\lambda (H9: (subst0 (S i1) u0 t4 t3)).K_ind (\lambda (k: K).(getl (r k i1) c (CHead d0 (Bind Abbr) u0)) \to pc3 (CHead c k u1) t0 t3) (\lambda (b: B).\lambda (H: (getl (r (Bind b) i1) c (CHead d0 (Bind Abbr) u0))).pc3_pr2_r (CHead c (Bind b) u1) t0 t3 (pr2_delta (CHead c (Bind b) u1) d0 u0 (S i1) (getl_head (Bind b) i1 c (CHead d0 (Bind Abbr) u0) H u1) t0 t4 H15 t3 H9)) (\lambda (f: F).\lambda (H: (getl (r (Flat f) i1) c (CHead d0 (Bind Abbr) u0))).pc3_pr2_r (CHead c (Flat f) u1) t0 t3 (pr2_cflat c t0 t3 (pr2_delta c d0 u0 (r (Flat f) i1) H t0 t4 H15 t3 H9) f u1)) k (getl_gen_S k c (CHead d0 (Bind Abbr) u0) u2 i1 H8)) i0 H14 H16) t (sym_eq T t t3 H13)) t1 (sym_eq T t1 t0 H12)) c0 (sym_eq C c0 (CHead c k u2) H6) H7 H11 H3 H4 H5)] in H11 (refl_equal C (CHead c k u2)) (refl_equal T t0) (refl_equal T t3)) t (sym_eq T t u1 H7)) t1 (sym_eq T t1 u2 H6)) c0 (sym_eq C c0 c H3) H4 H5 H0 H1 H2)] in H0 (refl_equal C c) (refl_equal T u2) (refl_equal T u1).
+
+theorem pc3_pr2_pr3_t: \forall (c: C).\forall (u2: T).\forall (t1: T).\forall (t2: T).\forall (k: K).(pr3 (CHead c k u2) t1 t2) \to \forall (u1: T).(pr2 c u2 u1) \to pc3 (CHead c k u1) t1 t2 \def \lambda (c: C).\lambda (u2: T).\lambda (t1: T).\lambda (t2: T).\lambda (k: K).\lambda (H: (pr3 (CHead c k u2) t1 t2)).pr3_ind (CHead c k u2) (\lambda (t: T).\lambda (t0: T).\forall (u1: T).(pr2 c u2 u1) \to pc3 (CHead c k u1) t t0) (\lambda (t: T).\lambda (u1: T).\lambda (_: (pr2 c u2 u1)).pc3_refl (CHead c k u1) t) (\lambda (t0: T).\lambda (t3: T).\lambda (H0: (pr2 (CHead c k u2) t3 t0)).\lambda (t4: T).\lambda (_: (pr3 (CHead c k u2) t0 t4)).\lambda (H2: ((\forall (u1: T).(pr2 c u2 u1) \to pc3 (CHead c k u1) t0 t4))).\lambda (u1: T).\lambda (H3: (pr2 c u2 u1)).pc3_t t0 (CHead c k u1) t3 (pc3_pr2_pr2_t c u1 u2 H3 t3 t0 k H0) t4 (H2 u1 H3)) t1 t2 H.
+
+theorem pc3_pr3_pc3_t: \forall (c: C).\forall (u1: T).\forall (u2: T).(pr3 c u2 u1) \to \forall (t1: T).\forall (t2: T).\forall (k: K).(pc3 (CHead c k u2) t1 t2) \to pc3 (CHead c k u1) t1 t2 \def \lambda (c: C).\lambda (u1: T).\lambda (u2: T).\lambda (H: (pr3 c u2 u1)).pr3_ind c (\lambda (t: T).\lambda (t0: T).\forall (t1: T).\forall (t2: T).\forall (k: K).(pc3 (CHead c k t) t1 t2) \to pc3 (CHead c k t0) t1 t2) (\lambda (t: T).\lambda (t1: T).\lambda (t2: T).\lambda (k: K).\lambda (H0: (pc3 (CHead c k t) t1 t2)).H0) (\lambda (t2: T).\lambda (t1: T).\lambda (H0: (pr2 c t1 t2)).\lambda (t3: T).\lambda (_: (pr3 c t2 t3)).\lambda (H2: ((\forall (t1: T).\forall (t4: T).\forall (k: K).(pc3 (CHead c k t2) t1 t4) \to pc3 (CHead c k t3) t1 t4))).\lambda (t0: T).\lambda (t4: T).\lambda (k: K).\lambda (H3: (pc3 (CHead c k t1) t0 t4)).H2 t0 t4 k (let H4 \def H3 in ex2_ind T (\lambda (t: T).pr3 (CHead c k t1) t0 t) (\lambda (t: T).pr3 (CHead c k t1) t4 t) (pc3 (CHead c k t2) t0 t4) (\lambda (x: T).\lambda (H5: (pr3 (CHead c k t1) t0 x)).\lambda (H6: (pr3 (CHead c k t1) t4 x)).pc3_t x (CHead c k t2) t0 (pc3_pr2_pr3_t c t1 t0 x k H5 t2 H0) t4 (pc3_s (CHead c k t2) x t4 (pc3_pr2_pr3_t c t1 t4 x k H6 t2 H0))) H4)) u2 u1 H.
+
+theorem pc3_lift: \forall (c: C).\forall (e: C).\forall (h: nat).\forall (d: nat).(drop h d c e) \to \forall (t1: T).\forall (t2: T).(pc3 e t1 t2) \to pc3 c (lift h d t1) (lift h d t2) \def \lambda (c: C).\lambda (e: C).\lambda (h: nat).\lambda (d: nat).\lambda (H: (drop h d c e)).\lambda (t1: T).\lambda (t2: T).\lambda (H0: (pc3 e t1 t2)).let H1 \def H0 in ex2_ind T (\lambda (t: T).pr3 e t1 t) (\lambda (t: T).pr3 e t2 t) (pc3 c (lift h d t1) (lift h d t2)) (\lambda (x: T).\lambda (H2: (pr3 e t1 x)).\lambda (H3: (pr3 e t2 x)).pc3_pr3_t c (lift h d t1) (lift h d x) (pr3_lift c e h d H t1 x H2) (lift h d t2) (pr3_lift c e h d H t2 x H3)) H1.
+
+theorem pc3_wcpr0.__pc3_wcpr0_t_aux: \forall (c1: C).\forall (c2: C).(wcpr0 c1 c2) \to \forall (k: K).\forall (u: T).\forall (t1: T).\forall (t2: T).(pr3 (CHead c1 k u) t1 t2) \to pc3 (CHead c2 k u) t1 t2 \def \lambda (c1: C).\lambda (c2: C).\lambda (H: (wcpr0 c1 c2)).\lambda (k: K).\lambda (u: T).\lambda (t1: T).\lambda (t2: T).\lambda (H0: (pr3 (CHead c1 k u) t1 t2)).pr3_ind (CHead c1 k u) (\lambda (t: T).\lambda (t0: T).pc3 (CHead c2 k u) t t0) (\lambda (t: T).pc3_refl (CHead c2 k u) t) (\lambda (t0: T).\lambda (t3: T).\lambda (H1: (pr2 (CHead c1 k u) t3 t0)).\lambda (t4: T).\lambda (_: (pr3 (CHead c1 k u) t0 t4)).\lambda (H3: (pc3 (CHead c2 k u) t0 t4)).pc3_t t0 (CHead c2 k u) t3 (let H4 \def match H1 return (\lambda (c: C).\lambda (t: T).\lambda (t1: T).(eq C c (CHead c1 k u)) \to (eq T t t3) \to (eq T t1 t0) \to pc3 (CHead c2 k u) t3 t0) with [(pr2_free c t1 t2 H2) \Rightarrow (\lambda (H3: (eq C c (CHead c1 k u))).\lambda (H4: (eq T t1 t3)).\lambda (H5: (eq T t2 t0)).eq_ind C (CHead c1 k u) (\lambda (_: C).(eq T t1 t3) \to (eq T t2 t0) \to (pr0 t1 t2) \to pc3 (CHead c2 k u) t3 t0) (\lambda (H6: (eq T t1 t3)).eq_ind T t3 (\lambda (t: T).(eq T t2 t0) \to (pr0 t t2) \to pc3 (CHead c2 k u) t3 t0) (\lambda (H7: (eq T t2 t0)).eq_ind T t0 (\lambda (t: T).(pr0 t3 t) \to pc3 (CHead c2 k u) t3 t0) (\lambda (H8: (pr0 t3 t0)).pc3_pr2_r (CHead c2 k u) t3 t0 (pr2_free (CHead c2 k u) t3 t0 H8)) t2 (sym_eq T t2 t0 H7)) t1 (sym_eq T t1 t3 H6)) c (sym_eq C c (CHead c1 k u) H3) H4 H5 H2) | (pr2_delta c d u0 i H2 t1 t2 H3 t H4) \Rightarrow (\lambda (H5: (eq C c (CHead c1 k u))).\lambda (H6: (eq T t1 t3)).\lambda (H7: (eq T t t0)).eq_ind C (CHead c1 k u) (\lambda (c0: C).(eq T t1 t3) \to (eq T t t0) \to (getl i c0 (CHead d (Bind Abbr) u0)) \to (pr0 t1 t2) \to (subst0 i u0 t2 t) \to pc3 (CHead c2 k u) t3 t0) (\lambda (H8: (eq T t1 t3)).eq_ind T t3 (\lambda (t4: T).(eq T t t0) \to (getl i (CHead c1 k u) (CHead d (Bind Abbr) u0)) \to (pr0 t4 t2) \to (subst0 i u0 t2 t) \to pc3 (CHead c2 k u) t3 t0) (\lambda (H9: (eq T t t0)).eq_ind T t0 (\lambda (t4: T).(getl i (CHead c1 k u) (CHead d (Bind Abbr) u0)) \to (pr0 t3 t2) \to (subst0 i u0 t2 t4) \to pc3 (CHead c2 k u) t3 t0) (\lambda (H10: (getl i (CHead c1 k u) (CHead d (Bind Abbr) u0))).\lambda (H11: (pr0 t3 t2)).\lambda (H12: (subst0 i u0 t2 t0)).ex3_2_ind C T (\lambda (e2: C).\lambda (u2: T).getl i (CHead c2 k u) (CHead e2 (Bind Abbr) u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 d e2) (\lambda (_: C).\lambda (u2: T).pr0 u0 u2) (pc3 (CHead c2 k u) t3 t0) (\lambda (x0: C).\lambda (x1: T).\lambda (H0: (getl i (CHead c2 k u) (CHead x0 (Bind Abbr) x1))).\lambda (_: (wcpr0 d x0)).\lambda (H14: (pr0 u0 x1)).ex2_ind T (\lambda (t0: T).subst0 i x1 t2 t0) (\lambda (t3: T).pr0 t0 t3) (pc3 (CHead c2 k u) t3 t0) (\lambda (x: T).\lambda (H15: (subst0 i x1 t2 x)).\lambda (H16: (pr0 t0 x)).pc3_pr2_u (CHead c2 k u) x t3 (pr2_delta (CHead c2 k u) x0 x1 i H0 t3 t2 H11 x H15) t0 (pc3_pr2_x (CHead c2 k u) x t0 (pr2_free (CHead c2 k u) t0 x H16))) (pr0_subst0_fwd u0 t2 t0 i H12 x1 H14)) (wcpr0_getl (CHead c1 k u) (CHead c2 k u) (wcpr0_comp c1 c2 H u u (pr0_refl u) k) i d u0 (Bind Abbr) H10)) t (sym_eq T t t0 H9)) t1 (sym_eq T t1 t3 H8)) c (sym_eq C c (CHead c1 k u) H5) H6 H7 H2 H3 H4)] in H4 (refl_equal C (CHead c1 k u)) (refl_equal T t3) (refl_equal T t0)) t4 H3) t1 t2 H0.
+
+theorem pc3_wcpr0_t: \forall (c1: C).\forall (c2: C).(wcpr0 c1 c2) \to \forall (t1: T).\forall (t2: T).(pr3 c1 t1 t2) \to pc3 c2 t1 t2 \def \lambda (c1: C).\lambda (c2: C).\lambda (H: (wcpr0 c1 c2)).wcpr0_ind (\lambda (c: C).\lambda (c0: C).\forall (t1: T).\forall (t2: T).(pr3 c t1 t2) \to pc3 c0 t1 t2) (\lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H0: (pr3 c t1 t2)).pc3_pr3_r c t1 t2 H0) (\lambda (c0: C).\lambda (c3: C).\lambda (H0: (wcpr0 c0 c3)).\lambda (_: ((\forall (t1: T).\forall (t2: T).(pr3 c0 t1 t2) \to pc3 c3 t1 t2))).\lambda (u1: T).\lambda (u2: T).\lambda (H2: (pr0 u1 u2)).\lambda (k: K).\lambda (t1: T).\lambda (t2: T).\lambda (H3: (pr3 (CHead c0 k u1) t1 t2)).let H4 \def pc3_pr2_pr3_t c0 u1 t1 t2 k H3 u2 (pr2_free c0 u1 u2 H2) in ex2_ind T (\lambda (t: T).pr3 (CHead c0 k u2) t1 t) (\lambda (t: T).pr3 (CHead c0 k u2) t2 t) (pc3 (CHead c3 k u2) t1 t2) (\lambda (x: T).\lambda (H5: (pr3 (CHead c0 k u2) t1 x)).\lambda (H6: (pr3 (CHead c0 k u2) t2 x)).pc3_t x (CHead c3 k u2) t1 (pc3_wcpr0.__pc3_wcpr0_t_aux c0 c3 H0 k u2 t1 x H5) t2 (pc3_s (CHead c3 k u2) x t2 (pc3_wcpr0.__pc3_wcpr0_t_aux c0 c3 H0 k u2 t2 x H6))) H4) c1 c2 H.
+
+theorem pc3_wcpr0: \forall (c1: C).\forall (c2: C).(wcpr0 c1 c2) \to \forall (t1: T).\forall (t2: T).(pc3 c1 t1 t2) \to pc3 c2 t1 t2 \def \lambda (c1: C).\lambda (c2: C).\lambda (H: (wcpr0 c1 c2)).\lambda (t1: T).\lambda (t2: T).\lambda (H0: (pc3 c1 t1 t2)).let H1 \def H0 in ex2_ind T (\lambda (t: T).pr3 c1 t1 t) (\lambda (t: T).pr3 c1 t2 t) (pc3 c2 t1 t2) (\lambda (x: T).\lambda (H2: (pr3 c1 t1 x)).\lambda (H3: (pr3 c1 t2 x)).pc3_t x c2 t1 (pc3_wcpr0_t c1 c2 H t1 x H2) t2 (pc3_s c2 x t2 (pc3_wcpr0_t c1 c2 H t2 x H3))) H1.
+
+inductive pc3_left (c:C): T \to T \to Prop \def
+| pc3_left_r: \forall (t: T).pc3_left c t t
+| pc3_left_ur: \forall (t1: T).\forall (t2: T).(pr2 c t1 t2) \to \forall (t3: T).(pc3_left c t2 t3) \to pc3_left c t1 t3
+| pc3_left_ux: \forall (t1: T).\forall (t2: T).(pr2 c t1 t2) \to \forall (t3: T).(pc3_left c t1 t3) \to pc3_left c t2 t3.
+
+theorem pc3_ind_left.__pc3_left_pr3: \forall (c: C).\forall (t1: T).\forall (t2: T).(pr3 c t1 t2) \to pc3_left c t1 t2 \def \lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pr3 c t1 t2)).pr3_ind c (\lambda (t: T).\lambda (t0: T).pc3_left c t t0) (\lambda (t: T).pc3_left_r c t) (\lambda (t0: T).\lambda (t3: T).\lambda (H0: (pr2 c t3 t0)).\lambda (t4: T).\lambda (_: (pr3 c t0 t4)).\lambda (H2: (pc3_left c t0 t4)).pc3_left_ur c t3 t0 H0 t4 H2) t1 t2 H.
+
+theorem pc3_ind_left.__pc3_left_trans: \forall (c: C).\forall (t1: T).\forall (t2: T).(pc3_left c t1 t2) \to \forall (t3: T).(pc3_left c t2 t3) \to pc3_left c t1 t3 \def \lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pc3_left c t1 t2)).pc3_left_ind c (\lambda (t: T).\lambda (t0: T).\forall (t3: T).(pc3_left c t0 t3) \to pc3_left c t t3) (\lambda (t: T).\lambda (t3: T).\lambda (H0: (pc3_left c t t3)).H0) (\lambda (t0: T).\lambda (t3: T).\lambda (H0: (pr2 c t0 t3)).\lambda (t4: T).\lambda (_: (pc3_left c t3 t4)).\lambda (H2: ((\forall (t5: T).(pc3_left c t4 t5) \to pc3_left c t3 t5))).\lambda (t5: T).\lambda (H3: (pc3_left c t4 t5)).pc3_left_ur c t0 t3 H0 t5 (H2 t5 H3)) (\lambda (t0: T).\lambda (t3: T).\lambda (H0: (pr2 c t0 t3)).\lambda (t4: T).\lambda (_: (pc3_left c t0 t4)).\lambda (H2: ((\forall (t3: T).(pc3_left c t4 t3) \to pc3_left c t0 t3))).\lambda (t5: T).\lambda (H3: (pc3_left c t4 t5)).pc3_left_ux c t0 t3 H0 t5 (H2 t5 H3)) t1 t2 H.
+
+theorem pc3_ind_left.__pc3_left_sym: \forall (c: C).\forall (t1: T).\forall (t2: T).(pc3_left c t1 t2) \to pc3_left c t2 t1 \def \lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pc3_left c t1 t2)).pc3_left_ind c (\lambda (t: T).\lambda (t0: T).pc3_left c t0 t) (\lambda (t: T).pc3_left_r c t) (\lambda (t0: T).\lambda (t3: T).\lambda (H0: (pr2 c t0 t3)).\lambda (t4: T).\lambda (_: (pc3_left c t3 t4)).\lambda (H2: (pc3_left c t4 t3)).pc3_ind_left.__pc3_left_trans c t4 t3 H2 t0 (pc3_left_ux c t0 t3 H0 t0 (pc3_left_r c t0))) (\lambda (t0: T).\lambda (t3: T).\lambda (H0: (pr2 c t0 t3)).\lambda (t4: T).\lambda (_: (pc3_left c t0 t4)).\lambda (H2: (pc3_left c t4 t0)).pc3_ind_left.__pc3_left_trans c t4 t0 H2 t3 (pc3_left_ur c t0 t3 H0 t3 (pc3_left_r c t3))) t1 t2 H.
+
+theorem pc3_ind_left.__pc3_left_pc3: \forall (c: C).\forall (t1: T).\forall (t2: T).(pc3 c t1 t2) \to pc3_left c t1 t2 \def \lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pc3 c t1 t2)).let H0 \def H in ex2_ind T (\lambda (t: T).pr3 c t1 t) (\lambda (t: T).pr3 c t2 t) (pc3_left c t1 t2) (\lambda (x: T).\lambda (H1: (pr3 c t1 x)).\lambda (H2: (pr3 c t2 x)).pc3_ind_left.__pc3_left_trans c t1 x (pc3_ind_left.__pc3_left_pr3 c t1 x H1) t2 (pc3_ind_left.__pc3_left_sym c t2 x (pc3_ind_left.__pc3_left_pr3 c t2 x H2))) H0.
+
+theorem pc3_ind_left.__pc3_pc3_left: \forall (c: C).\forall (t1: T).\forall (t2: T).(pc3_left c t1 t2) \to pc3 c t1 t2 \def \lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pc3_left c t1 t2)).pc3_left_ind c (\lambda (t: T).\lambda (t0: T).pc3 c t t0) (\lambda (t: T).pc3_refl c t) (\lambda (t0: T).\lambda (t3: T).\lambda (H0: (pr2 c t0 t3)).\lambda (t4: T).\lambda (_: (pc3_left c t3 t4)).\lambda (H2: (pc3 c t3 t4)).pc3_pr2_u c t3 t0 H0 t4 H2) (\lambda (t0: T).\lambda (t3: T).\lambda (H0: (pr2 c t0 t3)).\lambda (t4: T).\lambda (_: (pc3_left c t0 t4)).\lambda (H2: (pc3 c t0 t4)).pc3_t t0 c t3 (pc3_pr2_x c t3 t0 H0) t4 H2) t1 t2 H.
+
+theorem pc3_ind_left: \forall (c: C).\forall (P: ((T \to T \to Prop))).((\forall (t: T).P t t)) \to ((\forall (t1: T).\forall (t2: T).(pr2 c t1 t2) \to \forall (t3: T).(pc3 c t2 t3) \to (P t2 t3) \to P t1 t3)) \to ((\forall (t1: T).\forall (t2: T).(pr2 c t1 t2) \to \forall (t3: T).(pc3 c t1 t3) \to (P t1 t3) \to P t2 t3)) \to \forall (t: T).\forall (t0: T).(pc3 c t t0) \to P t t0 \def \lambda (c: C).\lambda (P: ((T \to T \to Prop))).\lambda (H: ((\forall (t: T).P t t))).\lambda (H0: ((\forall (t1: T).\forall (t2: T).(pr2 c t1 t2) \to \forall (t3: T).(pc3 c t2 t3) \to (P t2 t3) \to P t1 t3))).\lambda (H1: ((\forall (t1: T).\forall (t2: T).(pr2 c t1 t2) \to \forall (t3: T).(pc3 c t1 t3) \to (P t1 t3) \to P t2 t3))).\lambda (t: T).\lambda (t0: T).\lambda (H2: (pc3 c t t0)).pc3_left_ind c (\lambda (t1: T).\lambda (t2: T).P t1 t2) H (\lambda (t1: T).\lambda (t2: T).\lambda (H3: (pr2 c t1 t2)).\lambda (t3: T).\lambda (H4: (pc3_left c t2 t3)).\lambda (H5: (P t2 t3)).H0 t1 t2 H3 t3 (pc3_ind_left.__pc3_pc3_left c t2 t3 H4) H5) (\lambda (t1: T).\lambda (t2: T).\lambda (H3: (pr2 c t1 t2)).\lambda (t3: T).\lambda (H4: (pc3_left c t1 t3)).\lambda (H5: (P t1 t3)).H1 t1 t2 H3 t3 (pc3_ind_left.__pc3_pc3_left c t1 t3 H4) H5) t t0 (pc3_ind_left.__pc3_left_pc3 c t t0 H2).
+
+theorem pc3_gen_sort: \forall (c: C).\forall (m: nat).\forall (n: nat).(pc3 c (TSort m) (TSort n)) \to eq nat m n \def \lambda (c: C).\lambda (m: nat).\lambda (n: nat).\lambda (H: (pc3 c (TSort m) (TSort n))).let H0 \def H in ex2_ind T (\lambda (t: T).pr3 c (TSort m) t) (\lambda (t: T).pr3 c (TSort n) t) (eq nat m n) (\lambda (x: T).\lambda (H1: (pr3 c (TSort m) x)).\lambda (H2: (pr3 c (TSort n) x)).let H3 \def eq_ind T x (\lambda (t: T).eq T t (TSort n)) (pr3_gen_sort c x n H2) (TSort m) (pr3_gen_sort c x m H1) in let H4 \def f_equal T nat (\lambda (e: T).match e return nat with [(TSort n) \Rightarrow n | (TLRef _) \Rightarrow m | (THead _ _ _) \Rightarrow m]) (TSort m) (TSort n) H3 in H4) H0.
+
+theorem pc3_gen_abst: \forall (c: C).\forall (u1: T).\forall (u2: T).\forall (t1: T).\forall (t2: T).(pc3 c (THead (Bind Abst) u1 t1) (THead (Bind Abst) u2 t2)) \to and (pc3 c u1 u2) (\forall (b: B).\forall (u: T).pc3 (CHead c (Bind b) u) t1 t2) \def \lambda (c: C).\lambda (u1: T).\lambda (u2: T).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pc3 c (THead (Bind Abst) u1 t1) (THead (Bind Abst) u2 t2))).let H0 \def H in ex2_ind T (\lambda (t: T).pr3 c (THead (Bind Abst) u1 t1) t) (\lambda (t: T).pr3 c (THead (Bind Abst) u2 t2) t) (and (pc3 c u1 u2) (\forall (b: B).\forall (u: T).pc3 (CHead c (Bind b) u) t1 t2)) (\lambda (x: T).\lambda (H1: (pr3 c (THead (Bind Abst) u1 t1) x)).\lambda (H2: (pr3 c (THead (Bind Abst) u2 t2) x)).let H3 \def pr3_gen_abst c u2 t2 x H2 in ex3_2_ind T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Abst) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr3 c u2 u3) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) t2 t3) (and (pc3 c u1 u2) (\forall (b: B).\forall (u: T).pc3 (CHead c (Bind b) u) t1 t2)) (\lambda (x0: T).\lambda (x1: T).\lambda (H4: (eq T x (THead (Bind Abst) x0 x1))).\lambda (H5: (pr3 c u2 x0)).\lambda (H6: ((\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) t2 x1))).let H7 \def pr3_gen_abst c u1 t1 x H1 in ex3_2_ind T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Abst) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr3 c u1 u3) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) t1 t3) (and (pc3 c u1 u2) (\forall (b: B).\forall (u: T).pc3 (CHead c (Bind b) u) t1 t2)) (\lambda (x2: T).\lambda (x3: T).\lambda (H8: (eq T x (THead (Bind Abst) x2 x3))).\lambda (H9: (pr3 c u1 x2)).\lambda (H10: ((\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) t1 x3))).let H11 \def eq_ind T x (\lambda (t: T).eq T t (THead (Bind Abst) x0 x1)) H4 (THead (Bind Abst) x2 x3) H8 in let H12 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow x2 | (TLRef _) \Rightarrow x2 | (THead _ t _) \Rightarrow t]) (THead (Bind Abst) x2 x3) (THead (Bind Abst) x0 x1) H11 in (let H13 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow x3 | (TLRef _) \Rightarrow x3 | (THead _ _ t) \Rightarrow t]) (THead (Bind Abst) x2 x3) (THead (Bind Abst) x0 x1) H11 in \lambda (H14: (eq T x2 x0)).let H15 \def eq_ind T x3 (\lambda (t: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) t1 t) H10 x1 H13 in let H16 \def eq_ind T x2 (\lambda (t: T).pr3 c u1 t) H9 x0 H14 in conj (pc3 c u1 u2) (\forall (b: B).\forall (u: T).pc3 (CHead c (Bind b) u) t1 t2) (pc3_pr3_t c u1 x0 H16 u2 H5) (\lambda (b: B).\lambda (u: T).pc3_pr3_t (CHead c (Bind b) u) t1 x1 (H15 b u) t2 (H6 b u))) H12) H7) H3) H0.
+
+theorem pc3_gen_lift: \forall (c: C).\forall (t1: T).\forall (t2: T).\forall (h: nat).\forall (d: nat).(pc3 c (lift h d t1) (lift h d t2)) \to \forall (e: C).(drop h d c e) \to pc3 e t1 t2 \def \lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (h: nat).\lambda (d: nat).\lambda (H: (pc3 c (lift h d t1) (lift h d t2))).\lambda (e: C).\lambda (H0: (drop h d c e)).let H1 \def H in ex2_ind T (\lambda (t: T).pr3 c (lift h d t1) t) (\lambda (t: T).pr3 c (lift h d t2) t) (pc3 e t1 t2) (\lambda (x: T).\lambda (H2: (pr3 c (lift h d t1) x)).\lambda (H3: (pr3 c (lift h d t2) x)).let H4 \def pr3_gen_lift c t2 x h d H3 e H0 in ex2_ind T (\lambda (t3: T).eq T x (lift h d t3)) (\lambda (t3: T).pr3 e t2 t3) (pc3 e t1 t2) (\lambda (x0: T).\lambda (H5: (eq T x (lift h d x0))).\lambda (H6: (pr3 e t2 x0)).let H7 \def pr3_gen_lift c t1 x h d H2 e H0 in ex2_ind T (\lambda (t3: T).eq T x (lift h d t3)) (\lambda (t3: T).pr3 e t1 t3) (pc3 e t1 t2) (\lambda (x1: T).\lambda (H8: (eq T x (lift h d x1))).\lambda (H9: (pr3 e t1 x1)).let H10 \def eq_ind T x (\lambda (t: T).eq T t (lift h d x0)) H5 (lift h d x1) H8 in let H11 \def eq_ind T x1 (\lambda (t: T).pr3 e t1 t) H9 x0 (lift_inj x1 x0 h d H10) in pc3_pr3_t e t1 x0 H11 t2 H6) H7) H4) H1.
+
+theorem pc3_gen_not_abst: \forall (b: B).(not (eq B b Abst)) \to \forall (c: C).\forall (t1: T).\forall (t2: T).\forall (u1: T).\forall (u2: T).(pc3 c (THead (Bind b) u1 t1) (THead (Bind Abst) u2 t2)) \to pc3 (CHead c (Bind b) u1) t1 (lift (S O) O (THead (Bind Abst) u2 t2)) \def \lambda (b: B).B_ind (\lambda (b0: B).(not (eq B b0 Abst)) \to \forall (c: C).\forall (t1: T).\forall (t2: T).\forall (u1: T).\forall (u2: T).(pc3 c (THead (Bind b0) u1 t1) (THead (Bind Abst) u2 t2)) \to pc3 (CHead c (Bind b0) u1) t1 (lift (S O) O (THead (Bind Abst) u2 t2))) (\lambda (_: (not (eq B Abbr Abst))).\lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (u1: T).\lambda (u2: T).\lambda (H0: (pc3 c (THead (Bind Abbr) u1 t1) (THead (Bind Abst) u2 t2))).let H1 \def H0 in ex2_ind T (\lambda (t: T).pr3 c (THead (Bind Abbr) u1 t1) t) (\lambda (t: T).pr3 c (THead (Bind Abst) u2 t2) t) (pc3 (CHead c (Bind Abbr) u1) t1 (lift (S O) O (THead (Bind Abst) u2 t2))) (\lambda (x: T).\lambda (H2: (pr3 c (THead (Bind Abbr) u1 t1) x)).\lambda (H3: (pr3 c (THead (Bind Abst) u2 t2) x)).let H4 \def pr3_gen_abbr c u1 t1 x H2 in or_ind (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr3 c u1 u3) (\lambda (_: T).\lambda (t3: T).pr3 (CHead c (Bind Abbr) u1) t1 t3)) (pr3 (CHead c (Bind Abbr) u1) t1 (lift (S O) O x)) (pc3 (CHead c (Bind Abbr) u1) t1 (lift (S O) O (THead (Bind Abst) u2 t2))) (\lambda (H5: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Abbr) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c u1 u2) (\lambda (_: T).\lambda (t2: T).pr3 (CHead c (Bind Abbr) u1) t1 t2))).ex3_2_ind T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Abbr) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr3 c u1 u3) (\lambda (_: T).\lambda (t3: T).pr3 (CHead c (Bind Abbr) u1) t1 t3) (pc3 (CHead c (Bind Abbr) u1) t1 (lift (S O) O (THead (Bind Abst) u2 t2))) (\lambda (x0: T).\lambda (x1: T).\lambda (H6: (eq T x (THead (Bind Abbr) x0 x1))).\lambda (_: (pr3 c u1 x0)).\lambda (_: (pr3 (CHead c (Bind Abbr) u1) t1 x1)).let H9 \def pr3_gen_abst c u2 t2 x H3 in ex3_2_ind T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Abst) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr3 c u2 u3) (\lambda (_: T).\lambda (t3: T).\forall (b0: B).\forall (u: T).pr3 (CHead c (Bind b0) u) t2 t3) (pc3 (CHead c (Bind Abbr) u1) t1 (lift (S O) O (THead (Bind Abst) u2 t2))) (\lambda (x2: T).\lambda (x3: T).\lambda (H10: (eq T x (THead (Bind Abst) x2 x3))).\lambda (_: (pr3 c u2 x2)).\lambda (_: ((\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) t2 x3))).let H13 \def eq_ind T x (\lambda (t: T).eq T t (THead (Bind Abbr) x0 x1)) H6 (THead (Bind Abst) x2 x3) H10 in let H14 \def eq_ind T (THead (Bind Abst) x2 x3) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow False | Abst \Rightarrow True | Void \Rightarrow False]) | (Flat _) \Rightarrow False])]) I (THead (Bind Abbr) x0 x1) H13 in False_ind (pc3 (CHead c (Bind Abbr) u1) t1 (lift (S O) O (THead (Bind Abst) u2 t2))) H14) H9) H5) (\lambda (H5: (pr3 (CHead c (Bind Abbr) u1) t1 (lift (S O) O x))).let H6 \def pr3_gen_abst c u2 t2 x H3 in ex3_2_ind T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Abst) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr3 c u2 u3) (\lambda (_: T).\lambda (t3: T).\forall (b0: B).\forall (u: T).pr3 (CHead c (Bind b0) u) t2 t3) (pc3 (CHead c (Bind Abbr) u1) t1 (lift (S O) O (THead (Bind Abst) u2 t2))) (\lambda (x0: T).\lambda (x1: T).\lambda (H7: (eq T x (THead (Bind Abst) x0 x1))).\lambda (H8: (pr3 c u2 x0)).\lambda (H9: ((\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) t2 x1))).let H10 \def eq_ind T x (\lambda (t: T).pr3 (CHead c (Bind Abbr) u1) t1 (lift (S O) O t)) H5 (THead (Bind Abst) x0 x1) H7 in pc3_pr3_t (CHead c (Bind Abbr) u1) t1 (lift (S O) O (THead (Bind Abst) x0 x1)) H10 (lift (S O) O (THead (Bind Abst) u2 t2)) (pr3_lift (CHead c (Bind Abbr) u1) c (S O) O (drop_drop (Bind Abbr) O c c (drop_refl c) u1) (THead (Bind Abst) u2 t2) (THead (Bind Abst) x0 x1) (pr3_head_12 c u2 x0 H8 (Bind Abst) t2 x1 (H9 Abst x0)))) H6) H4) H1) (\lambda (H: (not (eq B Abst Abst))).\lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (u1: T).\lambda (u2: T).\lambda (_: (pc3 c (THead (Bind Abst) u1 t1) (THead (Bind Abst) u2 t2))).let H1 \def match (H (refl_equal B Abst)) return (pc3 (CHead c (Bind Abst) u1) t1 (lift (S O) O (THead (Bind Abst) u2 t2))) with [] in H1) (\lambda (_: (not (eq B Void Abst))).\lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (u1: T).\lambda (u2: T).\lambda (H0: (pc3 c (THead (Bind Void) u1 t1) (THead (Bind Abst) u2 t2))).let H1 \def H0 in ex2_ind T (\lambda (t: T).pr3 c (THead (Bind Void) u1 t1) t) (\lambda (t: T).pr3 c (THead (Bind Abst) u2 t2) t) (pc3 (CHead c (Bind Void) u1) t1 (lift (S O) O (THead (Bind Abst) u2 t2))) (\lambda (x: T).\lambda (H2: (pr3 c (THead (Bind Void) u1 t1) x)).\lambda (H3: (pr3 c (THead (Bind Abst) u2 t2) x)).let H4 \def pr3_gen_void c u1 t1 x H2 in or_ind (ex3_2 T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Void) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr3 c u1 u3) (\lambda (_: T).\lambda (t3: T).\forall (b0: B).\forall (u: T).pr3 (CHead c (Bind b0) u) t1 t3)) (pr3 (CHead c (Bind Void) u1) t1 (lift (S O) O x)) (pc3 (CHead c (Bind Void) u1) t1 (lift (S O) O (THead (Bind Abst) u2 t2))) (\lambda (H5: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T x (THead (Bind Void) u2 t2)) (\lambda (u2: T).\lambda (_: T).pr3 c u1 u2) (\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) t1 t2))).ex3_2_ind T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Void) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr3 c u1 u3) (\lambda (_: T).\lambda (t3: T).\forall (b0: B).\forall (u: T).pr3 (CHead c (Bind b0) u) t1 t3) (pc3 (CHead c (Bind Void) u1) t1 (lift (S O) O (THead (Bind Abst) u2 t2))) (\lambda (x0: T).\lambda (x1: T).\lambda (H6: (eq T x (THead (Bind Void) x0 x1))).\lambda (_: (pr3 c u1 x0)).\lambda (_: ((\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) t1 x1))).let H9 \def pr3_gen_abst c u2 t2 x H3 in ex3_2_ind T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Abst) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr3 c u2 u3) (\lambda (_: T).\lambda (t3: T).\forall (b0: B).\forall (u: T).pr3 (CHead c (Bind b0) u) t2 t3) (pc3 (CHead c (Bind Void) u1) t1 (lift (S O) O (THead (Bind Abst) u2 t2))) (\lambda (x2: T).\lambda (x3: T).\lambda (H10: (eq T x (THead (Bind Abst) x2 x3))).\lambda (_: (pr3 c u2 x2)).\lambda (_: ((\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) t2 x3))).let H13 \def eq_ind T x (\lambda (t: T).eq T t (THead (Bind Void) x0 x1)) H6 (THead (Bind Abst) x2 x3) H10 in let H14 \def eq_ind T (THead (Bind Abst) x2 x3) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow False | Abst \Rightarrow True | Void \Rightarrow False]) | (Flat _) \Rightarrow False])]) I (THead (Bind Void) x0 x1) H13 in False_ind (pc3 (CHead c (Bind Void) u1) t1 (lift (S O) O (THead (Bind Abst) u2 t2))) H14) H9) H5) (\lambda (H5: (pr3 (CHead c (Bind Void) u1) t1 (lift (S O) O x))).let H6 \def pr3_gen_abst c u2 t2 x H3 in ex3_2_ind T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Abst) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr3 c u2 u3) (\lambda (_: T).\lambda (t3: T).\forall (b0: B).\forall (u: T).pr3 (CHead c (Bind b0) u) t2 t3) (pc3 (CHead c (Bind Void) u1) t1 (lift (S O) O (THead (Bind Abst) u2 t2))) (\lambda (x0: T).\lambda (x1: T).\lambda (H7: (eq T x (THead (Bind Abst) x0 x1))).\lambda (H8: (pr3 c u2 x0)).\lambda (H9: ((\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) t2 x1))).let H10 \def eq_ind T x (\lambda (t: T).pr3 (CHead c (Bind Void) u1) t1 (lift (S O) O t)) H5 (THead (Bind Abst) x0 x1) H7 in pc3_pr3_t (CHead c (Bind Void) u1) t1 (lift (S O) O (THead (Bind Abst) x0 x1)) H10 (lift (S O) O (THead (Bind Abst) u2 t2)) (pr3_lift (CHead c (Bind Void) u1) c (S O) O (drop_drop (Bind Void) O c c (drop_refl c) u1) (THead (Bind Abst) u2 t2) (THead (Bind Abst) x0 x1) (pr3_head_12 c u2 x0 H8 (Bind Abst) t2 x1 (H9 Abst x0)))) H6) H4) H1) b.
+
+theorem pc3_gen_lift_abst: \forall (c: C).\forall (t: T).\forall (t2: T).\forall (u2: T).\forall (h: nat).\forall (d: nat).(pc3 c (lift h d t) (THead (Bind Abst) u2 t2)) \to \forall (e: C).(drop h d c e) \to ex3_2 T T (\lambda (u1: T).\lambda (t1: T).pr3 e t (THead (Bind Abst) u1 t1)) (\lambda (u1: T).\lambda (_: T).pr3 c u2 (lift h d u1)) (\lambda (_: T).\lambda (t1: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) t2 (lift h (S d) t1)) \def \lambda (c: C).\lambda (t: T).\lambda (t2: T).\lambda (u2: T).\lambda (h: nat).\lambda (d: nat).\lambda (H: (pc3 c (lift h d t) (THead (Bind Abst) u2 t2))).\lambda (e: C).\lambda (H0: (drop h d c e)).let H1 \def H in ex2_ind T (\lambda (t0: T).pr3 c (lift h d t) t0) (\lambda (t0: T).pr3 c (THead (Bind Abst) u2 t2) t0) (ex3_2 T T (\lambda (u1: T).\lambda (t1: T).pr3 e t (THead (Bind Abst) u1 t1)) (\lambda (u1: T).\lambda (_: T).pr3 c u2 (lift h d u1)) (\lambda (_: T).\lambda (t1: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) t2 (lift h (S d) t1))) (\lambda (x: T).\lambda (H2: (pr3 c (lift h d t) x)).\lambda (H3: (pr3 c (THead (Bind Abst) u2 t2) x)).let H4 \def pr3_gen_lift c t x h d H2 e H0 in ex2_ind T (\lambda (t3: T).eq T x (lift h d t3)) (\lambda (t3: T).pr3 e t t3) (ex3_2 T T (\lambda (u1: T).\lambda (t1: T).pr3 e t (THead (Bind Abst) u1 t1)) (\lambda (u1: T).\lambda (_: T).pr3 c u2 (lift h d u1)) (\lambda (_: T).\lambda (t1: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) t2 (lift h (S d) t1))) (\lambda (x0: T).\lambda (H5: (eq T x (lift h d x0))).\lambda (H6: (pr3 e t x0)).let H7 \def pr3_gen_abst c u2 t2 x H3 in ex3_2_ind T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Abst) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr3 c u2 u3) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) t2 t3) (ex3_2 T T (\lambda (u1: T).\lambda (t1: T).pr3 e t (THead (Bind Abst) u1 t1)) (\lambda (u1: T).\lambda (_: T).pr3 c u2 (lift h d u1)) (\lambda (_: T).\lambda (t1: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) t2 (lift h (S d) t1))) (\lambda (x1: T).\lambda (x2: T).\lambda (H8: (eq T x (THead (Bind Abst) x1 x2))).\lambda (H9: (pr3 c u2 x1)).\lambda (H10: ((\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) t2 x2))).let H11 \def eq_ind T x (\lambda (t: T).eq T t (lift h d x0)) H5 (THead (Bind Abst) x1 x2) H8 in ex3_2_ind T T (\lambda (y: T).\lambda (z: T).eq T x0 (THead (Bind Abst) y z)) (\lambda (y: T).\lambda (_: T).eq T x1 (lift h d y)) (\lambda (_: T).\lambda (z: T).eq T x2 (lift h (S d) z)) (ex3_2 T T (\lambda (u1: T).\lambda (t1: T).pr3 e t (THead (Bind Abst) u1 t1)) (\lambda (u1: T).\lambda (_: T).pr3 c u2 (lift h d u1)) (\lambda (_: T).\lambda (t1: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) t2 (lift h (S d) t1))) (\lambda (x3: T).\lambda (x4: T).\lambda (H12: (eq T x0 (THead (Bind Abst) x3 x4))).\lambda (H13: (eq T x1 (lift h d x3))).\lambda (H14: (eq T x2 (lift h (S d) x4))).let H15 \def eq_ind T x2 (\lambda (t: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) t2 t) H10 (lift h (S d) x4) H14 in let H16 \def eq_ind T x1 (\lambda (t: T).pr3 c u2 t) H9 (lift h d x3) H13 in let H17 \def eq_ind T x0 (\lambda (t0: T).pr3 e t t0) H6 (THead (Bind Abst) x3 x4) H12 in ex3_2_intro T T (\lambda (u1: T).\lambda (t1: T).pr3 e t (THead (Bind Abst) u1 t1)) (\lambda (u1: T).\lambda (_: T).pr3 c u2 (lift h d u1)) (\lambda (_: T).\lambda (t1: T).\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) t2 (lift h (S d) t1)) x3 x4 H17 H16 H15) (lift_gen_bind Abst x1 x2 x0 h d H11)) H7) H4) H1.
+
+theorem pc3_pr2_fsubst0: \forall (c1: C).\forall (t1: T).\forall (t: T).(pr2 c1 t1 t) \to \forall (i: nat).\forall (u: T).\forall (c2: C).\forall (t2: T).(fsubst0 i u c1 t1 c2 t2) \to \forall (e: C).(getl i c1 (CHead e (Bind Abbr) u)) \to pc3 c2 t2 t \def \lambda (c1: C).\lambda (t1: T).\lambda (t: T).\lambda (H: (pr2 c1 t1 t)).pr2_ind (\lambda (c: C).\lambda (t0: T).\lambda (t2: T).\forall (i: nat).\forall (u: T).\forall (c2: C).\forall (t3: T).(fsubst0 i u c t0 c2 t3) \to \forall (e: C).(getl i c (CHead e (Bind Abbr) u)) \to pc3 c2 t3 t2) (\lambda (c: C).\lambda (t2: T).\lambda (t3: T).\lambda (H0: (pr0 t2 t3)).\lambda (i: nat).\lambda (u: T).\lambda (c2: C).\lambda (t0: T).\lambda (H1: (fsubst0 i u c t2 c2 t0)).fsubst0_ind i u c t2 (\lambda (c0: C).\lambda (t4: T).\forall (e: C).(getl i c (CHead e (Bind Abbr) u)) \to pc3 c0 t4 t3) (\lambda (t4: T).\lambda (H2: (subst0 i u t2 t4)).\lambda (e: C).\lambda (H3: (getl i c (CHead e (Bind Abbr) u))).or_ind (pr0 t4 t3) (ex2 T (\lambda (w2: T).pr0 t4 w2) (\lambda (w2: T).subst0 i u t3 w2)) (pc3 c t4 t3) (\lambda (H4: (pr0 t4 t3)).pc3_pr2_r c t4 t3 (pr2_free c t4 t3 H4)) (\lambda (H4: (ex2 T (\lambda (w2: T).pr0 t4 w2) (\lambda (w2: T).subst0 i u t3 w2))).ex2_ind T (\lambda (w2: T).pr0 t4 w2) (\lambda (w2: T).subst0 i u t3 w2) (pc3 c t4 t3) (\lambda (x: T).\lambda (H5: (pr0 t4 x)).\lambda (H6: (subst0 i u t3 x)).pc3_pr2_u c x t4 (pr2_free c t4 x H5) t3 (pc3_pr2_x c x t3 (pr2_delta c e u i H3 t3 t3 (pr0_refl t3) x H6))) H4) (pr0_subst0 t2 t3 H0 u t4 i H2 u (pr0_refl u))) (\lambda (c0: C).\lambda (_: (csubst0 i u c c0)).\lambda (e: C).\lambda (_: (getl i c (CHead e (Bind Abbr) u))).pc3_pr2_r c0 t2 t3 (pr2_free c0 t2 t3 H0)) (\lambda (t4: T).\lambda (H2: (subst0 i u t2 t4)).\lambda (c0: C).\lambda (H3: (csubst0 i u c c0)).\lambda (e: C).\lambda (H4: (getl i c (CHead e (Bind Abbr) u))).or_ind (pr0 t4 t3) (ex2 T (\lambda (w2: T).pr0 t4 w2) (\lambda (w2: T).subst0 i u t3 w2)) (pc3 c0 t4 t3) (\lambda (H5: (pr0 t4 t3)).pc3_pr2_r c0 t4 t3 (pr2_free c0 t4 t3 H5)) (\lambda (H5: (ex2 T (\lambda (w2: T).pr0 t4 w2) (\lambda (w2: T).subst0 i u t3 w2))).ex2_ind T (\lambda (w2: T).pr0 t4 w2) (\lambda (w2: T).subst0 i u t3 w2) (pc3 c0 t4 t3) (\lambda (x: T).\lambda (H6: (pr0 t4 x)).\lambda (H7: (subst0 i u t3 x)).pc3_pr2_u c0 x t4 (pr2_free c0 t4 x H6) t3 (pc3_pr2_x c0 x t3 (pr2_delta c0 e u i (csubst0_getl_ge i i (le_n i) c c0 u H3 (CHead e (Bind Abbr) u) H4) t3 t3 (pr0_refl t3) x H7))) H5) (pr0_subst0 t2 t3 H0 u t4 i H2 u (pr0_refl u))) c2 t0 H1) (\lambda (c: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c (CHead d (Bind Abbr) u))).\lambda (t2: T).\lambda (t3: T).\lambda (H1: (pr0 t2 t3)).\lambda (t0: T).\lambda (H2: (subst0 i u t3 t0)).\lambda (i0: nat).\lambda (u0: T).\lambda (c2: C).\lambda (t4: T).\lambda (H3: (fsubst0 i0 u0 c t2 c2 t4)).fsubst0_ind i0 u0 c t2 (\lambda (c0: C).\lambda (t5: T).\forall (e: C).(getl i0 c (CHead e (Bind Abbr) u0)) \to pc3 c0 t5 t0) (\lambda (t5: T).\lambda (H4: (subst0 i0 u0 t2 t5)).\lambda (e: C).\lambda (H5: (getl i0 c (CHead e (Bind Abbr) u0))).pc3_t t2 c t5 (pc3_s c t5 t2 (pc3_pr2_r c t2 t5 (pr2_delta c e u0 i0 H5 t2 t2 (pr0_refl t2) t5 H4))) t0 (pc3_pr2_r c t2 t0 (pr2_delta c d u i H0 t2 t3 H1 t0 H2))) (\lambda (c0: C).\lambda (H4: (csubst0 i0 u0 c c0)).\lambda (e: C).\lambda (H5: (getl i0 c (CHead e (Bind Abbr) u0))).lt_le_e i i0 (pc3 c0 t2 t0) (\lambda (H6: (lt i i0)).let H7 \def csubst0_getl_lt i0 i H6 c c0 u0 H4 (CHead d (Bind Abbr) u) H0 in or4_ind (getl i c0 (CHead d (Bind Abbr) u)) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e0 (Bind b) u1)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl i c0 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u1 w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u1: T).getl i c0 (CHead e2 (Bind b) u1)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl i c0 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u1 w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2)) (pc3 c0 t2 t0) (\lambda (H8: (getl i c0 (CHead d (Bind Abbr) u))).pc3_pr2_r c0 t2 t0 (pr2_delta c0 d u i H8 t2 t3 H1 t0 H2)) (\lambda (H8: (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e0 (Bind b) u0)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl i c0 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u w))).ex3_4_ind B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e0 (Bind b) u1)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl i c0 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u1 w) (pc3 c0 t2 t0) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: T).\lambda (x3: T).\lambda (H9: (eq C (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x2))).\lambda (H10: (getl i c0 (CHead x1 (Bind x0) x3))).\lambda (H11: (subst0 (minus i0 (S i)) u0 x2 x3)).let H12 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x2) H9 in (let H13 \def f_equal C B (\lambda (e0: C).match e0 return B with [(CSort _) \Rightarrow Abbr | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x2) H9 in (let H14 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x2) H9 in \lambda (H15: (eq B Abbr x0)).\lambda (H16: (eq C d x1)).let H17 \def eq_ind_r T x2 (\lambda (t: T).subst0 (minus i0 (S i)) u0 t x3) H11 u H14 in let H18 \def eq_ind_r C x1 (\lambda (c: C).getl i c0 (CHead c (Bind x0) x3)) H10 d H16 in let H19 \def eq_ind_r B x0 (\lambda (b: B).getl i c0 (CHead d (Bind b) x3)) H18 Abbr H15 in ex2_ind T (\lambda (t5: T).subst0 i x3 t3 t5) (\lambda (t5: T).subst0 (S (plus (minus i0 (S i)) i)) u0 t0 t5) (pc3 c0 t2 t0) (\lambda (x: T).\lambda (H20: (subst0 i x3 t3 x)).\lambda (H21: (subst0 (S (plus (minus i0 (S i)) i)) u0 t0 x)).let H22 \def eq_ind_r nat (S (plus (minus i0 (S i)) i)) (\lambda (n: nat).subst0 n u0 t0 x) H21 i0 (lt_plus_minus_r i i0 H6) in pc3_pr2_u c0 x t2 (pr2_delta c0 d x3 i H19 t2 t3 H1 x H20) t0 (pc3_pr2_x c0 x t0 (pr2_delta c0 e u0 i0 (csubst0_getl_ge i0 i0 (le_n i0) c c0 u0 H4 (CHead e (Bind Abbr) u0) H5) t0 t0 (pr0_refl t0) x H22))) (subst0_subst0_back t3 t0 u i H2 x3 u0 (minus i0 (S i)) H17)) H13) H12) H8) (\lambda (H8: (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u0)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl i c0 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2))).ex3_4_ind B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u1: T).getl i c0 (CHead e2 (Bind b) u1)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2) (pc3 c0 t2 t0) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (H9: (eq C (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3))).\lambda (H10: (getl i c0 (CHead x2 (Bind x0) x3))).\lambda (H11: (csubst0 (minus i0 (S i)) u0 x1 x2)).let H12 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H9 in (let H13 \def f_equal C B (\lambda (e0: C).match e0 return B with [(CSort _) \Rightarrow Abbr | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H9 in (let H14 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H9 in \lambda (H15: (eq B Abbr x0)).\lambda (H16: (eq C d x1)).let H17 \def eq_ind_r T x3 (\lambda (t: T).getl i c0 (CHead x2 (Bind x0) t)) H10 u H14 in let H18 \def eq_ind_r C x1 (\lambda (c: C).csubst0 (minus i0 (S i)) u0 c x2) H11 d H16 in let H19 \def eq_ind_r B x0 (\lambda (b: B).getl i c0 (CHead x2 (Bind b) u)) H17 Abbr H15 in pc3_pr2_r c0 t2 t0 (pr2_delta c0 x2 u i H19 t2 t3 H1 t0 H2)) H13) H12) H8) (\lambda (H8: (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u0)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl i c0 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2))).ex4_5_ind B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl i c0 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u1 w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2) (pc3 c0 t2 t0) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (x4: T).\lambda (H9: (eq C (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3))).\lambda (H10: (getl i c0 (CHead x2 (Bind x0) x4))).\lambda (H11: (subst0 (minus i0 (S i)) u0 x3 x4)).\lambda (H12: (csubst0 (minus i0 (S i)) u0 x1 x2)).let H13 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H9 in (let H14 \def f_equal C B (\lambda (e0: C).match e0 return B with [(CSort _) \Rightarrow Abbr | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H9 in (let H15 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H9 in \lambda (H16: (eq B Abbr x0)).\lambda (H17: (eq C d x1)).let H18 \def eq_ind_r T x3 (\lambda (t: T).subst0 (minus i0 (S i)) u0 t x4) H11 u H15 in let H19 \def eq_ind_r C x1 (\lambda (c: C).csubst0 (minus i0 (S i)) u0 c x2) H12 d H17 in let H20 \def eq_ind_r B x0 (\lambda (b: B).getl i c0 (CHead x2 (Bind b) x4)) H10 Abbr H16 in ex2_ind T (\lambda (t5: T).subst0 i x4 t3 t5) (\lambda (t5: T).subst0 (S (plus (minus i0 (S i)) i)) u0 t0 t5) (pc3 c0 t2 t0) (\lambda (x: T).\lambda (H21: (subst0 i x4 t3 x)).\lambda (H22: (subst0 (S (plus (minus i0 (S i)) i)) u0 t0 x)).let H23 \def eq_ind_r nat (S (plus (minus i0 (S i)) i)) (\lambda (n: nat).subst0 n u0 t0 x) H22 i0 (lt_plus_minus_r i i0 H6) in pc3_pr2_u c0 x t2 (pr2_delta c0 x2 x4 i H20 t2 t3 H1 x H21) t0 (pc3_pr2_x c0 x t0 (pr2_delta c0 e u0 i0 (csubst0_getl_ge i0 i0 (le_n i0) c c0 u0 H4 (CHead e (Bind Abbr) u0) H5) t0 t0 (pr0_refl t0) x H23))) (subst0_subst0_back t3 t0 u i H2 x4 u0 (minus i0 (S i)) H18)) H14) H13) H8) H7) (\lambda (H6: (le i0 i)).pc3_pr2_r c0 t2 t0 (pr2_delta c0 d u i (csubst0_getl_ge i0 i H6 c c0 u0 H4 (CHead d (Bind Abbr) u) H0) t2 t3 H1 t0 H2))) (\lambda (t5: T).\lambda (H4: (subst0 i0 u0 t2 t5)).\lambda (c0: C).\lambda (H5: (csubst0 i0 u0 c c0)).\lambda (e: C).\lambda (H6: (getl i0 c (CHead e (Bind Abbr) u0))).lt_le_e i i0 (pc3 c0 t5 t0) (\lambda (H7: (lt i i0)).let H8 \def csubst0_getl_lt i0 i H7 c c0 u0 H5 (CHead d (Bind Abbr) u) H0 in or4_ind (getl i c0 (CHead d (Bind Abbr) u)) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e0 (Bind b) u1)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl i c0 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u1 w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u1: T).getl i c0 (CHead e2 (Bind b) u1)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl i c0 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u1 w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2)) (pc3 c0 t5 t0) (\lambda (H9: (getl i c0 (CHead d (Bind Abbr) u))).pc3_pr2_u2 c0 t2 t5 (pr2_delta c0 e u0 i0 (csubst0_getl_ge i0 i0 (le_n i0) c c0 u0 H5 (CHead e (Bind Abbr) u0) H6) t2 t2 (pr0_refl t2) t5 H4) t0 (pc3_pr2_r c0 t2 t0 (pr2_delta c0 d u i H9 t2 t3 H1 t0 H2))) (\lambda (H9: (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e0 (Bind b) u0)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl i c0 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u w))).ex3_4_ind B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e0 (Bind b) u1)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl i c0 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u1 w) (pc3 c0 t5 t0) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: T).\lambda (x3: T).\lambda (H10: (eq C (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x2))).\lambda (H11: (getl i c0 (CHead x1 (Bind x0) x3))).\lambda (H12: (subst0 (minus i0 (S i)) u0 x2 x3)).let H13 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x2) H10 in (let H14 \def f_equal C B (\lambda (e0: C).match e0 return B with [(CSort _) \Rightarrow Abbr | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x2) H10 in (let H15 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x2) H10 in \lambda (H16: (eq B Abbr x0)).\lambda (H17: (eq C d x1)).let H18 \def eq_ind_r T x2 (\lambda (t: T).subst0 (minus i0 (S i)) u0 t x3) H12 u H15 in let H19 \def eq_ind_r C x1 (\lambda (c: C).getl i c0 (CHead c (Bind x0) x3)) H11 d H17 in let H20 \def eq_ind_r B x0 (\lambda (b: B).getl i c0 (CHead d (Bind b) x3)) H19 Abbr H16 in ex2_ind T (\lambda (t6: T).subst0 i x3 t3 t6) (\lambda (t6: T).subst0 (S (plus (minus i0 (S i)) i)) u0 t0 t6) (pc3 c0 t5 t0) (\lambda (x: T).\lambda (H21: (subst0 i x3 t3 x)).\lambda (H22: (subst0 (S (plus (minus i0 (S i)) i)) u0 t0 x)).let H23 \def eq_ind_r nat (S (plus (minus i0 (S i)) i)) (\lambda (n: nat).subst0 n u0 t0 x) H22 i0 (lt_plus_minus_r i i0 H7) in pc3_pr2_u2 c0 t2 t5 (pr2_delta c0 e u0 i0 (csubst0_getl_ge i0 i0 (le_n i0) c c0 u0 H5 (CHead e (Bind Abbr) u0) H6) t2 t2 (pr0_refl t2) t5 H4) t0 (pc3_pr2_u c0 x t2 (pr2_delta c0 d x3 i H20 t2 t3 H1 x H21) t0 (pc3_pr2_x c0 x t0 (pr2_delta c0 e u0 i0 (csubst0_getl_ge i0 i0 (le_n i0) c c0 u0 H5 (CHead e (Bind Abbr) u0) H6) t0 t0 (pr0_refl t0) x H23)))) (subst0_subst0_back t3 t0 u i H2 x3 u0 (minus i0 (S i)) H18)) H14) H13) H9) (\lambda (H9: (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u0)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl i c0 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2))).ex3_4_ind B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u1: T).getl i c0 (CHead e2 (Bind b) u1)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2) (pc3 c0 t5 t0) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (H10: (eq C (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3))).\lambda (H11: (getl i c0 (CHead x2 (Bind x0) x3))).\lambda (H12: (csubst0 (minus i0 (S i)) u0 x1 x2)).let H13 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H10 in (let H14 \def f_equal C B (\lambda (e0: C).match e0 return B with [(CSort _) \Rightarrow Abbr | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H10 in (let H15 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H10 in \lambda (H16: (eq B Abbr x0)).\lambda (H17: (eq C d x1)).let H18 \def eq_ind_r T x3 (\lambda (t: T).getl i c0 (CHead x2 (Bind x0) t)) H11 u H15 in let H19 \def eq_ind_r C x1 (\lambda (c: C).csubst0 (minus i0 (S i)) u0 c x2) H12 d H17 in let H20 \def eq_ind_r B x0 (\lambda (b: B).getl i c0 (CHead x2 (Bind b) u)) H18 Abbr H16 in pc3_pr2_u2 c0 t2 t5 (pr2_delta c0 e u0 i0 (csubst0_getl_ge i0 i0 (le_n i0) c c0 u0 H5 (CHead e (Bind Abbr) u0) H6) t2 t2 (pr0_refl t2) t5 H4) t0 (pc3_pr2_r c0 t2 t0 (pr2_delta c0 x2 u i H20 t2 t3 H1 t0 H2))) H14) H13) H9) (\lambda (H9: (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u0)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl i c0 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2))).ex4_5_ind B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl i c0 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u1 w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2) (pc3 c0 t5 t0) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (x4: T).\lambda (H10: (eq C (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3))).\lambda (H11: (getl i c0 (CHead x2 (Bind x0) x4))).\lambda (H12: (subst0 (minus i0 (S i)) u0 x3 x4)).\lambda (H13: (csubst0 (minus i0 (S i)) u0 x1 x2)).let H14 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H10 in (let H15 \def f_equal C B (\lambda (e0: C).match e0 return B with [(CSort _) \Rightarrow Abbr | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H10 in (let H16 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H10 in \lambda (H17: (eq B Abbr x0)).\lambda (H18: (eq C d x1)).let H19 \def eq_ind_r T x3 (\lambda (t: T).subst0 (minus i0 (S i)) u0 t x4) H12 u H16 in let H20 \def eq_ind_r C x1 (\lambda (c: C).csubst0 (minus i0 (S i)) u0 c x2) H13 d H18 in let H21 \def eq_ind_r B x0 (\lambda (b: B).getl i c0 (CHead x2 (Bind b) x4)) H11 Abbr H17 in ex2_ind T (\lambda (t6: T).subst0 i x4 t3 t6) (\lambda (t6: T).subst0 (S (plus (minus i0 (S i)) i)) u0 t0 t6) (pc3 c0 t5 t0) (\lambda (x: T).\lambda (H22: (subst0 i x4 t3 x)).\lambda (H23: (subst0 (S (plus (minus i0 (S i)) i)) u0 t0 x)).let H24 \def eq_ind_r nat (S (plus (minus i0 (S i)) i)) (\lambda (n: nat).subst0 n u0 t0 x) H23 i0 (lt_plus_minus_r i i0 H7) in pc3_pr2_u2 c0 t2 t5 (pr2_delta c0 e u0 i0 (csubst0_getl_ge i0 i0 (le_n i0) c c0 u0 H5 (CHead e (Bind Abbr) u0) H6) t2 t2 (pr0_refl t2) t5 H4) t0 (pc3_pr2_u c0 x t2 (pr2_delta c0 x2 x4 i H21 t2 t3 H1 x H22) t0 (pc3_pr2_x c0 x t0 (pr2_delta c0 e u0 i0 (csubst0_getl_ge i0 i0 (le_n i0) c c0 u0 H5 (CHead e (Bind Abbr) u0) H6) t0 t0 (pr0_refl t0) x H24)))) (subst0_subst0_back t3 t0 u i H2 x4 u0 (minus i0 (S i)) H19)) H15) H14) H9) H8) (\lambda (H7: (le i0 i)).pc3_pr2_u2 c0 t2 t5 (pr2_delta c0 e u0 i0 (csubst0_getl_ge i0 i0 (le_n i0) c c0 u0 H5 (CHead e (Bind Abbr) u0) H6) t2 t2 (pr0_refl t2) t5 H4) t0 (pc3_pr2_r c0 t2 t0 (pr2_delta c0 d u i (csubst0_getl_ge i0 i H7 c c0 u0 H5 (CHead d (Bind Abbr) u) H0) t2 t3 H1 t0 H2)))) c2 t4 H3) c1 t1 t H.
+
+theorem pc3_pr2_fsubst0_back: \forall (c1: C).\forall (t: T).\forall (t1: T).(pr2 c1 t t1) \to \forall (i: nat).\forall (u: T).\forall (c2: C).\forall (t2: T).(fsubst0 i u c1 t1 c2 t2) \to \forall (e: C).(getl i c1 (CHead e (Bind Abbr) u)) \to pc3 c2 t t2 \def \lambda (c1: C).\lambda (t: T).\lambda (t1: T).\lambda (H: (pr2 c1 t t1)).pr2_ind (\lambda (c: C).\lambda (t0: T).\lambda (t2: T).\forall (i: nat).\forall (u: T).\forall (c2: C).\forall (t3: T).(fsubst0 i u c t2 c2 t3) \to \forall (e: C).(getl i c (CHead e (Bind Abbr) u)) \to pc3 c2 t0 t3) (\lambda (c: C).\lambda (t2: T).\lambda (t3: T).\lambda (H0: (pr0 t2 t3)).\lambda (i: nat).\lambda (u: T).\lambda (c2: C).\lambda (t0: T).\lambda (H1: (fsubst0 i u c t3 c2 t0)).fsubst0_ind i u c t3 (\lambda (c0: C).\lambda (t4: T).\forall (e: C).(getl i c (CHead e (Bind Abbr) u)) \to pc3 c0 t2 t4) (\lambda (t4: T).\lambda (H2: (subst0 i u t3 t4)).\lambda (e: C).\lambda (H3: (getl i c (CHead e (Bind Abbr) u))).pc3_pr2_u c t3 t2 (pr2_free c t2 t3 H0) t4 (pc3_pr2_r c t3 t4 (pr2_delta c e u i H3 t3 t3 (pr0_refl t3) t4 H2))) (\lambda (c0: C).\lambda (_: (csubst0 i u c c0)).\lambda (e: C).\lambda (_: (getl i c (CHead e (Bind Abbr) u))).pc3_pr2_r c0 t2 t3 (pr2_free c0 t2 t3 H0)) (\lambda (t4: T).\lambda (H2: (subst0 i u t3 t4)).\lambda (c0: C).\lambda (H3: (csubst0 i u c c0)).\lambda (e: C).\lambda (H4: (getl i c (CHead e (Bind Abbr) u))).pc3_pr2_u c0 t3 t2 (pr2_free c0 t2 t3 H0) t4 (pc3_pr2_r c0 t3 t4 (pr2_delta c0 e u i (csubst0_getl_ge i i (le_n i) c c0 u H3 (CHead e (Bind Abbr) u) H4) t3 t3 (pr0_refl t3) t4 H2))) c2 t0 H1) (\lambda (c: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c (CHead d (Bind Abbr) u))).\lambda (t2: T).\lambda (t3: T).\lambda (H1: (pr0 t2 t3)).\lambda (t0: T).\lambda (H2: (subst0 i u t3 t0)).\lambda (i0: nat).\lambda (u0: T).\lambda (c2: C).\lambda (t4: T).\lambda (H3: (fsubst0 i0 u0 c t0 c2 t4)).fsubst0_ind i0 u0 c t0 (\lambda (c0: C).\lambda (t5: T).\forall (e: C).(getl i0 c (CHead e (Bind Abbr) u0)) \to pc3 c0 t2 t5) (\lambda (t5: T).\lambda (H4: (subst0 i0 u0 t0 t5)).\lambda (e: C).\lambda (H5: (getl i0 c (CHead e (Bind Abbr) u0))).pc3_t t3 c t2 (pc3_pr3_r c t2 t3 (pr3_pr2 c t2 t3 (pr2_free c t2 t3 H1))) t5 (pc3_pr3_r c t3 t5 (pr3_sing c t0 t3 (pr2_delta c d u i H0 t3 t3 (pr0_refl t3) t0 H2) t5 (pr3_pr2 c t0 t5 (pr2_delta c e u0 i0 H5 t0 t0 (pr0_refl t0) t5 H4))))) (\lambda (c0: C).\lambda (H4: (csubst0 i0 u0 c c0)).\lambda (e: C).\lambda (H5: (getl i0 c (CHead e (Bind Abbr) u0))).lt_le_e i i0 (pc3 c0 t2 t0) (\lambda (H6: (lt i i0)).let H7 \def csubst0_getl_lt i0 i H6 c c0 u0 H4 (CHead d (Bind Abbr) u) H0 in or4_ind (getl i c0 (CHead d (Bind Abbr) u)) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e0 (Bind b) u1)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl i c0 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u1 w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u1: T).getl i c0 (CHead e2 (Bind b) u1)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl i c0 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u1 w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2)) (pc3 c0 t2 t0) (\lambda (H8: (getl i c0 (CHead d (Bind Abbr) u))).pc3_pr2_r c0 t2 t0 (pr2_delta c0 d u i H8 t2 t3 H1 t0 H2)) (\lambda (H8: (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e0 (Bind b) u0)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl i c0 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u w))).ex3_4_ind B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e0 (Bind b) u1)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl i c0 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u1 w) (pc3 c0 t2 t0) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: T).\lambda (x3: T).\lambda (H9: (eq C (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x2))).\lambda (H10: (getl i c0 (CHead x1 (Bind x0) x3))).\lambda (H11: (subst0 (minus i0 (S i)) u0 x2 x3)).let H12 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x2) H9 in (let H13 \def f_equal C B (\lambda (e0: C).match e0 return B with [(CSort _) \Rightarrow Abbr | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x2) H9 in (let H14 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x2) H9 in \lambda (H15: (eq B Abbr x0)).\lambda (H16: (eq C d x1)).let H17 \def eq_ind_r T x2 (\lambda (t: T).subst0 (minus i0 (S i)) u0 t x3) H11 u H14 in let H18 \def eq_ind_r C x1 (\lambda (c: C).getl i c0 (CHead c (Bind x0) x3)) H10 d H16 in let H19 \def eq_ind_r B x0 (\lambda (b: B).getl i c0 (CHead d (Bind b) x3)) H18 Abbr H15 in ex2_ind T (\lambda (t5: T).subst0 i x3 t3 t5) (\lambda (t5: T).subst0 (S (plus (minus i0 (S i)) i)) u0 t0 t5) (pc3 c0 t2 t0) (\lambda (x: T).\lambda (H20: (subst0 i x3 t3 x)).\lambda (H21: (subst0 (S (plus (minus i0 (S i)) i)) u0 t0 x)).let H22 \def eq_ind_r nat (S (plus (minus i0 (S i)) i)) (\lambda (n: nat).subst0 n u0 t0 x) H21 i0 (lt_plus_minus_r i i0 H6) in pc3_pr2_u c0 x t2 (pr2_delta c0 d x3 i H19 t2 t3 H1 x H20) t0 (pc3_pr2_x c0 x t0 (pr2_delta c0 e u0 i0 (csubst0_getl_ge i0 i0 (le_n i0) c c0 u0 H4 (CHead e (Bind Abbr) u0) H5) t0 t0 (pr0_refl t0) x H22))) (subst0_subst0_back t3 t0 u i H2 x3 u0 (minus i0 (S i)) H17)) H13) H12) H8) (\lambda (H8: (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u0)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl i c0 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2))).ex3_4_ind B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u1: T).getl i c0 (CHead e2 (Bind b) u1)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2) (pc3 c0 t2 t0) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (H9: (eq C (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3))).\lambda (H10: (getl i c0 (CHead x2 (Bind x0) x3))).\lambda (H11: (csubst0 (minus i0 (S i)) u0 x1 x2)).let H12 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H9 in (let H13 \def f_equal C B (\lambda (e0: C).match e0 return B with [(CSort _) \Rightarrow Abbr | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H9 in (let H14 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H9 in \lambda (H15: (eq B Abbr x0)).\lambda (H16: (eq C d x1)).let H17 \def eq_ind_r T x3 (\lambda (t: T).getl i c0 (CHead x2 (Bind x0) t)) H10 u H14 in let H18 \def eq_ind_r C x1 (\lambda (c: C).csubst0 (minus i0 (S i)) u0 c x2) H11 d H16 in let H19 \def eq_ind_r B x0 (\lambda (b: B).getl i c0 (CHead x2 (Bind b) u)) H17 Abbr H15 in pc3_pr2_r c0 t2 t0 (pr2_delta c0 x2 u i H19 t2 t3 H1 t0 H2)) H13) H12) H8) (\lambda (H8: (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u0)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl i c0 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2))).ex4_5_ind B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl i c0 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u1 w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2) (pc3 c0 t2 t0) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (x4: T).\lambda (H9: (eq C (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3))).\lambda (H10: (getl i c0 (CHead x2 (Bind x0) x4))).\lambda (H11: (subst0 (minus i0 (S i)) u0 x3 x4)).\lambda (H12: (csubst0 (minus i0 (S i)) u0 x1 x2)).let H13 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H9 in (let H14 \def f_equal C B (\lambda (e0: C).match e0 return B with [(CSort _) \Rightarrow Abbr | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H9 in (let H15 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H9 in \lambda (H16: (eq B Abbr x0)).\lambda (H17: (eq C d x1)).let H18 \def eq_ind_r T x3 (\lambda (t: T).subst0 (minus i0 (S i)) u0 t x4) H11 u H15 in let H19 \def eq_ind_r C x1 (\lambda (c: C).csubst0 (minus i0 (S i)) u0 c x2) H12 d H17 in let H20 \def eq_ind_r B x0 (\lambda (b: B).getl i c0 (CHead x2 (Bind b) x4)) H10 Abbr H16 in ex2_ind T (\lambda (t5: T).subst0 i x4 t3 t5) (\lambda (t5: T).subst0 (S (plus (minus i0 (S i)) i)) u0 t0 t5) (pc3 c0 t2 t0) (\lambda (x: T).\lambda (H21: (subst0 i x4 t3 x)).\lambda (H22: (subst0 (S (plus (minus i0 (S i)) i)) u0 t0 x)).let H23 \def eq_ind_r nat (S (plus (minus i0 (S i)) i)) (\lambda (n: nat).subst0 n u0 t0 x) H22 i0 (lt_plus_minus_r i i0 H6) in pc3_pr2_u c0 x t2 (pr2_delta c0 x2 x4 i H20 t2 t3 H1 x H21) t0 (pc3_pr2_x c0 x t0 (pr2_delta c0 e u0 i0 (csubst0_getl_ge i0 i0 (le_n i0) c c0 u0 H4 (CHead e (Bind Abbr) u0) H5) t0 t0 (pr0_refl t0) x H23))) (subst0_subst0_back t3 t0 u i H2 x4 u0 (minus i0 (S i)) H18)) H14) H13) H8) H7) (\lambda (H6: (le i0 i)).pc3_pr2_r c0 t2 t0 (pr2_delta c0 d u i (csubst0_getl_ge i0 i H6 c c0 u0 H4 (CHead d (Bind Abbr) u) H0) t2 t3 H1 t0 H2))) (\lambda (t5: T).\lambda (H4: (subst0 i0 u0 t0 t5)).\lambda (c0: C).\lambda (H5: (csubst0 i0 u0 c c0)).\lambda (e: C).\lambda (H6: (getl i0 c (CHead e (Bind Abbr) u0))).lt_le_e i i0 (pc3 c0 t2 t5) (\lambda (H7: (lt i i0)).let H8 \def csubst0_getl_lt i0 i H7 c c0 u0 H5 (CHead d (Bind Abbr) u) H0 in or4_ind (getl i c0 (CHead d (Bind Abbr) u)) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e0 (Bind b) u1)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl i c0 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u1 w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u1: T).getl i c0 (CHead e2 (Bind b) u1)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl i c0 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u1 w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2)) (pc3 c0 t2 t5) (\lambda (H9: (getl i c0 (CHead d (Bind Abbr) u))).pc3_pr2_u c0 t3 t2 (pr2_free c0 t2 t3 H1) t5 (pc3_pr3_r c0 t3 t5 (pr3_sing c0 t0 t3 (pr2_delta c0 d u i H9 t3 t3 (pr0_refl t3) t0 H2) t5 (pr3_pr2 c0 t0 t5 (pr2_delta c0 e u0 i0 (csubst0_getl_ge i0 i0 (le_n i0) c c0 u0 H5 (CHead e (Bind Abbr) u0) H6) t0 t0 (pr0_refl t0) t5 H4))))) (\lambda (H9: (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e0 (Bind b) u0)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl i c0 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u w))).ex3_4_ind B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e0 (Bind b) u1)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl i c0 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u1 w) (pc3 c0 t2 t5) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: T).\lambda (x3: T).\lambda (H10: (eq C (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x2))).\lambda (H11: (getl i c0 (CHead x1 (Bind x0) x3))).\lambda (H12: (subst0 (minus i0 (S i)) u0 x2 x3)).let H13 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x2) H10 in (let H14 \def f_equal C B (\lambda (e0: C).match e0 return B with [(CSort _) \Rightarrow Abbr | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x2) H10 in (let H15 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x2) H10 in \lambda (H16: (eq B Abbr x0)).\lambda (H17: (eq C d x1)).let H18 \def eq_ind_r T x2 (\lambda (t: T).subst0 (minus i0 (S i)) u0 t x3) H12 u H15 in let H19 \def eq_ind_r C x1 (\lambda (c: C).getl i c0 (CHead c (Bind x0) x3)) H11 d H17 in let H20 \def eq_ind_r B x0 (\lambda (b: B).getl i c0 (CHead d (Bind b) x3)) H19 Abbr H16 in ex2_ind T (\lambda (t6: T).subst0 i x3 t3 t6) (\lambda (t6: T).subst0 (S (plus (minus i0 (S i)) i)) u0 t0 t6) (pc3 c0 t2 t5) (\lambda (x: T).\lambda (H21: (subst0 i x3 t3 x)).\lambda (H22: (subst0 (S (plus (minus i0 (S i)) i)) u0 t0 x)).let H23 \def eq_ind_r nat (S (plus (minus i0 (S i)) i)) (\lambda (n: nat).subst0 n u0 t0 x) H22 i0 (lt_plus_minus_r i i0 H7) in pc3_pr2_u c0 x t2 (pr2_delta c0 d x3 i H20 t2 t3 H1 x H21) t5 (pc3_pr2_u2 c0 t0 x (pr2_delta c0 e u0 i0 (csubst0_getl_ge i0 i0 (le_n i0) c c0 u0 H5 (CHead e (Bind Abbr) u0) H6) t0 t0 (pr0_refl t0) x H23) t5 (pc3_pr2_r c0 t0 t5 (pr2_delta c0 e u0 i0 (csubst0_getl_ge i0 i0 (le_n i0) c c0 u0 H5 (CHead e (Bind Abbr) u0) H6) t0 t0 (pr0_refl t0) t5 H4)))) (subst0_subst0_back t3 t0 u i H2 x3 u0 (minus i0 (S i)) H18)) H14) H13) H9) (\lambda (H9: (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u0)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl i c0 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2))).ex3_4_ind B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u1: T).getl i c0 (CHead e2 (Bind b) u1)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2) (pc3 c0 t2 t5) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (H10: (eq C (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3))).\lambda (H11: (getl i c0 (CHead x2 (Bind x0) x3))).\lambda (H12: (csubst0 (minus i0 (S i)) u0 x1 x2)).let H13 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H10 in (let H14 \def f_equal C B (\lambda (e0: C).match e0 return B with [(CSort _) \Rightarrow Abbr | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H10 in (let H15 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H10 in \lambda (H16: (eq B Abbr x0)).\lambda (H17: (eq C d x1)).let H18 \def eq_ind_r T x3 (\lambda (t: T).getl i c0 (CHead x2 (Bind x0) t)) H11 u H15 in let H19 \def eq_ind_r C x1 (\lambda (c: C).csubst0 (minus i0 (S i)) u0 c x2) H12 d H17 in let H20 \def eq_ind_r B x0 (\lambda (b: B).getl i c0 (CHead x2 (Bind b) u)) H18 Abbr H16 in pc3_pr2_u c0 t0 t2 (pr2_delta c0 x2 u i H20 t2 t3 H1 t0 H2) t5 (pc3_pr2_r c0 t0 t5 (pr2_delta c0 e u0 i0 (csubst0_getl_ge i0 i0 (le_n i0) c c0 u0 H5 (CHead e (Bind Abbr) u0) H6) t0 t0 (pr0_refl t0) t5 H4))) H14) H13) H9) (\lambda (H9: (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u0)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl i c0 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2))).ex4_5_ind B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl i c0 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i0 (S i)) u0 u1 w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i0 (S i)) u0 e1 e2) (pc3 c0 t2 t5) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (x4: T).\lambda (H10: (eq C (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3))).\lambda (H11: (getl i c0 (CHead x2 (Bind x0) x4))).\lambda (H12: (subst0 (minus i0 (S i)) u0 x3 x4)).\lambda (H13: (csubst0 (minus i0 (S i)) u0 x1 x2)).let H14 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H10 in (let H15 \def f_equal C B (\lambda (e0: C).match e0 return B with [(CSort _) \Rightarrow Abbr | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H10 in (let H16 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H10 in \lambda (H17: (eq B Abbr x0)).\lambda (H18: (eq C d x1)).let H19 \def eq_ind_r T x3 (\lambda (t: T).subst0 (minus i0 (S i)) u0 t x4) H12 u H16 in let H20 \def eq_ind_r C x1 (\lambda (c: C).csubst0 (minus i0 (S i)) u0 c x2) H13 d H18 in let H21 \def eq_ind_r B x0 (\lambda (b: B).getl i c0 (CHead x2 (Bind b) x4)) H11 Abbr H17 in ex2_ind T (\lambda (t6: T).subst0 i x4 t3 t6) (\lambda (t6: T).subst0 (S (plus (minus i0 (S i)) i)) u0 t0 t6) (pc3 c0 t2 t5) (\lambda (x: T).\lambda (H22: (subst0 i x4 t3 x)).\lambda (H23: (subst0 (S (plus (minus i0 (S i)) i)) u0 t0 x)).let H24 \def eq_ind_r nat (S (plus (minus i0 (S i)) i)) (\lambda (n: nat).subst0 n u0 t0 x) H23 i0 (lt_plus_minus_r i i0 H7) in pc3_pr2_u c0 x t2 (pr2_delta c0 x2 x4 i H21 t2 t3 H1 x H22) t5 (pc3_pr2_u2 c0 t0 x (pr2_delta c0 e u0 i0 (csubst0_getl_ge i0 i0 (le_n i0) c c0 u0 H5 (CHead e (Bind Abbr) u0) H6) t0 t0 (pr0_refl t0) x H24) t5 (pc3_pr2_r c0 t0 t5 (pr2_delta c0 e u0 i0 (csubst0_getl_ge i0 i0 (le_n i0) c c0 u0 H5 (CHead e (Bind Abbr) u0) H6) t0 t0 (pr0_refl t0) t5 H4)))) (subst0_subst0_back t3 t0 u i H2 x4 u0 (minus i0 (S i)) H19)) H15) H14) H9) H8) (\lambda (H7: (le i0 i)).pc3_pr2_u c0 t0 t2 (pr2_delta c0 d u i (csubst0_getl_ge i0 i H7 c c0 u0 H5 (CHead d (Bind Abbr) u) H0) t2 t3 H1 t0 H2) t5 (pc3_pr2_r c0 t0 t5 (pr2_delta c0 e u0 i0 (csubst0_getl_ge i0 i0 (le_n i0) c c0 u0 H5 (CHead e (Bind Abbr) u0) H6) t0 t0 (pr0_refl t0) t5 H4)))) c2 t4 H3) c1 t t1 H.
+
+theorem pc3_fsubst0: \forall (c1: C).\forall (t1: T).\forall (t: T).(pc3 c1 t1 t) \to \forall (i: nat).\forall (u: T).\forall (c2: C).\forall (t2: T).(fsubst0 i u c1 t1 c2 t2) \to \forall (e: C).(getl i c1 (CHead e (Bind Abbr) u)) \to pc3 c2 t2 t \def \lambda (c1: C).\lambda (t1: T).\lambda (t: T).\lambda (H: (pc3 c1 t1 t)).pc3_ind_left c1 (\lambda (t0: T).\lambda (t2: T).\forall (i: nat).\forall (u: T).\forall (c2: C).\forall (t3: T).(fsubst0 i u c1 t0 c2 t3) \to \forall (e: C).(getl i c1 (CHead e (Bind Abbr) u)) \to pc3 c2 t3 t2) (\lambda (t0: T).\lambda (i: nat).\lambda (u: T).\lambda (c2: C).\lambda (t2: T).\lambda (H0: (fsubst0 i u c1 t0 c2 t2)).fsubst0_ind i u c1 t0 (\lambda (c: C).\lambda (t3: T).\forall (e: C).(getl i c1 (CHead e (Bind Abbr) u)) \to pc3 c t3 t0) (\lambda (t3: T).\lambda (H1: (subst0 i u t0 t3)).\lambda (e: C).\lambda (H2: (getl i c1 (CHead e (Bind Abbr) u))).pc3_pr2_x c1 t3 t0 (pr2_delta c1 e u i H2 t0 t0 (pr0_refl t0) t3 H1)) (\lambda (c0: C).\lambda (_: (csubst0 i u c1 c0)).\lambda (e: C).\lambda (_: (getl i c1 (CHead e (Bind Abbr) u))).pc3_refl c0 t0) (\lambda (t3: T).\lambda (H1: (subst0 i u t0 t3)).\lambda (c0: C).\lambda (H2: (csubst0 i u c1 c0)).\lambda (e: C).\lambda (H3: (getl i c1 (CHead e (Bind Abbr) u))).pc3_pr2_x c0 t3 t0 (pr2_delta c0 e u i (csubst0_getl_ge i i (le_n i) c1 c0 u H2 (CHead e (Bind Abbr) u) H3) t0 t0 (pr0_refl t0) t3 H1)) c2 t2 H0) (\lambda (t0: T).\lambda (t2: T).\lambda (H0: (pr2 c1 t0 t2)).\lambda (t3: T).\lambda (H1: (pc3 c1 t2 t3)).\lambda (H2: ((\forall (i: nat).\forall (u: T).\forall (c2: C).\forall (t4: T).(fsubst0 i u c1 t2 c2 t4) \to \forall (e: C).(getl i c1 (CHead e (Bind Abbr) u)) \to pc3 c2 t4 t3))).\lambda (i: nat).\lambda (u: T).\lambda (c2: C).\lambda (t4: T).\lambda (H3: (fsubst0 i u c1 t0 c2 t4)).fsubst0_ind i u c1 t0 (\lambda (c: C).\lambda (t5: T).\forall (e: C).(getl i c1 (CHead e (Bind Abbr) u)) \to pc3 c t5 t3) (\lambda (t5: T).\lambda (H4: (subst0 i u t0 t5)).\lambda (e: C).\lambda (H5: (getl i c1 (CHead e (Bind Abbr) u))).pc3_t t2 c1 t5 (pc3_pr2_fsubst0 c1 t0 t2 H0 i u c1 t5 (fsubst0_snd i u c1 t0 t5 H4) e H5) t3 H1) (\lambda (c0: C).\lambda (H4: (csubst0 i u c1 c0)).\lambda (e: C).\lambda (H5: (getl i c1 (CHead e (Bind Abbr) u))).pc3_t t2 c0 t0 (pc3_pr2_fsubst0 c1 t0 t2 H0 i u c0 t0 (fsubst0_fst i u c1 t0 c0 H4) e H5) t3 (H2 i u c0 t2 (fsubst0_fst i u c1 t2 c0 H4) e H5)) (\lambda (t5: T).\lambda (H4: (subst0 i u t0 t5)).\lambda (c0: C).\lambda (H5: (csubst0 i u c1 c0)).\lambda (e: C).\lambda (H6: (getl i c1 (CHead e (Bind Abbr) u))).pc3_t t2 c0 t5 (pc3_pr2_fsubst0 c1 t0 t2 H0 i u c0 t5 (fsubst0_both i u c1 t0 t5 H4 c0 H5) e H6) t3 (H2 i u c0 t2 (fsubst0_fst i u c1 t2 c0 H5) e H6)) c2 t4 H3) (\lambda (t0: T).\lambda (t2: T).\lambda (H0: (pr2 c1 t0 t2)).\lambda (t3: T).\lambda (H1: (pc3 c1 t0 t3)).\lambda (H2: ((\forall (i: nat).\forall (u: T).\forall (c2: C).\forall (t2: T).(fsubst0 i u c1 t0 c2 t2) \to \forall (e: C).(getl i c1 (CHead e (Bind Abbr) u)) \to pc3 c2 t2 t3))).\lambda (i: nat).\lambda (u: T).\lambda (c2: C).\lambda (t4: T).\lambda (H3: (fsubst0 i u c1 t2 c2 t4)).fsubst0_ind i u c1 t2 (\lambda (c: C).\lambda (t5: T).\forall (e: C).(getl i c1 (CHead e (Bind Abbr) u)) \to pc3 c t5 t3) (\lambda (t5: T).\lambda (H4: (subst0 i u t2 t5)).\lambda (e: C).\lambda (H5: (getl i c1 (CHead e (Bind Abbr) u))).pc3_t t0 c1 t5 (pc3_s c1 t5 t0 (pc3_pr2_fsubst0_back c1 t0 t2 H0 i u c1 t5 (fsubst0_snd i u c1 t2 t5 H4) e H5)) t3 H1) (\lambda (c0: C).\lambda (H4: (csubst0 i u c1 c0)).\lambda (e: C).\lambda (H5: (getl i c1 (CHead e (Bind Abbr) u))).pc3_t t0 c0 t2 (pc3_s c0 t2 t0 (pc3_pr2_fsubst0_back c1 t0 t2 H0 i u c0 t2 (fsubst0_fst i u c1 t2 c0 H4) e H5)) t3 (H2 i u c0 t0 (fsubst0_fst i u c1 t0 c0 H4) e H5)) (\lambda (t5: T).\lambda (H4: (subst0 i u t2 t5)).\lambda (c0: C).\lambda (H5: (csubst0 i u c1 c0)).\lambda (e: C).\lambda (H6: (getl i c1 (CHead e (Bind Abbr) u))).pc3_t t0 c0 t5 (pc3_s c0 t5 t0 (pc3_pr2_fsubst0_back c1 t0 t2 H0 i u c0 t5 (fsubst0_both i u c1 t2 t5 H4 c0 H5) e H6)) t3 (H2 i u c0 t0 (fsubst0_fst i u c1 t0 c0 H5) e H6)) c2 t4 H3) t1 t H.
+
+theorem pc3_gen_cabbr: \forall (c: C).\forall (t1: T).\forall (t2: T).(pc3 c t1 t2) \to \forall (e: C).\forall (u: T).\forall (d: nat).(getl d c (CHead e (Bind Abbr) u)) \to \forall (a0: C).(csubst1 d u c a0) \to \forall (a: C).(drop (S O) d a0 a) \to \forall (x1: T).(subst1 d u t1 (lift (S O) d x1)) \to \forall (x2: T).(subst1 d u t2 (lift (S O) d x2)) \to pc3 a x1 x2 \def \lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pc3 c t1 t2)).\lambda (e: C).\lambda (u: T).\lambda (d: nat).\lambda (H0: (getl d c (CHead e (Bind Abbr) u))).\lambda (a0: C).\lambda (H1: (csubst1 d u c a0)).\lambda (a: C).\lambda (H2: (drop (S O) d a0 a)).\lambda (x1: T).\lambda (H3: (subst1 d u t1 (lift (S O) d x1))).\lambda (x2: T).\lambda (H4: (subst1 d u t2 (lift (S O) d x2))).let H5 \def H in ex2_ind T (\lambda (t: T).pr3 c t1 t) (\lambda (t: T).pr3 c t2 t) (pc3 a x1 x2) (\lambda (x: T).\lambda (H6: (pr3 c t1 x)).\lambda (H7: (pr3 c t2 x)).ex2_ind T (\lambda (x3: T).subst1 d u x (lift (S O) d x3)) (\lambda (x3: T).pr3 a x2 x3) (pc3 a x1 x2) (\lambda (x0: T).\lambda (H8: (subst1 d u x (lift (S O) d x0))).\lambda (H9: (pr3 a x2 x0)).ex2_ind T (\lambda (x3: T).subst1 d u x (lift (S O) d x3)) (\lambda (x3: T).pr3 a x1 x3) (pc3 a x1 x2) (\lambda (x3: T).\lambda (H10: (subst1 d u x (lift (S O) d x3))).\lambda (H11: (pr3 a x1 x3)).let H12 \def eq_ind T x3 (\lambda (t: T).pr3 a x1 t) H11 x0 (subst1_confluence_lift x x3 u d H10 x0 H8) in pc3_pr3_t a x1 x0 H12 x2 H9) (pr3_gen_cabbr c t1 x H6 e u d H0 a0 H1 a H2 x1 H3)) (pr3_gen_cabbr c t2 x H7 e u d H0 a0 H1 a H2 x2 H4)) H5.
+
+inductive ty3 (g:G): C \to T \to T \to Prop \def
+| ty3_conv: \forall (c: C).\forall (t2: T).\forall (t: T).(ty3 g c t2 t) \to \forall (u: T).\forall (t1: T).(ty3 g c u t1) \to (pc3 c t1 t2) \to ty3 g c u t2
+| ty3_sort: \forall (c: C).\forall (m: nat).ty3 g c (TSort m) (TSort (next g m))
+| ty3_abbr: \forall (n: nat).\forall (c: C).\forall (d: C).\forall (u: T).(getl n c (CHead d (Bind Abbr) u)) \to \forall (t: T).(ty3 g d u t) \to ty3 g c (TLRef n) (lift (S n) O t)
+| ty3_abst: \forall (n: nat).\forall (c: C).\forall (d: C).\forall (u: T).(getl n c (CHead d (Bind Abst) u)) \to \forall (t: T).(ty3 g d u t) \to ty3 g c (TLRef n) (lift (S n) O u)
+| ty3_bind: \forall (c: C).\forall (u: T).\forall (t: T).(ty3 g c u t) \to \forall (b: B).\forall (t1: T).\forall (t2: T).(ty3 g (CHead c (Bind b) u) t1 t2) \to \forall (t0: T).(ty3 g (CHead c (Bind b) u) t2 t0) \to ty3 g c (THead (Bind b) u t1) (THead (Bind b) u t2)
+| ty3_appl: \forall (c: C).\forall (w: T).\forall (u: T).(ty3 g c w u) \to \forall (v: T).\forall (t: T).(ty3 g c v (THead (Bind Abst) u t)) \to ty3 g c (THead (Flat Appl) w v) (THead (Flat Appl) w (THead (Bind Abst) u t))
+| ty3_cast: \forall (c: C).\forall (t1: T).\forall (t2: T).(ty3 g c t1 t2) \to \forall (t0: T).(ty3 g c t2 t0) \to ty3 g c (THead (Flat Cast) t2 t1) t2.
+
+theorem ty3_gen_sort: \forall (g: G).\forall (c: C).\forall (x: T).\forall (n: nat).(ty3 g c (TSort n) x) \to pc3 c (TSort (next g n)) x \def \lambda (g: G).\lambda (c: C).\lambda (x: T).\lambda (n: nat).\lambda (H: (ty3 g c (TSort n) x)).insert_eq T (TSort n) (\lambda (t: T).ty3 g c t x) (pc3 c (TSort (next g n)) x) (\lambda (y: T).\lambda (H0: (ty3 g c y x)).ty3_ind g (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).(eq T t (TSort n)) \to pc3 c0 (TSort (next g n)) t0) (\lambda (c0: C).\lambda (t2: T).\lambda (t: T).\lambda (_: (ty3 g c0 t2 t)).\lambda (_: (((eq T t2 (TSort n)) \to pc3 c0 (TSort (next g n)) t))).\lambda (u: T).\lambda (t1: T).\lambda (H3: (ty3 g c0 u t1)).\lambda (H4: (((eq T u (TSort n)) \to pc3 c0 (TSort (next g n)) t1))).\lambda (H5: (pc3 c0 t1 t2)).\lambda (H6: (eq T u (TSort n))).let H7 \def f_equal T T (\lambda (e: T).e) u (TSort n) H6 in let H8 \def eq_ind T u (\lambda (t: T).(eq T t (TSort n)) \to pc3 c0 (TSort (next g n)) t1) H4 (TSort n) H7 in let H9 \def eq_ind T u (\lambda (t: T).ty3 g c0 t t1) H3 (TSort n) H7 in pc3_t t1 c0 (TSort (next g n)) (H8 (refl_equal T (TSort n))) t2 H5) (\lambda (c0: C).\lambda (m: nat).\lambda (H1: (eq T (TSort m) (TSort n))).let H2 \def f_equal T nat (\lambda (e: T).match e return nat with [(TSort n) \Rightarrow n | (TLRef _) \Rightarrow m | (THead _ _ _) \Rightarrow m]) (TSort m) (TSort n) H1 in eq_ind_r nat n (\lambda (n0: nat).pc3 c0 (TSort (next g n)) (TSort (next g n0))) (pc3_refl c0 (TSort (next g n))) m H2) (\lambda (n0: nat).\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (_: (getl n0 c0 (CHead d (Bind Abbr) u))).\lambda (t: T).\lambda (_: (ty3 g d u t)).\lambda (_: (((eq T u (TSort n)) \to pc3 d (TSort (next g n)) t))).\lambda (H4: (eq T (TLRef n0) (TSort n))).let H5 \def eq_ind T (TLRef n0) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (TSort n) H4 in False_ind (pc3 c0 (TSort (next g n)) (lift (S n0) O t)) H5) (\lambda (n0: nat).\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (_: (getl n0 c0 (CHead d (Bind Abst) u))).\lambda (t: T).\lambda (_: (ty3 g d u t)).\lambda (_: (((eq T u (TSort n)) \to pc3 d (TSort (next g n)) t))).\lambda (H4: (eq T (TLRef n0) (TSort n))).let H5 \def eq_ind T (TLRef n0) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (TSort n) H4 in False_ind (pc3 c0 (TSort (next g n)) (lift (S n0) O u)) H5) (\lambda (c0: C).\lambda (u: T).\lambda (t: T).\lambda (_: (ty3 g c0 u t)).\lambda (_: (((eq T u (TSort n)) \to pc3 c0 (TSort (next g n)) t))).\lambda (b: B).\lambda (t1: T).\lambda (t2: T).\lambda (_: (ty3 g (CHead c0 (Bind b) u) t1 t2)).\lambda (_: (((eq T t1 (TSort n)) \to pc3 (CHead c0 (Bind b) u) (TSort (next g n)) t2))).\lambda (t0: T).\lambda (_: (ty3 g (CHead c0 (Bind b) u) t2 t0)).\lambda (_: (((eq T t2 (TSort n)) \to pc3 (CHead c0 (Bind b) u) (TSort (next g n)) t0))).\lambda (H7: (eq T (THead (Bind b) u t1) (TSort n))).let H8 \def eq_ind T (THead (Bind b) u t1) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TSort n) H7 in False_ind (pc3 c0 (TSort (next g n)) (THead (Bind b) u t2)) H8) (\lambda (c0: C).\lambda (w: T).\lambda (u: T).\lambda (_: (ty3 g c0 w u)).\lambda (_: (((eq T w (TSort n)) \to pc3 c0 (TSort (next g n)) u))).\lambda (v: T).\lambda (t: T).\lambda (_: (ty3 g c0 v (THead (Bind Abst) u t))).\lambda (_: (((eq T v (TSort n)) \to pc3 c0 (TSort (next g n)) (THead (Bind Abst) u t)))).\lambda (H5: (eq T (THead (Flat Appl) w v) (TSort n))).let H6 \def eq_ind T (THead (Flat Appl) w v) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TSort n) H5 in False_ind (pc3 c0 (TSort (next g n)) (THead (Flat Appl) w (THead (Bind Abst) u t))) H6) (\lambda (c0: C).\lambda (t1: T).\lambda (t2: T).\lambda (_: (ty3 g c0 t1 t2)).\lambda (_: (((eq T t1 (TSort n)) \to pc3 c0 (TSort (next g n)) t2))).\lambda (t0: T).\lambda (_: (ty3 g c0 t2 t0)).\lambda (_: (((eq T t2 (TSort n)) \to pc3 c0 (TSort (next g n)) t0))).\lambda (H5: (eq T (THead (Flat Cast) t2 t1) (TSort n))).let H6 \def eq_ind T (THead (Flat Cast) t2 t1) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TSort n) H5 in False_ind (pc3 c0 (TSort (next g n)) t2) H6) c y x H0) H.
+
+theorem ty3_gen_lref: \forall (g: G).\forall (c: C).\forall (x: T).\forall (n: nat).(ty3 g c (TLRef n) x) \to or (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t: T).pc3 c (lift (S n) O t) x) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c (CHead e (Bind Abbr) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t)) (ex3_3 C T T (\lambda (_: C).\lambda (u: T).\lambda (_: T).pc3 c (lift (S n) O u) x) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c (CHead e (Bind Abst) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t)) \def \lambda (g: G).\lambda (c: C).\lambda (x: T).\lambda (n: nat).\lambda (H: (ty3 g c (TLRef n) x)).insert_eq T (TLRef n) (\lambda (t: T).ty3 g c t x) (or (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t: T).pc3 c (lift (S n) O t) x) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c (CHead e (Bind Abbr) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t)) (ex3_3 C T T (\lambda (_: C).\lambda (u: T).\lambda (_: T).pc3 c (lift (S n) O u) x) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c (CHead e (Bind Abst) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t))) (\lambda (y: T).\lambda (H0: (ty3 g c y x)).ty3_ind g (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).(eq T t (TLRef n)) \to or (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t1: T).pc3 c0 (lift (S n) O t1) t0) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u)) (\lambda (e: C).\lambda (u: T).\lambda (t1: T).ty3 g e u t1)) (ex3_3 C T T (\lambda (_: C).\lambda (u: T).\lambda (_: T).pc3 c0 (lift (S n) O u) t0) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u)) (\lambda (e: C).\lambda (u: T).\lambda (t1: T).ty3 g e u t1))) (\lambda (c0: C).\lambda (t2: T).\lambda (t: T).\lambda (_: (ty3 g c0 t2 t)).\lambda (_: (((eq T t2 (TLRef n)) \to or (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t0: T).pc3 c0 (lift (S n) O t0) t) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t)) (ex3_3 C T T (\lambda (_: C).\lambda (u: T).\lambda (_: T).pc3 c0 (lift (S n) O u) t) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t))))).\lambda (u: T).\lambda (t1: T).\lambda (H3: (ty3 g c0 u t1)).\lambda (H4: (((eq T u (TLRef n)) \to or (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t: T).pc3 c0 (lift (S n) O t) t1) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t)) (ex3_3 C T T (\lambda (_: C).\lambda (u: T).\lambda (_: T).pc3 c0 (lift (S n) O u) t1) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t))))).\lambda (H5: (pc3 c0 t1 t2)).\lambda (H6: (eq T u (TLRef n))).let H7 \def f_equal T T (\lambda (e: T).e) u (TLRef n) H6 in let H8 \def eq_ind T u (\lambda (t: T).(eq T t (TLRef n)) \to or (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t0: T).pc3 c0 (lift (S n) O t0) t1) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u)) (\lambda (e: C).\lambda (u: T).\lambda (t0: T).ty3 g e u t0)) (ex3_3 C T T (\lambda (_: C).\lambda (u: T).\lambda (_: T).pc3 c0 (lift (S n) O u) t1) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u)) (\lambda (e: C).\lambda (u: T).\lambda (t0: T).ty3 g e u t0))) H4 (TLRef n) H7 in let H9 \def eq_ind T u (\lambda (t: T).ty3 g c0 t t1) H3 (TLRef n) H7 in let H10 \def H8 (refl_equal T (TLRef n)) in or_ind (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t0: T).pc3 c0 (lift (S n) O t0) t1) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u0)) (\lambda (e: C).\lambda (u0: T).\lambda (t0: T).ty3 g e u0 t0)) (ex3_3 C T T (\lambda (_: C).\lambda (u0: T).\lambda (_: T).pc3 c0 (lift (S n) O u0) t1) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u0)) (\lambda (e: C).\lambda (u0: T).\lambda (t0: T).ty3 g e u0 t0)) (or (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t0: T).pc3 c0 (lift (S n) O t0) t2) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u0)) (\lambda (e: C).\lambda (u0: T).\lambda (t0: T).ty3 g e u0 t0)) (ex3_3 C T T (\lambda (_: C).\lambda (u0: T).\lambda (_: T).pc3 c0 (lift (S n) O u0) t2) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u0)) (\lambda (e: C).\lambda (u0: T).\lambda (t0: T).ty3 g e u0 t0))) (\lambda (H11: (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t: T).pc3 c0 (lift (S n) O t) t1) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t))).ex3_3_ind C T T (\lambda (_: C).\lambda (_: T).\lambda (t0: T).pc3 c0 (lift (S n) O t0) t1) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u0)) (\lambda (e: C).\lambda (u0: T).\lambda (t0: T).ty3 g e u0 t0) (or (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t0: T).pc3 c0 (lift (S n) O t0) t2) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u0)) (\lambda (e: C).\lambda (u0: T).\lambda (t0: T).ty3 g e u0 t0)) (ex3_3 C T T (\lambda (_: C).\lambda (u0: T).\lambda (_: T).pc3 c0 (lift (S n) O u0) t2) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u0)) (\lambda (e: C).\lambda (u0: T).\lambda (t0: T).ty3 g e u0 t0))) (\lambda (x0: C).\lambda (x1: T).\lambda (x2: T).\lambda (H12: (pc3 c0 (lift (S n) O x2) t1)).\lambda (H13: (getl n c0 (CHead x0 (Bind Abbr) x1))).\lambda (H14: (ty3 g x0 x1 x2)).or_introl (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t0: T).pc3 c0 (lift (S n) O t0) t2) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u0)) (\lambda (e: C).\lambda (u0: T).\lambda (t0: T).ty3 g e u0 t0)) (ex3_3 C T T (\lambda (_: C).\lambda (u0: T).\lambda (_: T).pc3 c0 (lift (S n) O u0) t2) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u0)) (\lambda (e: C).\lambda (u0: T).\lambda (t0: T).ty3 g e u0 t0)) (ex3_3_intro C T T (\lambda (_: C).\lambda (_: T).\lambda (t0: T).pc3 c0 (lift (S n) O t0) t2) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u0)) (\lambda (e: C).\lambda (u0: T).\lambda (t0: T).ty3 g e u0 t0) x0 x1 x2 (pc3_t t1 c0 (lift (S n) O x2) H12 t2 H5) H13 H14)) H11) (\lambda (H11: (ex3_3 C T T (\lambda (_: C).\lambda (u: T).\lambda (_: T).pc3 c0 (lift (S n) O u) t1) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t))).ex3_3_ind C T T (\lambda (_: C).\lambda (u0: T).\lambda (_: T).pc3 c0 (lift (S n) O u0) t1) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u0)) (\lambda (e: C).\lambda (u0: T).\lambda (t0: T).ty3 g e u0 t0) (or (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t0: T).pc3 c0 (lift (S n) O t0) t2) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u0)) (\lambda (e: C).\lambda (u0: T).\lambda (t0: T).ty3 g e u0 t0)) (ex3_3 C T T (\lambda (_: C).\lambda (u0: T).\lambda (_: T).pc3 c0 (lift (S n) O u0) t2) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u0)) (\lambda (e: C).\lambda (u0: T).\lambda (t0: T).ty3 g e u0 t0))) (\lambda (x0: C).\lambda (x1: T).\lambda (x2: T).\lambda (H12: (pc3 c0 (lift (S n) O x1) t1)).\lambda (H13: (getl n c0 (CHead x0 (Bind Abst) x1))).\lambda (H14: (ty3 g x0 x1 x2)).or_intror (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t0: T).pc3 c0 (lift (S n) O t0) t2) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u0)) (\lambda (e: C).\lambda (u0: T).\lambda (t0: T).ty3 g e u0 t0)) (ex3_3 C T T (\lambda (_: C).\lambda (u0: T).\lambda (_: T).pc3 c0 (lift (S n) O u0) t2) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u0)) (\lambda (e: C).\lambda (u0: T).\lambda (t0: T).ty3 g e u0 t0)) (ex3_3_intro C T T (\lambda (_: C).\lambda (u0: T).\lambda (_: T).pc3 c0 (lift (S n) O u0) t2) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u0)) (\lambda (e: C).\lambda (u0: T).\lambda (t0: T).ty3 g e u0 t0) x0 x1 x2 (pc3_t t1 c0 (lift (S n) O x1) H12 t2 H5) H13 H14)) H11) H10) (\lambda (c0: C).\lambda (m: nat).\lambda (H1: (eq T (TSort m) (TLRef n))).let H2 \def eq_ind T (TSort m) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow True | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow False]) I (TLRef n) H1 in False_ind (or (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t: T).pc3 c0 (lift (S n) O t) (TSort (next g m))) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t)) (ex3_3 C T T (\lambda (_: C).\lambda (u: T).\lambda (_: T).pc3 c0 (lift (S n) O u) (TSort (next g m))) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t))) H2) (\lambda (n0: nat).\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (H1: (getl n0 c0 (CHead d (Bind Abbr) u))).\lambda (t: T).\lambda (H2: (ty3 g d u t)).\lambda (_: (((eq T u (TLRef n)) \to or (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t0: T).pc3 d (lift (S n) O t0) t) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n d (CHead e (Bind Abbr) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t)) (ex3_3 C T T (\lambda (_: C).\lambda (u: T).\lambda (_: T).pc3 d (lift (S n) O u) t) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n d (CHead e (Bind Abst) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t))))).\lambda (H4: (eq T (TLRef n0) (TLRef n))).let H5 \def f_equal T nat (\lambda (e: T).match e return nat with [(TSort _) \Rightarrow n0 | (TLRef n) \Rightarrow n | (THead _ _ _) \Rightarrow n0]) (TLRef n0) (TLRef n) H4 in let H6 \def eq_ind nat n0 (\lambda (n: nat).getl n c0 (CHead d (Bind Abbr) u)) H1 n H5 in eq_ind_r nat n (\lambda (n1: nat).or (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t0: T).pc3 c0 (lift (S n) O t0) (lift (S n1) O t)) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u0)) (\lambda (e: C).\lambda (u0: T).\lambda (t0: T).ty3 g e u0 t0)) (ex3_3 C T T (\lambda (_: C).\lambda (u0: T).\lambda (_: T).pc3 c0 (lift (S n) O u0) (lift (S n1) O t)) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u0)) (\lambda (e: C).\lambda (u0: T).\lambda (t0: T).ty3 g e u0 t0))) (or_introl (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t0: T).pc3 c0 (lift (S n) O t0) (lift (S n) O t)) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u0)) (\lambda (e: C).\lambda (u0: T).\lambda (t0: T).ty3 g e u0 t0)) (ex3_3 C T T (\lambda (_: C).\lambda (u0: T).\lambda (_: T).pc3 c0 (lift (S n) O u0) (lift (S n) O t)) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u0)) (\lambda (e: C).\lambda (u0: T).\lambda (t0: T).ty3 g e u0 t0)) (ex3_3_intro C T T (\lambda (_: C).\lambda (_: T).\lambda (t0: T).pc3 c0 (lift (S n) O t0) (lift (S n) O t)) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u0)) (\lambda (e: C).\lambda (u0: T).\lambda (t0: T).ty3 g e u0 t0) d u t (pc3_refl c0 (lift (S n) O t)) H6 H2)) n0 H5) (\lambda (n0: nat).\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (H1: (getl n0 c0 (CHead d (Bind Abst) u))).\lambda (t: T).\lambda (H2: (ty3 g d u t)).\lambda (_: (((eq T u (TLRef n)) \to or (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t0: T).pc3 d (lift (S n) O t0) t) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n d (CHead e (Bind Abbr) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t)) (ex3_3 C T T (\lambda (_: C).\lambda (u: T).\lambda (_: T).pc3 d (lift (S n) O u) t) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n d (CHead e (Bind Abst) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t))))).\lambda (H4: (eq T (TLRef n0) (TLRef n))).let H5 \def f_equal T nat (\lambda (e: T).match e return nat with [(TSort _) \Rightarrow n0 | (TLRef n) \Rightarrow n | (THead _ _ _) \Rightarrow n0]) (TLRef n0) (TLRef n) H4 in let H6 \def eq_ind nat n0 (\lambda (n: nat).getl n c0 (CHead d (Bind Abst) u)) H1 n H5 in eq_ind_r nat n (\lambda (n1: nat).or (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t0: T).pc3 c0 (lift (S n) O t0) (lift (S n1) O u)) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u0)) (\lambda (e: C).\lambda (u0: T).\lambda (t0: T).ty3 g e u0 t0)) (ex3_3 C T T (\lambda (_: C).\lambda (u0: T).\lambda (_: T).pc3 c0 (lift (S n) O u0) (lift (S n1) O u)) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u0)) (\lambda (e: C).\lambda (u0: T).\lambda (t0: T).ty3 g e u0 t0))) (or_intror (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t0: T).pc3 c0 (lift (S n) O t0) (lift (S n) O u)) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u0)) (\lambda (e: C).\lambda (u0: T).\lambda (t0: T).ty3 g e u0 t0)) (ex3_3 C T T (\lambda (_: C).\lambda (u0: T).\lambda (_: T).pc3 c0 (lift (S n) O u0) (lift (S n) O u)) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u0)) (\lambda (e: C).\lambda (u0: T).\lambda (t0: T).ty3 g e u0 t0)) (ex3_3_intro C T T (\lambda (_: C).\lambda (u0: T).\lambda (_: T).pc3 c0 (lift (S n) O u0) (lift (S n) O u)) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u0)) (\lambda (e: C).\lambda (u0: T).\lambda (t0: T).ty3 g e u0 t0) d u t (pc3_refl c0 (lift (S n) O u)) H6 H2)) n0 H5) (\lambda (c0: C).\lambda (u: T).\lambda (t: T).\lambda (_: (ty3 g c0 u t)).\lambda (_: (((eq T u (TLRef n)) \to or (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t0: T).pc3 c0 (lift (S n) O t0) t) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t)) (ex3_3 C T T (\lambda (_: C).\lambda (u: T).\lambda (_: T).pc3 c0 (lift (S n) O u) t) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t))))).\lambda (b: B).\lambda (t1: T).\lambda (t2: T).\lambda (_: (ty3 g (CHead c0 (Bind b) u) t1 t2)).\lambda (_: (((eq T t1 (TLRef n)) \to or (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t: T).pc3 (CHead c0 (Bind b) u) (lift (S n) O t) t2) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n (CHead c0 (Bind b) u) (CHead e (Bind Abbr) u0)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t)) (ex3_3 C T T (\lambda (_: C).\lambda (u0: T).\lambda (_: T).pc3 (CHead c0 (Bind b) u) (lift (S n) O u0) t2) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n (CHead c0 (Bind b) u) (CHead e (Bind Abst) u0)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t))))).\lambda (t0: T).\lambda (_: (ty3 g (CHead c0 (Bind b) u) t2 t0)).\lambda (_: (((eq T t2 (TLRef n)) \to or (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t: T).pc3 (CHead c0 (Bind b) u) (lift (S n) O t) t0) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n (CHead c0 (Bind b) u) (CHead e (Bind Abbr) u0)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t)) (ex3_3 C T T (\lambda (_: C).\lambda (u0: T).\lambda (_: T).pc3 (CHead c0 (Bind b) u) (lift (S n) O u0) t0) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n (CHead c0 (Bind b) u) (CHead e (Bind Abst) u0)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t))))).\lambda (H7: (eq T (THead (Bind b) u t1) (TLRef n))).let H8 \def eq_ind T (THead (Bind b) u t1) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef n) H7 in False_ind (or (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t3: T).pc3 c0 (lift (S n) O t3) (THead (Bind b) u t2)) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u0)) (\lambda (e: C).\lambda (u0: T).\lambda (t3: T).ty3 g e u0 t3)) (ex3_3 C T T (\lambda (_: C).\lambda (u0: T).\lambda (_: T).pc3 c0 (lift (S n) O u0) (THead (Bind b) u t2)) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u0)) (\lambda (e: C).\lambda (u0: T).\lambda (t3: T).ty3 g e u0 t3))) H8) (\lambda (c0: C).\lambda (w: T).\lambda (u: T).\lambda (_: (ty3 g c0 w u)).\lambda (_: (((eq T w (TLRef n)) \to or (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t: T).pc3 c0 (lift (S n) O t) u) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t)) (ex3_3 C T T (\lambda (_: C).\lambda (u0: T).\lambda (_: T).pc3 c0 (lift (S n) O u0) u) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t))))).\lambda (v: T).\lambda (t: T).\lambda (_: (ty3 g c0 v (THead (Bind Abst) u t))).\lambda (_: (((eq T v (TLRef n)) \to or (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t0: T).pc3 c0 (lift (S n) O t0) (THead (Bind Abst) u t)) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t)) (ex3_3 C T T (\lambda (_: C).\lambda (u0: T).\lambda (_: T).pc3 c0 (lift (S n) O u0) (THead (Bind Abst) u t)) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t))))).\lambda (H5: (eq T (THead (Flat Appl) w v) (TLRef n))).let H6 \def eq_ind T (THead (Flat Appl) w v) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef n) H5 in False_ind (or (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t0: T).pc3 c0 (lift (S n) O t0) (THead (Flat Appl) w (THead (Bind Abst) u t))) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u0)) (\lambda (e: C).\lambda (u0: T).\lambda (t0: T).ty3 g e u0 t0)) (ex3_3 C T T (\lambda (_: C).\lambda (u0: T).\lambda (_: T).pc3 c0 (lift (S n) O u0) (THead (Flat Appl) w (THead (Bind Abst) u t))) (\lambda (e: C).\lambda (u0: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u0)) (\lambda (e: C).\lambda (u0: T).\lambda (t0: T).ty3 g e u0 t0))) H6) (\lambda (c0: C).\lambda (t1: T).\lambda (t2: T).\lambda (_: (ty3 g c0 t1 t2)).\lambda (_: (((eq T t1 (TLRef n)) \to or (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t: T).pc3 c0 (lift (S n) O t) t2) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t)) (ex3_3 C T T (\lambda (_: C).\lambda (u: T).\lambda (_: T).pc3 c0 (lift (S n) O u) t2) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t))))).\lambda (t0: T).\lambda (_: (ty3 g c0 t2 t0)).\lambda (_: (((eq T t2 (TLRef n)) \to or (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t: T).pc3 c0 (lift (S n) O t) t0) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t)) (ex3_3 C T T (\lambda (_: C).\lambda (u: T).\lambda (_: T).pc3 c0 (lift (S n) O u) t0) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t))))).\lambda (H5: (eq T (THead (Flat Cast) t2 t1) (TLRef n))).let H6 \def eq_ind T (THead (Flat Cast) t2 t1) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef n) H5 in False_ind (or (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t: T).pc3 c0 (lift (S n) O t) t2) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t)) (ex3_3 C T T (\lambda (_: C).\lambda (u: T).\lambda (_: T).pc3 c0 (lift (S n) O u) t2) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t))) H6) c y x H0) H.
+
+theorem ty3_gen_bind: \forall (g: G).\forall (b: B).\forall (c: C).\forall (u: T).\forall (t1: T).\forall (x: T).(ty3 g c (THead (Bind b) u t1) x) \to ex4_3 T T T (\lambda (t2: T).\lambda (_: T).\lambda (_: T).pc3 c (THead (Bind b) u t2) x) (\lambda (_: T).\lambda (t: T).\lambda (_: T).ty3 g c u t) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c (Bind b) u) t1 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t0: T).ty3 g (CHead c (Bind b) u) t2 t0) \def \lambda (g: G).\lambda (b: B).\lambda (c: C).\lambda (u: T).\lambda (t1: T).\lambda (x: T).\lambda (H: (ty3 g c (THead (Bind b) u t1) x)).insert_eq T (THead (Bind b) u t1) (\lambda (t: T).ty3 g c t x) (ex4_3 T T T (\lambda (t2: T).\lambda (_: T).\lambda (_: T).pc3 c (THead (Bind b) u t2) x) (\lambda (_: T).\lambda (t: T).\lambda (_: T).ty3 g c u t) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c (Bind b) u) t1 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t0: T).ty3 g (CHead c (Bind b) u) t2 t0)) (\lambda (y: T).\lambda (H0: (ty3 g c y x)).ty3_ind g (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).(eq T t (THead (Bind b) u t1)) \to ex4_3 T T T (\lambda (t2: T).\lambda (_: T).\lambda (_: T).pc3 c0 (THead (Bind b) u t2) t0) (\lambda (_: T).\lambda (t3: T).\lambda (_: T).ty3 g c0 u t3) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c0 (Bind b) u) t1 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t4: T).ty3 g (CHead c0 (Bind b) u) t2 t4)) (\lambda (c0: C).\lambda (t2: T).\lambda (t: T).\lambda (_: (ty3 g c0 t2 t)).\lambda (_: (((eq T t2 (THead (Bind b) u t1)) \to ex4_3 T T T (\lambda (t2: T).\lambda (_: T).\lambda (_: T).pc3 c0 (THead (Bind b) u t2) t) (\lambda (_: T).\lambda (t: T).\lambda (_: T).ty3 g c0 u t) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c0 (Bind b) u) t1 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t0: T).ty3 g (CHead c0 (Bind b) u) t2 t0)))).\lambda (u0: T).\lambda (t0: T).\lambda (H3: (ty3 g c0 u0 t0)).\lambda (H4: (((eq T u0 (THead (Bind b) u t1)) \to ex4_3 T T T (\lambda (t2: T).\lambda (_: T).\lambda (_: T).pc3 c0 (THead (Bind b) u t2) t0) (\lambda (_: T).\lambda (t: T).\lambda (_: T).ty3 g c0 u t) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c0 (Bind b) u) t1 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t0: T).ty3 g (CHead c0 (Bind b) u) t2 t0)))).\lambda (H5: (pc3 c0 t0 t2)).\lambda (H6: (eq T u0 (THead (Bind b) u t1))).let H7 \def f_equal T T (\lambda (e: T).e) u0 (THead (Bind b) u t1) H6 in let H8 \def eq_ind T u0 (\lambda (t: T).(eq T t (THead (Bind b) u t1)) \to ex4_3 T T T (\lambda (t2: T).\lambda (_: T).\lambda (_: T).pc3 c0 (THead (Bind b) u t2) t0) (\lambda (_: T).\lambda (t0: T).\lambda (_: T).ty3 g c0 u t0) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c0 (Bind b) u) t1 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t1: T).ty3 g (CHead c0 (Bind b) u) t2 t1)) H4 (THead (Bind b) u t1) H7 in let H9 \def eq_ind T u0 (\lambda (t: T).ty3 g c0 t t0) H3 (THead (Bind b) u t1) H7 in let H10 \def H8 (refl_equal T (THead (Bind b) u t1)) in ex4_3_ind T T T (\lambda (t3: T).\lambda (_: T).\lambda (_: T).pc3 c0 (THead (Bind b) u t3) t0) (\lambda (_: T).\lambda (t4: T).\lambda (_: T).ty3 g c0 u t4) (\lambda (t3: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c0 (Bind b) u) t1 t3) (\lambda (t3: T).\lambda (_: T).\lambda (t5: T).ty3 g (CHead c0 (Bind b) u) t3 t5) (ex4_3 T T T (\lambda (t3: T).\lambda (_: T).\lambda (_: T).pc3 c0 (THead (Bind b) u t3) t2) (\lambda (_: T).\lambda (t4: T).\lambda (_: T).ty3 g c0 u t4) (\lambda (t3: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c0 (Bind b) u) t1 t3) (\lambda (t3: T).\lambda (_: T).\lambda (t5: T).ty3 g (CHead c0 (Bind b) u) t3 t5)) (\lambda (x0: T).\lambda (x1: T).\lambda (x2: T).\lambda (H11: (pc3 c0 (THead (Bind b) u x0) t0)).\lambda (H12: (ty3 g c0 u x1)).\lambda (H13: (ty3 g (CHead c0 (Bind b) u) t1 x0)).\lambda (H14: (ty3 g (CHead c0 (Bind b) u) x0 x2)).ex4_3_intro T T T (\lambda (t3: T).\lambda (_: T).\lambda (_: T).pc3 c0 (THead (Bind b) u t3) t2) (\lambda (_: T).\lambda (t4: T).\lambda (_: T).ty3 g c0 u t4) (\lambda (t3: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c0 (Bind b) u) t1 t3) (\lambda (t3: T).\lambda (_: T).\lambda (t5: T).ty3 g (CHead c0 (Bind b) u) t3 t5) x0 x1 x2 (pc3_t t0 c0 (THead (Bind b) u x0) H11 t2 H5) H12 H13 H14) H10) (\lambda (c0: C).\lambda (m: nat).\lambda (H1: (eq T (TSort m) (THead (Bind b) u t1))).let H2 \def eq_ind T (TSort m) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow True | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow False]) I (THead (Bind b) u t1) H1 in False_ind (ex4_3 T T T (\lambda (t2: T).\lambda (_: T).\lambda (_: T).pc3 c0 (THead (Bind b) u t2) (TSort (next g m))) (\lambda (_: T).\lambda (t: T).\lambda (_: T).ty3 g c0 u t) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c0 (Bind b) u) t1 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t0: T).ty3 g (CHead c0 (Bind b) u) t2 t0)) H2) (\lambda (n: nat).\lambda (c0: C).\lambda (d: C).\lambda (u0: T).\lambda (_: (getl n c0 (CHead d (Bind Abbr) u0))).\lambda (t: T).\lambda (_: (ty3 g d u0 t)).\lambda (_: (((eq T u0 (THead (Bind b) u t1)) \to ex4_3 T T T (\lambda (t2: T).\lambda (_: T).\lambda (_: T).pc3 d (THead (Bind b) u t2) t) (\lambda (_: T).\lambda (t: T).\lambda (_: T).ty3 g d u t) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead d (Bind b) u) t1 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t0: T).ty3 g (CHead d (Bind b) u) t2 t0)))).\lambda (H4: (eq T (TLRef n) (THead (Bind b) u t1))).let H5 \def eq_ind T (TLRef n) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Bind b) u t1) H4 in False_ind (ex4_3 T T T (\lambda (t2: T).\lambda (_: T).\lambda (_: T).pc3 c0 (THead (Bind b) u t2) (lift (S n) O t)) (\lambda (_: T).\lambda (t0: T).\lambda (_: T).ty3 g c0 u t0) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c0 (Bind b) u) t1 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t3: T).ty3 g (CHead c0 (Bind b) u) t2 t3)) H5) (\lambda (n: nat).\lambda (c0: C).\lambda (d: C).\lambda (u0: T).\lambda (_: (getl n c0 (CHead d (Bind Abst) u0))).\lambda (t: T).\lambda (_: (ty3 g d u0 t)).\lambda (_: (((eq T u0 (THead (Bind b) u t1)) \to ex4_3 T T T (\lambda (t2: T).\lambda (_: T).\lambda (_: T).pc3 d (THead (Bind b) u t2) t) (\lambda (_: T).\lambda (t: T).\lambda (_: T).ty3 g d u t) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead d (Bind b) u) t1 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t0: T).ty3 g (CHead d (Bind b) u) t2 t0)))).\lambda (H4: (eq T (TLRef n) (THead (Bind b) u t1))).let H5 \def eq_ind T (TLRef n) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Bind b) u t1) H4 in False_ind (ex4_3 T T T (\lambda (t2: T).\lambda (_: T).\lambda (_: T).pc3 c0 (THead (Bind b) u t2) (lift (S n) O u0)) (\lambda (_: T).\lambda (t0: T).\lambda (_: T).ty3 g c0 u t0) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c0 (Bind b) u) t1 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t3: T).ty3 g (CHead c0 (Bind b) u) t2 t3)) H5) (\lambda (c0: C).\lambda (u0: T).\lambda (t: T).\lambda (H1: (ty3 g c0 u0 t)).\lambda (H2: (((eq T u0 (THead (Bind b) u t1)) \to ex4_3 T T T (\lambda (t2: T).\lambda (_: T).\lambda (_: T).pc3 c0 (THead (Bind b) u t2) t) (\lambda (_: T).\lambda (t: T).\lambda (_: T).ty3 g c0 u t) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c0 (Bind b) u) t1 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t0: T).ty3 g (CHead c0 (Bind b) u) t2 t0)))).\lambda (b0: B).\lambda (t0: T).\lambda (t2: T).\lambda (H3: (ty3 g (CHead c0 (Bind b0) u0) t0 t2)).\lambda (H4: (((eq T t0 (THead (Bind b) u t1)) \to ex4_3 T T T (\lambda (t3: T).\lambda (_: T).\lambda (_: T).pc3 (CHead c0 (Bind b0) u0) (THead (Bind b) u t3) t2) (\lambda (_: T).\lambda (t: T).\lambda (_: T).ty3 g (CHead c0 (Bind b0) u0) u t) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead (CHead c0 (Bind b0) u0) (Bind b) u) t1 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t0: T).ty3 g (CHead (CHead c0 (Bind b0) u0) (Bind b) u) t2 t0)))).\lambda (t3: T).\lambda (H5: (ty3 g (CHead c0 (Bind b0) u0) t2 t3)).\lambda (H6: (((eq T t2 (THead (Bind b) u t1)) \to ex4_3 T T T (\lambda (t2: T).\lambda (_: T).\lambda (_: T).pc3 (CHead c0 (Bind b0) u0) (THead (Bind b) u t2) t3) (\lambda (_: T).\lambda (t: T).\lambda (_: T).ty3 g (CHead c0 (Bind b0) u0) u t) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead (CHead c0 (Bind b0) u0) (Bind b) u) t1 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t0: T).ty3 g (CHead (CHead c0 (Bind b0) u0) (Bind b) u) t2 t0)))).\lambda (H7: (eq T (THead (Bind b0) u0 t0) (THead (Bind b) u t1))).let H8 \def f_equal T B (\lambda (e: T).match e return B with [(TSort _) \Rightarrow b0 | (TLRef _) \Rightarrow b0 | (THead k _ _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow b0])]) (THead (Bind b0) u0 t0) (THead (Bind b) u t1) H7 in (let H9 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u0 | (TLRef _) \Rightarrow u0 | (THead _ t _) \Rightarrow t]) (THead (Bind b0) u0 t0) (THead (Bind b) u t1) H7 in (let H10 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead (Bind b0) u0 t0) (THead (Bind b) u t1) H7 in \lambda (H11: (eq T u0 u)).\lambda (H12: (eq B b0 b)).let H13 \def eq_ind T t0 (\lambda (t: T).(eq T t (THead (Bind b) u t1)) \to ex4_3 T T T (\lambda (t3: T).\lambda (_: T).\lambda (_: T).pc3 (CHead c0 (Bind b0) u0) (THead (Bind b) u t3) t2) (\lambda (_: T).\lambda (t0: T).\lambda (_: T).ty3 g (CHead c0 (Bind b0) u0) u t0) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead (CHead c0 (Bind b0) u0) (Bind b) u) t1 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t1: T).ty3 g (CHead (CHead c0 (Bind b0) u0) (Bind b) u) t2 t1)) H4 t1 H10 in let H14 \def eq_ind T t0 (\lambda (t: T).ty3 g (CHead c0 (Bind b0) u0) t t2) H3 t1 H10 in let H15 \def eq_ind B b0 (\lambda (b0: B).(eq T t2 (THead (Bind b) u t1)) \to ex4_3 T T T (\lambda (t2: T).\lambda (_: T).\lambda (_: T).pc3 (CHead c0 (Bind b0) u0) (THead (Bind b) u t2) t3) (\lambda (_: T).\lambda (t: T).\lambda (_: T).ty3 g (CHead c0 (Bind b0) u0) u t) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead (CHead c0 (Bind b0) u0) (Bind b) u) t1 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t0: T).ty3 g (CHead (CHead c0 (Bind b0) u0) (Bind b) u) t2 t0)) H6 b H12 in let H16 \def eq_ind B b0 (\lambda (b: B).ty3 g (CHead c0 (Bind b) u0) t2 t3) H5 b H12 in let H17 \def eq_ind B b0 (\lambda (b0: B).(eq T t1 (THead (Bind b) u t1)) \to ex4_3 T T T (\lambda (t3: T).\lambda (_: T).\lambda (_: T).pc3 (CHead c0 (Bind b0) u0) (THead (Bind b) u t3) t2) (\lambda (_: T).\lambda (t: T).\lambda (_: T).ty3 g (CHead c0 (Bind b0) u0) u t) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead (CHead c0 (Bind b0) u0) (Bind b) u) t1 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t0: T).ty3 g (CHead (CHead c0 (Bind b0) u0) (Bind b) u) t2 t0)) H13 b H12 in let H18 \def eq_ind B b0 (\lambda (b: B).ty3 g (CHead c0 (Bind b) u0) t1 t2) H14 b H12 in eq_ind_r B b (\lambda (b1: B).ex4_3 T T T (\lambda (t4: T).\lambda (_: T).\lambda (_: T).pc3 c0 (THead (Bind b) u t4) (THead (Bind b1) u0 t2)) (\lambda (_: T).\lambda (t5: T).\lambda (_: T).ty3 g c0 u t5) (\lambda (t4: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c0 (Bind b) u) t1 t4) (\lambda (t4: T).\lambda (_: T).\lambda (t6: T).ty3 g (CHead c0 (Bind b) u) t4 t6)) (let H19 \def eq_ind T u0 (\lambda (t: T).(eq T t2 (THead (Bind b) u t1)) \to ex4_3 T T T (\lambda (t2: T).\lambda (_: T).\lambda (_: T).pc3 (CHead c0 (Bind b) t) (THead (Bind b) u t2) t3) (\lambda (_: T).\lambda (t0: T).\lambda (_: T).ty3 g (CHead c0 (Bind b) t) u t0) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead (CHead c0 (Bind b) t) (Bind b) u) t1 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t1: T).ty3 g (CHead (CHead c0 (Bind b) t) (Bind b) u) t2 t1)) H15 u H11 in let H20 \def eq_ind T u0 (\lambda (t: T).ty3 g (CHead c0 (Bind b) t) t2 t3) H16 u H11 in let H21 \def eq_ind T u0 (\lambda (t: T).(eq T t1 (THead (Bind b) u t1)) \to ex4_3 T T T (\lambda (t3: T).\lambda (_: T).\lambda (_: T).pc3 (CHead c0 (Bind b) t) (THead (Bind b) u t3) t2) (\lambda (_: T).\lambda (t0: T).\lambda (_: T).ty3 g (CHead c0 (Bind b) t) u t0) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead (CHead c0 (Bind b) t) (Bind b) u) t1 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t1: T).ty3 g (CHead (CHead c0 (Bind b) t) (Bind b) u) t2 t1)) H17 u H11 in let H22 \def eq_ind T u0 (\lambda (t: T).ty3 g (CHead c0 (Bind b) t) t1 t2) H18 u H11 in let H23 \def eq_ind T u0 (\lambda (t0: T).(eq T t0 (THead (Bind b) u t1)) \to ex4_3 T T T (\lambda (t2: T).\lambda (_: T).\lambda (_: T).pc3 c0 (THead (Bind b) u t2) t) (\lambda (_: T).\lambda (t: T).\lambda (_: T).ty3 g c0 u t) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c0 (Bind b) u) t1 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t1: T).ty3 g (CHead c0 (Bind b) u) t2 t1)) H2 u H11 in let H24 \def eq_ind T u0 (\lambda (t0: T).ty3 g c0 t0 t) H1 u H11 in eq_ind_r T u (\lambda (t4: T).ex4_3 T T T (\lambda (t5: T).\lambda (_: T).\lambda (_: T).pc3 c0 (THead (Bind b) u t5) (THead (Bind b) t4 t2)) (\lambda (_: T).\lambda (t6: T).\lambda (_: T).ty3 g c0 u t6) (\lambda (t5: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c0 (Bind b) u) t1 t5) (\lambda (t5: T).\lambda (_: T).\lambda (t7: T).ty3 g (CHead c0 (Bind b) u) t5 t7)) (ex4_3_intro T T T (\lambda (t4: T).\lambda (_: T).\lambda (_: T).pc3 c0 (THead (Bind b) u t4) (THead (Bind b) u t2)) (\lambda (_: T).\lambda (t5: T).\lambda (_: T).ty3 g c0 u t5) (\lambda (t4: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c0 (Bind b) u) t1 t4) (\lambda (t4: T).\lambda (_: T).\lambda (t6: T).ty3 g (CHead c0 (Bind b) u) t4 t6) t2 t t3 (pc3_refl c0 (THead (Bind b) u t2)) H24 H22 H20) u0 H11) b0 H12) H9) H8) (\lambda (c0: C).\lambda (w: T).\lambda (u0: T).\lambda (_: (ty3 g c0 w u0)).\lambda (_: (((eq T w (THead (Bind b) u t1)) \to ex4_3 T T T (\lambda (t2: T).\lambda (_: T).\lambda (_: T).pc3 c0 (THead (Bind b) u t2) u0) (\lambda (_: T).\lambda (t: T).\lambda (_: T).ty3 g c0 u t) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c0 (Bind b) u) t1 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t0: T).ty3 g (CHead c0 (Bind b) u) t2 t0)))).\lambda (v: T).\lambda (t: T).\lambda (_: (ty3 g c0 v (THead (Bind Abst) u0 t))).\lambda (_: (((eq T v (THead (Bind b) u t1)) \to ex4_3 T T T (\lambda (t2: T).\lambda (_: T).\lambda (_: T).pc3 c0 (THead (Bind b) u t2) (THead (Bind Abst) u0 t)) (\lambda (_: T).\lambda (t: T).\lambda (_: T).ty3 g c0 u t) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c0 (Bind b) u) t1 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t0: T).ty3 g (CHead c0 (Bind b) u) t2 t0)))).\lambda (H5: (eq T (THead (Flat Appl) w v) (THead (Bind b) u t1))).let H6 \def eq_ind T (THead (Flat Appl) w v) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind b) u t1) H5 in False_ind (ex4_3 T T T (\lambda (t2: T).\lambda (_: T).\lambda (_: T).pc3 c0 (THead (Bind b) u t2) (THead (Flat Appl) w (THead (Bind Abst) u0 t))) (\lambda (_: T).\lambda (t0: T).\lambda (_: T).ty3 g c0 u t0) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c0 (Bind b) u) t1 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t3: T).ty3 g (CHead c0 (Bind b) u) t2 t3)) H6) (\lambda (c0: C).\lambda (t0: T).\lambda (t2: T).\lambda (_: (ty3 g c0 t0 t2)).\lambda (_: (((eq T t0 (THead (Bind b) u t1)) \to ex4_3 T T T (\lambda (t3: T).\lambda (_: T).\lambda (_: T).pc3 c0 (THead (Bind b) u t3) t2) (\lambda (_: T).\lambda (t: T).\lambda (_: T).ty3 g c0 u t) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c0 (Bind b) u) t1 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t0: T).ty3 g (CHead c0 (Bind b) u) t2 t0)))).\lambda (t3: T).\lambda (_: (ty3 g c0 t2 t3)).\lambda (_: (((eq T t2 (THead (Bind b) u t1)) \to ex4_3 T T T (\lambda (t2: T).\lambda (_: T).\lambda (_: T).pc3 c0 (THead (Bind b) u t2) t3) (\lambda (_: T).\lambda (t: T).\lambda (_: T).ty3 g c0 u t) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c0 (Bind b) u) t1 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t0: T).ty3 g (CHead c0 (Bind b) u) t2 t0)))).\lambda (H5: (eq T (THead (Flat Cast) t2 t0) (THead (Bind b) u t1))).let H6 \def eq_ind T (THead (Flat Cast) t2 t0) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind b) u t1) H5 in False_ind (ex4_3 T T T (\lambda (t4: T).\lambda (_: T).\lambda (_: T).pc3 c0 (THead (Bind b) u t4) t2) (\lambda (_: T).\lambda (t: T).\lambda (_: T).ty3 g c0 u t) (\lambda (t4: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c0 (Bind b) u) t1 t4) (\lambda (t4: T).\lambda (_: T).\lambda (t5: T).ty3 g (CHead c0 (Bind b) u) t4 t5)) H6) c y x H0) H.
+
+theorem ty3_gen_appl: \forall (g: G).\forall (c: C).\forall (w: T).\forall (v: T).\forall (x: T).(ty3 g c (THead (Flat Appl) w v) x) \to ex3_2 T T (\lambda (u: T).\lambda (t: T).pc3 c (THead (Flat Appl) w (THead (Bind Abst) u t)) x) (\lambda (u: T).\lambda (t: T).ty3 g c v (THead (Bind Abst) u t)) (\lambda (u: T).\lambda (_: T).ty3 g c w u) \def \lambda (g: G).\lambda (c: C).\lambda (w: T).\lambda (v: T).\lambda (x: T).\lambda (H: (ty3 g c (THead (Flat Appl) w v) x)).insert_eq T (THead (Flat Appl) w v) (\lambda (t: T).ty3 g c t x) (ex3_2 T T (\lambda (u: T).\lambda (t: T).pc3 c (THead (Flat Appl) w (THead (Bind Abst) u t)) x) (\lambda (u: T).\lambda (t: T).ty3 g c v (THead (Bind Abst) u t)) (\lambda (u: T).\lambda (_: T).ty3 g c w u)) (\lambda (y: T).\lambda (H0: (ty3 g c y x)).ty3_ind g (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).(eq T t (THead (Flat Appl) w v)) \to ex3_2 T T (\lambda (u: T).\lambda (t1: T).pc3 c0 (THead (Flat Appl) w (THead (Bind Abst) u t1)) t0) (\lambda (u: T).\lambda (t1: T).ty3 g c0 v (THead (Bind Abst) u t1)) (\lambda (u: T).\lambda (_: T).ty3 g c0 w u)) (\lambda (c0: C).\lambda (t2: T).\lambda (t: T).\lambda (_: (ty3 g c0 t2 t)).\lambda (_: (((eq T t2 (THead (Flat Appl) w v)) \to ex3_2 T T (\lambda (u: T).\lambda (t0: T).pc3 c0 (THead (Flat Appl) w (THead (Bind Abst) u t0)) t) (\lambda (u: T).\lambda (t: T).ty3 g c0 v (THead (Bind Abst) u t)) (\lambda (u: T).\lambda (_: T).ty3 g c0 w u)))).\lambda (u: T).\lambda (t1: T).\lambda (H3: (ty3 g c0 u t1)).\lambda (H4: (((eq T u (THead (Flat Appl) w v)) \to ex3_2 T T (\lambda (u: T).\lambda (t: T).pc3 c0 (THead (Flat Appl) w (THead (Bind Abst) u t)) t1) (\lambda (u: T).\lambda (t: T).ty3 g c0 v (THead (Bind Abst) u t)) (\lambda (u: T).\lambda (_: T).ty3 g c0 w u)))).\lambda (H5: (pc3 c0 t1 t2)).\lambda (H6: (eq T u (THead (Flat Appl) w v))).let H7 \def f_equal T T (\lambda (e: T).e) u (THead (Flat Appl) w v) H6 in let H8 \def eq_ind T u (\lambda (t: T).(eq T t (THead (Flat Appl) w v)) \to ex3_2 T T (\lambda (u: T).\lambda (t0: T).pc3 c0 (THead (Flat Appl) w (THead (Bind Abst) u t0)) t1) (\lambda (u: T).\lambda (t0: T).ty3 g c0 v (THead (Bind Abst) u t0)) (\lambda (u: T).\lambda (_: T).ty3 g c0 w u)) H4 (THead (Flat Appl) w v) H7 in let H9 \def eq_ind T u (\lambda (t: T).ty3 g c0 t t1) H3 (THead (Flat Appl) w v) H7 in let H10 \def H8 (refl_equal T (THead (Flat Appl) w v)) in ex3_2_ind T T (\lambda (u0: T).\lambda (t0: T).pc3 c0 (THead (Flat Appl) w (THead (Bind Abst) u0 t0)) t1) (\lambda (u0: T).\lambda (t0: T).ty3 g c0 v (THead (Bind Abst) u0 t0)) (\lambda (u0: T).\lambda (_: T).ty3 g c0 w u0) (ex3_2 T T (\lambda (u0: T).\lambda (t0: T).pc3 c0 (THead (Flat Appl) w (THead (Bind Abst) u0 t0)) t2) (\lambda (u0: T).\lambda (t0: T).ty3 g c0 v (THead (Bind Abst) u0 t0)) (\lambda (u0: T).\lambda (_: T).ty3 g c0 w u0)) (\lambda (x0: T).\lambda (x1: T).\lambda (H11: (pc3 c0 (THead (Flat Appl) w (THead (Bind Abst) x0 x1)) t1)).\lambda (H12: (ty3 g c0 v (THead (Bind Abst) x0 x1))).\lambda (H13: (ty3 g c0 w x0)).ex3_2_intro T T (\lambda (u0: T).\lambda (t0: T).pc3 c0 (THead (Flat Appl) w (THead (Bind Abst) u0 t0)) t2) (\lambda (u0: T).\lambda (t0: T).ty3 g c0 v (THead (Bind Abst) u0 t0)) (\lambda (u0: T).\lambda (_: T).ty3 g c0 w u0) x0 x1 (pc3_t t1 c0 (THead (Flat Appl) w (THead (Bind Abst) x0 x1)) H11 t2 H5) H12 H13) H10) (\lambda (c0: C).\lambda (m: nat).\lambda (H1: (eq T (TSort m) (THead (Flat Appl) w v))).let H2 \def eq_ind T (TSort m) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow True | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow False]) I (THead (Flat Appl) w v) H1 in False_ind (ex3_2 T T (\lambda (u: T).\lambda (t: T).pc3 c0 (THead (Flat Appl) w (THead (Bind Abst) u t)) (TSort (next g m))) (\lambda (u: T).\lambda (t: T).ty3 g c0 v (THead (Bind Abst) u t)) (\lambda (u: T).\lambda (_: T).ty3 g c0 w u)) H2) (\lambda (n: nat).\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (_: (getl n c0 (CHead d (Bind Abbr) u))).\lambda (t: T).\lambda (_: (ty3 g d u t)).\lambda (_: (((eq T u (THead (Flat Appl) w v)) \to ex3_2 T T (\lambda (u: T).\lambda (t0: T).pc3 d (THead (Flat Appl) w (THead (Bind Abst) u t0)) t) (\lambda (u: T).\lambda (t: T).ty3 g d v (THead (Bind Abst) u t)) (\lambda (u: T).\lambda (_: T).ty3 g d w u)))).\lambda (H4: (eq T (TLRef n) (THead (Flat Appl) w v))).let H5 \def eq_ind T (TLRef n) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Flat Appl) w v) H4 in False_ind (ex3_2 T T (\lambda (u0: T).\lambda (t0: T).pc3 c0 (THead (Flat Appl) w (THead (Bind Abst) u0 t0)) (lift (S n) O t)) (\lambda (u0: T).\lambda (t0: T).ty3 g c0 v (THead (Bind Abst) u0 t0)) (\lambda (u0: T).\lambda (_: T).ty3 g c0 w u0)) H5) (\lambda (n: nat).\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (_: (getl n c0 (CHead d (Bind Abst) u))).\lambda (t: T).\lambda (_: (ty3 g d u t)).\lambda (_: (((eq T u (THead (Flat Appl) w v)) \to ex3_2 T T (\lambda (u: T).\lambda (t0: T).pc3 d (THead (Flat Appl) w (THead (Bind Abst) u t0)) t) (\lambda (u: T).\lambda (t: T).ty3 g d v (THead (Bind Abst) u t)) (\lambda (u: T).\lambda (_: T).ty3 g d w u)))).\lambda (H4: (eq T (TLRef n) (THead (Flat Appl) w v))).let H5 \def eq_ind T (TLRef n) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Flat Appl) w v) H4 in False_ind (ex3_2 T T (\lambda (u0: T).\lambda (t0: T).pc3 c0 (THead (Flat Appl) w (THead (Bind Abst) u0 t0)) (lift (S n) O u)) (\lambda (u0: T).\lambda (t0: T).ty3 g c0 v (THead (Bind Abst) u0 t0)) (\lambda (u0: T).\lambda (_: T).ty3 g c0 w u0)) H5) (\lambda (c0: C).\lambda (u: T).\lambda (t: T).\lambda (_: (ty3 g c0 u t)).\lambda (_: (((eq T u (THead (Flat Appl) w v)) \to ex3_2 T T (\lambda (u: T).\lambda (t0: T).pc3 c0 (THead (Flat Appl) w (THead (Bind Abst) u t0)) t) (\lambda (u: T).\lambda (t: T).ty3 g c0 v (THead (Bind Abst) u t)) (\lambda (u: T).\lambda (_: T).ty3 g c0 w u)))).\lambda (b: B).\lambda (t1: T).\lambda (t2: T).\lambda (_: (ty3 g (CHead c0 (Bind b) u) t1 t2)).\lambda (_: (((eq T t1 (THead (Flat Appl) w v)) \to ex3_2 T T (\lambda (u0: T).\lambda (t: T).pc3 (CHead c0 (Bind b) u) (THead (Flat Appl) w (THead (Bind Abst) u0 t)) t2) (\lambda (u0: T).\lambda (t: T).ty3 g (CHead c0 (Bind b) u) v (THead (Bind Abst) u0 t)) (\lambda (u0: T).\lambda (_: T).ty3 g (CHead c0 (Bind b) u) w u0)))).\lambda (t0: T).\lambda (_: (ty3 g (CHead c0 (Bind b) u) t2 t0)).\lambda (_: (((eq T t2 (THead (Flat Appl) w v)) \to ex3_2 T T (\lambda (u0: T).\lambda (t: T).pc3 (CHead c0 (Bind b) u) (THead (Flat Appl) w (THead (Bind Abst) u0 t)) t0) (\lambda (u0: T).\lambda (t: T).ty3 g (CHead c0 (Bind b) u) v (THead (Bind Abst) u0 t)) (\lambda (u0: T).\lambda (_: T).ty3 g (CHead c0 (Bind b) u) w u0)))).\lambda (H7: (eq T (THead (Bind b) u t1) (THead (Flat Appl) w v))).let H8 \def eq_ind T (THead (Bind b) u t1) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (THead (Flat Appl) w v) H7 in False_ind (ex3_2 T T (\lambda (u0: T).\lambda (t3: T).pc3 c0 (THead (Flat Appl) w (THead (Bind Abst) u0 t3)) (THead (Bind b) u t2)) (\lambda (u0: T).\lambda (t3: T).ty3 g c0 v (THead (Bind Abst) u0 t3)) (\lambda (u0: T).\lambda (_: T).ty3 g c0 w u0)) H8) (\lambda (c0: C).\lambda (w0: T).\lambda (u: T).\lambda (H1: (ty3 g c0 w0 u)).\lambda (H2: (((eq T w0 (THead (Flat Appl) w v)) \to ex3_2 T T (\lambda (u0: T).\lambda (t: T).pc3 c0 (THead (Flat Appl) w (THead (Bind Abst) u0 t)) u) (\lambda (u: T).\lambda (t: T).ty3 g c0 v (THead (Bind Abst) u t)) (\lambda (u: T).\lambda (_: T).ty3 g c0 w u)))).\lambda (v0: T).\lambda (t: T).\lambda (H3: (ty3 g c0 v0 (THead (Bind Abst) u t))).\lambda (H4: (((eq T v0 (THead (Flat Appl) w v)) \to ex3_2 T T (\lambda (u0: T).\lambda (t0: T).pc3 c0 (THead (Flat Appl) w (THead (Bind Abst) u0 t0)) (THead (Bind Abst) u t)) (\lambda (u: T).\lambda (t: T).ty3 g c0 v (THead (Bind Abst) u t)) (\lambda (u: T).\lambda (_: T).ty3 g c0 w u)))).\lambda (H5: (eq T (THead (Flat Appl) w0 v0) (THead (Flat Appl) w v))).let H6 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow w0 | (TLRef _) \Rightarrow w0 | (THead _ t _) \Rightarrow t]) (THead (Flat Appl) w0 v0) (THead (Flat Appl) w v) H5 in (let H7 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow v0 | (TLRef _) \Rightarrow v0 | (THead _ _ t) \Rightarrow t]) (THead (Flat Appl) w0 v0) (THead (Flat Appl) w v) H5 in \lambda (H8: (eq T w0 w)).let H9 \def eq_ind T v0 (\lambda (t0: T).(eq T t0 (THead (Flat Appl) w v)) \to ex3_2 T T (\lambda (u0: T).\lambda (t1: T).pc3 c0 (THead (Flat Appl) w (THead (Bind Abst) u0 t1)) (THead (Bind Abst) u t)) (\lambda (u: T).\lambda (t: T).ty3 g c0 v (THead (Bind Abst) u t)) (\lambda (u: T).\lambda (_: T).ty3 g c0 w u)) H4 v H7 in let H10 \def eq_ind T v0 (\lambda (t0: T).ty3 g c0 t0 (THead (Bind Abst) u t)) H3 v H7 in let H11 \def eq_ind T w0 (\lambda (t: T).(eq T t (THead (Flat Appl) w v)) \to ex3_2 T T (\lambda (u0: T).\lambda (t0: T).pc3 c0 (THead (Flat Appl) w (THead (Bind Abst) u0 t0)) u) (\lambda (u: T).\lambda (t0: T).ty3 g c0 v (THead (Bind Abst) u t0)) (\lambda (u: T).\lambda (_: T).ty3 g c0 w u)) H2 w H8 in let H12 \def eq_ind T w0 (\lambda (t: T).ty3 g c0 t u) H1 w H8 in eq_ind_r T w (\lambda (t0: T).ex3_2 T T (\lambda (u0: T).\lambda (t1: T).pc3 c0 (THead (Flat Appl) w (THead (Bind Abst) u0 t1)) (THead (Flat Appl) t0 (THead (Bind Abst) u t))) (\lambda (u0: T).\lambda (t1: T).ty3 g c0 v (THead (Bind Abst) u0 t1)) (\lambda (u0: T).\lambda (_: T).ty3 g c0 w u0)) (ex3_2_intro T T (\lambda (u0: T).\lambda (t0: T).pc3 c0 (THead (Flat Appl) w (THead (Bind Abst) u0 t0)) (THead (Flat Appl) w (THead (Bind Abst) u t))) (\lambda (u0: T).\lambda (t0: T).ty3 g c0 v (THead (Bind Abst) u0 t0)) (\lambda (u0: T).\lambda (_: T).ty3 g c0 w u0) u t (pc3_refl c0 (THead (Flat Appl) w (THead (Bind Abst) u t))) H10 H12) w0 H8) H6) (\lambda (c0: C).\lambda (t1: T).\lambda (t2: T).\lambda (_: (ty3 g c0 t1 t2)).\lambda (_: (((eq T t1 (THead (Flat Appl) w v)) \to ex3_2 T T (\lambda (u: T).\lambda (t: T).pc3 c0 (THead (Flat Appl) w (THead (Bind Abst) u t)) t2) (\lambda (u: T).\lambda (t: T).ty3 g c0 v (THead (Bind Abst) u t)) (\lambda (u: T).\lambda (_: T).ty3 g c0 w u)))).\lambda (t0: T).\lambda (_: (ty3 g c0 t2 t0)).\lambda (_: (((eq T t2 (THead (Flat Appl) w v)) \to ex3_2 T T (\lambda (u: T).\lambda (t: T).pc3 c0 (THead (Flat Appl) w (THead (Bind Abst) u t)) t0) (\lambda (u: T).\lambda (t: T).ty3 g c0 v (THead (Bind Abst) u t)) (\lambda (u: T).\lambda (_: T).ty3 g c0 w u)))).\lambda (H5: (eq T (THead (Flat Cast) t2 t1) (THead (Flat Appl) w v))).let H6 \def eq_ind T (THead (Flat Cast) t2 t1) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat f) \Rightarrow (match f return (Prop) with [Appl \Rightarrow False | Cast \Rightarrow True])])]) I (THead (Flat Appl) w v) H5 in False_ind (ex3_2 T T (\lambda (u: T).\lambda (t: T).pc3 c0 (THead (Flat Appl) w (THead (Bind Abst) u t)) t2) (\lambda (u: T).\lambda (t: T).ty3 g c0 v (THead (Bind Abst) u t)) (\lambda (u: T).\lambda (_: T).ty3 g c0 w u)) H6) c y x H0) H.
+
+theorem ty3_gen_cast: \forall (g: G).\forall (c: C).\forall (t1: T).\forall (t2: T).\forall (x: T).(ty3 g c (THead (Flat Cast) t2 t1) x) \to and (pc3 c t2 x) (ty3 g c t1 t2) \def \lambda (g: G).\lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (x: T).\lambda (H: (ty3 g c (THead (Flat Cast) t2 t1) x)).insert_eq T (THead (Flat Cast) t2 t1) (\lambda (t: T).ty3 g c t x) (and (pc3 c t2 x) (ty3 g c t1 t2)) (\lambda (y: T).\lambda (H0: (ty3 g c y x)).ty3_ind g (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).(eq T t (THead (Flat Cast) t2 t1)) \to and (pc3 c0 t2 t0) (ty3 g c0 t1 t2)) (\lambda (c0: C).\lambda (t0: T).\lambda (t: T).\lambda (_: (ty3 g c0 t0 t)).\lambda (_: (((eq T t0 (THead (Flat Cast) t2 t1)) \to and (pc3 c0 t2 t) (ty3 g c0 t1 t2)))).\lambda (u: T).\lambda (t3: T).\lambda (H3: (ty3 g c0 u t3)).\lambda (H4: (((eq T u (THead (Flat Cast) t2 t1)) \to and (pc3 c0 t2 t3) (ty3 g c0 t1 t2)))).\lambda (H5: (pc3 c0 t3 t0)).\lambda (H6: (eq T u (THead (Flat Cast) t2 t1))).let H7 \def f_equal T T (\lambda (e: T).e) u (THead (Flat Cast) t2 t1) H6 in let H8 \def eq_ind T u (\lambda (t: T).(eq T t (THead (Flat Cast) t2 t1)) \to and (pc3 c0 t2 t3) (ty3 g c0 t1 t2)) H4 (THead (Flat Cast) t2 t1) H7 in let H9 \def eq_ind T u (\lambda (t: T).ty3 g c0 t t3) H3 (THead (Flat Cast) t2 t1) H7 in let H10 \def H8 (refl_equal T (THead (Flat Cast) t2 t1)) in and_ind (pc3 c0 t2 t3) (ty3 g c0 t1 t2) (and (pc3 c0 t2 t0) (ty3 g c0 t1 t2)) (\lambda (H11: (pc3 c0 t2 t3)).\lambda (H12: (ty3 g c0 t1 t2)).conj (pc3 c0 t2 t0) (ty3 g c0 t1 t2) (pc3_t t3 c0 t2 H11 t0 H5) H12) H10) (\lambda (c0: C).\lambda (m: nat).\lambda (H1: (eq T (TSort m) (THead (Flat Cast) t2 t1))).let H2 \def eq_ind T (TSort m) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow True | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow False]) I (THead (Flat Cast) t2 t1) H1 in False_ind (and (pc3 c0 t2 (TSort (next g m))) (ty3 g c0 t1 t2)) H2) (\lambda (n: nat).\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (_: (getl n c0 (CHead d (Bind Abbr) u))).\lambda (t: T).\lambda (_: (ty3 g d u t)).\lambda (_: (((eq T u (THead (Flat Cast) t2 t1)) \to and (pc3 d t2 t) (ty3 g d t1 t2)))).\lambda (H4: (eq T (TLRef n) (THead (Flat Cast) t2 t1))).let H5 \def eq_ind T (TLRef n) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Flat Cast) t2 t1) H4 in False_ind (and (pc3 c0 t2 (lift (S n) O t)) (ty3 g c0 t1 t2)) H5) (\lambda (n: nat).\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (_: (getl n c0 (CHead d (Bind Abst) u))).\lambda (t: T).\lambda (_: (ty3 g d u t)).\lambda (_: (((eq T u (THead (Flat Cast) t2 t1)) \to and (pc3 d t2 t) (ty3 g d t1 t2)))).\lambda (H4: (eq T (TLRef n) (THead (Flat Cast) t2 t1))).let H5 \def eq_ind T (TLRef n) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Flat Cast) t2 t1) H4 in False_ind (and (pc3 c0 t2 (lift (S n) O u)) (ty3 g c0 t1 t2)) H5) (\lambda (c0: C).\lambda (u: T).\lambda (t: T).\lambda (_: (ty3 g c0 u t)).\lambda (_: (((eq T u (THead (Flat Cast) t2 t1)) \to and (pc3 c0 t2 t) (ty3 g c0 t1 t2)))).\lambda (b: B).\lambda (t0: T).\lambda (t3: T).\lambda (_: (ty3 g (CHead c0 (Bind b) u) t0 t3)).\lambda (_: (((eq T t0 (THead (Flat Cast) t2 t1)) \to and (pc3 (CHead c0 (Bind b) u) t2 t3) (ty3 g (CHead c0 (Bind b) u) t1 t2)))).\lambda (t4: T).\lambda (_: (ty3 g (CHead c0 (Bind b) u) t3 t4)).\lambda (_: (((eq T t3 (THead (Flat Cast) t2 t1)) \to and (pc3 (CHead c0 (Bind b) u) t2 t4) (ty3 g (CHead c0 (Bind b) u) t1 t2)))).\lambda (H7: (eq T (THead (Bind b) u t0) (THead (Flat Cast) t2 t1))).let H8 \def eq_ind T (THead (Bind b) u t0) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (THead (Flat Cast) t2 t1) H7 in False_ind (and (pc3 c0 t2 (THead (Bind b) u t3)) (ty3 g c0 t1 t2)) H8) (\lambda (c0: C).\lambda (w: T).\lambda (u: T).\lambda (_: (ty3 g c0 w u)).\lambda (_: (((eq T w (THead (Flat Cast) t2 t1)) \to and (pc3 c0 t2 u) (ty3 g c0 t1 t2)))).\lambda (v: T).\lambda (t: T).\lambda (_: (ty3 g c0 v (THead (Bind Abst) u t))).\lambda (_: (((eq T v (THead (Flat Cast) t2 t1)) \to and (pc3 c0 t2 (THead (Bind Abst) u t)) (ty3 g c0 t1 t2)))).\lambda (H5: (eq T (THead (Flat Appl) w v) (THead (Flat Cast) t2 t1))).let H6 \def eq_ind T (THead (Flat Appl) w v) (\lambda (ee: T).match ee return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat f) \Rightarrow (match f return (Prop) with [Appl \Rightarrow True | Cast \Rightarrow False])])]) I (THead (Flat Cast) t2 t1) H5 in False_ind (and (pc3 c0 t2 (THead (Flat Appl) w (THead (Bind Abst) u t))) (ty3 g c0 t1 t2)) H6) (\lambda (c0: C).\lambda (t0: T).\lambda (t3: T).\lambda (H1: (ty3 g c0 t0 t3)).\lambda (H2: (((eq T t0 (THead (Flat Cast) t2 t1)) \to and (pc3 c0 t2 t3) (ty3 g c0 t1 t2)))).\lambda (t4: T).\lambda (H3: (ty3 g c0 t3 t4)).\lambda (H4: (((eq T t3 (THead (Flat Cast) t2 t1)) \to and (pc3 c0 t2 t4) (ty3 g c0 t1 t2)))).\lambda (H5: (eq T (THead (Flat Cast) t3 t0) (THead (Flat Cast) t2 t1))).let H6 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t3 | (TLRef _) \Rightarrow t3 | (THead _ t _) \Rightarrow t]) (THead (Flat Cast) t3 t0) (THead (Flat Cast) t2 t1) H5 in (let H7 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t0 | (TLRef _) \Rightarrow t0 | (THead _ _ t) \Rightarrow t]) (THead (Flat Cast) t3 t0) (THead (Flat Cast) t2 t1) H5 in \lambda (H8: (eq T t3 t2)).let H9 \def eq_ind T t3 (\lambda (t: T).(eq T t (THead (Flat Cast) t2 t1)) \to and (pc3 c0 t2 t4) (ty3 g c0 t1 t2)) H4 t2 H8 in let H10 \def eq_ind T t3 (\lambda (t: T).ty3 g c0 t t4) H3 t2 H8 in let H11 \def eq_ind T t3 (\lambda (t: T).(eq T t0 (THead (Flat Cast) t2 t1)) \to and (pc3 c0 t2 t) (ty3 g c0 t1 t2)) H2 t2 H8 in let H12 \def eq_ind T t3 (\lambda (t: T).ty3 g c0 t0 t) H1 t2 H8 in eq_ind_r T t2 (\lambda (t: T).and (pc3 c0 t2 t) (ty3 g c0 t1 t2)) (let H13 \def eq_ind T t0 (\lambda (t: T).(eq T t (THead (Flat Cast) t2 t1)) \to and (pc3 c0 t2 t2) (ty3 g c0 t1 t2)) H11 t1 H7 in let H14 \def eq_ind T t0 (\lambda (t: T).ty3 g c0 t t2) H12 t1 H7 in conj (pc3 c0 t2 t2) (ty3 g c0 t1 t2) (pc3_refl c0 t2) H14) t3 H8) H6) c y x H0) H.
+
+theorem ty3_lift: \forall (g: G).\forall (e: C).\forall (t1: T).\forall (t2: T).(ty3 g e t1 t2) \to \forall (c: C).\forall (d: nat).\forall (h: nat).(drop h d c e) \to ty3 g c (lift h d t1) (lift h d t2) \def \lambda (g: G).\lambda (e: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (ty3 g e t1 t2)).ty3_ind g (\lambda (c: C).\lambda (t: T).\lambda (t0: T).\forall (c0: C).\forall (d: nat).\forall (h: nat).(drop h d c0 c) \to ty3 g c0 (lift h d t) (lift h d t0)) (\lambda (c: C).\lambda (t0: T).\lambda (t: T).\lambda (_: (ty3 g c t0 t)).\lambda (H1: ((\forall (c0: C).\forall (d: nat).\forall (h: nat).(drop h d c0 c) \to ty3 g c0 (lift h d t0) (lift h d t)))).\lambda (u: T).\lambda (t3: T).\lambda (_: (ty3 g c u t3)).\lambda (H3: ((\forall (c0: C).\forall (d: nat).\forall (h: nat).(drop h d c0 c) \to ty3 g c0 (lift h d u) (lift h d t3)))).\lambda (H4: (pc3 c t3 t0)).\lambda (c0: C).\lambda (d: nat).\lambda (h: nat).\lambda (H5: (drop h d c0 c)).ty3_conv g c0 (lift h d t0) (lift h d t) (H1 c0 d h H5) (lift h d u) (lift h d t3) (H3 c0 d h H5) (pc3_lift c0 c h d H5 t3 t0 H4)) (\lambda (c: C).\lambda (m: nat).\lambda (c0: C).\lambda (d: nat).\lambda (h: nat).\lambda (_: (drop h d c0 c)).eq_ind_r T (TSort m) (\lambda (t: T).ty3 g c0 t (lift h d (TSort (next g m)))) (eq_ind_r T (TSort (next g m)) (\lambda (t: T).ty3 g c0 (TSort m) t) (ty3_sort g c0 m) (lift h d (TSort (next g m))) (lift_sort (next g m) h d)) (lift h d (TSort m)) (lift_sort m h d)) (\lambda (n: nat).\lambda (c: C).\lambda (d: C).\lambda (u: T).\lambda (H0: (getl n c (CHead d (Bind Abbr) u))).\lambda (t: T).\lambda (H1: (ty3 g d u t)).\lambda (H2: ((\forall (c: C).\forall (d0: nat).\forall (h: nat).(drop h d0 c d) \to ty3 g c (lift h d0 u) (lift h d0 t)))).\lambda (c0: C).\lambda (d0: nat).\lambda (h: nat).\lambda (H3: (drop h d0 c0 c)).lt_le_e n d0 (ty3 g c0 (lift h d0 (TLRef n)) (lift h d0 (lift (S n) O t))) (\lambda (H4: (lt n d0)).let H5 \def drop_getl_trans_le n d0 (le_S_n n d0 (le_S (S n) d0 H4)) c0 c h H3 (CHead d (Bind Abbr) u) H0 in ex3_2_ind C C (\lambda (e0: C).\lambda (_: C).drop n O c0 e0) (\lambda (e0: C).\lambda (e1: C).drop h (minus d0 n) e0 e1) (\lambda (_: C).\lambda (e1: C).clear e1 (CHead d (Bind Abbr) u)) (ty3 g c0 (lift h d0 (TLRef n)) (lift h d0 (lift (S n) O t))) (\lambda (x0: C).\lambda (x1: C).\lambda (H6: (drop n O c0 x0)).\lambda (H7: (drop h (minus d0 n) x0 x1)).\lambda (H8: (clear x1 (CHead d (Bind Abbr) u))).let H9 \def eq_ind nat (minus d0 n) (\lambda (n: nat).drop h n x0 x1) H7 (S (minus d0 (S n))) (minus_x_Sy d0 n H4) in let H10 \def drop_clear_S x1 x0 h (minus d0 (S n)) H9 Abbr d u H8 in ex2_ind C (\lambda (c1: C).clear x0 (CHead c1 (Bind Abbr) (lift h (minus d0 (S n)) u))) (\lambda (c1: C).drop h (minus d0 (S n)) c1 d) (ty3 g c0 (lift h d0 (TLRef n)) (lift h d0 (lift (S n) O t))) (\lambda (x: C).\lambda (H11: (clear x0 (CHead x (Bind Abbr) (lift h (minus d0 (S n)) u)))).\lambda (H12: (drop h (minus d0 (S n)) x d)).eq_ind_r T (TLRef n) (\lambda (t0: T).ty3 g c0 t0 (lift h d0 (lift (S n) O t))) (eq_ind nat (plus (S n) (minus d0 (S n))) (\lambda (n0: nat).ty3 g c0 (TLRef n) (lift h n0 (lift (S n) O t))) (eq_ind_r T (lift (S n) O (lift h (minus d0 (S n)) t)) (\lambda (t0: T).ty3 g c0 (TLRef n) t0) (eq_ind nat d0 (\lambda (_: nat).ty3 g c0 (TLRef n) (lift (S n) O (lift h (minus d0 (S n)) t))) (ty3_abbr g n c0 x (lift h (minus d0 (S n)) u) (getl_intro n c0 (CHead x (Bind Abbr) (lift h (minus d0 (S n)) u)) x0 H6 H11) (lift h (minus d0 (S n)) t) (H2 x (minus d0 (S n)) h H12)) (plus (S n) (minus d0 (S n))) (le_plus_minus (S n) d0 H4)) (lift h (plus (S n) (minus d0 (S n))) (lift (S n) O t)) (lift_d t h (S n) (minus d0 (S n)) O (le_O_n (minus d0 (S n))))) d0 (le_plus_minus_r (S n) d0 H4)) (lift h d0 (TLRef n)) (lift_lref_lt n h d0 H4)) H10) H5) (\lambda (H4: (le d0 n)).eq_ind_r T (TLRef (plus n h)) (\lambda (t0: T).ty3 g c0 t0 (lift h d0 (lift (S n) O t))) (eq_ind nat (S n) (\lambda (_: nat).ty3 g c0 (TLRef (plus n h)) (lift h d0 (lift (S n) O t))) (eq_ind_r T (lift (plus h (S n)) O t) (\lambda (t0: T).ty3 g c0 (TLRef (plus n h)) t0) (eq_ind_r nat (plus (S n) h) (\lambda (n0: nat).ty3 g c0 (TLRef (plus n h)) (lift n0 O t)) (ty3_abbr g (plus n h) c0 d u (drop_getl_trans_ge n c0 c d0 h H3 (CHead d (Bind Abbr) u) H0 H4) t H1) (plus h (S n)) (plus_sym h (S n))) (lift h d0 (lift (S n) O t)) (lift_free t (S n) h O d0 (le_S d0 n H4) (le_O_n d0))) (plus n (S O)) (eq_ind_r nat (plus (S O) n) (\lambda (n0: nat).eq nat (S n) n0) (refl_equal nat (plus (S O) n)) (plus n (S O)) (plus_sym n (S O)))) (lift h d0 (TLRef n)) (lift_lref_ge n h d0 H4))) (\lambda (n: nat).\lambda (c: C).\lambda (d: C).\lambda (u: T).\lambda (H0: (getl n c (CHead d (Bind Abst) u))).\lambda (t: T).\lambda (H1: (ty3 g d u t)).\lambda (H2: ((\forall (c: C).\forall (d0: nat).\forall (h: nat).(drop h d0 c d) \to ty3 g c (lift h d0 u) (lift h d0 t)))).\lambda (c0: C).\lambda (d0: nat).\lambda (h: nat).\lambda (H3: (drop h d0 c0 c)).lt_le_e n d0 (ty3 g c0 (lift h d0 (TLRef n)) (lift h d0 (lift (S n) O u))) (\lambda (H4: (lt n d0)).let H5 \def drop_getl_trans_le n d0 (le_S_n n d0 (le_S (S n) d0 H4)) c0 c h H3 (CHead d (Bind Abst) u) H0 in ex3_2_ind C C (\lambda (e0: C).\lambda (_: C).drop n O c0 e0) (\lambda (e0: C).\lambda (e1: C).drop h (minus d0 n) e0 e1) (\lambda (_: C).\lambda (e1: C).clear e1 (CHead d (Bind Abst) u)) (ty3 g c0 (lift h d0 (TLRef n)) (lift h d0 (lift (S n) O u))) (\lambda (x0: C).\lambda (x1: C).\lambda (H6: (drop n O c0 x0)).\lambda (H7: (drop h (minus d0 n) x0 x1)).\lambda (H8: (clear x1 (CHead d (Bind Abst) u))).let H9 \def eq_ind nat (minus d0 n) (\lambda (n: nat).drop h n x0 x1) H7 (S (minus d0 (S n))) (minus_x_Sy d0 n H4) in let H10 \def drop_clear_S x1 x0 h (minus d0 (S n)) H9 Abst d u H8 in ex2_ind C (\lambda (c1: C).clear x0 (CHead c1 (Bind Abst) (lift h (minus d0 (S n)) u))) (\lambda (c1: C).drop h (minus d0 (S n)) c1 d) (ty3 g c0 (lift h d0 (TLRef n)) (lift h d0 (lift (S n) O u))) (\lambda (x: C).\lambda (H11: (clear x0 (CHead x (Bind Abst) (lift h (minus d0 (S n)) u)))).\lambda (H12: (drop h (minus d0 (S n)) x d)).eq_ind_r T (TLRef n) (\lambda (t0: T).ty3 g c0 t0 (lift h d0 (lift (S n) O u))) (eq_ind nat (plus (S n) (minus d0 (S n))) (\lambda (n0: nat).ty3 g c0 (TLRef n) (lift h n0 (lift (S n) O u))) (eq_ind_r T (lift (S n) O (lift h (minus d0 (S n)) u)) (\lambda (t0: T).ty3 g c0 (TLRef n) t0) (eq_ind nat d0 (\lambda (_: nat).ty3 g c0 (TLRef n) (lift (S n) O (lift h (minus d0 (S n)) u))) (ty3_abst g n c0 x (lift h (minus d0 (S n)) u) (getl_intro n c0 (CHead x (Bind Abst) (lift h (minus d0 (S n)) u)) x0 H6 H11) (lift h (minus d0 (S n)) t) (H2 x (minus d0 (S n)) h H12)) (plus (S n) (minus d0 (S n))) (le_plus_minus (S n) d0 H4)) (lift h (plus (S n) (minus d0 (S n))) (lift (S n) O u)) (lift_d u h (S n) (minus d0 (S n)) O (le_O_n (minus d0 (S n))))) d0 (le_plus_minus_r (S n) d0 H4)) (lift h d0 (TLRef n)) (lift_lref_lt n h d0 H4)) H10) H5) (\lambda (H4: (le d0 n)).eq_ind_r T (TLRef (plus n h)) (\lambda (t0: T).ty3 g c0 t0 (lift h d0 (lift (S n) O u))) (eq_ind nat (S n) (\lambda (_: nat).ty3 g c0 (TLRef (plus n h)) (lift h d0 (lift (S n) O u))) (eq_ind_r T (lift (plus h (S n)) O u) (\lambda (t0: T).ty3 g c0 (TLRef (plus n h)) t0) (eq_ind_r nat (plus (S n) h) (\lambda (n0: nat).ty3 g c0 (TLRef (plus n h)) (lift n0 O u)) (ty3_abst g (plus n h) c0 d u (drop_getl_trans_ge n c0 c d0 h H3 (CHead d (Bind Abst) u) H0 H4) t H1) (plus h (S n)) (plus_sym h (S n))) (lift h d0 (lift (S n) O u)) (lift_free u (S n) h O d0 (le_S d0 n H4) (le_O_n d0))) (plus n (S O)) (eq_ind_r nat (plus (S O) n) (\lambda (n0: nat).eq nat (S n) n0) (refl_equal nat (plus (S O) n)) (plus n (S O)) (plus_sym n (S O)))) (lift h d0 (TLRef n)) (lift_lref_ge n h d0 H4))) (\lambda (c: C).\lambda (u: T).\lambda (t: T).\lambda (_: (ty3 g c u t)).\lambda (H1: ((\forall (c0: C).\forall (d: nat).\forall (h: nat).(drop h d c0 c) \to ty3 g c0 (lift h d u) (lift h d t)))).\lambda (b: B).\lambda (t0: T).\lambda (t3: T).\lambda (_: (ty3 g (CHead c (Bind b) u) t0 t3)).\lambda (H3: ((\forall (c0: C).\forall (d: nat).\forall (h: nat).(drop h d c0 (CHead c (Bind b) u)) \to ty3 g c0 (lift h d t0) (lift h d t3)))).\lambda (t4: T).\lambda (_: (ty3 g (CHead c (Bind b) u) t3 t4)).\lambda (H5: ((\forall (c0: C).\forall (d: nat).\forall (h: nat).(drop h d c0 (CHead c (Bind b) u)) \to ty3 g c0 (lift h d t3) (lift h d t4)))).\lambda (c0: C).\lambda (d: nat).\lambda (h: nat).\lambda (H6: (drop h d c0 c)).eq_ind_r T (THead (Bind b) (lift h d u) (lift h (s (Bind b) d) t0)) (\lambda (t5: T).ty3 g c0 t5 (lift h d (THead (Bind b) u t3))) (eq_ind_r T (THead (Bind b) (lift h d u) (lift h (s (Bind b) d) t3)) (\lambda (t5: T).ty3 g c0 (THead (Bind b) (lift h d u) (lift h (s (Bind b) d) t0)) t5) (ty3_bind g c0 (lift h d u) (lift h d t) (H1 c0 d h H6) b (lift h (S d) t0) (lift h (S d) t3) (H3 (CHead c0 (Bind b) (lift h d u)) (S d) h (drop_skip_bind h d c0 c H6 b u)) (lift h (S d) t4) (H5 (CHead c0 (Bind b) (lift h d u)) (S d) h (drop_skip_bind h d c0 c H6 b u))) (lift h d (THead (Bind b) u t3)) (lift_head (Bind b) u t3 h d)) (lift h d (THead (Bind b) u t0)) (lift_head (Bind b) u t0 h d)) (\lambda (c: C).\lambda (w: T).\lambda (u: T).\lambda (_: (ty3 g c w u)).\lambda (H1: ((\forall (c0: C).\forall (d: nat).\forall (h: nat).(drop h d c0 c) \to ty3 g c0 (lift h d w) (lift h d u)))).\lambda (v: T).\lambda (t: T).\lambda (_: (ty3 g c v (THead (Bind Abst) u t))).\lambda (H3: ((\forall (c0: C).\forall (d: nat).\forall (h: nat).(drop h d c0 c) \to ty3 g c0 (lift h d v) (lift h d (THead (Bind Abst) u t))))).\lambda (c0: C).\lambda (d: nat).\lambda (h: nat).\lambda (H4: (drop h d c0 c)).eq_ind_r T (THead (Flat Appl) (lift h d w) (lift h (s (Flat Appl) d) v)) (\lambda (t0: T).ty3 g c0 t0 (lift h d (THead (Flat Appl) w (THead (Bind Abst) u t)))) (eq_ind_r T (THead (Flat Appl) (lift h d w) (lift h (s (Flat Appl) d) (THead (Bind Abst) u t))) (\lambda (t0: T).ty3 g c0 (THead (Flat Appl) (lift h d w) (lift h (s (Flat Appl) d) v)) t0) (eq_ind_r T (THead (Bind Abst) (lift h (s (Flat Appl) d) u) (lift h (s (Bind Abst) (s (Flat Appl) d)) t)) (\lambda (t0: T).ty3 g c0 (THead (Flat Appl) (lift h d w) (lift h (s (Flat Appl) d) v)) (THead (Flat Appl) (lift h d w) t0)) (ty3_appl g c0 (lift h d w) (lift h d u) (H1 c0 d h H4) (lift h d v) (lift h (S d) t) (eq_ind T (lift h d (THead (Bind Abst) u t)) (\lambda (t0: T).ty3 g c0 (lift h d v) t0) (H3 c0 d h H4) (THead (Bind Abst) (lift h d u) (lift h (S d) t)) (lift_bind Abst u t h d))) (lift h (s (Flat Appl) d) (THead (Bind Abst) u t)) (lift_head (Bind Abst) u t h (s (Flat Appl) d))) (lift h d (THead (Flat Appl) w (THead (Bind Abst) u t))) (lift_head (Flat Appl) w (THead (Bind Abst) u t) h d)) (lift h d (THead (Flat Appl) w v)) (lift_head (Flat Appl) w v h d)) (\lambda (c: C).\lambda (t0: T).\lambda (t3: T).\lambda (_: (ty3 g c t0 t3)).\lambda (H1: ((\forall (c0: C).\forall (d: nat).\forall (h: nat).(drop h d c0 c) \to ty3 g c0 (lift h d t0) (lift h d t3)))).\lambda (t4: T).\lambda (_: (ty3 g c t3 t4)).\lambda (H3: ((\forall (c0: C).\forall (d: nat).\forall (h: nat).(drop h d c0 c) \to ty3 g c0 (lift h d t3) (lift h d t4)))).\lambda (c0: C).\lambda (d: nat).\lambda (h: nat).\lambda (H4: (drop h d c0 c)).eq_ind_r T (THead (Flat Cast) (lift h d t3) (lift h (s (Flat Cast) d) t0)) (\lambda (t: T).ty3 g c0 t (lift h d t3)) (ty3_cast g c0 (lift h (s (Flat Cast) d) t0) (lift h d t3) (H1 c0 d h H4) (lift h d t4) (H3 c0 d h H4)) (lift h d (THead (Flat Cast) t3 t0)) (lift_head (Flat Cast) t3 t0 h d)) e t1 t2 H.
+
+theorem ty3_correct: \forall (g: G).\forall (c: C).\forall (t1: T).\forall (t2: T).(ty3 g c t1 t2) \to ex T (\lambda (t: T).ty3 g c t2 t) \def \lambda (g: G).\lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (ty3 g c t1 t2)).ty3_ind g (\lambda (c0: C).\lambda (_: T).\lambda (t0: T).ex T (\lambda (t3: T).ty3 g c0 t0 t3)) (\lambda (c0: C).\lambda (t0: T).\lambda (t: T).\lambda (H0: (ty3 g c0 t0 t)).\lambda (_: (ex T (\lambda (t0: T).ty3 g c0 t t0))).\lambda (u: T).\lambda (t3: T).\lambda (_: (ty3 g c0 u t3)).\lambda (_: (ex T (\lambda (t: T).ty3 g c0 t3 t))).\lambda (_: (pc3 c0 t3 t0)).ex_intro T (\lambda (t4: T).ty3 g c0 t0 t4) t H0) (\lambda (c0: C).\lambda (m: nat).ex_intro T (\lambda (t: T).ty3 g c0 (TSort (next g m)) t) (TSort (next g (next g m))) (ty3_sort g c0 (next g m))) (\lambda (n: nat).\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (H0: (getl n c0 (CHead d (Bind Abbr) u))).\lambda (t: T).\lambda (_: (ty3 g d u t)).\lambda (H2: (ex T (\lambda (t0: T).ty3 g d t t0))).let H3 \def H2 in ex_ind T (\lambda (t0: T).ty3 g d t t0) (ex T (\lambda (t0: T).ty3 g c0 (lift (S n) O t) t0)) (\lambda (x: T).\lambda (H4: (ty3 g d t x)).ex_intro T (\lambda (t0: T).ty3 g c0 (lift (S n) O t) t0) (lift (S n) O x) (ty3_lift g d t x H4 c0 O (S n) (getl_drop Abbr c0 d u n H0))) H3) (\lambda (n: nat).\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (H0: (getl n c0 (CHead d (Bind Abst) u))).\lambda (t: T).\lambda (H1: (ty3 g d u t)).\lambda (_: (ex T (\lambda (t0: T).ty3 g d t t0))).ex_intro T (\lambda (t0: T).ty3 g c0 (lift (S n) O u) t0) (lift (S n) O t) (ty3_lift g d u t H1 c0 O (S n) (getl_drop Abst c0 d u n H0))) (\lambda (c0: C).\lambda (u: T).\lambda (t: T).\lambda (H0: (ty3 g c0 u t)).\lambda (_: (ex T (\lambda (t0: T).ty3 g c0 t t0))).\lambda (b: B).\lambda (t0: T).\lambda (t3: T).\lambda (_: (ty3 g (CHead c0 (Bind b) u) t0 t3)).\lambda (_: (ex T (\lambda (t: T).ty3 g (CHead c0 (Bind b) u) t3 t))).\lambda (t4: T).\lambda (H4: (ty3 g (CHead c0 (Bind b) u) t3 t4)).\lambda (H5: (ex T (\lambda (t: T).ty3 g (CHead c0 (Bind b) u) t4 t))).let H6 \def H5 in ex_ind T (\lambda (t5: T).ty3 g (CHead c0 (Bind b) u) t4 t5) (ex T (\lambda (t5: T).ty3 g c0 (THead (Bind b) u t3) t5)) (\lambda (x: T).\lambda (H7: (ty3 g (CHead c0 (Bind b) u) t4 x)).ex_intro T (\lambda (t5: T).ty3 g c0 (THead (Bind b) u t3) t5) (THead (Bind b) u t4) (ty3_bind g c0 u t H0 b t3 t4 H4 x H7)) H6) (\lambda (c0: C).\lambda (w: T).\lambda (u: T).\lambda (H0: (ty3 g c0 w u)).\lambda (H1: (ex T (\lambda (t: T).ty3 g c0 u t))).\lambda (v: T).\lambda (t: T).\lambda (_: (ty3 g c0 v (THead (Bind Abst) u t))).\lambda (H3: (ex T (\lambda (t0: T).ty3 g c0 (THead (Bind Abst) u t) t0))).let H4 \def H1 in ex_ind T (\lambda (t0: T).ty3 g c0 u t0) (ex T (\lambda (t0: T).ty3 g c0 (THead (Flat Appl) w (THead (Bind Abst) u t)) t0)) (\lambda (x: T).\lambda (_: (ty3 g c0 u x)).let H6 \def H3 in ex_ind T (\lambda (t0: T).ty3 g c0 (THead (Bind Abst) u t) t0) (ex T (\lambda (t0: T).ty3 g c0 (THead (Flat Appl) w (THead (Bind Abst) u t)) t0)) (\lambda (x0: T).\lambda (H7: (ty3 g c0 (THead (Bind Abst) u t) x0)).ex4_3_ind T T T (\lambda (t3: T).\lambda (_: T).\lambda (_: T).pc3 c0 (THead (Bind Abst) u t3) x0) (\lambda (_: T).\lambda (t0: T).\lambda (_: T).ty3 g c0 u t0) (\lambda (t3: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c0 (Bind Abst) u) t t3) (\lambda (t3: T).\lambda (_: T).\lambda (t4: T).ty3 g (CHead c0 (Bind Abst) u) t3 t4) (ex T (\lambda (t0: T).ty3 g c0 (THead (Flat Appl) w (THead (Bind Abst) u t)) t0)) (\lambda (x1: T).\lambda (x2: T).\lambda (x3: T).\lambda (_: (pc3 c0 (THead (Bind Abst) u x1) x0)).\lambda (H9: (ty3 g c0 u x2)).\lambda (H10: (ty3 g (CHead c0 (Bind Abst) u) t x1)).\lambda (H11: (ty3 g (CHead c0 (Bind Abst) u) x1 x3)).ex_intro T (\lambda (t0: T).ty3 g c0 (THead (Flat Appl) w (THead (Bind Abst) u t)) t0) (THead (Flat Appl) w (THead (Bind Abst) u x1)) (ty3_appl g c0 w u H0 (THead (Bind Abst) u t) x1 (ty3_bind g c0 u x2 H9 Abst t x1 H10 x3 H11))) (ty3_gen_bind g Abst c0 u t x0 H7)) H6) H4) (\lambda (c0: C).\lambda (t0: T).\lambda (t3: T).\lambda (_: (ty3 g c0 t0 t3)).\lambda (H1: (ex T (\lambda (t: T).ty3 g c0 t3 t))).\lambda (t4: T).\lambda (_: (ty3 g c0 t3 t4)).\lambda (_: (ex T (\lambda (t: T).ty3 g c0 t4 t))).H1) c t1 t2 H.
+
+theorem ty3_unique: \forall (g: G).\forall (c: C).\forall (u: T).\forall (t1: T).(ty3 g c u t1) \to \forall (t2: T).(ty3 g c u t2) \to pc3 c t1 t2 \def \lambda (g: G).\lambda (c: C).\lambda (u: T).\lambda (t1: T).\lambda (H: (ty3 g c u t1)).ty3_ind g (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).\forall (t2: T).(ty3 g c0 t t2) \to pc3 c0 t0 t2) (\lambda (c0: C).\lambda (t2: T).\lambda (t: T).\lambda (_: (ty3 g c0 t2 t)).\lambda (_: ((\forall (t3: T).(ty3 g c0 t2 t3) \to pc3 c0 t t3))).\lambda (u0: T).\lambda (t0: T).\lambda (_: (ty3 g c0 u0 t0)).\lambda (H3: ((\forall (t2: T).(ty3 g c0 u0 t2) \to pc3 c0 t0 t2))).\lambda (H4: (pc3 c0 t0 t2)).\lambda (t3: T).\lambda (H5: (ty3 g c0 u0 t3)).pc3_t t0 c0 t2 (pc3_s c0 t2 t0 H4) t3 (H3 t3 H5)) (\lambda (c0: C).\lambda (m: nat).\lambda (t2: T).\lambda (H0: (ty3 g c0 (TSort m) t2)).ty3_gen_sort g c0 t2 m H0) (\lambda (n: nat).\lambda (c0: C).\lambda (d: C).\lambda (u0: T).\lambda (H0: (getl n c0 (CHead d (Bind Abbr) u0))).\lambda (t: T).\lambda (_: (ty3 g d u0 t)).\lambda (H2: ((\forall (t2: T).(ty3 g d u0 t2) \to pc3 d t t2))).\lambda (t2: T).\lambda (H3: (ty3 g c0 (TLRef n) t2)).or_ind (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t0: T).pc3 c0 (lift (S n) O t0) t2) (\lambda (e: C).\lambda (u1: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u1)) (\lambda (e: C).\lambda (u1: T).\lambda (t0: T).ty3 g e u1 t0)) (ex3_3 C T T (\lambda (_: C).\lambda (u1: T).\lambda (_: T).pc3 c0 (lift (S n) O u1) t2) (\lambda (e: C).\lambda (u1: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u1)) (\lambda (e: C).\lambda (u1: T).\lambda (t0: T).ty3 g e u1 t0)) (pc3 c0 (lift (S n) O t) t2) (\lambda (H4: (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t: T).pc3 c0 (lift (S n) O t) t2) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t))).ex3_3_ind C T T (\lambda (_: C).\lambda (_: T).\lambda (t0: T).pc3 c0 (lift (S n) O t0) t2) (\lambda (e: C).\lambda (u1: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u1)) (\lambda (e: C).\lambda (u1: T).\lambda (t0: T).ty3 g e u1 t0) (pc3 c0 (lift (S n) O t) t2) (\lambda (x0: C).\lambda (x1: T).\lambda (x2: T).\lambda (H5: (pc3 c0 (lift (S n) O x2) t2)).\lambda (H6: (getl n c0 (CHead x0 (Bind Abbr) x1))).\lambda (H7: (ty3 g x0 x1 x2)).let H8 \def eq_ind C (CHead d (Bind Abbr) u0) (\lambda (c: C).getl n c0 c) H0 (CHead x0 (Bind Abbr) x1) (getl_mono c0 (CHead d (Bind Abbr) u0) n H0 (CHead x0 (Bind Abbr) x1) H6) in let H9 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u0) (CHead x0 (Bind Abbr) x1) (getl_mono c0 (CHead d (Bind Abbr) u0) n H0 (CHead x0 (Bind Abbr) x1) H6) in (let H10 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u0 | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u0) (CHead x0 (Bind Abbr) x1) (getl_mono c0 (CHead d (Bind Abbr) u0) n H0 (CHead x0 (Bind Abbr) x1) H6) in \lambda (H11: (eq C d x0)).let H12 \def eq_ind_r T x1 (\lambda (t: T).getl n c0 (CHead x0 (Bind Abbr) t)) H8 u0 H10 in let H13 \def eq_ind_r T x1 (\lambda (t: T).ty3 g x0 t x2) H7 u0 H10 in let H14 \def eq_ind_r C x0 (\lambda (c: C).getl n c0 (CHead c (Bind Abbr) u0)) H12 d H11 in let H15 \def eq_ind_r C x0 (\lambda (c: C).ty3 g c u0 x2) H13 d H11 in pc3_t (lift (S n) O x2) c0 (lift (S n) O t) (pc3_lift c0 d (S n) O (getl_drop Abbr c0 d u0 n H14) t x2 (H2 x2 H15)) t2 H5) H9) H4) (\lambda (H4: (ex3_3 C T T (\lambda (_: C).\lambda (u: T).\lambda (_: T).pc3 c0 (lift (S n) O u) t2) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t))).ex3_3_ind C T T (\lambda (_: C).\lambda (u1: T).\lambda (_: T).pc3 c0 (lift (S n) O u1) t2) (\lambda (e: C).\lambda (u1: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u1)) (\lambda (e: C).\lambda (u1: T).\lambda (t0: T).ty3 g e u1 t0) (pc3 c0 (lift (S n) O t) t2) (\lambda (x0: C).\lambda (x1: T).\lambda (x2: T).\lambda (_: (pc3 c0 (lift (S n) O x1) t2)).\lambda (H6: (getl n c0 (CHead x0 (Bind Abst) x1))).\lambda (_: (ty3 g x0 x1 x2)).let H8 \def eq_ind C (CHead d (Bind Abbr) u0) (\lambda (c: C).getl n c0 c) H0 (CHead x0 (Bind Abst) x1) (getl_mono c0 (CHead d (Bind Abbr) u0) n H0 (CHead x0 (Bind Abst) x1) H6) in let H9 \def eq_ind C (CHead d (Bind Abbr) u0) (\lambda (ee: C).match ee return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow True | Abst \Rightarrow False | Void \Rightarrow False]) | (Flat _) \Rightarrow False])]) I (CHead x0 (Bind Abst) x1) (getl_mono c0 (CHead d (Bind Abbr) u0) n H0 (CHead x0 (Bind Abst) x1) H6) in False_ind (pc3 c0 (lift (S n) O t) t2) H9) H4) (ty3_gen_lref g c0 t2 n H3)) (\lambda (n: nat).\lambda (c0: C).\lambda (d: C).\lambda (u0: T).\lambda (H0: (getl n c0 (CHead d (Bind Abst) u0))).\lambda (t: T).\lambda (_: (ty3 g d u0 t)).\lambda (_: ((\forall (t2: T).(ty3 g d u0 t2) \to pc3 d t t2))).\lambda (t2: T).\lambda (H3: (ty3 g c0 (TLRef n) t2)).or_ind (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t0: T).pc3 c0 (lift (S n) O t0) t2) (\lambda (e: C).\lambda (u1: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u1)) (\lambda (e: C).\lambda (u1: T).\lambda (t0: T).ty3 g e u1 t0)) (ex3_3 C T T (\lambda (_: C).\lambda (u1: T).\lambda (_: T).pc3 c0 (lift (S n) O u1) t2) (\lambda (e: C).\lambda (u1: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u1)) (\lambda (e: C).\lambda (u1: T).\lambda (t0: T).ty3 g e u1 t0)) (pc3 c0 (lift (S n) O u0) t2) (\lambda (H4: (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t: T).pc3 c0 (lift (S n) O t) t2) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t))).ex3_3_ind C T T (\lambda (_: C).\lambda (_: T).\lambda (t0: T).pc3 c0 (lift (S n) O t0) t2) (\lambda (e: C).\lambda (u1: T).\lambda (_: T).getl n c0 (CHead e (Bind Abbr) u1)) (\lambda (e: C).\lambda (u1: T).\lambda (t0: T).ty3 g e u1 t0) (pc3 c0 (lift (S n) O u0) t2) (\lambda (x0: C).\lambda (x1: T).\lambda (x2: T).\lambda (_: (pc3 c0 (lift (S n) O x2) t2)).\lambda (H6: (getl n c0 (CHead x0 (Bind Abbr) x1))).\lambda (_: (ty3 g x0 x1 x2)).let H8 \def eq_ind C (CHead d (Bind Abst) u0) (\lambda (c: C).getl n c0 c) H0 (CHead x0 (Bind Abbr) x1) (getl_mono c0 (CHead d (Bind Abst) u0) n H0 (CHead x0 (Bind Abbr) x1) H6) in let H9 \def eq_ind C (CHead d (Bind Abst) u0) (\lambda (ee: C).match ee return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow False | Abst \Rightarrow True | Void \Rightarrow False]) | (Flat _) \Rightarrow False])]) I (CHead x0 (Bind Abbr) x1) (getl_mono c0 (CHead d (Bind Abst) u0) n H0 (CHead x0 (Bind Abbr) x1) H6) in False_ind (pc3 c0 (lift (S n) O u0) t2) H9) H4) (\lambda (H4: (ex3_3 C T T (\lambda (_: C).\lambda (u: T).\lambda (_: T).pc3 c0 (lift (S n) O u) t2) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t))).ex3_3_ind C T T (\lambda (_: C).\lambda (u1: T).\lambda (_: T).pc3 c0 (lift (S n) O u1) t2) (\lambda (e: C).\lambda (u1: T).\lambda (_: T).getl n c0 (CHead e (Bind Abst) u1)) (\lambda (e: C).\lambda (u1: T).\lambda (t0: T).ty3 g e u1 t0) (pc3 c0 (lift (S n) O u0) t2) (\lambda (x0: C).\lambda (x1: T).\lambda (x2: T).\lambda (H5: (pc3 c0 (lift (S n) O x1) t2)).\lambda (H6: (getl n c0 (CHead x0 (Bind Abst) x1))).\lambda (H7: (ty3 g x0 x1 x2)).let H8 \def eq_ind C (CHead d (Bind Abst) u0) (\lambda (c: C).getl n c0 c) H0 (CHead x0 (Bind Abst) x1) (getl_mono c0 (CHead d (Bind Abst) u0) n H0 (CHead x0 (Bind Abst) x1) H6) in let H9 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abst) u0) (CHead x0 (Bind Abst) x1) (getl_mono c0 (CHead d (Bind Abst) u0) n H0 (CHead x0 (Bind Abst) x1) H6) in (let H10 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u0 | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abst) u0) (CHead x0 (Bind Abst) x1) (getl_mono c0 (CHead d (Bind Abst) u0) n H0 (CHead x0 (Bind Abst) x1) H6) in \lambda (H11: (eq C d x0)).let H12 \def eq_ind_r T x1 (\lambda (t: T).getl n c0 (CHead x0 (Bind Abst) t)) H8 u0 H10 in let H13 \def eq_ind_r T x1 (\lambda (t: T).ty3 g x0 t x2) H7 u0 H10 in let H14 \def eq_ind_r T x1 (\lambda (t: T).pc3 c0 (lift (S n) O t) t2) H5 u0 H10 in let H15 \def eq_ind_r C x0 (\lambda (c: C).getl n c0 (CHead c (Bind Abst) u0)) H12 d H11 in let H16 \def eq_ind_r C x0 (\lambda (c: C).ty3 g c u0 x2) H13 d H11 in H14) H9) H4) (ty3_gen_lref g c0 t2 n H3)) (\lambda (c0: C).\lambda (u0: T).\lambda (t: T).\lambda (_: (ty3 g c0 u0 t)).\lambda (_: ((\forall (t2: T).(ty3 g c0 u0 t2) \to pc3 c0 t t2))).\lambda (b: B).\lambda (t0: T).\lambda (t2: T).\lambda (_: (ty3 g (CHead c0 (Bind b) u0) t0 t2)).\lambda (H3: ((\forall (t3: T).(ty3 g (CHead c0 (Bind b) u0) t0 t3) \to pc3 (CHead c0 (Bind b) u0) t2 t3))).\lambda (t3: T).\lambda (_: (ty3 g (CHead c0 (Bind b) u0) t2 t3)).\lambda (_: ((\forall (t4: T).(ty3 g (CHead c0 (Bind b) u0) t2 t4) \to pc3 (CHead c0 (Bind b) u0) t3 t4))).\lambda (t4: T).\lambda (H6: (ty3 g c0 (THead (Bind b) u0 t0) t4)).ex4_3_ind T T T (\lambda (t5: T).\lambda (_: T).\lambda (_: T).pc3 c0 (THead (Bind b) u0 t5) t4) (\lambda (_: T).\lambda (t6: T).\lambda (_: T).ty3 g c0 u0 t6) (\lambda (t5: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c0 (Bind b) u0) t0 t5) (\lambda (t5: T).\lambda (_: T).\lambda (t7: T).ty3 g (CHead c0 (Bind b) u0) t5 t7) (pc3 c0 (THead (Bind b) u0 t2) t4) (\lambda (x0: T).\lambda (x1: T).\lambda (x2: T).\lambda (H7: (pc3 c0 (THead (Bind b) u0 x0) t4)).\lambda (_: (ty3 g c0 u0 x1)).\lambda (H9: (ty3 g (CHead c0 (Bind b) u0) t0 x0)).\lambda (_: (ty3 g (CHead c0 (Bind b) u0) x0 x2)).pc3_t (THead (Bind b) u0 x0) c0 (THead (Bind b) u0 t2) (pc3_head_2 c0 u0 t2 x0 (Bind b) (H3 x0 H9)) t4 H7) (ty3_gen_bind g b c0 u0 t0 t4 H6)) (\lambda (c0: C).\lambda (w: T).\lambda (u0: T).\lambda (_: (ty3 g c0 w u0)).\lambda (_: ((\forall (t2: T).(ty3 g c0 w t2) \to pc3 c0 u0 t2))).\lambda (v: T).\lambda (t: T).\lambda (_: (ty3 g c0 v (THead (Bind Abst) u0 t))).\lambda (H3: ((\forall (t2: T).(ty3 g c0 v t2) \to pc3 c0 (THead (Bind Abst) u0 t) t2))).\lambda (t2: T).\lambda (H4: (ty3 g c0 (THead (Flat Appl) w v) t2)).ex3_2_ind T T (\lambda (u1: T).\lambda (t0: T).pc3 c0 (THead (Flat Appl) w (THead (Bind Abst) u1 t0)) t2) (\lambda (u1: T).\lambda (t0: T).ty3 g c0 v (THead (Bind Abst) u1 t0)) (\lambda (u1: T).\lambda (_: T).ty3 g c0 w u1) (pc3 c0 (THead (Flat Appl) w (THead (Bind Abst) u0 t)) t2) (\lambda (x0: T).\lambda (x1: T).\lambda (H5: (pc3 c0 (THead (Flat Appl) w (THead (Bind Abst) x0 x1)) t2)).\lambda (H6: (ty3 g c0 v (THead (Bind Abst) x0 x1))).\lambda (_: (ty3 g c0 w x0)).pc3_t (THead (Flat Appl) w (THead (Bind Abst) x0 x1)) c0 (THead (Flat Appl) w (THead (Bind Abst) u0 t)) (pc3_thin_dx c0 (THead (Bind Abst) u0 t) (THead (Bind Abst) x0 x1) (H3 (THead (Bind Abst) x0 x1) H6) w Appl) t2 H5) (ty3_gen_appl g c0 w v t2 H4)) (\lambda (c0: C).\lambda (t0: T).\lambda (t2: T).\lambda (_: (ty3 g c0 t0 t2)).\lambda (_: ((\forall (t3: T).(ty3 g c0 t0 t3) \to pc3 c0 t2 t3))).\lambda (t3: T).\lambda (_: (ty3 g c0 t2 t3)).\lambda (_: ((\forall (t4: T).(ty3 g c0 t2 t4) \to pc3 c0 t3 t4))).\lambda (t4: T).\lambda (H4: (ty3 g c0 (THead (Flat Cast) t2 t0) t4)).and_ind (pc3 c0 t2 t4) (ty3 g c0 t0 t2) (pc3 c0 t2 t4) (\lambda (H5: (pc3 c0 t2 t4)).\lambda (_: (ty3 g c0 t0 t2)).H5) (ty3_gen_cast g c0 t0 t2 t4 H4)) c u t1 H.
+
+theorem ty3_fsubst0: \forall (g: G).\forall (c1: C).\forall (t1: T).\forall (t: T).(ty3 g c1 t1 t) \to \forall (i: nat).\forall (u: T).\forall (c2: C).\forall (t2: T).(fsubst0 i u c1 t1 c2 t2) \to \forall (e: C).(getl i c1 (CHead e (Bind Abbr) u)) \to ty3 g c2 t2 t \def \lambda (g: G).\lambda (c1: C).\lambda (t1: T).\lambda (t: T).\lambda (H: (ty3 g c1 t1 t)).ty3_ind g (\lambda (c: C).\lambda (t0: T).\lambda (t2: T).\forall (i: nat).\forall (u: T).\forall (c2: C).\forall (t3: T).(fsubst0 i u c t0 c2 t3) \to \forall (e: C).(getl i c (CHead e (Bind Abbr) u)) \to ty3 g c2 t3 t2) (\lambda (c: C).\lambda (t2: T).\lambda (t0: T).\lambda (H0: (ty3 g c t2 t0)).\lambda (H1: ((\forall (i: nat).\forall (u: T).\forall (c2: C).\forall (t3: T).(fsubst0 i u c t2 c2 t3) \to \forall (e: C).(getl i c (CHead e (Bind Abbr) u)) \to ty3 g c2 t3 t0))).\lambda (u: T).\lambda (t3: T).\lambda (_: (ty3 g c u t3)).\lambda (H3: ((\forall (i: nat).\forall (u0: T).\forall (c2: C).\forall (t2: T).(fsubst0 i u0 c u c2 t2) \to \forall (e: C).(getl i c (CHead e (Bind Abbr) u0)) \to ty3 g c2 t2 t3))).\lambda (H4: (pc3 c t3 t2)).\lambda (i: nat).\lambda (u0: T).\lambda (c2: C).\lambda (t4: T).\lambda (H5: (fsubst0 i u0 c u c2 t4)).fsubst0_ind i u0 c u (\lambda (c0: C).\lambda (t5: T).\forall (e: C).(getl i c (CHead e (Bind Abbr) u0)) \to ty3 g c0 t5 t2) (\lambda (t5: T).\lambda (H6: (subst0 i u0 u t5)).\lambda (e: C).\lambda (H7: (getl i c (CHead e (Bind Abbr) u0))).ty3_conv g c t2 t0 H0 t5 t3 (H3 i u0 c t5 (fsubst0_snd i u0 c u t5 H6) e H7) H4) (\lambda (c3: C).\lambda (H6: (csubst0 i u0 c c3)).\lambda (e: C).\lambda (H7: (getl i c (CHead e (Bind Abbr) u0))).ty3_conv g c3 t2 t0 (H1 i u0 c3 t2 (fsubst0_fst i u0 c t2 c3 H6) e H7) u t3 (H3 i u0 c3 u (fsubst0_fst i u0 c u c3 H6) e H7) (pc3_fsubst0 c t3 t2 H4 i u0 c3 t3 (fsubst0_fst i u0 c t3 c3 H6) e H7)) (\lambda (t5: T).\lambda (H6: (subst0 i u0 u t5)).\lambda (c3: C).\lambda (H7: (csubst0 i u0 c c3)).\lambda (e: C).\lambda (H8: (getl i c (CHead e (Bind Abbr) u0))).ty3_conv g c3 t2 t0 (H1 i u0 c3 t2 (fsubst0_fst i u0 c t2 c3 H7) e H8) t5 t3 (H3 i u0 c3 t5 (fsubst0_both i u0 c u t5 H6 c3 H7) e H8) (pc3_fsubst0 c t3 t2 H4 i u0 c3 t3 (fsubst0_fst i u0 c t3 c3 H7) e H8)) c2 t4 H5) (\lambda (c: C).\lambda (m: nat).\lambda (i: nat).\lambda (u: T).\lambda (c2: C).\lambda (t2: T).\lambda (H0: (fsubst0 i u c (TSort m) c2 t2)).fsubst0_ind i u c (TSort m) (\lambda (c0: C).\lambda (t0: T).\forall (e: C).(getl i c (CHead e (Bind Abbr) u)) \to ty3 g c0 t0 (TSort (next g m))) (\lambda (t3: T).\lambda (H1: (subst0 i u (TSort m) t3)).\lambda (e: C).\lambda (_: (getl i c (CHead e (Bind Abbr) u))).subst0_gen_sort u t3 i m H1 (ty3 g c t3 (TSort (next g m)))) (\lambda (c3: C).\lambda (_: (csubst0 i u c c3)).\lambda (e: C).\lambda (_: (getl i c (CHead e (Bind Abbr) u))).ty3_sort g c3 m) (\lambda (t3: T).\lambda (H1: (subst0 i u (TSort m) t3)).\lambda (c3: C).\lambda (_: (csubst0 i u c c3)).\lambda (e: C).\lambda (_: (getl i c (CHead e (Bind Abbr) u))).subst0_gen_sort u t3 i m H1 (ty3 g c3 t3 (TSort (next g m)))) c2 t2 H0) (\lambda (n: nat).\lambda (c: C).\lambda (d: C).\lambda (u: T).\lambda (H0: (getl n c (CHead d (Bind Abbr) u))).\lambda (t0: T).\lambda (H1: (ty3 g d u t0)).\lambda (H2: ((\forall (i: nat).\forall (u0: T).\forall (c2: C).\forall (t2: T).(fsubst0 i u0 d u c2 t2) \to \forall (e: C).(getl i d (CHead e (Bind Abbr) u0)) \to ty3 g c2 t2 t0))).\lambda (i: nat).\lambda (u0: T).\lambda (c2: C).\lambda (t2: T).\lambda (H3: (fsubst0 i u0 c (TLRef n) c2 t2)).fsubst0_ind i u0 c (TLRef n) (\lambda (c0: C).\lambda (t3: T).\forall (e: C).(getl i c (CHead e (Bind Abbr) u0)) \to ty3 g c0 t3 (lift (S n) O t0)) (\lambda (t3: T).\lambda (H4: (subst0 i u0 (TLRef n) t3)).\lambda (e: C).\lambda (H5: (getl i c (CHead e (Bind Abbr) u0))).and_ind (eq nat n i) (eq T t3 (lift (S n) O u0)) (ty3 g c t3 (lift (S n) O t0)) (\lambda (H6: (eq nat n i)).\lambda (H7: (eq T t3 (lift (S n) O u0))).eq_ind_r T (lift (S n) O u0) (\lambda (t4: T).ty3 g c t4 (lift (S n) O t0)) (let H8 \def eq_ind_r nat i (\lambda (n: nat).getl n c (CHead e (Bind Abbr) u0)) H5 n H6 in let H9 \def eq_ind C (CHead d (Bind Abbr) u) (\lambda (c0: C).getl n c c0) H0 (CHead e (Bind Abbr) u0) (getl_mono c (CHead d (Bind Abbr) u) n H0 (CHead e (Bind Abbr) u0) H8) in let H10 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u) (CHead e (Bind Abbr) u0) (getl_mono c (CHead d (Bind Abbr) u) n H0 (CHead e (Bind Abbr) u0) H8) in (let H11 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u) (CHead e (Bind Abbr) u0) (getl_mono c (CHead d (Bind Abbr) u) n H0 (CHead e (Bind Abbr) u0) H8) in \lambda (H12: (eq C d e)).let H13 \def eq_ind_r C e (\lambda (c0: C).getl n c (CHead c0 (Bind Abbr) u0)) H9 d H12 in let H14 \def eq_ind_r T u0 (\lambda (t: T).getl n c (CHead d (Bind Abbr) t)) H13 u H11 in eq_ind T u (\lambda (t4: T).ty3 g c (lift (S n) O t4) (lift (S n) O t0)) (ty3_lift g d u t0 H1 c O (S n) (getl_drop Abbr c d u n H14)) u0 H11) H10) t3 H7) (subst0_gen_lref u0 t3 i n H4)) (\lambda (c3: C).\lambda (H4: (csubst0 i u0 c c3)).\lambda (e: C).\lambda (H5: (getl i c (CHead e (Bind Abbr) u0))).lt_le_e n i (ty3 g c3 (TLRef n) (lift (S n) O t0)) (\lambda (H6: (lt n i)).let H7 \def csubst0_getl_lt i n H6 c c3 u0 H4 (CHead d (Bind Abbr) u) H0 in or4_ind (getl n c3 (CHead d (Bind Abbr) u)) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e0 (Bind b) u1)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c3 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i (S n)) u0 u1 w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u1: T).getl n c3 (CHead e2 (Bind b) u1)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) u0 e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c3 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i (S n)) u0 u1 w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) u0 e1 e2)) (ty3 g c3 (TLRef n) (lift (S n) O t0)) (\lambda (H8: (getl n c3 (CHead d (Bind Abbr) u))).ty3_abbr g n c3 d u H8 t0 H1) (\lambda (H8: (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e0 (Bind b) u0)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c3 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) u0 u w))).ex3_4_ind B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e0 (Bind b) u1)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c3 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i (S n)) u0 u1 w) (ty3 g c3 (TLRef n) (lift (S n) O t0)) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: T).\lambda (x3: T).\lambda (H9: (eq C (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x2))).\lambda (H10: (getl n c3 (CHead x1 (Bind x0) x3))).\lambda (H11: (subst0 (minus i (S n)) u0 x2 x3)).let H12 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x2) H9 in (let H13 \def f_equal C B (\lambda (e0: C).match e0 return B with [(CSort _) \Rightarrow Abbr | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x2) H9 in (let H14 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x2) H9 in \lambda (H15: (eq B Abbr x0)).\lambda (H16: (eq C d x1)).let H17 \def eq_ind_r T x2 (\lambda (t: T).subst0 (minus i (S n)) u0 t x3) H11 u H14 in let H18 \def eq_ind_r C x1 (\lambda (c: C).getl n c3 (CHead c (Bind x0) x3)) H10 d H16 in let H19 \def eq_ind_r B x0 (\lambda (b: B).getl n c3 (CHead d (Bind b) x3)) H18 Abbr H15 in let H20 \def eq_ind nat (minus i n) (\lambda (n: nat).getl n (CHead d (Bind Abbr) x3) (CHead e (Bind Abbr) u0)) (getl_conf_le i (CHead e (Bind Abbr) u0) c3 (csubst0_getl_ge i i (le_n i) c c3 u0 H4 (CHead e (Bind Abbr) u0) H5) (CHead d (Bind Abbr) x3) n H19 (le_S_n n i (le_S (S n) i H6))) (S (minus i (S n))) (minus_x_Sy i n H6) in ty3_abbr g n c3 d x3 H19 t0 (H2 (minus i (S n)) u0 d x3 (fsubst0_snd (minus i (S n)) u0 d u x3 H17) e (getl_gen_S (Bind Abbr) d (CHead e (Bind Abbr) u0) x3 (minus i (S n)) H20))) H13) H12) H8) (\lambda (H8: (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u0)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c3 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) u0 e1 e2))).ex3_4_ind B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u1: T).getl n c3 (CHead e2 (Bind b) u1)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) u0 e1 e2) (ty3 g c3 (TLRef n) (lift (S n) O t0)) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (H9: (eq C (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3))).\lambda (H10: (getl n c3 (CHead x2 (Bind x0) x3))).\lambda (H11: (csubst0 (minus i (S n)) u0 x1 x2)).let H12 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H9 in (let H13 \def f_equal C B (\lambda (e0: C).match e0 return B with [(CSort _) \Rightarrow Abbr | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H9 in (let H14 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H9 in \lambda (H15: (eq B Abbr x0)).\lambda (H16: (eq C d x1)).let H17 \def eq_ind_r T x3 (\lambda (t: T).getl n c3 (CHead x2 (Bind x0) t)) H10 u H14 in let H18 \def eq_ind_r C x1 (\lambda (c: C).csubst0 (minus i (S n)) u0 c x2) H11 d H16 in let H19 \def eq_ind_r B x0 (\lambda (b: B).getl n c3 (CHead x2 (Bind b) u)) H17 Abbr H15 in let H20 \def eq_ind nat (minus i n) (\lambda (n: nat).getl n (CHead x2 (Bind Abbr) u) (CHead e (Bind Abbr) u0)) (getl_conf_le i (CHead e (Bind Abbr) u0) c3 (csubst0_getl_ge i i (le_n i) c c3 u0 H4 (CHead e (Bind Abbr) u0) H5) (CHead x2 (Bind Abbr) u) n H19 (le_S_n n i (le_S (S n) i H6))) (S (minus i (S n))) (minus_x_Sy i n H6) in ty3_abbr g n c3 x2 u H19 t0 (H2 (minus i (S n)) u0 x2 u (fsubst0_fst (minus i (S n)) u0 d u x2 H18) e (csubst0_getl_ge_back (minus i (S n)) (minus i (S n)) (le_n (minus i (S n))) d x2 u0 H18 (CHead e (Bind Abbr) u0) (getl_gen_S (Bind Abbr) x2 (CHead e (Bind Abbr) u0) u (minus i (S n)) H20)))) H13) H12) H8) (\lambda (H8: (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u0)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c3 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) u0 u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) u0 e1 e2))).ex4_5_ind B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abbr) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c3 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i (S n)) u0 u1 w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) u0 e1 e2) (ty3 g c3 (TLRef n) (lift (S n) O t0)) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (x4: T).\lambda (H9: (eq C (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3))).\lambda (H10: (getl n c3 (CHead x2 (Bind x0) x4))).\lambda (H11: (subst0 (minus i (S n)) u0 x3 x4)).\lambda (H12: (csubst0 (minus i (S n)) u0 x1 x2)).let H13 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H9 in (let H14 \def f_equal C B (\lambda (e0: C).match e0 return B with [(CSort _) \Rightarrow Abbr | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H9 in (let H15 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u) (CHead x1 (Bind x0) x3) H9 in \lambda (H16: (eq B Abbr x0)).\lambda (H17: (eq C d x1)).let H18 \def eq_ind_r T x3 (\lambda (t: T).subst0 (minus i (S n)) u0 t x4) H11 u H15 in let H19 \def eq_ind_r C x1 (\lambda (c: C).csubst0 (minus i (S n)) u0 c x2) H12 d H17 in let H20 \def eq_ind_r B x0 (\lambda (b: B).getl n c3 (CHead x2 (Bind b) x4)) H10 Abbr H16 in let H21 \def eq_ind nat (minus i n) (\lambda (n: nat).getl n (CHead x2 (Bind Abbr) x4) (CHead e (Bind Abbr) u0)) (getl_conf_le i (CHead e (Bind Abbr) u0) c3 (csubst0_getl_ge i i (le_n i) c c3 u0 H4 (CHead e (Bind Abbr) u0) H5) (CHead x2 (Bind Abbr) x4) n H20 (le_S_n n i (le_S (S n) i H6))) (S (minus i (S n))) (minus_x_Sy i n H6) in ty3_abbr g n c3 x2 x4 H20 t0 (H2 (minus i (S n)) u0 x2 x4 (fsubst0_both (minus i (S n)) u0 d u x4 H18 x2 H19) e (csubst0_getl_ge_back (minus i (S n)) (minus i (S n)) (le_n (minus i (S n))) d x2 u0 H19 (CHead e (Bind Abbr) u0) (getl_gen_S (Bind Abbr) x2 (CHead e (Bind Abbr) u0) x4 (minus i (S n)) H21)))) H14) H13) H8) H7) (\lambda (H6: (le i n)).ty3_abbr g n c3 d u (csubst0_getl_ge i n H6 c c3 u0 H4 (CHead d (Bind Abbr) u) H0) t0 H1)) (\lambda (t3: T).\lambda (H4: (subst0 i u0 (TLRef n) t3)).\lambda (c3: C).\lambda (H5: (csubst0 i u0 c c3)).\lambda (e: C).\lambda (H6: (getl i c (CHead e (Bind Abbr) u0))).and_ind (eq nat n i) (eq T t3 (lift (S n) O u0)) (ty3 g c3 t3 (lift (S n) O t0)) (\lambda (H7: (eq nat n i)).\lambda (H8: (eq T t3 (lift (S n) O u0))).eq_ind_r T (lift (S n) O u0) (\lambda (t4: T).ty3 g c3 t4 (lift (S n) O t0)) (let H9 \def eq_ind_r nat i (\lambda (n: nat).getl n c (CHead e (Bind Abbr) u0)) H6 n H7 in let H10 \def eq_ind_r nat i (\lambda (n: nat).csubst0 n u0 c c3) H5 n H7 in let H11 \def eq_ind C (CHead d (Bind Abbr) u) (\lambda (c0: C).getl n c c0) H0 (CHead e (Bind Abbr) u0) (getl_mono c (CHead d (Bind Abbr) u) n H0 (CHead e (Bind Abbr) u0) H9) in let H12 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u) (CHead e (Bind Abbr) u0) (getl_mono c (CHead d (Bind Abbr) u) n H0 (CHead e (Bind Abbr) u0) H9) in (let H13 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u) (CHead e (Bind Abbr) u0) (getl_mono c (CHead d (Bind Abbr) u) n H0 (CHead e (Bind Abbr) u0) H9) in \lambda (H14: (eq C d e)).let H15 \def eq_ind_r C e (\lambda (c0: C).getl n c (CHead c0 (Bind Abbr) u0)) H11 d H14 in let H16 \def eq_ind_r T u0 (\lambda (t: T).getl n c (CHead d (Bind Abbr) t)) H15 u H13 in let H17 \def eq_ind_r T u0 (\lambda (t: T).csubst0 n t c c3) H10 u H13 in eq_ind T u (\lambda (t4: T).ty3 g c3 (lift (S n) O t4) (lift (S n) O t0)) (ty3_lift g d u t0 H1 c3 O (S n) (getl_drop Abbr c3 d u n (csubst0_getl_ge n n (le_n n) c c3 u H17 (CHead d (Bind Abbr) u) H16))) u0 H13) H12) t3 H8) (subst0_gen_lref u0 t3 i n H4)) c2 t2 H3) (\lambda (n: nat).\lambda (c: C).\lambda (d: C).\lambda (u: T).\lambda (H0: (getl n c (CHead d (Bind Abst) u))).\lambda (t0: T).\lambda (H1: (ty3 g d u t0)).\lambda (H2: ((\forall (i: nat).\forall (u0: T).\forall (c2: C).\forall (t2: T).(fsubst0 i u0 d u c2 t2) \to \forall (e: C).(getl i d (CHead e (Bind Abbr) u0)) \to ty3 g c2 t2 t0))).\lambda (i: nat).\lambda (u0: T).\lambda (c2: C).\lambda (t2: T).\lambda (H3: (fsubst0 i u0 c (TLRef n) c2 t2)).fsubst0_ind i u0 c (TLRef n) (\lambda (c0: C).\lambda (t3: T).\forall (e: C).(getl i c (CHead e (Bind Abbr) u0)) \to ty3 g c0 t3 (lift (S n) O u)) (\lambda (t3: T).\lambda (H4: (subst0 i u0 (TLRef n) t3)).\lambda (e: C).\lambda (H5: (getl i c (CHead e (Bind Abbr) u0))).and_ind (eq nat n i) (eq T t3 (lift (S n) O u0)) (ty3 g c t3 (lift (S n) O u)) (\lambda (H6: (eq nat n i)).\lambda (H7: (eq T t3 (lift (S n) O u0))).eq_ind_r T (lift (S n) O u0) (\lambda (t4: T).ty3 g c t4 (lift (S n) O u)) (let H8 \def eq_ind_r nat i (\lambda (n: nat).getl n c (CHead e (Bind Abbr) u0)) H5 n H6 in let H9 \def eq_ind C (CHead d (Bind Abst) u) (\lambda (c0: C).getl n c c0) H0 (CHead e (Bind Abbr) u0) (getl_mono c (CHead d (Bind Abst) u) n H0 (CHead e (Bind Abbr) u0) H8) in let H10 \def eq_ind C (CHead d (Bind Abst) u) (\lambda (ee: C).match ee return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow False | Abst \Rightarrow True | Void \Rightarrow False]) | (Flat _) \Rightarrow False])]) I (CHead e (Bind Abbr) u0) (getl_mono c (CHead d (Bind Abst) u) n H0 (CHead e (Bind Abbr) u0) H8) in False_ind (ty3 g c (lift (S n) O u0) (lift (S n) O u)) H10) t3 H7) (subst0_gen_lref u0 t3 i n H4)) (\lambda (c3: C).\lambda (H4: (csubst0 i u0 c c3)).\lambda (e: C).\lambda (H5: (getl i c (CHead e (Bind Abbr) u0))).lt_le_e n i (ty3 g c3 (TLRef n) (lift (S n) O u)) (\lambda (H6: (lt n i)).let H7 \def csubst0_getl_lt i n H6 c c3 u0 H4 (CHead d (Bind Abst) u) H0 in or4_ind (getl n c3 (CHead d (Bind Abst) u)) (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abst) u) (CHead e0 (Bind b) u1)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c3 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i (S n)) u0 u1 w)) (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).eq C (CHead d (Bind Abst) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u1: T).getl n c3 (CHead e2 (Bind b) u1)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) u0 e1 e2)) (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abst) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c3 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i (S n)) u0 u1 w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) u0 e1 e2)) (ty3 g c3 (TLRef n) (lift (S n) O u)) (\lambda (H8: (getl n c3 (CHead d (Bind Abst) u))).ty3_abst g n c3 d u H8 t0 H1) (\lambda (H8: (ex3_4 B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u0: T).\lambda (_: T).eq C (CHead d (Bind Abst) u) (CHead e0 (Bind b) u0)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c3 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) u0 u w))).ex3_4_ind B C T T (\lambda (b: B).\lambda (e0: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abst) u) (CHead e0 (Bind b) u1)) (\lambda (b: B).\lambda (e0: C).\lambda (_: T).\lambda (w: T).getl n c3 (CHead e0 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i (S n)) u0 u1 w) (ty3 g c3 (TLRef n) (lift (S n) O u)) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: T).\lambda (x3: T).\lambda (H9: (eq C (CHead d (Bind Abst) u) (CHead x1 (Bind x0) x2))).\lambda (H10: (getl n c3 (CHead x1 (Bind x0) x3))).\lambda (H11: (subst0 (minus i (S n)) u0 x2 x3)).let H12 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abst) u) (CHead x1 (Bind x0) x2) H9 in (let H13 \def f_equal C B (\lambda (e0: C).match e0 return B with [(CSort _) \Rightarrow Abst | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abst])]) (CHead d (Bind Abst) u) (CHead x1 (Bind x0) x2) H9 in (let H14 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abst) u) (CHead x1 (Bind x0) x2) H9 in \lambda (H15: (eq B Abst x0)).\lambda (H16: (eq C d x1)).let H17 \def eq_ind_r T x2 (\lambda (t: T).subst0 (minus i (S n)) u0 t x3) H11 u H14 in let H18 \def eq_ind_r C x1 (\lambda (c: C).getl n c3 (CHead c (Bind x0) x3)) H10 d H16 in let H19 \def eq_ind_r B x0 (\lambda (b: B).getl n c3 (CHead d (Bind b) x3)) H18 Abst H15 in let H20 \def eq_ind nat (minus i n) (\lambda (n: nat).getl n (CHead d (Bind Abst) x3) (CHead e (Bind Abbr) u0)) (getl_conf_le i (CHead e (Bind Abbr) u0) c3 (csubst0_getl_ge i i (le_n i) c c3 u0 H4 (CHead e (Bind Abbr) u0) H5) (CHead d (Bind Abst) x3) n H19 (le_S_n n i (le_S (S n) i H6))) (S (minus i (S n))) (minus_x_Sy i n H6) in ty3_conv g c3 (lift (S n) O u) (lift (S n) O t0) (ty3_lift g d u t0 H1 c3 O (S n) (getl_drop Abst c3 d x3 n H19)) (TLRef n) (lift (S n) O x3) (ty3_abst g n c3 d x3 H19 t0 (H2 (minus i (S n)) u0 d x3 (fsubst0_snd (minus i (S n)) u0 d u x3 H17) e (getl_gen_S (Bind Abst) d (CHead e (Bind Abbr) u0) x3 (minus i (S n)) H20))) (pc3_lift c3 d (S n) O (getl_drop Abst c3 d x3 n H19) x3 u (pc3_pr2_x d x3 u (pr2_delta d e u0 (r (Bind Abst) (minus i (S n))) (getl_gen_S (Bind Abst) d (CHead e (Bind Abbr) u0) x3 (minus i (S n)) H20) u u (pr0_refl u) x3 H17)))) H13) H12) H8) (\lambda (H8: (ex3_4 B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).eq C (CHead d (Bind Abst) u) (CHead e1 (Bind b) u0)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u: T).getl n c3 (CHead e2 (Bind b) u)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) u0 e1 e2))).ex3_4_ind B C C T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).eq C (CHead d (Bind Abst) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (u1: T).getl n c3 (CHead e2 (Bind b) u1)) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).csubst0 (minus i (S n)) u0 e1 e2) (ty3 g c3 (TLRef n) (lift (S n) O u)) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (H9: (eq C (CHead d (Bind Abst) u) (CHead x1 (Bind x0) x3))).\lambda (H10: (getl n c3 (CHead x2 (Bind x0) x3))).\lambda (H11: (csubst0 (minus i (S n)) u0 x1 x2)).let H12 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abst) u) (CHead x1 (Bind x0) x3) H9 in (let H13 \def f_equal C B (\lambda (e0: C).match e0 return B with [(CSort _) \Rightarrow Abst | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abst])]) (CHead d (Bind Abst) u) (CHead x1 (Bind x0) x3) H9 in (let H14 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abst) u) (CHead x1 (Bind x0) x3) H9 in \lambda (H15: (eq B Abst x0)).\lambda (H16: (eq C d x1)).let H17 \def eq_ind_r T x3 (\lambda (t: T).getl n c3 (CHead x2 (Bind x0) t)) H10 u H14 in let H18 \def eq_ind_r C x1 (\lambda (c: C).csubst0 (minus i (S n)) u0 c x2) H11 d H16 in let H19 \def eq_ind_r B x0 (\lambda (b: B).getl n c3 (CHead x2 (Bind b) u)) H17 Abst H15 in let H20 \def eq_ind nat (minus i n) (\lambda (n: nat).getl n (CHead x2 (Bind Abst) u) (CHead e (Bind Abbr) u0)) (getl_conf_le i (CHead e (Bind Abbr) u0) c3 (csubst0_getl_ge i i (le_n i) c c3 u0 H4 (CHead e (Bind Abbr) u0) H5) (CHead x2 (Bind Abst) u) n H19 (le_S_n n i (le_S (S n) i H6))) (S (minus i (S n))) (minus_x_Sy i n H6) in ty3_abst g n c3 x2 u H19 t0 (H2 (minus i (S n)) u0 x2 u (fsubst0_fst (minus i (S n)) u0 d u x2 H18) e (csubst0_getl_ge_back (minus i (S n)) (minus i (S n)) (le_n (minus i (S n))) d x2 u0 H18 (CHead e (Bind Abbr) u0) (getl_gen_S (Bind Abst) x2 (CHead e (Bind Abbr) u0) u (minus i (S n)) H20)))) H13) H12) H8) (\lambda (H8: (ex4_5 B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u0: T).\lambda (_: T).eq C (CHead d (Bind Abst) u) (CHead e1 (Bind b) u0)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c3 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u: T).\lambda (w: T).subst0 (minus i (S n)) u0 u w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) u0 e1 e2))).ex4_5_ind B C C T T (\lambda (b: B).\lambda (e1: C).\lambda (_: C).\lambda (u1: T).\lambda (_: T).eq C (CHead d (Bind Abst) u) (CHead e1 (Bind b) u1)) (\lambda (b: B).\lambda (_: C).\lambda (e2: C).\lambda (_: T).\lambda (w: T).getl n c3 (CHead e2 (Bind b) w)) (\lambda (_: B).\lambda (_: C).\lambda (_: C).\lambda (u1: T).\lambda (w: T).subst0 (minus i (S n)) u0 u1 w) (\lambda (_: B).\lambda (e1: C).\lambda (e2: C).\lambda (_: T).\lambda (_: T).csubst0 (minus i (S n)) u0 e1 e2) (ty3 g c3 (TLRef n) (lift (S n) O u)) (\lambda (x0: B).\lambda (x1: C).\lambda (x2: C).\lambda (x3: T).\lambda (x4: T).\lambda (H9: (eq C (CHead d (Bind Abst) u) (CHead x1 (Bind x0) x3))).\lambda (H10: (getl n c3 (CHead x2 (Bind x0) x4))).\lambda (H11: (subst0 (minus i (S n)) u0 x3 x4)).\lambda (H12: (csubst0 (minus i (S n)) u0 x1 x2)).let H13 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abst) u) (CHead x1 (Bind x0) x3) H9 in (let H14 \def f_equal C B (\lambda (e0: C).match e0 return B with [(CSort _) \Rightarrow Abst | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abst])]) (CHead d (Bind Abst) u) (CHead x1 (Bind x0) x3) H9 in (let H15 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abst) u) (CHead x1 (Bind x0) x3) H9 in \lambda (H16: (eq B Abst x0)).\lambda (H17: (eq C d x1)).let H18 \def eq_ind_r T x3 (\lambda (t: T).subst0 (minus i (S n)) u0 t x4) H11 u H15 in let H19 \def eq_ind_r C x1 (\lambda (c: C).csubst0 (minus i (S n)) u0 c x2) H12 d H17 in let H20 \def eq_ind_r B x0 (\lambda (b: B).getl n c3 (CHead x2 (Bind b) x4)) H10 Abst H16 in let H21 \def eq_ind nat (minus i n) (\lambda (n: nat).getl n (CHead x2 (Bind Abst) x4) (CHead e (Bind Abbr) u0)) (getl_conf_le i (CHead e (Bind Abbr) u0) c3 (csubst0_getl_ge i i (le_n i) c c3 u0 H4 (CHead e (Bind Abbr) u0) H5) (CHead x2 (Bind Abst) x4) n H20 (le_S_n n i (le_S (S n) i H6))) (S (minus i (S n))) (minus_x_Sy i n H6) in ty3_conv g c3 (lift (S n) O u) (lift (S n) O t0) (ty3_lift g x2 u t0 (H2 (minus i (S n)) u0 x2 u (fsubst0_fst (minus i (S n)) u0 d u x2 H19) e (csubst0_getl_ge_back (minus i (S n)) (minus i (S n)) (le_n (minus i (S n))) d x2 u0 H19 (CHead e (Bind Abbr) u0) (getl_gen_S (Bind Abst) x2 (CHead e (Bind Abbr) u0) x4 (minus i (S n)) H21))) c3 O (S n) (getl_drop Abst c3 x2 x4 n H20)) (TLRef n) (lift (S n) O x4) (ty3_abst g n c3 x2 x4 H20 t0 (H2 (minus i (S n)) u0 x2 x4 (fsubst0_both (minus i (S n)) u0 d u x4 H18 x2 H19) e (csubst0_getl_ge_back (minus i (S n)) (minus i (S n)) (le_n (minus i (S n))) d x2 u0 H19 (CHead e (Bind Abbr) u0) (getl_gen_S (Bind Abst) x2 (CHead e (Bind Abbr) u0) x4 (minus i (S n)) H21)))) (pc3_lift c3 x2 (S n) O (getl_drop Abst c3 x2 x4 n H20) x4 u (pc3_fsubst0 d u u (pc3_refl d u) (minus i (S n)) u0 x2 x4 (fsubst0_both (minus i (S n)) u0 d u x4 H18 x2 H19) e (csubst0_getl_ge_back (minus i (S n)) (minus i (S n)) (le_n (minus i (S n))) d x2 u0 H19 (CHead e (Bind Abbr) u0) (getl_gen_S (Bind Abst) x2 (CHead e (Bind Abbr) u0) x4 (minus i (S n)) H21))))) H14) H13) H8) H7) (\lambda (H6: (le i n)).ty3_abst g n c3 d u (csubst0_getl_ge i n H6 c c3 u0 H4 (CHead d (Bind Abst) u) H0) t0 H1)) (\lambda (t3: T).\lambda (H4: (subst0 i u0 (TLRef n) t3)).\lambda (c3: C).\lambda (H5: (csubst0 i u0 c c3)).\lambda (e: C).\lambda (H6: (getl i c (CHead e (Bind Abbr) u0))).and_ind (eq nat n i) (eq T t3 (lift (S n) O u0)) (ty3 g c3 t3 (lift (S n) O u)) (\lambda (H7: (eq nat n i)).\lambda (H8: (eq T t3 (lift (S n) O u0))).eq_ind_r T (lift (S n) O u0) (\lambda (t4: T).ty3 g c3 t4 (lift (S n) O u)) (let H9 \def eq_ind_r nat i (\lambda (n: nat).getl n c (CHead e (Bind Abbr) u0)) H6 n H7 in let H10 \def eq_ind_r nat i (\lambda (n: nat).csubst0 n u0 c c3) H5 n H7 in let H11 \def eq_ind C (CHead d (Bind Abst) u) (\lambda (c0: C).getl n c c0) H0 (CHead e (Bind Abbr) u0) (getl_mono c (CHead d (Bind Abst) u) n H0 (CHead e (Bind Abbr) u0) H9) in let H12 \def eq_ind C (CHead d (Bind Abst) u) (\lambda (ee: C).match ee return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow False | Abst \Rightarrow True | Void \Rightarrow False]) | (Flat _) \Rightarrow False])]) I (CHead e (Bind Abbr) u0) (getl_mono c (CHead d (Bind Abst) u) n H0 (CHead e (Bind Abbr) u0) H9) in False_ind (ty3 g c3 (lift (S n) O u0) (lift (S n) O u)) H12) t3 H8) (subst0_gen_lref u0 t3 i n H4)) c2 t2 H3) (\lambda (c: C).\lambda (u: T).\lambda (t0: T).\lambda (H0: (ty3 g c u t0)).\lambda (H1: ((\forall (i: nat).\forall (u0: T).\forall (c2: C).\forall (t2: T).(fsubst0 i u0 c u c2 t2) \to \forall (e: C).(getl i c (CHead e (Bind Abbr) u0)) \to ty3 g c2 t2 t0))).\lambda (b: B).\lambda (t2: T).\lambda (t3: T).\lambda (_: (ty3 g (CHead c (Bind b) u) t2 t3)).\lambda (H3: ((\forall (i: nat).\forall (u0: T).\forall (c2: C).\forall (t4: T).(fsubst0 i u0 (CHead c (Bind b) u) t2 c2 t4) \to \forall (e: C).(getl i (CHead c (Bind b) u) (CHead e (Bind Abbr) u0)) \to ty3 g c2 t4 t3))).\lambda (t4: T).\lambda (H4: (ty3 g (CHead c (Bind b) u) t3 t4)).\lambda (_: ((\forall (i: nat).\forall (u0: T).\forall (c2: C).\forall (t2: T).(fsubst0 i u0 (CHead c (Bind b) u) t3 c2 t2) \to \forall (e: C).(getl i (CHead c (Bind b) u) (CHead e (Bind Abbr) u0)) \to ty3 g c2 t2 t4))).\lambda (i: nat).\lambda (u0: T).\lambda (c2: C).\lambda (t5: T).\lambda (H6: (fsubst0 i u0 c (THead (Bind b) u t2) c2 t5)).fsubst0_ind i u0 c (THead (Bind b) u t2) (\lambda (c0: C).\lambda (t6: T).\forall (e: C).(getl i c (CHead e (Bind Abbr) u0)) \to ty3 g c0 t6 (THead (Bind b) u t3)) (\lambda (t6: T).\lambda (H7: (subst0 i u0 (THead (Bind b) u t2) t6)).\lambda (e: C).\lambda (H8: (getl i c (CHead e (Bind Abbr) u0))).or3_ind (ex2 T (\lambda (u2: T).eq T t6 (THead (Bind b) u2 t2)) (\lambda (u2: T).subst0 i u0 u u2)) (ex2 T (\lambda (t7: T).eq T t6 (THead (Bind b) u t7)) (\lambda (t7: T).subst0 (s (Bind b) i) u0 t2 t7)) (ex3_2 T T (\lambda (u2: T).\lambda (t7: T).eq T t6 (THead (Bind b) u2 t7)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 u u2) (\lambda (_: T).\lambda (t7: T).subst0 (s (Bind b) i) u0 t2 t7)) (ty3 g c t6 (THead (Bind b) u t3)) (\lambda (H9: (ex2 T (\lambda (u2: T).eq T t6 (THead (Bind b) u2 t2)) (\lambda (u2: T).subst0 i u0 u u2))).ex2_ind T (\lambda (u2: T).eq T t6 (THead (Bind b) u2 t2)) (\lambda (u2: T).subst0 i u0 u u2) (ty3 g c t6 (THead (Bind b) u t3)) (\lambda (x: T).\lambda (H10: (eq T t6 (THead (Bind b) x t2))).\lambda (H11: (subst0 i u0 u x)).eq_ind_r T (THead (Bind b) x t2) (\lambda (t7: T).ty3 g c t7 (THead (Bind b) u t3)) (ex_ind T (\lambda (t7: T).ty3 g (CHead c (Bind b) u) t4 t7) (ty3 g c (THead (Bind b) x t2) (THead (Bind b) u t3)) (\lambda (x0: T).\lambda (H12: (ty3 g (CHead c (Bind b) u) t4 x0)).ex_ind T (\lambda (t7: T).ty3 g (CHead c (Bind b) x) t3 t7) (ty3 g c (THead (Bind b) x t2) (THead (Bind b) u t3)) (\lambda (x1: T).\lambda (H13: (ty3 g (CHead c (Bind b) x) t3 x1)).ty3_conv g c (THead (Bind b) u t3) (THead (Bind b) u t4) (ty3_bind g c u t0 H0 b t3 t4 H4 x0 H12) (THead (Bind b) x t2) (THead (Bind b) x t3) (ty3_bind g c x t0 (H1 i u0 c x (fsubst0_snd i u0 c u x H11) e H8) b t2 t3 (H3 (S i) u0 (CHead c (Bind b) x) t2 (fsubst0_fst (S i) u0 (CHead c (Bind b) u) t2 (CHead c (Bind b) x) (csubst0_snd_bind b i u0 u x H11 c)) e (getl_head (Bind b) i c (CHead e (Bind Abbr) u0) H8 u)) x1 H13) (pc3_fsubst0 c (THead (Bind b) u t3) (THead (Bind b) u t3) (pc3_refl c (THead (Bind b) u t3)) i u0 c (THead (Bind b) x t3) (fsubst0_snd i u0 c (THead (Bind b) u t3) (THead (Bind b) x t3) (subst0_fst u0 x u i H11 t3 (Bind b))) e H8)) (ty3_correct g (CHead c (Bind b) x) t2 t3 (H3 (S i) u0 (CHead c (Bind b) x) t2 (fsubst0_fst (S i) u0 (CHead c (Bind b) u) t2 (CHead c (Bind b) x) (csubst0_snd_bind b i u0 u x H11 c)) e (getl_head (Bind b) i c (CHead e (Bind Abbr) u0) H8 u)))) (ty3_correct g (CHead c (Bind b) u) t3 t4 H4)) t6 H10) H9) (\lambda (H9: (ex2 T (\lambda (t2: T).eq T t6 (THead (Bind b) u t2)) (\lambda (t3: T).subst0 (s (Bind b) i) u0 t2 t3))).ex2_ind T (\lambda (t7: T).eq T t6 (THead (Bind b) u t7)) (\lambda (t7: T).subst0 (s (Bind b) i) u0 t2 t7) (ty3 g c t6 (THead (Bind b) u t3)) (\lambda (x: T).\lambda (H10: (eq T t6 (THead (Bind b) u x))).\lambda (H11: (subst0 (s (Bind b) i) u0 t2 x)).eq_ind_r T (THead (Bind b) u x) (\lambda (t7: T).ty3 g c t7 (THead (Bind b) u t3)) (ex_ind T (\lambda (t7: T).ty3 g (CHead c (Bind b) u) t3 t7) (ty3 g c (THead (Bind b) u x) (THead (Bind b) u t3)) (\lambda (x0: T).\lambda (H12: (ty3 g (CHead c (Bind b) u) t3 x0)).ty3_bind g c u t0 H0 b x t3 (H3 (S i) u0 (CHead c (Bind b) u) x (fsubst0_snd (S i) u0 (CHead c (Bind b) u) t2 x H11) e (getl_head (Bind b) i c (CHead e (Bind Abbr) u0) H8 u)) x0 H12) (ty3_correct g (CHead c (Bind b) u) x t3 (H3 (S i) u0 (CHead c (Bind b) u) x (fsubst0_snd (S i) u0 (CHead c (Bind b) u) t2 x H11) e (getl_head (Bind b) i c (CHead e (Bind Abbr) u0) H8 u)))) t6 H10) H9) (\lambda (H9: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t6 (THead (Bind b) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 u u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Bind b) i) u0 t2 t3))).ex3_2_ind T T (\lambda (u2: T).\lambda (t7: T).eq T t6 (THead (Bind b) u2 t7)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 u u2) (\lambda (_: T).\lambda (t7: T).subst0 (s (Bind b) i) u0 t2 t7) (ty3 g c t6 (THead (Bind b) u t3)) (\lambda (x0: T).\lambda (x1: T).\lambda (H10: (eq T t6 (THead (Bind b) x0 x1))).\lambda (H11: (subst0 i u0 u x0)).\lambda (H12: (subst0 (s (Bind b) i) u0 t2 x1)).eq_ind_r T (THead (Bind b) x0 x1) (\lambda (t7: T).ty3 g c t7 (THead (Bind b) u t3)) (ex_ind T (\lambda (t7: T).ty3 g (CHead c (Bind b) u) t4 t7) (ty3 g c (THead (Bind b) x0 x1) (THead (Bind b) u t3)) (\lambda (x: T).\lambda (H13: (ty3 g (CHead c (Bind b) u) t4 x)).ex_ind T (\lambda (t7: T).ty3 g (CHead c (Bind b) x0) t3 t7) (ty3 g c (THead (Bind b) x0 x1) (THead (Bind b) u t3)) (\lambda (x2: T).\lambda (H14: (ty3 g (CHead c (Bind b) x0) t3 x2)).ty3_conv g c (THead (Bind b) u t3) (THead (Bind b) u t4) (ty3_bind g c u t0 H0 b t3 t4 H4 x H13) (THead (Bind b) x0 x1) (THead (Bind b) x0 t3) (ty3_bind g c x0 t0 (H1 i u0 c x0 (fsubst0_snd i u0 c u x0 H11) e H8) b x1 t3 (H3 (S i) u0 (CHead c (Bind b) x0) x1 (fsubst0_both (S i) u0 (CHead c (Bind b) u) t2 x1 H12 (CHead c (Bind b) x0) (csubst0_snd_bind b i u0 u x0 H11 c)) e (getl_head (Bind b) i c (CHead e (Bind Abbr) u0) H8 u)) x2 H14) (pc3_fsubst0 c (THead (Bind b) u t3) (THead (Bind b) u t3) (pc3_refl c (THead (Bind b) u t3)) i u0 c (THead (Bind b) x0 t3) (fsubst0_snd i u0 c (THead (Bind b) u t3) (THead (Bind b) x0 t3) (subst0_fst u0 x0 u i H11 t3 (Bind b))) e H8)) (ty3_correct g (CHead c (Bind b) x0) x1 t3 (H3 (S i) u0 (CHead c (Bind b) x0) x1 (fsubst0_both (S i) u0 (CHead c (Bind b) u) t2 x1 H12 (CHead c (Bind b) x0) (csubst0_snd_bind b i u0 u x0 H11 c)) e (getl_head (Bind b) i c (CHead e (Bind Abbr) u0) H8 u)))) (ty3_correct g (CHead c (Bind b) u) t3 t4 H4)) t6 H10) H9) (subst0_gen_head (Bind b) u0 u t2 t6 i H7)) (\lambda (c3: C).\lambda (H7: (csubst0 i u0 c c3)).\lambda (e: C).\lambda (H8: (getl i c (CHead e (Bind Abbr) u0))).ex_ind T (\lambda (t6: T).ty3 g (CHead c3 (Bind b) u) t3 t6) (ty3 g c3 (THead (Bind b) u t2) (THead (Bind b) u t3)) (\lambda (x: T).\lambda (H9: (ty3 g (CHead c3 (Bind b) u) t3 x)).ty3_bind g c3 u t0 (H1 i u0 c3 u (fsubst0_fst i u0 c u c3 H7) e H8) b t2 t3 (H3 (S i) u0 (CHead c3 (Bind b) u) t2 (fsubst0_fst (S i) u0 (CHead c (Bind b) u) t2 (CHead c3 (Bind b) u) (csubst0_fst_bind b i c c3 u0 H7 u)) e (getl_head (Bind b) i c (CHead e (Bind Abbr) u0) H8 u)) x H9) (ty3_correct g (CHead c3 (Bind b) u) t2 t3 (H3 (S i) u0 (CHead c3 (Bind b) u) t2 (fsubst0_fst (S i) u0 (CHead c (Bind b) u) t2 (CHead c3 (Bind b) u) (csubst0_fst_bind b i c c3 u0 H7 u)) e (getl_head (Bind b) i c (CHead e (Bind Abbr) u0) H8 u)))) (\lambda (t6: T).\lambda (H7: (subst0 i u0 (THead (Bind b) u t2) t6)).\lambda (c3: C).\lambda (H8: (csubst0 i u0 c c3)).\lambda (e: C).\lambda (H9: (getl i c (CHead e (Bind Abbr) u0))).or3_ind (ex2 T (\lambda (u2: T).eq T t6 (THead (Bind b) u2 t2)) (\lambda (u2: T).subst0 i u0 u u2)) (ex2 T (\lambda (t7: T).eq T t6 (THead (Bind b) u t7)) (\lambda (t7: T).subst0 (s (Bind b) i) u0 t2 t7)) (ex3_2 T T (\lambda (u2: T).\lambda (t7: T).eq T t6 (THead (Bind b) u2 t7)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 u u2) (\lambda (_: T).\lambda (t7: T).subst0 (s (Bind b) i) u0 t2 t7)) (ty3 g c3 t6 (THead (Bind b) u t3)) (\lambda (H10: (ex2 T (\lambda (u2: T).eq T t6 (THead (Bind b) u2 t2)) (\lambda (u2: T).subst0 i u0 u u2))).ex2_ind T (\lambda (u2: T).eq T t6 (THead (Bind b) u2 t2)) (\lambda (u2: T).subst0 i u0 u u2) (ty3 g c3 t6 (THead (Bind b) u t3)) (\lambda (x: T).\lambda (H11: (eq T t6 (THead (Bind b) x t2))).\lambda (H12: (subst0 i u0 u x)).eq_ind_r T (THead (Bind b) x t2) (\lambda (t7: T).ty3 g c3 t7 (THead (Bind b) u t3)) (ex_ind T (\lambda (t7: T).ty3 g (CHead c3 (Bind b) u) t3 t7) (ty3 g c3 (THead (Bind b) x t2) (THead (Bind b) u t3)) (\lambda (x0: T).\lambda (H13: (ty3 g (CHead c3 (Bind b) u) t3 x0)).ex_ind T (\lambda (t7: T).ty3 g (CHead c3 (Bind b) u) x0 t7) (ty3 g c3 (THead (Bind b) x t2) (THead (Bind b) u t3)) (\lambda (x1: T).\lambda (H14: (ty3 g (CHead c3 (Bind b) u) x0 x1)).ex_ind T (\lambda (t7: T).ty3 g (CHead c3 (Bind b) x) t3 t7) (ty3 g c3 (THead (Bind b) x t2) (THead (Bind b) u t3)) (\lambda (x2: T).\lambda (H15: (ty3 g (CHead c3 (Bind b) x) t3 x2)).ty3_conv g c3 (THead (Bind b) u t3) (THead (Bind b) u x0) (ty3_bind g c3 u t0 (H1 i u0 c3 u (fsubst0_fst i u0 c u c3 H8) e H9) b t3 x0 H13 x1 H14) (THead (Bind b) x t2) (THead (Bind b) x t3) (ty3_bind g c3 x t0 (H1 i u0 c3 x (fsubst0_both i u0 c u x H12 c3 H8) e H9) b t2 t3 (H3 (S i) u0 (CHead c3 (Bind b) x) t2 (fsubst0_fst (S i) u0 (CHead c (Bind b) u) t2 (CHead c3 (Bind b) x) (csubst0_both_bind b i u0 u x H12 c c3 H8)) e (getl_head (Bind b) i c (CHead e (Bind Abbr) u0) H9 u)) x2 H15) (pc3_fsubst0 c (THead (Bind b) u t3) (THead (Bind b) u t3) (pc3_refl c (THead (Bind b) u t3)) i u0 c3 (THead (Bind b) x t3) (fsubst0_both i u0 c (THead (Bind b) u t3) (THead (Bind b) x t3) (subst0_fst u0 x u i H12 t3 (Bind b)) c3 H8) e H9)) (ty3_correct g (CHead c3 (Bind b) x) t2 t3 (H3 (S i) u0 (CHead c3 (Bind b) x) t2 (fsubst0_fst (S i) u0 (CHead c (Bind b) u) t2 (CHead c3 (Bind b) x) (csubst0_both_bind b i u0 u x H12 c c3 H8)) e (getl_head (Bind b) i c (CHead e (Bind Abbr) u0) H9 u)))) (ty3_correct g (CHead c3 (Bind b) u) t3 x0 H13)) (ty3_correct g (CHead c3 (Bind b) u) t2 t3 (H3 (S i) u0 (CHead c3 (Bind b) u) t2 (fsubst0_fst (S i) u0 (CHead c (Bind b) u) t2 (CHead c3 (Bind b) u) (csubst0_fst_bind b i c c3 u0 H8 u)) e (getl_head (Bind b) i c (CHead e (Bind Abbr) u0) H9 u)))) t6 H11) H10) (\lambda (H10: (ex2 T (\lambda (t2: T).eq T t6 (THead (Bind b) u t2)) (\lambda (t3: T).subst0 (s (Bind b) i) u0 t2 t3))).ex2_ind T (\lambda (t7: T).eq T t6 (THead (Bind b) u t7)) (\lambda (t7: T).subst0 (s (Bind b) i) u0 t2 t7) (ty3 g c3 t6 (THead (Bind b) u t3)) (\lambda (x: T).\lambda (H11: (eq T t6 (THead (Bind b) u x))).\lambda (H12: (subst0 (s (Bind b) i) u0 t2 x)).eq_ind_r T (THead (Bind b) u x) (\lambda (t7: T).ty3 g c3 t7 (THead (Bind b) u t3)) (ex_ind T (\lambda (t7: T).ty3 g (CHead c3 (Bind b) u) t3 t7) (ty3 g c3 (THead (Bind b) u x) (THead (Bind b) u t3)) (\lambda (x0: T).\lambda (H13: (ty3 g (CHead c3 (Bind b) u) t3 x0)).ty3_bind g c3 u t0 (H1 i u0 c3 u (fsubst0_fst i u0 c u c3 H8) e H9) b x t3 (H3 (S i) u0 (CHead c3 (Bind b) u) x (fsubst0_both (S i) u0 (CHead c (Bind b) u) t2 x H12 (CHead c3 (Bind b) u) (csubst0_fst_bind b i c c3 u0 H8 u)) e (getl_head (Bind b) i c (CHead e (Bind Abbr) u0) H9 u)) x0 H13) (ty3_correct g (CHead c3 (Bind b) u) x t3 (H3 (S i) u0 (CHead c3 (Bind b) u) x (fsubst0_both (S i) u0 (CHead c (Bind b) u) t2 x H12 (CHead c3 (Bind b) u) (csubst0_fst_bind b i c c3 u0 H8 u)) e (getl_head (Bind b) i c (CHead e (Bind Abbr) u0) H9 u)))) t6 H11) H10) (\lambda (H10: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t6 (THead (Bind b) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 u u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Bind b) i) u0 t2 t3))).ex3_2_ind T T (\lambda (u2: T).\lambda (t7: T).eq T t6 (THead (Bind b) u2 t7)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 u u2) (\lambda (_: T).\lambda (t7: T).subst0 (s (Bind b) i) u0 t2 t7) (ty3 g c3 t6 (THead (Bind b) u t3)) (\lambda (x0: T).\lambda (x1: T).\lambda (H11: (eq T t6 (THead (Bind b) x0 x1))).\lambda (H12: (subst0 i u0 u x0)).\lambda (H13: (subst0 (s (Bind b) i) u0 t2 x1)).eq_ind_r T (THead (Bind b) x0 x1) (\lambda (t7: T).ty3 g c3 t7 (THead (Bind b) u t3)) (ex_ind T (\lambda (t7: T).ty3 g (CHead c3 (Bind b) u) t3 t7) (ty3 g c3 (THead (Bind b) x0 x1) (THead (Bind b) u t3)) (\lambda (x: T).\lambda (H14: (ty3 g (CHead c3 (Bind b) u) t3 x)).ex_ind T (\lambda (t7: T).ty3 g (CHead c3 (Bind b) u) x t7) (ty3 g c3 (THead (Bind b) x0 x1) (THead (Bind b) u t3)) (\lambda (x2: T).\lambda (H15: (ty3 g (CHead c3 (Bind b) u) x x2)).ex_ind T (\lambda (t7: T).ty3 g (CHead c3 (Bind b) x0) t3 t7) (ty3 g c3 (THead (Bind b) x0 x1) (THead (Bind b) u t3)) (\lambda (x3: T).\lambda (H16: (ty3 g (CHead c3 (Bind b) x0) t3 x3)).ty3_conv g c3 (THead (Bind b) u t3) (THead (Bind b) u x) (ty3_bind g c3 u t0 (H1 i u0 c3 u (fsubst0_fst i u0 c u c3 H8) e H9) b t3 x H14 x2 H15) (THead (Bind b) x0 x1) (THead (Bind b) x0 t3) (ty3_bind g c3 x0 t0 (H1 i u0 c3 x0 (fsubst0_both i u0 c u x0 H12 c3 H8) e H9) b x1 t3 (H3 (S i) u0 (CHead c3 (Bind b) x0) x1 (fsubst0_both (S i) u0 (CHead c (Bind b) u) t2 x1 H13 (CHead c3 (Bind b) x0) (csubst0_both_bind b i u0 u x0 H12 c c3 H8)) e (getl_head (Bind b) i c (CHead e (Bind Abbr) u0) H9 u)) x3 H16) (pc3_fsubst0 c (THead (Bind b) u t3) (THead (Bind b) u t3) (pc3_refl c (THead (Bind b) u t3)) i u0 c3 (THead (Bind b) x0 t3) (fsubst0_both i u0 c (THead (Bind b) u t3) (THead (Bind b) x0 t3) (subst0_fst u0 x0 u i H12 t3 (Bind b)) c3 H8) e H9)) (ty3_correct g (CHead c3 (Bind b) x0) x1 t3 (H3 (S i) u0 (CHead c3 (Bind b) x0) x1 (fsubst0_both (S i) u0 (CHead c (Bind b) u) t2 x1 H13 (CHead c3 (Bind b) x0) (csubst0_both_bind b i u0 u x0 H12 c c3 H8)) e (getl_head (Bind b) i c (CHead e (Bind Abbr) u0) H9 u)))) (ty3_correct g (CHead c3 (Bind b) u) t3 x H14)) (ty3_correct g (CHead c3 (Bind b) u) t2 t3 (H3 (S i) u0 (CHead c3 (Bind b) u) t2 (fsubst0_fst (S i) u0 (CHead c (Bind b) u) t2 (CHead c3 (Bind b) u) (csubst0_fst_bind b i c c3 u0 H8 u)) e (getl_head (Bind b) i c (CHead e (Bind Abbr) u0) H9 u)))) t6 H11) H10) (subst0_gen_head (Bind b) u0 u t2 t6 i H7)) c2 t5 H6) (\lambda (c: C).\lambda (w: T).\lambda (u: T).\lambda (H0: (ty3 g c w u)).\lambda (H1: ((\forall (i: nat).\forall (u0: T).\forall (c2: C).\forall (t2: T).(fsubst0 i u0 c w c2 t2) \to \forall (e: C).(getl i c (CHead e (Bind Abbr) u0)) \to ty3 g c2 t2 u))).\lambda (v: T).\lambda (t0: T).\lambda (H2: (ty3 g c v (THead (Bind Abst) u t0))).\lambda (H3: ((\forall (i: nat).\forall (u0: T).\forall (c2: C).\forall (t2: T).(fsubst0 i u0 c v c2 t2) \to \forall (e: C).(getl i c (CHead e (Bind Abbr) u0)) \to ty3 g c2 t2 (THead (Bind Abst) u t0)))).\lambda (i: nat).\lambda (u0: T).\lambda (c2: C).\lambda (t2: T).\lambda (H4: (fsubst0 i u0 c (THead (Flat Appl) w v) c2 t2)).fsubst0_ind i u0 c (THead (Flat Appl) w v) (\lambda (c0: C).\lambda (t3: T).\forall (e: C).(getl i c (CHead e (Bind Abbr) u0)) \to ty3 g c0 t3 (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (t3: T).\lambda (H5: (subst0 i u0 (THead (Flat Appl) w v) t3)).\lambda (e: C).\lambda (H6: (getl i c (CHead e (Bind Abbr) u0))).or3_ind (ex2 T (\lambda (u2: T).eq T t3 (THead (Flat Appl) u2 v)) (\lambda (u2: T).subst0 i u0 w u2)) (ex2 T (\lambda (t4: T).eq T t3 (THead (Flat Appl) w t4)) (\lambda (t4: T).subst0 (s (Flat Appl) i) u0 v t4)) (ex3_2 T T (\lambda (u2: T).\lambda (t4: T).eq T t3 (THead (Flat Appl) u2 t4)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 w u2) (\lambda (_: T).\lambda (t4: T).subst0 (s (Flat Appl) i) u0 v t4)) (ty3 g c t3 (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (H7: (ex2 T (\lambda (u2: T).eq T t3 (THead (Flat Appl) u2 v)) (\lambda (u2: T).subst0 i u0 w u2))).ex2_ind T (\lambda (u2: T).eq T t3 (THead (Flat Appl) u2 v)) (\lambda (u2: T).subst0 i u0 w u2) (ty3 g c t3 (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (x: T).\lambda (H8: (eq T t3 (THead (Flat Appl) x v))).\lambda (H9: (subst0 i u0 w x)).eq_ind_r T (THead (Flat Appl) x v) (\lambda (t4: T).ty3 g c t4 (THead (Flat Appl) w (THead (Bind Abst) u t0))) (ex_ind T (\lambda (t4: T).ty3 g c (THead (Bind Abst) u t0) t4) (ty3 g c (THead (Flat Appl) x v) (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (x0: T).\lambda (H10: (ty3 g c (THead (Bind Abst) u t0) x0)).ex4_3_ind T T T (\lambda (t4: T).\lambda (_: T).\lambda (_: T).pc3 c (THead (Bind Abst) u t4) x0) (\lambda (_: T).\lambda (t5: T).\lambda (_: T).ty3 g c u t5) (\lambda (t4: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c (Bind Abst) u) t0 t4) (\lambda (t4: T).\lambda (_: T).\lambda (t6: T).ty3 g (CHead c (Bind Abst) u) t4 t6) (ty3 g c (THead (Flat Appl) x v) (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (x1: T).\lambda (x2: T).\lambda (x3: T).\lambda (_: (pc3 c (THead (Bind Abst) u x1) x0)).\lambda (_: (ty3 g c u x2)).\lambda (H13: (ty3 g (CHead c (Bind Abst) u) t0 x1)).\lambda (H14: (ty3 g (CHead c (Bind Abst) u) x1 x3)).ex_ind T (\lambda (t4: T).ty3 g c u t4) (ty3 g c (THead (Flat Appl) x v) (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (x4: T).\lambda (H15: (ty3 g c u x4)).ty3_conv g c (THead (Flat Appl) w (THead (Bind Abst) u t0)) (THead (Flat Appl) w (THead (Bind Abst) u x1)) (ty3_appl g c w u H0 (THead (Bind Abst) u t0) x1 (ty3_bind g c u x4 H15 Abst t0 x1 H13 x3 H14)) (THead (Flat Appl) x v) (THead (Flat Appl) x (THead (Bind Abst) u t0)) (ty3_appl g c x u (H1 i u0 c x (fsubst0_snd i u0 c w x H9) e H6) v t0 H2) (pc3_fsubst0 c (THead (Flat Appl) w (THead (Bind Abst) u t0)) (THead (Flat Appl) w (THead (Bind Abst) u t0)) (pc3_refl c (THead (Flat Appl) w (THead (Bind Abst) u t0))) i u0 c (THead (Flat Appl) x (THead (Bind Abst) u t0)) (fsubst0_snd i u0 c (THead (Flat Appl) w (THead (Bind Abst) u t0)) (THead (Flat Appl) x (THead (Bind Abst) u t0)) (subst0_fst u0 x w i H9 (THead (Bind Abst) u t0) (Flat Appl))) e H6)) (ty3_correct g c x u (H1 i u0 c x (fsubst0_snd i u0 c w x H9) e H6))) (ty3_gen_bind g Abst c u t0 x0 H10)) (ty3_correct g c v (THead (Bind Abst) u t0) H2)) t3 H8) H7) (\lambda (H7: (ex2 T (\lambda (t2: T).eq T t3 (THead (Flat Appl) w t2)) (\lambda (t2: T).subst0 (s (Flat Appl) i) u0 v t2))).ex2_ind T (\lambda (t4: T).eq T t3 (THead (Flat Appl) w t4)) (\lambda (t4: T).subst0 (s (Flat Appl) i) u0 v t4) (ty3 g c t3 (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (x: T).\lambda (H8: (eq T t3 (THead (Flat Appl) w x))).\lambda (H9: (subst0 (s (Flat Appl) i) u0 v x)).eq_ind_r T (THead (Flat Appl) w x) (\lambda (t4: T).ty3 g c t4 (THead (Flat Appl) w (THead (Bind Abst) u t0))) (ty3_appl g c w u H0 x t0 (H3 (s (Flat Appl) i) u0 c x (fsubst0_snd (s (Flat Appl) i) u0 c v x H9) e H6)) t3 H8) H7) (\lambda (H7: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t3 (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 w u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Flat Appl) i) u0 v t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t4: T).eq T t3 (THead (Flat Appl) u2 t4)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 w u2) (\lambda (_: T).\lambda (t4: T).subst0 (s (Flat Appl) i) u0 v t4) (ty3 g c t3 (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (x0: T).\lambda (x1: T).\lambda (H8: (eq T t3 (THead (Flat Appl) x0 x1))).\lambda (H9: (subst0 i u0 w x0)).\lambda (H10: (subst0 (s (Flat Appl) i) u0 v x1)).eq_ind_r T (THead (Flat Appl) x0 x1) (\lambda (t4: T).ty3 g c t4 (THead (Flat Appl) w (THead (Bind Abst) u t0))) (ex_ind T (\lambda (t4: T).ty3 g c (THead (Bind Abst) u t0) t4) (ty3 g c (THead (Flat Appl) x0 x1) (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (x: T).\lambda (H11: (ty3 g c (THead (Bind Abst) u t0) x)).ex4_3_ind T T T (\lambda (t4: T).\lambda (_: T).\lambda (_: T).pc3 c (THead (Bind Abst) u t4) x) (\lambda (_: T).\lambda (t5: T).\lambda (_: T).ty3 g c u t5) (\lambda (t4: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c (Bind Abst) u) t0 t4) (\lambda (t4: T).\lambda (_: T).\lambda (t6: T).ty3 g (CHead c (Bind Abst) u) t4 t6) (ty3 g c (THead (Flat Appl) x0 x1) (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (x2: T).\lambda (x3: T).\lambda (x4: T).\lambda (_: (pc3 c (THead (Bind Abst) u x2) x)).\lambda (_: (ty3 g c u x3)).\lambda (H14: (ty3 g (CHead c (Bind Abst) u) t0 x2)).\lambda (H15: (ty3 g (CHead c (Bind Abst) u) x2 x4)).ex_ind T (\lambda (t4: T).ty3 g c u t4) (ty3 g c (THead (Flat Appl) x0 x1) (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (x5: T).\lambda (H16: (ty3 g c u x5)).ty3_conv g c (THead (Flat Appl) w (THead (Bind Abst) u t0)) (THead (Flat Appl) w (THead (Bind Abst) u x2)) (ty3_appl g c w u H0 (THead (Bind Abst) u t0) x2 (ty3_bind g c u x5 H16 Abst t0 x2 H14 x4 H15)) (THead (Flat Appl) x0 x1) (THead (Flat Appl) x0 (THead (Bind Abst) u t0)) (ty3_appl g c x0 u (H1 i u0 c x0 (fsubst0_snd i u0 c w x0 H9) e H6) x1 t0 (H3 (s (Flat Appl) i) u0 c x1 (fsubst0_snd (s (Flat Appl) i) u0 c v x1 H10) e H6)) (pc3_fsubst0 c (THead (Flat Appl) w (THead (Bind Abst) u t0)) (THead (Flat Appl) w (THead (Bind Abst) u t0)) (pc3_refl c (THead (Flat Appl) w (THead (Bind Abst) u t0))) i u0 c (THead (Flat Appl) x0 (THead (Bind Abst) u t0)) (fsubst0_snd i u0 c (THead (Flat Appl) w (THead (Bind Abst) u t0)) (THead (Flat Appl) x0 (THead (Bind Abst) u t0)) (subst0_fst u0 x0 w i H9 (THead (Bind Abst) u t0) (Flat Appl))) e H6)) (ty3_correct g c w u H0)) (ty3_gen_bind g Abst c u t0 x H11)) (ty3_correct g c v (THead (Bind Abst) u t0) H2)) t3 H8) H7) (subst0_gen_head (Flat Appl) u0 w v t3 i H5)) (\lambda (c3: C).\lambda (H5: (csubst0 i u0 c c3)).\lambda (e: C).\lambda (H6: (getl i c (CHead e (Bind Abbr) u0))).ty3_appl g c3 w u (H1 i u0 c3 w (fsubst0_fst i u0 c w c3 H5) e H6) v t0 (H3 i u0 c3 v (fsubst0_fst i u0 c v c3 H5) e H6)) (\lambda (t3: T).\lambda (H5: (subst0 i u0 (THead (Flat Appl) w v) t3)).\lambda (c3: C).\lambda (H6: (csubst0 i u0 c c3)).\lambda (e: C).\lambda (H7: (getl i c (CHead e (Bind Abbr) u0))).or3_ind (ex2 T (\lambda (u2: T).eq T t3 (THead (Flat Appl) u2 v)) (\lambda (u2: T).subst0 i u0 w u2)) (ex2 T (\lambda (t4: T).eq T t3 (THead (Flat Appl) w t4)) (\lambda (t4: T).subst0 (s (Flat Appl) i) u0 v t4)) (ex3_2 T T (\lambda (u2: T).\lambda (t4: T).eq T t3 (THead (Flat Appl) u2 t4)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 w u2) (\lambda (_: T).\lambda (t4: T).subst0 (s (Flat Appl) i) u0 v t4)) (ty3 g c3 t3 (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (H8: (ex2 T (\lambda (u2: T).eq T t3 (THead (Flat Appl) u2 v)) (\lambda (u2: T).subst0 i u0 w u2))).ex2_ind T (\lambda (u2: T).eq T t3 (THead (Flat Appl) u2 v)) (\lambda (u2: T).subst0 i u0 w u2) (ty3 g c3 t3 (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (x: T).\lambda (H9: (eq T t3 (THead (Flat Appl) x v))).\lambda (H10: (subst0 i u0 w x)).eq_ind_r T (THead (Flat Appl) x v) (\lambda (t4: T).ty3 g c3 t4 (THead (Flat Appl) w (THead (Bind Abst) u t0))) (ex_ind T (\lambda (t4: T).ty3 g c3 (THead (Bind Abst) u t0) t4) (ty3 g c3 (THead (Flat Appl) x v) (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (x0: T).\lambda (H11: (ty3 g c3 (THead (Bind Abst) u t0) x0)).ex4_3_ind T T T (\lambda (t4: T).\lambda (_: T).\lambda (_: T).pc3 c3 (THead (Bind Abst) u t4) x0) (\lambda (_: T).\lambda (t5: T).\lambda (_: T).ty3 g c3 u t5) (\lambda (t4: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c3 (Bind Abst) u) t0 t4) (\lambda (t4: T).\lambda (_: T).\lambda (t6: T).ty3 g (CHead c3 (Bind Abst) u) t4 t6) (ty3 g c3 (THead (Flat Appl) x v) (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (x1: T).\lambda (x2: T).\lambda (x3: T).\lambda (_: (pc3 c3 (THead (Bind Abst) u x1) x0)).\lambda (H13: (ty3 g c3 u x2)).\lambda (H14: (ty3 g (CHead c3 (Bind Abst) u) t0 x1)).\lambda (H15: (ty3 g (CHead c3 (Bind Abst) u) x1 x3)).ty3_conv g c3 (THead (Flat Appl) w (THead (Bind Abst) u t0)) (THead (Flat Appl) w (THead (Bind Abst) u x1)) (ty3_appl g c3 w u (H1 i u0 c3 w (fsubst0_fst i u0 c w c3 H6) e H7) (THead (Bind Abst) u t0) x1 (ty3_bind g c3 u x2 H13 Abst t0 x1 H14 x3 H15)) (THead (Flat Appl) x v) (THead (Flat Appl) x (THead (Bind Abst) u t0)) (ty3_appl g c3 x u (H1 i u0 c3 x (fsubst0_both i u0 c w x H10 c3 H6) e H7) v t0 (H3 i u0 c3 v (fsubst0_fst i u0 c v c3 H6) e H7)) (pc3_fsubst0 c (THead (Flat Appl) w (THead (Bind Abst) u t0)) (THead (Flat Appl) w (THead (Bind Abst) u t0)) (pc3_refl c (THead (Flat Appl) w (THead (Bind Abst) u t0))) i u0 c3 (THead (Flat Appl) x (THead (Bind Abst) u t0)) (fsubst0_both i u0 c (THead (Flat Appl) w (THead (Bind Abst) u t0)) (THead (Flat Appl) x (THead (Bind Abst) u t0)) (subst0_fst u0 x w i H10 (THead (Bind Abst) u t0) (Flat Appl)) c3 H6) e H7)) (ty3_gen_bind g Abst c3 u t0 x0 H11)) (ty3_correct g c3 v (THead (Bind Abst) u t0) (H3 i u0 c3 v (fsubst0_fst i u0 c v c3 H6) e H7))) t3 H9) H8) (\lambda (H8: (ex2 T (\lambda (t2: T).eq T t3 (THead (Flat Appl) w t2)) (\lambda (t2: T).subst0 (s (Flat Appl) i) u0 v t2))).ex2_ind T (\lambda (t4: T).eq T t3 (THead (Flat Appl) w t4)) (\lambda (t4: T).subst0 (s (Flat Appl) i) u0 v t4) (ty3 g c3 t3 (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (x: T).\lambda (H9: (eq T t3 (THead (Flat Appl) w x))).\lambda (H10: (subst0 (s (Flat Appl) i) u0 v x)).eq_ind_r T (THead (Flat Appl) w x) (\lambda (t4: T).ty3 g c3 t4 (THead (Flat Appl) w (THead (Bind Abst) u t0))) (ty3_appl g c3 w u (H1 i u0 c3 w (fsubst0_fst i u0 c w c3 H6) e H7) x t0 (H3 i u0 c3 x (fsubst0_both i u0 c v x H10 c3 H6) e H7)) t3 H9) H8) (\lambda (H8: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t3 (THead (Flat Appl) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 w u2) (\lambda (_: T).\lambda (t2: T).subst0 (s (Flat Appl) i) u0 v t2))).ex3_2_ind T T (\lambda (u2: T).\lambda (t4: T).eq T t3 (THead (Flat Appl) u2 t4)) (\lambda (u2: T).\lambda (_: T).subst0 i u0 w u2) (\lambda (_: T).\lambda (t4: T).subst0 (s (Flat Appl) i) u0 v t4) (ty3 g c3 t3 (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (x0: T).\lambda (x1: T).\lambda (H9: (eq T t3 (THead (Flat Appl) x0 x1))).\lambda (H10: (subst0 i u0 w x0)).\lambda (H11: (subst0 (s (Flat Appl) i) u0 v x1)).eq_ind_r T (THead (Flat Appl) x0 x1) (\lambda (t4: T).ty3 g c3 t4 (THead (Flat Appl) w (THead (Bind Abst) u t0))) (ex_ind T (\lambda (t4: T).ty3 g c3 (THead (Bind Abst) u t0) t4) (ty3 g c3 (THead (Flat Appl) x0 x1) (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (x: T).\lambda (H12: (ty3 g c3 (THead (Bind Abst) u t0) x)).ex4_3_ind T T T (\lambda (t4: T).\lambda (_: T).\lambda (_: T).pc3 c3 (THead (Bind Abst) u t4) x) (\lambda (_: T).\lambda (t5: T).\lambda (_: T).ty3 g c3 u t5) (\lambda (t4: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c3 (Bind Abst) u) t0 t4) (\lambda (t4: T).\lambda (_: T).\lambda (t6: T).ty3 g (CHead c3 (Bind Abst) u) t4 t6) (ty3 g c3 (THead (Flat Appl) x0 x1) (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (x2: T).\lambda (x3: T).\lambda (x4: T).\lambda (_: (pc3 c3 (THead (Bind Abst) u x2) x)).\lambda (_: (ty3 g c3 u x3)).\lambda (H15: (ty3 g (CHead c3 (Bind Abst) u) t0 x2)).\lambda (H16: (ty3 g (CHead c3 (Bind Abst) u) x2 x4)).ex_ind T (\lambda (t4: T).ty3 g c3 u t4) (ty3 g c3 (THead (Flat Appl) x0 x1) (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (x5: T).\lambda (H17: (ty3 g c3 u x5)).ty3_conv g c3 (THead (Flat Appl) w (THead (Bind Abst) u t0)) (THead (Flat Appl) w (THead (Bind Abst) u x2)) (ty3_appl g c3 w u (H1 i u0 c3 w (fsubst0_fst i u0 c w c3 H6) e H7) (THead (Bind Abst) u t0) x2 (ty3_bind g c3 u x5 H17 Abst t0 x2 H15 x4 H16)) (THead (Flat Appl) x0 x1) (THead (Flat Appl) x0 (THead (Bind Abst) u t0)) (ty3_appl g c3 x0 u (H1 i u0 c3 x0 (fsubst0_both i u0 c w x0 H10 c3 H6) e H7) x1 t0 (H3 i u0 c3 x1 (fsubst0_both i u0 c v x1 H11 c3 H6) e H7)) (pc3_fsubst0 c (THead (Flat Appl) w (THead (Bind Abst) u t0)) (THead (Flat Appl) w (THead (Bind Abst) u t0)) (pc3_refl c (THead (Flat Appl) w (THead (Bind Abst) u t0))) i u0 c3 (THead (Flat Appl) x0 (THead (Bind Abst) u t0)) (fsubst0_both i u0 c (THead (Flat Appl) w (THead (Bind Abst) u t0)) (THead (Flat Appl) x0 (THead (Bind Abst) u t0)) (subst0_fst u0 x0 w i H10 (THead (Bind Abst) u t0) (Flat Appl)) c3 H6) e H7)) (ty3_correct g c3 w u (H1 i u0 c3 w (fsubst0_fst i u0 c w c3 H6) e H7))) (ty3_gen_bind g Abst c3 u t0 x H12)) (ty3_correct g c3 v (THead (Bind Abst) u t0) (H3 i u0 c3 v (fsubst0_fst i u0 c v c3 H6) e H7))) t3 H9) H8) (subst0_gen_head (Flat Appl) u0 w v t3 i H5)) c2 t2 H4) (\lambda (c: C).\lambda (t2: T).\lambda (t3: T).\lambda (H0: (ty3 g c t2 t3)).\lambda (H1: ((\forall (i: nat).\forall (u: T).\forall (c2: C).\forall (t4: T).(fsubst0 i u c t2 c2 t4) \to \forall (e: C).(getl i c (CHead e (Bind Abbr) u)) \to ty3 g c2 t4 t3))).\lambda (t0: T).\lambda (H2: (ty3 g c t3 t0)).\lambda (H3: ((\forall (i: nat).\forall (u: T).\forall (c2: C).\forall (t2: T).(fsubst0 i u c t3 c2 t2) \to \forall (e: C).(getl i c (CHead e (Bind Abbr) u)) \to ty3 g c2 t2 t0))).\lambda (i: nat).\lambda (u: T).\lambda (c2: C).\lambda (t4: T).\lambda (H4: (fsubst0 i u c (THead (Flat Cast) t3 t2) c2 t4)).fsubst0_ind i u c (THead (Flat Cast) t3 t2) (\lambda (c0: C).\lambda (t5: T).\forall (e: C).(getl i c (CHead e (Bind Abbr) u)) \to ty3 g c0 t5 t3) (\lambda (t5: T).\lambda (H5: (subst0 i u (THead (Flat Cast) t3 t2) t5)).\lambda (e: C).\lambda (H6: (getl i c (CHead e (Bind Abbr) u))).or3_ind (ex2 T (\lambda (u2: T).eq T t5 (THead (Flat Cast) u2 t2)) (\lambda (u2: T).subst0 i u t3 u2)) (ex2 T (\lambda (t6: T).eq T t5 (THead (Flat Cast) t3 t6)) (\lambda (t6: T).subst0 (s (Flat Cast) i) u t2 t6)) (ex3_2 T T (\lambda (u2: T).\lambda (t6: T).eq T t5 (THead (Flat Cast) u2 t6)) (\lambda (u2: T).\lambda (_: T).subst0 i u t3 u2) (\lambda (_: T).\lambda (t6: T).subst0 (s (Flat Cast) i) u t2 t6)) (ty3 g c t5 t3) (\lambda (H7: (ex2 T (\lambda (u2: T).eq T t5 (THead (Flat Cast) u2 t2)) (\lambda (u2: T).subst0 i u t3 u2))).ex2_ind T (\lambda (u2: T).eq T t5 (THead (Flat Cast) u2 t2)) (\lambda (u2: T).subst0 i u t3 u2) (ty3 g c t5 t3) (\lambda (x: T).\lambda (H8: (eq T t5 (THead (Flat Cast) x t2))).\lambda (H9: (subst0 i u t3 x)).eq_ind_r T (THead (Flat Cast) x t2) (\lambda (t6: T).ty3 g c t6 t3) (ty3_conv g c t3 t0 H2 (THead (Flat Cast) x t2) x (ty3_cast g c t2 x (ty3_conv g c x t0 (H3 i u c x (fsubst0_snd i u c t3 x H9) e H6) t2 t3 H0 (pc3_s c t3 x (pc3_fsubst0 c t3 t3 (pc3_refl c t3) i u c x (fsubst0_snd i u c t3 x H9) e H6))) t0 (H3 i u c x (fsubst0_snd i u c t3 x H9) e H6)) (pc3_fsubst0 c t3 t3 (pc3_refl c t3) i u c x (fsubst0_snd i u c t3 x H9) e H6)) t5 H8) H7) (\lambda (H7: (ex2 T (\lambda (t2: T).eq T t5 (THead (Flat Cast) t3 t2)) (\lambda (t3: T).subst0 (s (Flat Cast) i) u t2 t3))).ex2_ind T (\lambda (t6: T).eq T t5 (THead (Flat Cast) t3 t6)) (\lambda (t6: T).subst0 (s (Flat Cast) i) u t2 t6) (ty3 g c t5 t3) (\lambda (x: T).\lambda (H8: (eq T t5 (THead (Flat Cast) t3 x))).\lambda (H9: (subst0 (s (Flat Cast) i) u t2 x)).eq_ind_r T (THead (Flat Cast) t3 x) (\lambda (t6: T).ty3 g c t6 t3) (ty3_cast g c x t3 (H1 (s (Flat Cast) i) u c x (fsubst0_snd (s (Flat Cast) i) u c t2 x H9) e H6) t0 H2) t5 H8) H7) (\lambda (H7: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t5 (THead (Flat Cast) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i u t3 u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Flat Cast) i) u t2 t3))).ex3_2_ind T T (\lambda (u2: T).\lambda (t6: T).eq T t5 (THead (Flat Cast) u2 t6)) (\lambda (u2: T).\lambda (_: T).subst0 i u t3 u2) (\lambda (_: T).\lambda (t6: T).subst0 (s (Flat Cast) i) u t2 t6) (ty3 g c t5 t3) (\lambda (x0: T).\lambda (x1: T).\lambda (H8: (eq T t5 (THead (Flat Cast) x0 x1))).\lambda (H9: (subst0 i u t3 x0)).\lambda (H10: (subst0 (s (Flat Cast) i) u t2 x1)).eq_ind_r T (THead (Flat Cast) x0 x1) (\lambda (t6: T).ty3 g c t6 t3) (ty3_conv g c t3 t0 H2 (THead (Flat Cast) x0 x1) x0 (ty3_cast g c x1 x0 (ty3_conv g c x0 t0 (H3 i u c x0 (fsubst0_snd i u c t3 x0 H9) e H6) x1 t3 (H1 (s (Flat Cast) i) u c x1 (fsubst0_snd (s (Flat Cast) i) u c t2 x1 H10) e H6) (pc3_s c t3 x0 (pc3_fsubst0 c t3 t3 (pc3_refl c t3) i u c x0 (fsubst0_snd i u c t3 x0 H9) e H6))) t0 (H3 i u c x0 (fsubst0_snd i u c t3 x0 H9) e H6)) (pc3_fsubst0 c t3 t3 (pc3_refl c t3) i u c x0 (fsubst0_snd i u c t3 x0 H9) e H6)) t5 H8) H7) (subst0_gen_head (Flat Cast) u t3 t2 t5 i H5)) (\lambda (c3: C).\lambda (H5: (csubst0 i u c c3)).\lambda (e: C).\lambda (H6: (getl i c (CHead e (Bind Abbr) u))).ty3_cast g c3 t2 t3 (H1 i u c3 t2 (fsubst0_fst i u c t2 c3 H5) e H6) t0 (H3 i u c3 t3 (fsubst0_fst i u c t3 c3 H5) e H6)) (\lambda (t5: T).\lambda (H5: (subst0 i u (THead (Flat Cast) t3 t2) t5)).\lambda (c3: C).\lambda (H6: (csubst0 i u c c3)).\lambda (e: C).\lambda (H7: (getl i c (CHead e (Bind Abbr) u))).or3_ind (ex2 T (\lambda (u2: T).eq T t5 (THead (Flat Cast) u2 t2)) (\lambda (u2: T).subst0 i u t3 u2)) (ex2 T (\lambda (t6: T).eq T t5 (THead (Flat Cast) t3 t6)) (\lambda (t6: T).subst0 (s (Flat Cast) i) u t2 t6)) (ex3_2 T T (\lambda (u2: T).\lambda (t6: T).eq T t5 (THead (Flat Cast) u2 t6)) (\lambda (u2: T).\lambda (_: T).subst0 i u t3 u2) (\lambda (_: T).\lambda (t6: T).subst0 (s (Flat Cast) i) u t2 t6)) (ty3 g c3 t5 t3) (\lambda (H8: (ex2 T (\lambda (u2: T).eq T t5 (THead (Flat Cast) u2 t2)) (\lambda (u2: T).subst0 i u t3 u2))).ex2_ind T (\lambda (u2: T).eq T t5 (THead (Flat Cast) u2 t2)) (\lambda (u2: T).subst0 i u t3 u2) (ty3 g c3 t5 t3) (\lambda (x: T).\lambda (H9: (eq T t5 (THead (Flat Cast) x t2))).\lambda (H10: (subst0 i u t3 x)).eq_ind_r T (THead (Flat Cast) x t2) (\lambda (t6: T).ty3 g c3 t6 t3) (ty3_conv g c3 t3 t0 (H3 i u c3 t3 (fsubst0_fst i u c t3 c3 H6) e H7) (THead (Flat Cast) x t2) x (ty3_cast g c3 t2 x (ty3_conv g c3 x t0 (H3 i u c3 x (fsubst0_both i u c t3 x H10 c3 H6) e H7) t2 t3 (H1 i u c3 t2 (fsubst0_fst i u c t2 c3 H6) e H7) (pc3_s c3 t3 x (pc3_fsubst0 c t3 t3 (pc3_refl c t3) i u c3 x (fsubst0_both i u c t3 x H10 c3 H6) e H7))) t0 (H3 i u c3 x (fsubst0_both i u c t3 x H10 c3 H6) e H7)) (pc3_fsubst0 c t3 t3 (pc3_refl c t3) i u c3 x (fsubst0_both i u c t3 x H10 c3 H6) e H7)) t5 H9) H8) (\lambda (H8: (ex2 T (\lambda (t2: T).eq T t5 (THead (Flat Cast) t3 t2)) (\lambda (t3: T).subst0 (s (Flat Cast) i) u t2 t3))).ex2_ind T (\lambda (t6: T).eq T t5 (THead (Flat Cast) t3 t6)) (\lambda (t6: T).subst0 (s (Flat Cast) i) u t2 t6) (ty3 g c3 t5 t3) (\lambda (x: T).\lambda (H9: (eq T t5 (THead (Flat Cast) t3 x))).\lambda (H10: (subst0 (s (Flat Cast) i) u t2 x)).eq_ind_r T (THead (Flat Cast) t3 x) (\lambda (t6: T).ty3 g c3 t6 t3) (ty3_cast g c3 x t3 (H1 i u c3 x (fsubst0_both i u c t2 x H10 c3 H6) e H7) t0 (H3 i u c3 t3 (fsubst0_fst i u c t3 c3 H6) e H7)) t5 H9) H8) (\lambda (H8: (ex3_2 T T (\lambda (u2: T).\lambda (t2: T).eq T t5 (THead (Flat Cast) u2 t2)) (\lambda (u2: T).\lambda (_: T).subst0 i u t3 u2) (\lambda (_: T).\lambda (t3: T).subst0 (s (Flat Cast) i) u t2 t3))).ex3_2_ind T T (\lambda (u2: T).\lambda (t6: T).eq T t5 (THead (Flat Cast) u2 t6)) (\lambda (u2: T).\lambda (_: T).subst0 i u t3 u2) (\lambda (_: T).\lambda (t6: T).subst0 (s (Flat Cast) i) u t2 t6) (ty3 g c3 t5 t3) (\lambda (x0: T).\lambda (x1: T).\lambda (H9: (eq T t5 (THead (Flat Cast) x0 x1))).\lambda (H10: (subst0 i u t3 x0)).\lambda (H11: (subst0 (s (Flat Cast) i) u t2 x1)).eq_ind_r T (THead (Flat Cast) x0 x1) (\lambda (t6: T).ty3 g c3 t6 t3) (ty3_conv g c3 t3 t0 (H3 i u c3 t3 (fsubst0_fst i u c t3 c3 H6) e H7) (THead (Flat Cast) x0 x1) x0 (ty3_cast g c3 x1 x0 (ty3_conv g c3 x0 t0 (H3 i u c3 x0 (fsubst0_both i u c t3 x0 H10 c3 H6) e H7) x1 t3 (H1 i u c3 x1 (fsubst0_both i u c t2 x1 H11 c3 H6) e H7) (pc3_s c3 t3 x0 (pc3_fsubst0 c t3 t3 (pc3_refl c t3) i u c3 x0 (fsubst0_both i u c t3 x0 H10 c3 H6) e H7))) t0 (H3 i u c3 x0 (fsubst0_both i u c t3 x0 H10 c3 H6) e H7)) (pc3_fsubst0 c t3 t3 (pc3_refl c t3) i u c3 x0 (fsubst0_both i u c t3 x0 H10 c3 H6) e H7)) t5 H9) H8) (subst0_gen_head (Flat Cast) u t3 t2 t5 i H5)) c2 t4 H4) c1 t1 t H.
+
+theorem ty3_csubst0: \forall (g: G).\forall (c1: C).\forall (t1: T).\forall (t2: T).(ty3 g c1 t1 t2) \to \forall (e: C).\forall (u: T).\forall (i: nat).(getl i c1 (CHead e (Bind Abbr) u)) \to \forall (c2: C).(csubst0 i u c1 c2) \to ty3 g c2 t1 t2 \def \lambda (g: G).\lambda (c1: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (ty3 g c1 t1 t2)).\lambda (e: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c1 (CHead e (Bind Abbr) u))).\lambda (c2: C).\lambda (H1: (csubst0 i u c1 c2)).ty3_fsubst0 g c1 t1 t2 H i u c2 t1 (fsubst0_fst i u c1 t1 c2 H1) e H0.
+
+theorem ty3_subst0: \forall (g: G).\forall (c: C).\forall (t1: T).\forall (t: T).(ty3 g c t1 t) \to \forall (e: C).\forall (u: T).\forall (i: nat).(getl i c (CHead e (Bind Abbr) u)) \to \forall (t2: T).(subst0 i u t1 t2) \to ty3 g c t2 t \def \lambda (g: G).\lambda (c: C).\lambda (t1: T).\lambda (t: T).\lambda (H: (ty3 g c t1 t)).\lambda (e: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c (CHead e (Bind Abbr) u))).\lambda (t2: T).\lambda (H1: (subst0 i u t1 t2)).ty3_fsubst0 g c t1 t H i u c t2 (fsubst0_snd i u c t1 t2 H1) e H0.
+
+theorem ty3_gen_cabbr: \forall (g: G).\forall (c: C).\forall (t1: T).\forall (t2: T).(ty3 g c t1 t2) \to \forall (e: C).\forall (u: T).\forall (d: nat).(getl d c (CHead e (Bind Abbr) u)) \to \forall (a0: C).(csubst1 d u c a0) \to \forall (a: C).(drop (S O) d a0 a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d u t1 (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u t2 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) \def \lambda (g: G).\lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (ty3 g c t1 t2)).ty3_ind g (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).\forall (e: C).\forall (u: T).\forall (d: nat).(getl d c0 (CHead e (Bind Abbr) u)) \to \forall (a0: C).(csubst1 d u c0 a0) \to \forall (a: C).(drop (S O) d a0 a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d u t (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u t0 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (c0: C).\lambda (t3: T).\lambda (t: T).\lambda (_: (ty3 g c0 t3 t)).\lambda (H1: ((\forall (e: C).\forall (u: T).\forall (d: nat).(getl d c0 (CHead e (Bind Abbr) u)) \to \forall (a0: C).(csubst1 d u c0 a0) \to \forall (a: C).(drop (S O) d a0 a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d u t3 (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u t (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)))).\lambda (u: T).\lambda (t4: T).\lambda (_: (ty3 g c0 u t4)).\lambda (H3: ((\forall (e: C).\forall (u0: T).\forall (d: nat).(getl d c0 (CHead e (Bind Abbr) u0)) \to \forall (a0: C).(csubst1 d u0 c0 a0) \to \forall (a: C).(drop (S O) d a0 a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d u0 u (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u0 t4 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)))).\lambda (H4: (pc3 c0 t4 t3)).\lambda (e: C).\lambda (u0: T).\lambda (d: nat).\lambda (H5: (getl d c0 (CHead e (Bind Abbr) u0))).\lambda (a0: C).\lambda (H6: (csubst1 d u0 c0 a0)).\lambda (a: C).\lambda (H7: (drop (S O) d a0 a)).let H8 \def H3 e u0 d H5 a0 H6 a H7 in ex3_2_ind T T (\lambda (y1: T).\lambda (_: T).subst1 d u0 u (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u0 t4 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d u0 u (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u0 t3 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x0: T).\lambda (x1: T).\lambda (H9: (subst1 d u0 u (lift (S O) d x0))).\lambda (H10: (subst1 d u0 t4 (lift (S O) d x1))).\lambda (H11: (ty3 g a x0 x1)).let H12 \def H1 e u0 d H5 a0 H6 a H7 in ex3_2_ind T T (\lambda (y1: T).\lambda (_: T).subst1 d u0 t3 (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u0 t (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d u0 u (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u0 t3 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x2: T).\lambda (x3: T).\lambda (H13: (subst1 d u0 t3 (lift (S O) d x2))).\lambda (_: (subst1 d u0 t (lift (S O) d x3))).\lambda (H15: (ty3 g a x2 x3)).ex3_2_intro T T (\lambda (y1: T).\lambda (_: T).subst1 d u0 u (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u0 t3 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) x0 x2 H9 H13 (ty3_conv g a x2 x3 H15 x0 x1 H11 (pc3_gen_cabbr c0 t4 t3 H4 e u0 d H5 a0 H6 a H7 x1 H10 x2 H13))) H12) H8) (\lambda (c0: C).\lambda (m: nat).\lambda (e: C).\lambda (u: T).\lambda (d: nat).\lambda (_: (getl d c0 (CHead e (Bind Abbr) u))).\lambda (a0: C).\lambda (_: (csubst1 d u c0 a0)).\lambda (a: C).\lambda (_: (drop (S O) d a0 a)).ex3_2_intro T T (\lambda (y1: T).\lambda (_: T).subst1 d u (TSort m) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u (TSort (next g m)) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (TSort m) (TSort (next g m)) (eq_ind_r T (TSort m) (\lambda (t: T).subst1 d u (TSort m) t) (subst1_refl d u (TSort m)) (lift (S O) d (TSort m)) (lift_sort m (S O) d)) (eq_ind_r T (TSort (next g m)) (\lambda (t: T).subst1 d u (TSort (next g m)) t) (subst1_refl d u (TSort (next g m))) (lift (S O) d (TSort (next g m))) (lift_sort (next g m) (S O) d)) (ty3_sort g a m)) (\lambda (n: nat).\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (H0: (getl n c0 (CHead d (Bind Abbr) u))).\lambda (t: T).\lambda (H1: (ty3 g d u t)).\lambda (H2: ((\forall (e: C).\forall (u0: T).\forall (d0: nat).(getl d0 d (CHead e (Bind Abbr) u0)) \to \forall (a0: C).(csubst1 d0 u0 d a0) \to \forall (a: C).(drop (S O) d0 a0 a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d0 u0 u (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).subst1 d0 u0 t (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)))).\lambda (e: C).\lambda (u0: T).\lambda (d0: nat).\lambda (H3: (getl d0 c0 (CHead e (Bind Abbr) u0))).\lambda (a0: C).\lambda (H4: (csubst1 d0 u0 c0 a0)).\lambda (a: C).\lambda (H5: (drop (S O) d0 a0 a)).lt_eq_gt_e n d0 (ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d0 u0 (TLRef n) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).subst1 d0 u0 (lift (S n) O t) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (H6: (lt n d0)).let H7 \def eq_ind nat (minus d0 n) (\lambda (n: nat).getl n (CHead d (Bind Abbr) u) (CHead e (Bind Abbr) u0)) (getl_conf_le d0 (CHead e (Bind Abbr) u0) c0 H3 (CHead d (Bind Abbr) u) n H0 (le_S_n n d0 (le_S (S n) d0 H6))) (S (minus d0 (S n))) (minus_x_Sy d0 n H6) in ex2_ind C (\lambda (e2: C).csubst1 (minus d0 n) u0 (CHead d (Bind Abbr) u) e2) (\lambda (e2: C).getl n a0 e2) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d0 u0 (TLRef n) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).subst1 d0 u0 (lift (S n) O t) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x: C).\lambda (H8: (csubst1 (minus d0 n) u0 (CHead d (Bind Abbr) u) x)).\lambda (H9: (getl n a0 x)).let H10 \def eq_ind nat (minus d0 n) (\lambda (n: nat).csubst1 n u0 (CHead d (Bind Abbr) u) x) H8 (S (minus d0 (S n))) (minus_x_Sy d0 n H6) in let H11 \def csubst1_gen_head (Bind Abbr) d x u u0 (minus d0 (S n)) H10 in ex3_2_ind T C (\lambda (u2: T).\lambda (c2: C).eq C x (CHead c2 (Bind Abbr) u2)) (\lambda (u2: T).\lambda (_: C).subst1 (minus d0 (S n)) u0 u u2) (\lambda (_: T).\lambda (c2: C).csubst1 (minus d0 (S n)) u0 d c2) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d0 u0 (TLRef n) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).subst1 d0 u0 (lift (S n) O t) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x0: T).\lambda (x1: C).\lambda (H12: (eq C x (CHead x1 (Bind Abbr) x0))).\lambda (H13: (subst1 (minus d0 (S n)) u0 u x0)).\lambda (H14: (csubst1 (minus d0 (S n)) u0 d x1)).let H15 \def eq_ind C x (\lambda (c: C).getl n a0 c) H9 (CHead x1 (Bind Abbr) x0) H12 in let H16 \def eq_ind nat d0 (\lambda (n: nat).drop (S O) n a0 a) H5 (S (plus n (minus d0 (S n)))) (lt_plus_minus n d0 H6) in ex3_2_ind T C (\lambda (v: T).\lambda (_: C).eq T x0 (lift (S O) (minus d0 (S n)) v)) (\lambda (v: T).\lambda (e0: C).getl n a (CHead e0 (Bind Abbr) v)) (\lambda (_: T).\lambda (e0: C).drop (S O) (minus d0 (S n)) x1 e0) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d0 u0 (TLRef n) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).subst1 d0 u0 (lift (S n) O t) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x2: T).\lambda (x3: C).\lambda (H17: (eq T x0 (lift (S O) (minus d0 (S n)) x2))).\lambda (H18: (getl n a (CHead x3 (Bind Abbr) x2))).\lambda (H19: (drop (S O) (minus d0 (S n)) x1 x3)).let H20 \def eq_ind T x0 (\lambda (t: T).subst1 (minus d0 (S n)) u0 u t) H13 (lift (S O) (minus d0 (S n)) x2) H17 in let H21 \def H2 e u0 (minus d0 (S n)) (getl_gen_S (Bind Abbr) d (CHead e (Bind Abbr) u0) u (minus d0 (S n)) H7) x1 H14 x3 H19 in ex3_2_ind T T (\lambda (y1: T).\lambda (_: T).subst1 (minus d0 (S n)) u0 u (lift (S O) (minus d0 (S n)) y1)) (\lambda (_: T).\lambda (y2: T).subst1 (minus d0 (S n)) u0 t (lift (S O) (minus d0 (S n)) y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g x3 y1 y2) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d0 u0 (TLRef n) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).subst1 d0 u0 (lift (S n) O t) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x4: T).\lambda (x5: T).\lambda (H22: (subst1 (minus d0 (S n)) u0 u (lift (S O) (minus d0 (S n)) x4))).\lambda (H23: (subst1 (minus d0 (S n)) u0 t (lift (S O) (minus d0 (S n)) x5))).\lambda (H24: (ty3 g x3 x4 x5)).let H25 \def eq_ind T x4 (\lambda (t: T).ty3 g x3 t x5) H24 x2 (subst1_confluence_lift u x4 u0 (minus d0 (S n)) H22 x2 H20) in eq_ind_r nat (plus (minus d0 (S n)) (S n)) (\lambda (n0: nat).ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d0 u0 (TLRef n) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).subst1 n0 u0 (lift (S n) O t) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (eq_ind_r nat (plus (S n) (minus d0 (S n))) (\lambda (n0: nat).ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d0 u0 (TLRef n) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).subst1 (plus (minus d0 (S n)) (S n)) u0 (lift (S n) O t) (lift (S O) n0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (ex3_2_intro T T (\lambda (y1: T).\lambda (_: T).subst1 d0 u0 (TLRef n) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).subst1 (plus (minus d0 (S n)) (S n)) u0 (lift (S n) O t) (lift (S O) (plus (S n) (minus d0 (S n))) y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (TLRef n) (lift (S n) O x5) (eq_ind_r T (TLRef n) (\lambda (t0: T).subst1 d0 u0 (TLRef n) t0) (subst1_refl d0 u0 (TLRef n)) (lift (S O) d0 (TLRef n)) (lift_lref_lt n (S O) d0 H6)) (eq_ind_r T (lift (S n) O (lift (S O) (minus d0 (S n)) x5)) (\lambda (t0: T).subst1 (plus (minus d0 (S n)) (S n)) u0 (lift (S n) O t) t0) (subst1_lift_ge t (lift (S O) (minus d0 (S n)) x5) u0 (minus d0 (S n)) (S n) H23 O (le_O_n (minus d0 (S n)))) (lift (S O) (plus (S n) (minus d0 (S n))) (lift (S n) O x5)) (lift_d x5 (S O) (S n) (minus d0 (S n)) O (le_O_n (minus d0 (S n))))) (ty3_abbr g n a x3 x2 H18 x5 H25)) d0 (le_plus_minus (S n) d0 H6)) d0 (le_plus_minus_sym (S n) d0 H6)) H21) (getl_drop_conf_lt Abbr a0 x1 x0 n H15 a (S O) (minus d0 (S n)) H16)) H11) (csubst1_getl_lt d0 n H6 c0 a0 u0 H4 (CHead d (Bind Abbr) u) H0)) (\lambda (H6: (eq nat n d0)).let H7 \def eq_ind_r nat d0 (\lambda (n: nat).drop (S O) n a0 a) H5 n H6 in let H8 \def eq_ind_r nat d0 (\lambda (n: nat).csubst1 n u0 c0 a0) H4 n H6 in let H9 \def eq_ind_r nat d0 (\lambda (n: nat).getl n c0 (CHead e (Bind Abbr) u0)) H3 n H6 in eq_ind nat n (\lambda (n0: nat).ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 n0 u0 (TLRef n) (lift (S O) n0 y1)) (\lambda (_: T).\lambda (y2: T).subst1 n0 u0 (lift (S n) O t) (lift (S O) n0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (let H10 \def eq_ind C (CHead d (Bind Abbr) u) (\lambda (c: C).getl n c0 c) H0 (CHead e (Bind Abbr) u0) (getl_mono c0 (CHead d (Bind Abbr) u) n H0 (CHead e (Bind Abbr) u0) H9) in let H11 \def f_equal C C (\lambda (e0: C).match e0 return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u) (CHead e (Bind Abbr) u0) (getl_mono c0 (CHead d (Bind Abbr) u) n H0 (CHead e (Bind Abbr) u0) H9) in (let H12 \def f_equal C T (\lambda (e0: C).match e0 return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u) (CHead e (Bind Abbr) u0) (getl_mono c0 (CHead d (Bind Abbr) u) n H0 (CHead e (Bind Abbr) u0) H9) in \lambda (H13: (eq C d e)).let H14 \def eq_ind_r T u0 (\lambda (t: T).getl n c0 (CHead e (Bind Abbr) t)) H10 u H12 in let H15 \def eq_ind_r T u0 (\lambda (t: T).csubst1 n t c0 a0) H8 u H12 in eq_ind T u (\lambda (t0: T).ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 n t0 (TLRef n) (lift (S O) n y1)) (\lambda (_: T).\lambda (y2: T).subst1 n t0 (lift (S n) O t) (lift (S O) n y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (let H16 \def eq_ind_r C e (\lambda (c: C).getl n c0 (CHead c (Bind Abbr) u)) H14 d H13 in ex3_2_intro T T (\lambda (y1: T).\lambda (_: T).subst1 n u (TLRef n) (lift (S O) n y1)) (\lambda (_: T).\lambda (y2: T).subst1 n u (lift (S n) O t) (lift (S O) n y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (lift n O u) (lift n O t) (subst1_single n u (TLRef n) (lift (S O) n (lift n O u)) (eq_ind_r T (lift (plus (S O) n) O u) (\lambda (t0: T).subst0 n u (TLRef n) t0) (subst0_lref u n) (lift (S O) n (lift n O u)) (lift_free u n (S O) O n (le_n (plus O n)) (le_O_n n)))) (eq_ind_r T (lift (plus (S O) n) O t) (\lambda (t0: T).subst1 n u (lift (S n) O t) t0) (subst1_refl n u (lift (S n) O t)) (lift (S O) n (lift n O t)) (lift_free t n (S O) O n (le_n (plus O n)) (le_O_n n))) (ty3_lift g d u t H1 a O n (getl_conf_ge_drop Abbr a0 d u n (csubst1_getl_ge n n (le_n n) c0 a0 u H15 (CHead d (Bind Abbr) u) H16) a H7))) u0 H12) H11) d0 H6) (\lambda (H6: (lt d0 n)).eq_ind_r nat (S (plus O (minus n (S O)))) (\lambda (n0: nat).ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d0 u0 (TLRef n0) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).subst1 d0 u0 (lift (S n) O t) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (eq_ind nat (plus (S O) (minus n (S O))) (\lambda (n0: nat).ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d0 u0 (TLRef n0) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).subst1 d0 u0 (lift (S n) O t) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (eq_ind_r nat (plus (minus n (S O)) (S O)) (\lambda (n0: nat).ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d0 u0 (TLRef n0) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).subst1 d0 u0 (lift (S n) O t) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (ex3_2_intro T T (\lambda (y1: T).\lambda (_: T).subst1 d0 u0 (TLRef (plus (minus n (S O)) (S O))) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).subst1 d0 u0 (lift (S n) O t) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (TLRef (minus n (S O))) (lift n O t) (eq_ind_r T (TLRef (plus (minus n (S O)) (S O))) (\lambda (t0: T).subst1 d0 u0 (TLRef (plus (minus n (S O)) (S O))) t0) (subst1_refl d0 u0 (TLRef (plus (minus n (S O)) (S O)))) (lift (S O) d0 (TLRef (minus n (S O)))) (lift_lref_ge (minus n (S O)) (S O) d0 (lt_le_minus d0 n H6))) (eq_ind_r T (lift (plus (S O) n) O t) (\lambda (t0: T).subst1 d0 u0 (lift (S n) O t) t0) (subst1_refl d0 u0 (lift (S n) O t)) (lift (S O) d0 (lift n O t)) (lift_free t n (S O) O d0 (le_S_n d0 (plus O n) (le_S (S d0) (plus O n) H6)) (le_O_n d0))) (eq_ind_r nat (S (minus n (S O))) (\lambda (n0: nat).ty3 g a (TLRef (minus n (S O))) (lift n0 O t)) (ty3_abbr g (minus n (S O)) a d u (getl_drop_conf_ge n (CHead d (Bind Abbr) u) a0 (csubst1_getl_ge d0 n (le_S_n d0 n (le_S (S d0) n H6)) c0 a0 u0 H4 (CHead d (Bind Abbr) u) H0) a (S O) d0 H5 (eq_ind_r nat (plus (S O) d0) (\lambda (n0: nat).le n0 n) H6 (plus d0 (S O)) (plus_sym d0 (S O)))) t H1) n (minus_x_SO n (le_lt_trans O d0 n (le_O_n d0) H6)))) (plus (S O) (minus n (S O))) (plus_sym (S O) (minus n (S O)))) (S (plus O (minus n (S O)))) (refl_equal nat (S (plus O (minus n (S O)))))) n (lt_plus_minus O n (le_lt_trans O d0 n (le_O_n d0) H6)))) (\lambda (n: nat).\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (H0: (getl n c0 (CHead d (Bind Abst) u))).\lambda (t: T).\lambda (H1: (ty3 g d u t)).\lambda (H2: ((\forall (e: C).\forall (u0: T).\forall (d0: nat).(getl d0 d (CHead e (Bind Abbr) u0)) \to \forall (a0: C).(csubst1 d0 u0 d a0) \to \forall (a: C).(drop (S O) d0 a0 a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d0 u0 u (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).subst1 d0 u0 t (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)))).\lambda (e: C).\lambda (u0: T).\lambda (d0: nat).\lambda (H3: (getl d0 c0 (CHead e (Bind Abbr) u0))).\lambda (a0: C).\lambda (H4: (csubst1 d0 u0 c0 a0)).\lambda (a: C).\lambda (H5: (drop (S O) d0 a0 a)).lt_eq_gt_e n d0 (ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d0 u0 (TLRef n) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).subst1 d0 u0 (lift (S n) O u) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (H6: (lt n d0)).let H7 \def eq_ind nat (minus d0 n) (\lambda (n: nat).getl n (CHead d (Bind Abst) u) (CHead e (Bind Abbr) u0)) (getl_conf_le d0 (CHead e (Bind Abbr) u0) c0 H3 (CHead d (Bind Abst) u) n H0 (le_S_n n d0 (le_S (S n) d0 H6))) (S (minus d0 (S n))) (minus_x_Sy d0 n H6) in ex2_ind C (\lambda (e2: C).csubst1 (minus d0 n) u0 (CHead d (Bind Abst) u) e2) (\lambda (e2: C).getl n a0 e2) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d0 u0 (TLRef n) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).subst1 d0 u0 (lift (S n) O u) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x: C).\lambda (H8: (csubst1 (minus d0 n) u0 (CHead d (Bind Abst) u) x)).\lambda (H9: (getl n a0 x)).let H10 \def eq_ind nat (minus d0 n) (\lambda (n: nat).csubst1 n u0 (CHead d (Bind Abst) u) x) H8 (S (minus d0 (S n))) (minus_x_Sy d0 n H6) in let H11 \def csubst1_gen_head (Bind Abst) d x u u0 (minus d0 (S n)) H10 in ex3_2_ind T C (\lambda (u2: T).\lambda (c2: C).eq C x (CHead c2 (Bind Abst) u2)) (\lambda (u2: T).\lambda (_: C).subst1 (minus d0 (S n)) u0 u u2) (\lambda (_: T).\lambda (c2: C).csubst1 (minus d0 (S n)) u0 d c2) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d0 u0 (TLRef n) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).subst1 d0 u0 (lift (S n) O u) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x0: T).\lambda (x1: C).\lambda (H12: (eq C x (CHead x1 (Bind Abst) x0))).\lambda (H13: (subst1 (minus d0 (S n)) u0 u x0)).\lambda (H14: (csubst1 (minus d0 (S n)) u0 d x1)).let H15 \def eq_ind C x (\lambda (c: C).getl n a0 c) H9 (CHead x1 (Bind Abst) x0) H12 in let H16 \def eq_ind nat d0 (\lambda (n: nat).drop (S O) n a0 a) H5 (S (plus n (minus d0 (S n)))) (lt_plus_minus n d0 H6) in ex3_2_ind T C (\lambda (v: T).\lambda (_: C).eq T x0 (lift (S O) (minus d0 (S n)) v)) (\lambda (v: T).\lambda (e0: C).getl n a (CHead e0 (Bind Abst) v)) (\lambda (_: T).\lambda (e0: C).drop (S O) (minus d0 (S n)) x1 e0) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d0 u0 (TLRef n) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).subst1 d0 u0 (lift (S n) O u) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x2: T).\lambda (x3: C).\lambda (H17: (eq T x0 (lift (S O) (minus d0 (S n)) x2))).\lambda (H18: (getl n a (CHead x3 (Bind Abst) x2))).\lambda (H19: (drop (S O) (minus d0 (S n)) x1 x3)).let H20 \def eq_ind T x0 (\lambda (t: T).subst1 (minus d0 (S n)) u0 u t) H13 (lift (S O) (minus d0 (S n)) x2) H17 in let H21 \def H2 e u0 (minus d0 (S n)) (getl_gen_S (Bind Abst) d (CHead e (Bind Abbr) u0) u (minus d0 (S n)) H7) x1 H14 x3 H19 in ex3_2_ind T T (\lambda (y1: T).\lambda (_: T).subst1 (minus d0 (S n)) u0 u (lift (S O) (minus d0 (S n)) y1)) (\lambda (_: T).\lambda (y2: T).subst1 (minus d0 (S n)) u0 t (lift (S O) (minus d0 (S n)) y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g x3 y1 y2) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d0 u0 (TLRef n) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).subst1 d0 u0 (lift (S n) O u) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x4: T).\lambda (x5: T).\lambda (H22: (subst1 (minus d0 (S n)) u0 u (lift (S O) (minus d0 (S n)) x4))).\lambda (_: (subst1 (minus d0 (S n)) u0 t (lift (S O) (minus d0 (S n)) x5))).\lambda (H24: (ty3 g x3 x4 x5)).let H25 \def eq_ind T x4 (\lambda (t: T).ty3 g x3 t x5) H24 x2 (subst1_confluence_lift u x4 u0 (minus d0 (S n)) H22 x2 H20) in eq_ind_r nat (plus (minus d0 (S n)) (S n)) (\lambda (n0: nat).ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d0 u0 (TLRef n) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).subst1 n0 u0 (lift (S n) O u) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (eq_ind_r nat (plus (S n) (minus d0 (S n))) (\lambda (n0: nat).ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d0 u0 (TLRef n) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).subst1 (plus (minus d0 (S n)) (S n)) u0 (lift (S n) O u) (lift (S O) n0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (ex3_2_intro T T (\lambda (y1: T).\lambda (_: T).subst1 d0 u0 (TLRef n) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).subst1 (plus (minus d0 (S n)) (S n)) u0 (lift (S n) O u) (lift (S O) (plus (S n) (minus d0 (S n))) y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (TLRef n) (lift (S n) O x2) (eq_ind_r T (TLRef n) (\lambda (t0: T).subst1 d0 u0 (TLRef n) t0) (subst1_refl d0 u0 (TLRef n)) (lift (S O) d0 (TLRef n)) (lift_lref_lt n (S O) d0 H6)) (eq_ind_r T (lift (S n) O (lift (S O) (minus d0 (S n)) x2)) (\lambda (t0: T).subst1 (plus (minus d0 (S n)) (S n)) u0 (lift (S n) O u) t0) (subst1_lift_ge u (lift (S O) (minus d0 (S n)) x2) u0 (minus d0 (S n)) (S n) H20 O (le_O_n (minus d0 (S n)))) (lift (S O) (plus (S n) (minus d0 (S n))) (lift (S n) O x2)) (lift_d x2 (S O) (S n) (minus d0 (S n)) O (le_O_n (minus d0 (S n))))) (ty3_abst g n a x3 x2 H18 x5 H25)) d0 (le_plus_minus (S n) d0 H6)) d0 (le_plus_minus_sym (S n) d0 H6)) H21) (getl_drop_conf_lt Abst a0 x1 x0 n H15 a (S O) (minus d0 (S n)) H16)) H11) (csubst1_getl_lt d0 n H6 c0 a0 u0 H4 (CHead d (Bind Abst) u) H0)) (\lambda (H6: (eq nat n d0)).let H7 \def eq_ind_r nat d0 (\lambda (n: nat).drop (S O) n a0 a) H5 n H6 in let H8 \def eq_ind_r nat d0 (\lambda (n: nat).csubst1 n u0 c0 a0) H4 n H6 in let H9 \def eq_ind_r nat d0 (\lambda (n: nat).getl n c0 (CHead e (Bind Abbr) u0)) H3 n H6 in eq_ind nat n (\lambda (n0: nat).ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 n0 u0 (TLRef n) (lift (S O) n0 y1)) (\lambda (_: T).\lambda (y2: T).subst1 n0 u0 (lift (S n) O u) (lift (S O) n0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (let H10 \def eq_ind C (CHead d (Bind Abst) u) (\lambda (c: C).getl n c0 c) H0 (CHead e (Bind Abbr) u0) (getl_mono c0 (CHead d (Bind Abst) u) n H0 (CHead e (Bind Abbr) u0) H9) in let H11 \def eq_ind C (CHead d (Bind Abst) u) (\lambda (ee: C).match ee return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow False | Abst \Rightarrow True | Void \Rightarrow False]) | (Flat _) \Rightarrow False])]) I (CHead e (Bind Abbr) u0) (getl_mono c0 (CHead d (Bind Abst) u) n H0 (CHead e (Bind Abbr) u0) H9) in False_ind (ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 n u0 (TLRef n) (lift (S O) n y1)) (\lambda (_: T).\lambda (y2: T).subst1 n u0 (lift (S n) O u) (lift (S O) n y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) H11) d0 H6) (\lambda (H6: (lt d0 n)).eq_ind_r nat (S (plus O (minus n (S O)))) (\lambda (n0: nat).ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d0 u0 (TLRef n0) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).subst1 d0 u0 (lift (S n) O u) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (eq_ind nat (plus (S O) (minus n (S O))) (\lambda (n0: nat).ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d0 u0 (TLRef n0) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).subst1 d0 u0 (lift (S n) O u) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (eq_ind_r nat (plus (minus n (S O)) (S O)) (\lambda (n0: nat).ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d0 u0 (TLRef n0) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).subst1 d0 u0 (lift (S n) O u) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (ex3_2_intro T T (\lambda (y1: T).\lambda (_: T).subst1 d0 u0 (TLRef (plus (minus n (S O)) (S O))) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).subst1 d0 u0 (lift (S n) O u) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (TLRef (minus n (S O))) (lift n O u) (eq_ind_r T (TLRef (plus (minus n (S O)) (S O))) (\lambda (t0: T).subst1 d0 u0 (TLRef (plus (minus n (S O)) (S O))) t0) (subst1_refl d0 u0 (TLRef (plus (minus n (S O)) (S O)))) (lift (S O) d0 (TLRef (minus n (S O)))) (lift_lref_ge (minus n (S O)) (S O) d0 (lt_le_minus d0 n H6))) (eq_ind_r T (lift (plus (S O) n) O u) (\lambda (t0: T).subst1 d0 u0 (lift (S n) O u) t0) (subst1_refl d0 u0 (lift (S n) O u)) (lift (S O) d0 (lift n O u)) (lift_free u n (S O) O d0 (le_S_n d0 (plus O n) (le_S (S d0) (plus O n) H6)) (le_O_n d0))) (eq_ind_r nat (S (minus n (S O))) (\lambda (n0: nat).ty3 g a (TLRef (minus n (S O))) (lift n0 O u)) (ty3_abst g (minus n (S O)) a d u (getl_drop_conf_ge n (CHead d (Bind Abst) u) a0 (csubst1_getl_ge d0 n (le_S_n d0 n (le_S (S d0) n H6)) c0 a0 u0 H4 (CHead d (Bind Abst) u) H0) a (S O) d0 H5 (eq_ind_r nat (plus (S O) d0) (\lambda (n0: nat).le n0 n) H6 (plus d0 (S O)) (plus_sym d0 (S O)))) t H1) n (minus_x_SO n (le_lt_trans O d0 n (le_O_n d0) H6)))) (plus (S O) (minus n (S O))) (plus_sym (S O) (minus n (S O)))) (S (plus O (minus n (S O)))) (refl_equal nat (S (plus O (minus n (S O)))))) n (lt_plus_minus O n (le_lt_trans O d0 n (le_O_n d0) H6)))) (\lambda (c0: C).\lambda (u: T).\lambda (t: T).\lambda (_: (ty3 g c0 u t)).\lambda (H1: ((\forall (e: C).\forall (u0: T).\forall (d: nat).(getl d c0 (CHead e (Bind Abbr) u0)) \to \forall (a0: C).(csubst1 d u0 c0 a0) \to \forall (a: C).(drop (S O) d a0 a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d u0 u (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u0 t (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)))).\lambda (b: B).\lambda (t3: T).\lambda (t4: T).\lambda (_: (ty3 g (CHead c0 (Bind b) u) t3 t4)).\lambda (H3: ((\forall (e: C).\forall (u0: T).\forall (d: nat).(getl d (CHead c0 (Bind b) u) (CHead e (Bind Abbr) u0)) \to \forall (a0: C).(csubst1 d u0 (CHead c0 (Bind b) u) a0) \to \forall (a: C).(drop (S O) d a0 a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d u0 t3 (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u0 t4 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)))).\lambda (t0: T).\lambda (_: (ty3 g (CHead c0 (Bind b) u) t4 t0)).\lambda (H5: ((\forall (e: C).\forall (u0: T).\forall (d: nat).(getl d (CHead c0 (Bind b) u) (CHead e (Bind Abbr) u0)) \to \forall (a0: C).(csubst1 d u0 (CHead c0 (Bind b) u) a0) \to \forall (a: C).(drop (S O) d a0 a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d u0 t4 (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u0 t0 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)))).\lambda (e: C).\lambda (u0: T).\lambda (d: nat).\lambda (H6: (getl d c0 (CHead e (Bind Abbr) u0))).\lambda (a0: C).\lambda (H7: (csubst1 d u0 c0 a0)).\lambda (a: C).\lambda (H8: (drop (S O) d a0 a)).let H9 \def H1 e u0 d H6 a0 H7 a H8 in ex3_2_ind T T (\lambda (y1: T).\lambda (_: T).subst1 d u0 u (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u0 t (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d u0 (THead (Bind b) u t3) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u0 (THead (Bind b) u t4) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x0: T).\lambda (x1: T).\lambda (H10: (subst1 d u0 u (lift (S O) d x0))).\lambda (_: (subst1 d u0 t (lift (S O) d x1))).\lambda (H12: (ty3 g a x0 x1)).let H13 \def H5 e u0 (S d) (getl_head (Bind b) d c0 (CHead e (Bind Abbr) u0) H6 u) (CHead a0 (Bind b) (lift (S O) d x0)) (csubst1_bind b d u0 u (lift (S O) d x0) H10 c0 a0 H7) (CHead a (Bind b) x0) (drop_skip_bind (S O) d a0 a H8 b x0) in ex3_2_ind T T (\lambda (y1: T).\lambda (_: T).subst1 (S d) u0 t4 (lift (S O) (S d) y1)) (\lambda (_: T).\lambda (y2: T).subst1 (S d) u0 t0 (lift (S O) (S d) y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g (CHead a (Bind b) x0) y1 y2) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d u0 (THead (Bind b) u t3) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u0 (THead (Bind b) u t4) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x2: T).\lambda (x3: T).\lambda (H14: (subst1 (S d) u0 t4 (lift (S O) (S d) x2))).\lambda (_: (subst1 (S d) u0 t0 (lift (S O) (S d) x3))).\lambda (H16: (ty3 g (CHead a (Bind b) x0) x2 x3)).let H17 \def H3 e u0 (S d) (getl_head (Bind b) d c0 (CHead e (Bind Abbr) u0) H6 u) (CHead a0 (Bind b) (lift (S O) d x0)) (csubst1_bind b d u0 u (lift (S O) d x0) H10 c0 a0 H7) (CHead a (Bind b) x0) (drop_skip_bind (S O) d a0 a H8 b x0) in ex3_2_ind T T (\lambda (y1: T).\lambda (_: T).subst1 (S d) u0 t3 (lift (S O) (S d) y1)) (\lambda (_: T).\lambda (y2: T).subst1 (S d) u0 t4 (lift (S O) (S d) y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g (CHead a (Bind b) x0) y1 y2) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d u0 (THead (Bind b) u t3) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u0 (THead (Bind b) u t4) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x4: T).\lambda (x5: T).\lambda (H18: (subst1 (S d) u0 t3 (lift (S O) (S d) x4))).\lambda (H19: (subst1 (S d) u0 t4 (lift (S O) (S d) x5))).\lambda (H20: (ty3 g (CHead a (Bind b) x0) x4 x5)).let H21 \def eq_ind T x5 (\lambda (t: T).ty3 g (CHead a (Bind b) x0) x4 t) H20 x2 (subst1_confluence_lift t4 x5 u0 (S d) H19 x2 H14) in ex3_2_intro T T (\lambda (y1: T).\lambda (_: T).subst1 d u0 (THead (Bind b) u t3) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u0 (THead (Bind b) u t4) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (THead (Bind b) x0 x4) (THead (Bind b) x0 x2) (eq_ind_r T (THead (Bind b) (lift (S O) d x0) (lift (S O) (S d) x4)) (\lambda (t5: T).subst1 d u0 (THead (Bind b) u t3) t5) (subst1_head u0 u (lift (S O) d x0) d H10 (Bind b) t3 (lift (S O) (S d) x4) H18) (lift (S O) d (THead (Bind b) x0 x4)) (lift_bind b x0 x4 (S O) d)) (eq_ind_r T (THead (Bind b) (lift (S O) d x0) (lift (S O) (S d) x2)) (\lambda (t5: T).subst1 d u0 (THead (Bind b) u t4) t5) (subst1_head u0 u (lift (S O) d x0) d H10 (Bind b) t4 (lift (S O) (S d) x2) H14) (lift (S O) d (THead (Bind b) x0 x2)) (lift_bind b x0 x2 (S O) d)) (ty3_bind g a x0 x1 H12 b x4 x2 H21 x3 H16)) H17) H13) H9) (\lambda (c0: C).\lambda (w: T).\lambda (u: T).\lambda (_: (ty3 g c0 w u)).\lambda (H1: ((\forall (e: C).\forall (u0: T).\forall (d: nat).(getl d c0 (CHead e (Bind Abbr) u0)) \to \forall (a0: C).(csubst1 d u0 c0 a0) \to \forall (a: C).(drop (S O) d a0 a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d u0 w (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u0 u (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)))).\lambda (v: T).\lambda (t: T).\lambda (_: (ty3 g c0 v (THead (Bind Abst) u t))).\lambda (H3: ((\forall (e: C).\forall (u0: T).\forall (d: nat).(getl d c0 (CHead e (Bind Abbr) u0)) \to \forall (a0: C).(csubst1 d u0 c0 a0) \to \forall (a: C).(drop (S O) d a0 a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d u0 v (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u0 (THead (Bind Abst) u t) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)))).\lambda (e: C).\lambda (u0: T).\lambda (d: nat).\lambda (H4: (getl d c0 (CHead e (Bind Abbr) u0))).\lambda (a0: C).\lambda (H5: (csubst1 d u0 c0 a0)).\lambda (a: C).\lambda (H6: (drop (S O) d a0 a)).let H7 \def H3 e u0 d H4 a0 H5 a H6 in ex3_2_ind T T (\lambda (y1: T).\lambda (_: T).subst1 d u0 v (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u0 (THead (Bind Abst) u t) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d u0 (THead (Flat Appl) w v) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u0 (THead (Flat Appl) w (THead (Bind Abst) u t)) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x0: T).\lambda (x1: T).\lambda (H8: (subst1 d u0 v (lift (S O) d x0))).\lambda (H9: (subst1 d u0 (THead (Bind Abst) u t) (lift (S O) d x1))).\lambda (H10: (ty3 g a x0 x1)).let H11 \def H1 e u0 d H4 a0 H5 a H6 in ex3_2_ind T T (\lambda (y1: T).\lambda (_: T).subst1 d u0 w (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u0 u (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d u0 (THead (Flat Appl) w v) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u0 (THead (Flat Appl) w (THead (Bind Abst) u t)) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x2: T).\lambda (x3: T).\lambda (H12: (subst1 d u0 w (lift (S O) d x2))).\lambda (H13: (subst1 d u0 u (lift (S O) d x3))).\lambda (H14: (ty3 g a x2 x3)).ex3_2_ind T T (\lambda (u2: T).\lambda (t3: T).eq T (lift (S O) d x1) (THead (Bind Abst) u2 t3)) (\lambda (u2: T).\lambda (_: T).subst1 d u0 u u2) (\lambda (_: T).\lambda (t3: T).subst1 (s (Bind Abst) d) u0 t t3) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d u0 (THead (Flat Appl) w v) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u0 (THead (Flat Appl) w (THead (Bind Abst) u t)) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x4: T).\lambda (x5: T).\lambda (H15: (eq T (lift (S O) d x1) (THead (Bind Abst) x4 x5))).\lambda (H16: (subst1 d u0 u x4)).\lambda (H17: (subst1 (s (Bind Abst) d) u0 t x5)).let H18 \def sym_equal T (lift (S O) d x1) (THead (Bind Abst) x4 x5) H15 in ex3_2_ind T T (\lambda (y: T).\lambda (z: T).eq T x1 (THead (Bind Abst) y z)) (\lambda (y: T).\lambda (_: T).eq T x4 (lift (S O) d y)) (\lambda (_: T).\lambda (z: T).eq T x5 (lift (S O) (S d) z)) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d u0 (THead (Flat Appl) w v) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u0 (THead (Flat Appl) w (THead (Bind Abst) u t)) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x6: T).\lambda (x7: T).\lambda (H19: (eq T x1 (THead (Bind Abst) x6 x7))).\lambda (H20: (eq T x4 (lift (S O) d x6))).\lambda (H21: (eq T x5 (lift (S O) (S d) x7))).let H22 \def eq_ind T x5 (\lambda (t0: T).subst1 (s (Bind Abst) d) u0 t t0) H17 (lift (S O) (S d) x7) H21 in let H23 \def eq_ind T x4 (\lambda (t: T).subst1 d u0 u t) H16 (lift (S O) d x6) H20 in let H24 \def eq_ind T x1 (\lambda (t: T).ty3 g a x0 t) H10 (THead (Bind Abst) x6 x7) H19 in let H25 \def eq_ind T x6 (\lambda (t: T).ty3 g a x0 (THead (Bind Abst) t x7)) H24 x3 (subst1_confluence_lift u x6 u0 d H23 x3 H13) in ex3_2_intro T T (\lambda (y1: T).\lambda (_: T).subst1 d u0 (THead (Flat Appl) w v) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u0 (THead (Flat Appl) w (THead (Bind Abst) u t)) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (THead (Flat Appl) x2 x0) (THead (Flat Appl) x2 (THead (Bind Abst) x3 x7)) (eq_ind_r T (THead (Flat Appl) (lift (S O) d x2) (lift (S O) d x0)) (\lambda (t0: T).subst1 d u0 (THead (Flat Appl) w v) t0) (subst1_head u0 w (lift (S O) d x2) d H12 (Flat Appl) v (lift (S O) d x0) H8) (lift (S O) d (THead (Flat Appl) x2 x0)) (lift_flat Appl x2 x0 (S O) d)) (eq_ind_r T (THead (Flat Appl) (lift (S O) d x2) (lift (S O) d (THead (Bind Abst) x3 x7))) (\lambda (t0: T).subst1 d u0 (THead (Flat Appl) w (THead (Bind Abst) u t)) t0) (subst1_head u0 w (lift (S O) d x2) d H12 (Flat Appl) (THead (Bind Abst) u t) (lift (S O) d (THead (Bind Abst) x3 x7)) (eq_ind_r T (THead (Bind Abst) (lift (S O) d x3) (lift (S O) (S d) x7)) (\lambda (t0: T).subst1 (s (Flat Appl) d) u0 (THead (Bind Abst) u t) t0) (subst1_head u0 u (lift (S O) d x3) (s (Flat Appl) d) H13 (Bind Abst) t (lift (S O) (S d) x7) H22) (lift (S O) d (THead (Bind Abst) x3 x7)) (lift_bind Abst x3 x7 (S O) d))) (lift (S O) d (THead (Flat Appl) x2 (THead (Bind Abst) x3 x7))) (lift_flat Appl x2 (THead (Bind Abst) x3 x7) (S O) d)) (ty3_appl g a x2 x3 H14 x0 x7 H25)) (lift_gen_bind Abst x4 x5 x1 (S O) d H18)) (subst1_gen_head (Bind Abst) u0 u t (lift (S O) d x1) d H9)) H11) H7) (\lambda (c0: C).\lambda (t3: T).\lambda (t4: T).\lambda (_: (ty3 g c0 t3 t4)).\lambda (H1: ((\forall (e: C).\forall (u: T).\forall (d: nat).(getl d c0 (CHead e (Bind Abbr) u)) \to \forall (a0: C).(csubst1 d u c0 a0) \to \forall (a: C).(drop (S O) d a0 a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d u t3 (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u t4 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)))).\lambda (t0: T).\lambda (_: (ty3 g c0 t4 t0)).\lambda (H3: ((\forall (e: C).\forall (u: T).\forall (d: nat).(getl d c0 (CHead e (Bind Abbr) u)) \to \forall (a0: C).(csubst1 d u c0 a0) \to \forall (a: C).(drop (S O) d a0 a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d u t4 (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u t0 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)))).\lambda (e: C).\lambda (u: T).\lambda (d: nat).\lambda (H4: (getl d c0 (CHead e (Bind Abbr) u))).\lambda (a0: C).\lambda (H5: (csubst1 d u c0 a0)).\lambda (a: C).\lambda (H6: (drop (S O) d a0 a)).let H7 \def H3 e u d H4 a0 H5 a H6 in ex3_2_ind T T (\lambda (y1: T).\lambda (_: T).subst1 d u t4 (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u t0 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d u (THead (Flat Cast) t4 t3) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u t4 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x0: T).\lambda (x1: T).\lambda (H8: (subst1 d u t4 (lift (S O) d x0))).\lambda (_: (subst1 d u t0 (lift (S O) d x1))).\lambda (H10: (ty3 g a x0 x1)).let H11 \def H1 e u d H4 a0 H5 a H6 in ex3_2_ind T T (\lambda (y1: T).\lambda (_: T).subst1 d u t3 (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u t4 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).subst1 d u (THead (Flat Cast) t4 t3) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u t4 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x2: T).\lambda (x3: T).\lambda (H12: (subst1 d u t3 (lift (S O) d x2))).\lambda (H13: (subst1 d u t4 (lift (S O) d x3))).\lambda (H14: (ty3 g a x2 x3)).let H15 \def eq_ind T x3 (\lambda (t: T).ty3 g a x2 t) H14 x0 (subst1_confluence_lift t4 x3 u d H13 x0 H8) in ex3_2_intro T T (\lambda (y1: T).\lambda (_: T).subst1 d u (THead (Flat Cast) t4 t3) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).subst1 d u t4 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (THead (Flat Cast) x0 x2) x0 (eq_ind_r T (THead (Flat Cast) (lift (S O) d x0) (lift (S O) d x2)) (\lambda (t: T).subst1 d u (THead (Flat Cast) t4 t3) t) (subst1_head u t4 (lift (S O) d x0) d H8 (Flat Cast) t3 (lift (S O) d x2) H12) (lift (S O) d (THead (Flat Cast) x0 x2)) (lift_flat Cast x0 x2 (S O) d)) H8 (ty3_cast g a x2 x0 H15 x1 H10)) H11) H7) c t1 t2 H.
+
+theorem ty3_gen_cvoid: \forall (g: G).\forall (c: C).\forall (t1: T).\forall (t2: T).(ty3 g c t1 t2) \to \forall (e: C).\forall (u: T).\forall (d: nat).(getl d c (CHead e (Bind Void) u)) \to \forall (a: C).(drop (S O) d c a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T t1 (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T t2 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) \def \lambda (g: G).\lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (ty3 g c t1 t2)).ty3_ind g (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).\forall (e: C).\forall (u: T).\forall (d: nat).(getl d c0 (CHead e (Bind Void) u)) \to \forall (a: C).(drop (S O) d c0 a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T t (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T t0 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (c0: C).\lambda (t3: T).\lambda (t: T).\lambda (H0: (ty3 g c0 t3 t)).\lambda (H1: ((\forall (e: C).\forall (u: T).\forall (d: nat).(getl d c0 (CHead e (Bind Void) u)) \to \forall (a: C).(drop (S O) d c0 a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T t3 (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T t (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)))).\lambda (u: T).\lambda (t4: T).\lambda (H2: (ty3 g c0 u t4)).\lambda (H3: ((\forall (e: C).\forall (u0: T).\forall (d: nat).(getl d c0 (CHead e (Bind Void) u0)) \to \forall (a: C).(drop (S O) d c0 a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T u (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T t4 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)))).\lambda (H4: (pc3 c0 t4 t3)).\lambda (e: C).\lambda (u0: T).\lambda (d: nat).\lambda (H5: (getl d c0 (CHead e (Bind Void) u0))).\lambda (a: C).\lambda (H6: (drop (S O) d c0 a)).let H7 \def H3 e u0 d H5 a H6 in ex3_2_ind T T (\lambda (y1: T).\lambda (_: T).eq T u (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T t4 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T u (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T t3 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x0: T).\lambda (x1: T).\lambda (H8: (eq T u (lift (S O) d x0))).\lambda (H9: (eq T t4 (lift (S O) d x1))).\lambda (H10: (ty3 g a x0 x1)).let H11 \def eq_ind T t4 (\lambda (t: T).pc3 c0 t t3) H4 (lift (S O) d x1) H9 in let H12 \def eq_ind T t4 (\lambda (t: T).ty3 g c0 u t) H2 (lift (S O) d x1) H9 in let H13 \def eq_ind T u (\lambda (t: T).ty3 g c0 t (lift (S O) d x1)) H12 (lift (S O) d x0) H8 in eq_ind_r T (lift (S O) d x0) (\lambda (t0: T).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T t0 (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T t3 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (let H14 \def H1 e u0 d H5 a H6 in ex3_2_ind T T (\lambda (y1: T).\lambda (_: T).eq T t3 (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T t (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (lift (S O) d x0) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T t3 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x2: T).\lambda (x3: T).\lambda (H15: (eq T t3 (lift (S O) d x2))).\lambda (H16: (eq T t (lift (S O) d x3))).\lambda (H17: (ty3 g a x2 x3)).let H18 \def eq_ind T t (\lambda (t: T).ty3 g c0 t3 t) H0 (lift (S O) d x3) H16 in let H19 \def eq_ind T t3 (\lambda (t: T).ty3 g c0 t (lift (S O) d x3)) H18 (lift (S O) d x2) H15 in let H20 \def eq_ind T t3 (\lambda (t: T).pc3 c0 (lift (S O) d x1) t) H11 (lift (S O) d x2) H15 in eq_ind_r T (lift (S O) d x2) (\lambda (t0: T).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (lift (S O) d x0) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T t0 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (ex3_2_intro T T (\lambda (y1: T).\lambda (_: T).eq T (lift (S O) d x0) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S O) d x2) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) x0 x2 (refl_equal T (lift (S O) d x0)) (refl_equal T (lift (S O) d x2)) (ty3_conv g a x2 x3 H17 x0 x1 H10 (pc3_gen_lift c0 x1 x2 (S O) d H20 a H6))) t3 H15) H14) u H8) H7) (\lambda (c0: C).\lambda (m: nat).\lambda (e: C).\lambda (u: T).\lambda (d: nat).\lambda (_: (getl d c0 (CHead e (Bind Void) u))).\lambda (a: C).\lambda (_: (drop (S O) d c0 a)).ex3_2_intro T T (\lambda (y1: T).\lambda (_: T).eq T (TSort m) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T (TSort (next g m)) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (TSort m) (TSort (next g m)) (eq_ind_r T (TSort m) (\lambda (t: T).eq T (TSort m) t) (refl_equal T (TSort m)) (lift (S O) d (TSort m)) (lift_sort m (S O) d)) (eq_ind_r T (TSort (next g m)) (\lambda (t: T).eq T (TSort (next g m)) t) (refl_equal T (TSort (next g m))) (lift (S O) d (TSort (next g m))) (lift_sort (next g m) (S O) d)) (ty3_sort g a m)) (\lambda (n: nat).\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (H0: (getl n c0 (CHead d (Bind Abbr) u))).\lambda (t: T).\lambda (H1: (ty3 g d u t)).\lambda (H2: ((\forall (e: C).\forall (u0: T).\forall (d0: nat).(getl d0 d (CHead e (Bind Void) u0)) \to \forall (a: C).(drop (S O) d0 d a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T u (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).eq T t (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)))).\lambda (e: C).\lambda (u0: T).\lambda (d0: nat).\lambda (H3: (getl d0 c0 (CHead e (Bind Void) u0))).\lambda (a: C).\lambda (H4: (drop (S O) d0 c0 a)).lt_eq_gt_e n d0 (ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (TLRef n) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S n) O t) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (H5: (lt n d0)).let H6 \def eq_ind nat (minus d0 n) (\lambda (n: nat).getl n (CHead d (Bind Abbr) u) (CHead e (Bind Void) u0)) (getl_conf_le d0 (CHead e (Bind Void) u0) c0 H3 (CHead d (Bind Abbr) u) n H0 (le_S_n n d0 (le_S (S n) d0 H5))) (S (minus d0 (S n))) (minus_x_Sy d0 n H5) in let H7 \def eq_ind nat d0 (\lambda (n: nat).drop (S O) n c0 a) H4 (S (plus n (minus d0 (S n)))) (lt_plus_minus n d0 H5) in ex3_2_ind T C (\lambda (v: T).\lambda (_: C).eq T u (lift (S O) (minus d0 (S n)) v)) (\lambda (v: T).\lambda (e0: C).getl n a (CHead e0 (Bind Abbr) v)) (\lambda (_: T).\lambda (e0: C).drop (S O) (minus d0 (S n)) d e0) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (TLRef n) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S n) O t) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x0: T).\lambda (x1: C).\lambda (H8: (eq T u (lift (S O) (minus d0 (S n)) x0))).\lambda (H9: (getl n a (CHead x1 (Bind Abbr) x0))).\lambda (H10: (drop (S O) (minus d0 (S n)) d x1)).let H11 \def eq_ind T u (\lambda (t0: T).\forall (e: C).\forall (u: T).\forall (d0: nat).(getl d0 d (CHead e (Bind Void) u)) \to \forall (a: C).(drop (S O) d0 d a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T t0 (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).eq T t (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) H2 (lift (S O) (minus d0 (S n)) x0) H8 in let H12 \def eq_ind T u (\lambda (t0: T).ty3 g d t0 t) H1 (lift (S O) (minus d0 (S n)) x0) H8 in let H13 \def H11 e u0 (minus d0 (S n)) (getl_gen_S (Bind Abbr) d (CHead e (Bind Void) u0) u (minus d0 (S n)) H6) x1 H10 in ex3_2_ind T T (\lambda (y1: T).\lambda (_: T).eq T (lift (S O) (minus d0 (S n)) x0) (lift (S O) (minus d0 (S n)) y1)) (\lambda (_: T).\lambda (y2: T).eq T t (lift (S O) (minus d0 (S n)) y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g x1 y1 y2) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (TLRef n) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S n) O t) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x2: T).\lambda (x3: T).\lambda (H14: (eq T (lift (S O) (minus d0 (S n)) x0) (lift (S O) (minus d0 (S n)) x2))).\lambda (H15: (eq T t (lift (S O) (minus d0 (S n)) x3))).\lambda (H16: (ty3 g x1 x2 x3)).let H17 \def eq_ind T t (\lambda (t: T).ty3 g d (lift (S O) (minus d0 (S n)) x0) t) H12 (lift (S O) (minus d0 (S n)) x3) H15 in eq_ind_r T (lift (S O) (minus d0 (S n)) x3) (\lambda (t0: T).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (TLRef n) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S n) O t0) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (let H18 \def eq_ind_r T x2 (\lambda (t: T).ty3 g x1 t x3) H16 x0 (lift_inj x0 x2 (S O) (minus d0 (S n)) H14) in eq_ind T (lift (S O) (plus (S n) (minus d0 (S n))) (lift (S n) O x3)) (\lambda (t0: T).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (TLRef n) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).eq T t0 (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (eq_ind nat d0 (\lambda (n0: nat).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (TLRef n) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S O) n0 (lift (S n) O x3)) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (ex3_2_intro T T (\lambda (y1: T).\lambda (_: T).eq T (TLRef n) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S O) d0 (lift (S n) O x3)) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (TLRef n) (lift (S n) O x3) (eq_ind_r T (TLRef n) (\lambda (t0: T).eq T (TLRef n) t0) (refl_equal T (TLRef n)) (lift (S O) d0 (TLRef n)) (lift_lref_lt n (S O) d0 H5)) (refl_equal T (lift (S O) d0 (lift (S n) O x3))) (ty3_abbr g n a x1 x0 H9 x3 H18)) (plus (S n) (minus d0 (S n))) (le_plus_minus (S n) d0 H5)) (lift (S n) O (lift (S O) (minus d0 (S n)) x3)) (lift_d x3 (S O) (S n) (minus d0 (S n)) O (le_O_n (minus d0 (S n))))) t H15) H13) (getl_drop_conf_lt Abbr c0 d u n H0 a (S O) (minus d0 (S n)) H7)) (\lambda (H5: (eq nat n d0)).let H6 \def eq_ind_r nat d0 (\lambda (n: nat).drop (S O) n c0 a) H4 n H5 in let H7 \def eq_ind_r nat d0 (\lambda (n: nat).getl n c0 (CHead e (Bind Void) u0)) H3 n H5 in eq_ind nat n (\lambda (n0: nat).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (TLRef n) (lift (S O) n0 y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S n) O t) (lift (S O) n0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (let H8 \def eq_ind C (CHead d (Bind Abbr) u) (\lambda (c: C).getl n c0 c) H0 (CHead e (Bind Void) u0) (getl_mono c0 (CHead d (Bind Abbr) u) n H0 (CHead e (Bind Void) u0) H7) in let H9 \def eq_ind C (CHead d (Bind Abbr) u) (\lambda (ee: C).match ee return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow True | Abst \Rightarrow False | Void \Rightarrow False]) | (Flat _) \Rightarrow False])]) I (CHead e (Bind Void) u0) (getl_mono c0 (CHead d (Bind Abbr) u) n H0 (CHead e (Bind Void) u0) H7) in False_ind (ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (TLRef n) (lift (S O) n y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S n) O t) (lift (S O) n y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) H9) d0 H5) (\lambda (H5: (lt d0 n)).eq_ind_r nat (S (plus O (minus n (S O)))) (\lambda (n0: nat).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (TLRef n0) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S n) O t) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (eq_ind nat (plus (S O) (minus n (S O))) (\lambda (n0: nat).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (TLRef n0) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S n) O t) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (eq_ind_r nat (plus (minus n (S O)) (S O)) (\lambda (n0: nat).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (TLRef n0) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S n) O t) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (ex3_2_intro T T (\lambda (y1: T).\lambda (_: T).eq T (TLRef (plus (minus n (S O)) (S O))) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S n) O t) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (TLRef (minus n (S O))) (lift n O t) (eq_ind_r T (TLRef (plus (minus n (S O)) (S O))) (\lambda (t0: T).eq T (TLRef (plus (minus n (S O)) (S O))) t0) (refl_equal T (TLRef (plus (minus n (S O)) (S O)))) (lift (S O) d0 (TLRef (minus n (S O)))) (lift_lref_ge (minus n (S O)) (S O) d0 (lt_le_minus d0 n H5))) (eq_ind_r T (lift (plus (S O) n) O t) (\lambda (t0: T).eq T (lift (S n) O t) t0) (refl_equal T (lift (S n) O t)) (lift (S O) d0 (lift n O t)) (lift_free t n (S O) O d0 (le_S_n d0 (plus O n) (le_S (S d0) (plus O n) H5)) (le_O_n d0))) (eq_ind_r nat (S (minus n (S O))) (\lambda (n0: nat).ty3 g a (TLRef (minus n (S O))) (lift n0 O t)) (ty3_abbr g (minus n (S O)) a d u (getl_drop_conf_ge n (CHead d (Bind Abbr) u) c0 H0 a (S O) d0 H4 (eq_ind_r nat (plus (S O) d0) (\lambda (n0: nat).le n0 n) H5 (plus d0 (S O)) (plus_sym d0 (S O)))) t H1) n (minus_x_SO n (le_lt_trans O d0 n (le_O_n d0) H5)))) (plus (S O) (minus n (S O))) (plus_sym (S O) (minus n (S O)))) (S (plus O (minus n (S O)))) (refl_equal nat (S (plus O (minus n (S O)))))) n (lt_plus_minus O n (le_lt_trans O d0 n (le_O_n d0) H5)))) (\lambda (n: nat).\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (H0: (getl n c0 (CHead d (Bind Abst) u))).\lambda (t: T).\lambda (H1: (ty3 g d u t)).\lambda (H2: ((\forall (e: C).\forall (u0: T).\forall (d0: nat).(getl d0 d (CHead e (Bind Void) u0)) \to \forall (a: C).(drop (S O) d0 d a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T u (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).eq T t (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)))).\lambda (e: C).\lambda (u0: T).\lambda (d0: nat).\lambda (H3: (getl d0 c0 (CHead e (Bind Void) u0))).\lambda (a: C).\lambda (H4: (drop (S O) d0 c0 a)).lt_eq_gt_e n d0 (ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (TLRef n) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S n) O u) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (H5: (lt n d0)).let H6 \def eq_ind nat (minus d0 n) (\lambda (n: nat).getl n (CHead d (Bind Abst) u) (CHead e (Bind Void) u0)) (getl_conf_le d0 (CHead e (Bind Void) u0) c0 H3 (CHead d (Bind Abst) u) n H0 (le_S_n n d0 (le_S (S n) d0 H5))) (S (minus d0 (S n))) (minus_x_Sy d0 n H5) in let H7 \def eq_ind nat d0 (\lambda (n: nat).drop (S O) n c0 a) H4 (S (plus n (minus d0 (S n)))) (lt_plus_minus n d0 H5) in ex3_2_ind T C (\lambda (v: T).\lambda (_: C).eq T u (lift (S O) (minus d0 (S n)) v)) (\lambda (v: T).\lambda (e0: C).getl n a (CHead e0 (Bind Abst) v)) (\lambda (_: T).\lambda (e0: C).drop (S O) (minus d0 (S n)) d e0) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (TLRef n) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S n) O u) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x0: T).\lambda (x1: C).\lambda (H8: (eq T u (lift (S O) (minus d0 (S n)) x0))).\lambda (H9: (getl n a (CHead x1 (Bind Abst) x0))).\lambda (H10: (drop (S O) (minus d0 (S n)) d x1)).let H11 \def eq_ind T u (\lambda (t0: T).\forall (e: C).\forall (u: T).\forall (d0: nat).(getl d0 d (CHead e (Bind Void) u)) \to \forall (a: C).(drop (S O) d0 d a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T t0 (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).eq T t (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) H2 (lift (S O) (minus d0 (S n)) x0) H8 in let H12 \def eq_ind T u (\lambda (t0: T).ty3 g d t0 t) H1 (lift (S O) (minus d0 (S n)) x0) H8 in eq_ind_r T (lift (S O) (minus d0 (S n)) x0) (\lambda (t0: T).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (TLRef n) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S n) O t0) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (let H13 \def H11 e u0 (minus d0 (S n)) (getl_gen_S (Bind Abst) d (CHead e (Bind Void) u0) u (minus d0 (S n)) H6) x1 H10 in ex3_2_ind T T (\lambda (y1: T).\lambda (_: T).eq T (lift (S O) (minus d0 (S n)) x0) (lift (S O) (minus d0 (S n)) y1)) (\lambda (_: T).\lambda (y2: T).eq T t (lift (S O) (minus d0 (S n)) y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g x1 y1 y2) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (TLRef n) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S n) O (lift (S O) (minus d0 (S n)) x0)) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x2: T).\lambda (x3: T).\lambda (H14: (eq T (lift (S O) (minus d0 (S n)) x0) (lift (S O) (minus d0 (S n)) x2))).\lambda (H15: (eq T t (lift (S O) (minus d0 (S n)) x3))).\lambda (H16: (ty3 g x1 x2 x3)).let H17 \def eq_ind T t (\lambda (t: T).ty3 g d (lift (S O) (minus d0 (S n)) x0) t) H12 (lift (S O) (minus d0 (S n)) x3) H15 in let H18 \def eq_ind_r T x2 (\lambda (t: T).ty3 g x1 t x3) H16 x0 (lift_inj x0 x2 (S O) (minus d0 (S n)) H14) in eq_ind T (lift (S O) (plus (S n) (minus d0 (S n))) (lift (S n) O x0)) (\lambda (t0: T).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (TLRef n) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).eq T t0 (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (eq_ind nat d0 (\lambda (n0: nat).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (TLRef n) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S O) n0 (lift (S n) O x0)) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (ex3_2_intro T T (\lambda (y1: T).\lambda (_: T).eq T (TLRef n) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S O) d0 (lift (S n) O x0)) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (TLRef n) (lift (S n) O x0) (eq_ind_r T (TLRef n) (\lambda (t0: T).eq T (TLRef n) t0) (refl_equal T (TLRef n)) (lift (S O) d0 (TLRef n)) (lift_lref_lt n (S O) d0 H5)) (refl_equal T (lift (S O) d0 (lift (S n) O x0))) (ty3_abst g n a x1 x0 H9 x3 H18)) (plus (S n) (minus d0 (S n))) (le_plus_minus (S n) d0 H5)) (lift (S n) O (lift (S O) (minus d0 (S n)) x0)) (lift_d x0 (S O) (S n) (minus d0 (S n)) O (le_O_n (minus d0 (S n))))) H13) u H8) (getl_drop_conf_lt Abst c0 d u n H0 a (S O) (minus d0 (S n)) H7)) (\lambda (H5: (eq nat n d0)).let H6 \def eq_ind_r nat d0 (\lambda (n: nat).drop (S O) n c0 a) H4 n H5 in let H7 \def eq_ind_r nat d0 (\lambda (n: nat).getl n c0 (CHead e (Bind Void) u0)) H3 n H5 in eq_ind nat n (\lambda (n0: nat).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (TLRef n) (lift (S O) n0 y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S n) O u) (lift (S O) n0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (let H8 \def eq_ind C (CHead d (Bind Abst) u) (\lambda (c: C).getl n c0 c) H0 (CHead e (Bind Void) u0) (getl_mono c0 (CHead d (Bind Abst) u) n H0 (CHead e (Bind Void) u0) H7) in let H9 \def eq_ind C (CHead d (Bind Abst) u) (\lambda (ee: C).match ee return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow False | Abst \Rightarrow True | Void \Rightarrow False]) | (Flat _) \Rightarrow False])]) I (CHead e (Bind Void) u0) (getl_mono c0 (CHead d (Bind Abst) u) n H0 (CHead e (Bind Void) u0) H7) in False_ind (ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (TLRef n) (lift (S O) n y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S n) O u) (lift (S O) n y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) H9) d0 H5) (\lambda (H5: (lt d0 n)).eq_ind_r nat (S (plus O (minus n (S O)))) (\lambda (n0: nat).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (TLRef n0) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S n) O u) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (eq_ind nat (plus (S O) (minus n (S O))) (\lambda (n0: nat).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (TLRef n0) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S n) O u) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (eq_ind_r nat (plus (minus n (S O)) (S O)) (\lambda (n0: nat).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (TLRef n0) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S n) O u) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (ex3_2_intro T T (\lambda (y1: T).\lambda (_: T).eq T (TLRef (plus (minus n (S O)) (S O))) (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S n) O u) (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (TLRef (minus n (S O))) (lift n O u) (eq_ind_r T (TLRef (plus (minus n (S O)) (S O))) (\lambda (t0: T).eq T (TLRef (plus (minus n (S O)) (S O))) t0) (refl_equal T (TLRef (plus (minus n (S O)) (S O)))) (lift (S O) d0 (TLRef (minus n (S O)))) (lift_lref_ge (minus n (S O)) (S O) d0 (lt_le_minus d0 n H5))) (eq_ind_r T (lift (plus (S O) n) O u) (\lambda (t0: T).eq T (lift (S n) O u) t0) (refl_equal T (lift (S n) O u)) (lift (S O) d0 (lift n O u)) (lift_free u n (S O) O d0 (le_S_n d0 (plus O n) (le_S (S d0) (plus O n) H5)) (le_O_n d0))) (eq_ind_r nat (S (minus n (S O))) (\lambda (n0: nat).ty3 g a (TLRef (minus n (S O))) (lift n0 O u)) (ty3_abst g (minus n (S O)) a d u (getl_drop_conf_ge n (CHead d (Bind Abst) u) c0 H0 a (S O) d0 H4 (eq_ind_r nat (plus (S O) d0) (\lambda (n0: nat).le n0 n) H5 (plus d0 (S O)) (plus_sym d0 (S O)))) t H1) n (minus_x_SO n (le_lt_trans O d0 n (le_O_n d0) H5)))) (plus (S O) (minus n (S O))) (plus_sym (S O) (minus n (S O)))) (S (plus O (minus n (S O)))) (refl_equal nat (S (plus O (minus n (S O)))))) n (lt_plus_minus O n (le_lt_trans O d0 n (le_O_n d0) H5)))) (\lambda (c0: C).\lambda (u: T).\lambda (t: T).\lambda (H0: (ty3 g c0 u t)).\lambda (H1: ((\forall (e: C).\forall (u0: T).\forall (d: nat).(getl d c0 (CHead e (Bind Void) u0)) \to \forall (a: C).(drop (S O) d c0 a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T u (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T t (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)))).\lambda (b: B).\lambda (t3: T).\lambda (t4: T).\lambda (H2: (ty3 g (CHead c0 (Bind b) u) t3 t4)).\lambda (H3: ((\forall (e: C).\forall (u0: T).\forall (d: nat).(getl d (CHead c0 (Bind b) u) (CHead e (Bind Void) u0)) \to \forall (a: C).(drop (S O) d (CHead c0 (Bind b) u) a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T t3 (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T t4 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)))).\lambda (t0: T).\lambda (H4: (ty3 g (CHead c0 (Bind b) u) t4 t0)).\lambda (H5: ((\forall (e: C).\forall (u0: T).\forall (d: nat).(getl d (CHead c0 (Bind b) u) (CHead e (Bind Void) u0)) \to \forall (a: C).(drop (S O) d (CHead c0 (Bind b) u) a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T t4 (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T t0 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)))).\lambda (e: C).\lambda (u0: T).\lambda (d: nat).\lambda (H6: (getl d c0 (CHead e (Bind Void) u0))).\lambda (a: C).\lambda (H7: (drop (S O) d c0 a)).let H8 \def H1 e u0 d H6 a H7 in ex3_2_ind T T (\lambda (y1: T).\lambda (_: T).eq T u (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T t (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (THead (Bind b) u t3) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T (THead (Bind b) u t4) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x0: T).\lambda (x1: T).\lambda (H9: (eq T u (lift (S O) d x0))).\lambda (H10: (eq T t (lift (S O) d x1))).\lambda (H11: (ty3 g a x0 x1)).let H12 \def eq_ind T t (\lambda (t: T).ty3 g c0 u t) H0 (lift (S O) d x1) H10 in let H13 \def eq_ind T u (\lambda (t: T).ty3 g c0 t (lift (S O) d x1)) H12 (lift (S O) d x0) H9 in let H14 \def eq_ind T u (\lambda (t: T).\forall (e: C).\forall (u: T).\forall (d: nat).(getl d (CHead c0 (Bind b) t) (CHead e (Bind Void) u)) \to \forall (a: C).(drop (S O) d (CHead c0 (Bind b) t) a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T t4 (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T t0 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) H5 (lift (S O) d x0) H9 in let H15 \def eq_ind T u (\lambda (t: T).ty3 g (CHead c0 (Bind b) t) t4 t0) H4 (lift (S O) d x0) H9 in let H16 \def eq_ind T u (\lambda (t: T).\forall (e: C).\forall (u: T).\forall (d: nat).(getl d (CHead c0 (Bind b) t) (CHead e (Bind Void) u)) \to \forall (a: C).(drop (S O) d (CHead c0 (Bind b) t) a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T t3 (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T t4 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) H3 (lift (S O) d x0) H9 in let H17 \def eq_ind T u (\lambda (t: T).ty3 g (CHead c0 (Bind b) t) t3 t4) H2 (lift (S O) d x0) H9 in eq_ind_r T (lift (S O) d x0) (\lambda (t5: T).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (THead (Bind b) t5 t3) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T (THead (Bind b) t5 t4) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (let H18 \def H16 e u0 (S d) (getl_head (Bind b) d c0 (CHead e (Bind Void) u0) H6 (lift (S O) d x0)) (CHead a (Bind b) x0) (drop_skip_bind (S O) d c0 a H7 b x0) in ex3_2_ind T T (\lambda (y1: T).\lambda (_: T).eq T t3 (lift (S O) (S d) y1)) (\lambda (_: T).\lambda (y2: T).eq T t4 (lift (S O) (S d) y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g (CHead a (Bind b) x0) y1 y2) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (THead (Bind b) (lift (S O) d x0) t3) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T (THead (Bind b) (lift (S O) d x0) t4) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x2: T).\lambda (x3: T).\lambda (H19: (eq T t3 (lift (S O) (S d) x2))).\lambda (H20: (eq T t4 (lift (S O) (S d) x3))).\lambda (H21: (ty3 g (CHead a (Bind b) x0) x2 x3)).let H22 \def eq_ind T t4 (\lambda (t: T).\forall (e: C).\forall (u: T).\forall (d0: nat).(getl d0 (CHead c0 (Bind b) (lift (S O) d x0)) (CHead e (Bind Void) u)) \to \forall (a: C).(drop (S O) d0 (CHead c0 (Bind b) (lift (S O) d x0)) a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T t (lift (S O) d0 y1)) (\lambda (_: T).\lambda (y2: T).eq T t0 (lift (S O) d0 y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) H14 (lift (S O) (S d) x3) H20 in eq_ind_r T (lift (S O) (S d) x3) (\lambda (t5: T).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (THead (Bind b) (lift (S O) d x0) t3) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T (THead (Bind b) (lift (S O) d x0) t5) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (eq_ind_r T (lift (S O) (S d) x2) (\lambda (t5: T).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (THead (Bind b) (lift (S O) d x0) t5) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T (THead (Bind b) (lift (S O) d x0) (lift (S O) (S d) x3)) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (let H23 \def H22 e u0 (S d) (getl_head (Bind b) d c0 (CHead e (Bind Void) u0) H6 (lift (S O) d x0)) (CHead a (Bind b) x0) (drop_skip_bind (S O) d c0 a H7 b x0) in ex3_2_ind T T (\lambda (y1: T).\lambda (_: T).eq T (lift (S O) (S d) x3) (lift (S O) (S d) y1)) (\lambda (_: T).\lambda (y2: T).eq T t0 (lift (S O) (S d) y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g (CHead a (Bind b) x0) y1 y2) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (THead (Bind b) (lift (S O) d x0) (lift (S O) (S d) x2)) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T (THead (Bind b) (lift (S O) d x0) (lift (S O) (S d) x3)) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x4: T).\lambda (x5: T).\lambda (H24: (eq T (lift (S O) (S d) x3) (lift (S O) (S d) x4))).\lambda (_: (eq T t0 (lift (S O) (S d) x5))).\lambda (H26: (ty3 g (CHead a (Bind b) x0) x4 x5)).let H27 \def eq_ind_r T x4 (\lambda (t: T).ty3 g (CHead a (Bind b) x0) t x5) H26 x3 (lift_inj x3 x4 (S O) (S d) H24) in eq_ind T (lift (S O) d (THead (Bind b) x0 x2)) (\lambda (t5: T).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T t5 (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T (THead (Bind b) (lift (S O) d x0) (lift (S O) (S d) x3)) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (eq_ind T (lift (S O) d (THead (Bind b) x0 x3)) (\lambda (t5: T).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (lift (S O) d (THead (Bind b) x0 x2)) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T t5 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (ex3_2_intro T T (\lambda (y1: T).\lambda (_: T).eq T (lift (S O) d (THead (Bind b) x0 x2)) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S O) d (THead (Bind b) x0 x3)) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (THead (Bind b) x0 x2) (THead (Bind b) x0 x3) (refl_equal T (lift (S O) d (THead (Bind b) x0 x2))) (refl_equal T (lift (S O) d (THead (Bind b) x0 x3))) (ty3_bind g a x0 x1 H11 b x2 x3 H21 x5 H27)) (THead (Bind b) (lift (S O) d x0) (lift (S O) (S d) x3)) (lift_bind b x0 x3 (S O) d)) (THead (Bind b) (lift (S O) d x0) (lift (S O) (S d) x2)) (lift_bind b x0 x2 (S O) d)) H23) t3 H19) t4 H20) H18) u H9) H8) (\lambda (c0: C).\lambda (w: T).\lambda (u: T).\lambda (_: (ty3 g c0 w u)).\lambda (H1: ((\forall (e: C).\forall (u0: T).\forall (d: nat).(getl d c0 (CHead e (Bind Void) u0)) \to \forall (a: C).(drop (S O) d c0 a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T w (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T u (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)))).\lambda (v: T).\lambda (t: T).\lambda (H2: (ty3 g c0 v (THead (Bind Abst) u t))).\lambda (H3: ((\forall (e: C).\forall (u0: T).\forall (d: nat).(getl d c0 (CHead e (Bind Void) u0)) \to \forall (a: C).(drop (S O) d c0 a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T v (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T (THead (Bind Abst) u t) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)))).\lambda (e: C).\lambda (u0: T).\lambda (d: nat).\lambda (H4: (getl d c0 (CHead e (Bind Void) u0))).\lambda (a: C).\lambda (H5: (drop (S O) d c0 a)).let H6 \def H3 e u0 d H4 a H5 in ex3_2_ind T T (\lambda (y1: T).\lambda (_: T).eq T v (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T (THead (Bind Abst) u t) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (THead (Flat Appl) w v) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T (THead (Flat Appl) w (THead (Bind Abst) u t)) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x0: T).\lambda (x1: T).\lambda (H7: (eq T v (lift (S O) d x0))).\lambda (H8: (eq T (THead (Bind Abst) u t) (lift (S O) d x1))).\lambda (H9: (ty3 g a x0 x1)).let H10 \def eq_ind T v (\lambda (t0: T).ty3 g c0 t0 (THead (Bind Abst) u t)) H2 (lift (S O) d x0) H7 in eq_ind_r T (lift (S O) d x0) (\lambda (t0: T).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (THead (Flat Appl) w t0) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T (THead (Flat Appl) w (THead (Bind Abst) u t)) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (ex3_2_ind T T (\lambda (y: T).\lambda (z: T).eq T x1 (THead (Bind Abst) y z)) (\lambda (y: T).\lambda (_: T).eq T u (lift (S O) d y)) (\lambda (_: T).\lambda (z: T).eq T t (lift (S O) (S d) z)) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (THead (Flat Appl) w (lift (S O) d x0)) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T (THead (Flat Appl) w (THead (Bind Abst) u t)) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x2: T).\lambda (x3: T).\lambda (H11: (eq T x1 (THead (Bind Abst) x2 x3))).\lambda (H12: (eq T u (lift (S O) d x2))).\lambda (H13: (eq T t (lift (S O) (S d) x3))).let H14 \def eq_ind T x1 (\lambda (t: T).ty3 g a x0 t) H9 (THead (Bind Abst) x2 x3) H11 in eq_ind_r T (lift (S O) (S d) x3) (\lambda (t0: T).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (THead (Flat Appl) w (lift (S O) d x0)) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T (THead (Flat Appl) w (THead (Bind Abst) u t0)) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (let H15 \def eq_ind T u (\lambda (t: T).\forall (e: C).\forall (u: T).\forall (d: nat).(getl d c0 (CHead e (Bind Void) u)) \to \forall (a: C).(drop (S O) d c0 a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T w (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T t (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) H1 (lift (S O) d x2) H12 in eq_ind_r T (lift (S O) d x2) (\lambda (t0: T).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (THead (Flat Appl) w (lift (S O) d x0)) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T (THead (Flat Appl) w (THead (Bind Abst) t0 (lift (S O) (S d) x3))) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (let H16 \def H15 e u0 d H4 a H5 in ex3_2_ind T T (\lambda (y1: T).\lambda (_: T).eq T w (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S O) d x2) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (THead (Flat Appl) w (lift (S O) d x0)) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T (THead (Flat Appl) w (THead (Bind Abst) (lift (S O) d x2) (lift (S O) (S d) x3))) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x4: T).\lambda (x5: T).\lambda (H17: (eq T w (lift (S O) d x4))).\lambda (H18: (eq T (lift (S O) d x2) (lift (S O) d x5))).\lambda (H19: (ty3 g a x4 x5)).eq_ind_r T (lift (S O) d x4) (\lambda (t0: T).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (THead (Flat Appl) t0 (lift (S O) d x0)) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T (THead (Flat Appl) t0 (THead (Bind Abst) (lift (S O) d x2) (lift (S O) (S d) x3))) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (let H20 \def eq_ind_r T x5 (\lambda (t: T).ty3 g a x4 t) H19 x2 (lift_inj x2 x5 (S O) d H18) in eq_ind T (lift (S O) d (THead (Bind Abst) x2 x3)) (\lambda (t0: T).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (THead (Flat Appl) (lift (S O) d x4) (lift (S O) d x0)) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T (THead (Flat Appl) (lift (S O) d x4) t0) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (eq_ind T (lift (S O) d (THead (Flat Appl) x4 x0)) (\lambda (t0: T).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T t0 (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T (THead (Flat Appl) (lift (S O) d x4) (lift (S O) d (THead (Bind Abst) x2 x3))) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (eq_ind T (lift (S O) d (THead (Flat Appl) x4 (THead (Bind Abst) x2 x3))) (\lambda (t0: T).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (lift (S O) d (THead (Flat Appl) x4 x0)) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T t0 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (ex3_2_intro T T (\lambda (y1: T).\lambda (_: T).eq T (lift (S O) d (THead (Flat Appl) x4 x0)) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S O) d (THead (Flat Appl) x4 (THead (Bind Abst) x2 x3))) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (THead (Flat Appl) x4 x0) (THead (Flat Appl) x4 (THead (Bind Abst) x2 x3)) (refl_equal T (lift (S O) d (THead (Flat Appl) x4 x0))) (refl_equal T (lift (S O) d (THead (Flat Appl) x4 (THead (Bind Abst) x2 x3)))) (ty3_appl g a x4 x2 H20 x0 x3 H14)) (THead (Flat Appl) (lift (S O) d x4) (lift (S O) d (THead (Bind Abst) x2 x3))) (lift_flat Appl x4 (THead (Bind Abst) x2 x3) (S O) d)) (THead (Flat Appl) (lift (S O) d x4) (lift (S O) d x0)) (lift_flat Appl x4 x0 (S O) d)) (THead (Bind Abst) (lift (S O) d x2) (lift (S O) (S d) x3)) (lift_bind Abst x2 x3 (S O) d)) w H17) H16) u H12) t H13) (lift_gen_bind Abst u t x1 (S O) d H8)) v H7) H6) (\lambda (c0: C).\lambda (t3: T).\lambda (t4: T).\lambda (H0: (ty3 g c0 t3 t4)).\lambda (H1: ((\forall (e: C).\forall (u: T).\forall (d: nat).(getl d c0 (CHead e (Bind Void) u)) \to \forall (a: C).(drop (S O) d c0 a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T t3 (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T t4 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)))).\lambda (t0: T).\lambda (H2: (ty3 g c0 t4 t0)).\lambda (H3: ((\forall (e: C).\forall (u: T).\forall (d: nat).(getl d c0 (CHead e (Bind Void) u)) \to \forall (a: C).(drop (S O) d c0 a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T t4 (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T t0 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)))).\lambda (e: C).\lambda (u: T).\lambda (d: nat).\lambda (H4: (getl d c0 (CHead e (Bind Void) u))).\lambda (a: C).\lambda (H5: (drop (S O) d c0 a)).let H6 \def H3 e u d H4 a H5 in ex3_2_ind T T (\lambda (y1: T).\lambda (_: T).eq T t4 (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T t0 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (THead (Flat Cast) t4 t3) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T t4 (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x0: T).\lambda (x1: T).\lambda (H7: (eq T t4 (lift (S O) d x0))).\lambda (H8: (eq T t0 (lift (S O) d x1))).\lambda (H9: (ty3 g a x0 x1)).let H10 \def eq_ind T t0 (\lambda (t: T).ty3 g c0 t4 t) H2 (lift (S O) d x1) H8 in let H11 \def eq_ind T t4 (\lambda (t: T).ty3 g c0 t (lift (S O) d x1)) H10 (lift (S O) d x0) H7 in let H12 \def eq_ind T t4 (\lambda (t: T).\forall (e: C).\forall (u: T).\forall (d: nat).(getl d c0 (CHead e (Bind Void) u)) \to \forall (a: C).(drop (S O) d c0 a) \to ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T t3 (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T t (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) H1 (lift (S O) d x0) H7 in let H13 \def eq_ind T t4 (\lambda (t: T).ty3 g c0 t3 t) H0 (lift (S O) d x0) H7 in eq_ind_r T (lift (S O) d x0) (\lambda (t: T).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (THead (Flat Cast) t t3) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T t (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (let H14 \def H12 e u d H4 a H5 in ex3_2_ind T T (\lambda (y1: T).\lambda (_: T).eq T t3 (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S O) d x0) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (THead (Flat Cast) (lift (S O) d x0) t3) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S O) d x0) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (\lambda (x2: T).\lambda (x3: T).\lambda (H15: (eq T t3 (lift (S O) d x2))).\lambda (H16: (eq T (lift (S O) d x0) (lift (S O) d x3))).\lambda (H17: (ty3 g a x2 x3)).let H18 \def eq_ind T t3 (\lambda (t: T).ty3 g c0 t (lift (S O) d x0)) H13 (lift (S O) d x2) H15 in eq_ind_r T (lift (S O) d x2) (\lambda (t: T).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T (THead (Flat Cast) (lift (S O) d x0) t) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S O) d x0) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (let H19 \def eq_ind_r T x3 (\lambda (t: T).ty3 g a x2 t) H17 x0 (lift_inj x0 x3 (S O) d H16) in eq_ind T (lift (S O) d (THead (Flat Cast) x0 x2)) (\lambda (t: T).ex3_2 T T (\lambda (y1: T).\lambda (_: T).eq T t (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S O) d x0) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2)) (ex3_2_intro T T (\lambda (y1: T).\lambda (_: T).eq T (lift (S O) d (THead (Flat Cast) x0 x2)) (lift (S O) d y1)) (\lambda (_: T).\lambda (y2: T).eq T (lift (S O) d x0) (lift (S O) d y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g a y1 y2) (THead (Flat Cast) x0 x2) x0 (refl_equal T (lift (S O) d (THead (Flat Cast) x0 x2))) (refl_equal T (lift (S O) d x0)) (ty3_cast g a x2 x0 H19 x1 H9)) (THead (Flat Cast) (lift (S O) d x0) (lift (S O) d x2)) (lift_flat Cast x0 x2 (S O) d)) t3 H15) H14) t4 H7) H6) c t1 t2 H.
+
+inductive csub3 (g:G): C \to C \to Prop \def
+| csub3_sort: \forall (n: nat).csub3 g (CSort n) (CSort n)
+| csub3_head: \forall (c1: C).\forall (c2: C).(csub3 g c1 c2) \to \forall (k: K).\forall (u: T).csub3 g (CHead c1 k u) (CHead c2 k u)
+| csub3_void: \forall (c1: C).\forall (c2: C).(csub3 g c1 c2) \to \forall (b: B).(not (eq B b Void)) \to \forall (u1: T).\forall (u2: T).csub3 g (CHead c1 (Bind Void) u1) (CHead c2 (Bind b) u2)
+| csub3_abst: \forall (c1: C).\forall (c2: C).(csub3 g c1 c2) \to \forall (u: T).\forall (t: T).(ty3 g c2 u t) \to csub3 g (CHead c1 (Bind Abst) t) (CHead c2 (Bind Abbr) u).
+
+theorem csub3_gen_abbr: \forall (g: G).\forall (e1: C).\forall (c2: C).\forall (v: T).(csub3 g (CHead e1 (Bind Abbr) v) c2) \to ex2 C (\lambda (e2: C).eq C c2 (CHead e2 (Bind Abbr) v)) (\lambda (e2: C).csub3 g e1 e2) \def \lambda (g: G).\lambda (e1: C).\lambda (c2: C).\lambda (v: T).\lambda (H: (csub3 g (CHead e1 (Bind Abbr) v) c2)).let H0 \def match H return (\lambda (c: C).\lambda (c0: C).(eq C c (CHead e1 (Bind Abbr) v)) \to (eq C c0 c2) \to ex2 C (\lambda (e2: C).eq C c2 (CHead e2 (Bind Abbr) v)) (\lambda (e2: C).csub3 g e1 e2)) with [(csub3_sort n) \Rightarrow (\lambda (H0: (eq C (CSort n) (CHead e1 (Bind Abbr) v))).\lambda (H1: (eq C (CSort n) c2)).(let H2 \def eq_ind C (CSort n) (\lambda (e: C).match e return (Prop) with [(CSort _) \Rightarrow True | (CHead _ _ _) \Rightarrow False]) I (CHead e1 (Bind Abbr) v) H0 in False_ind ((eq C (CSort n) c2) \to ex2 C (\lambda (e2: C).eq C c2 (CHead e2 (Bind Abbr) v)) (\lambda (e2: C).csub3 g e1 e2)) H2) H1) | (csub3_head c1 c0 H0 k u) \Rightarrow (\lambda (H1: (eq C (CHead c1 k u) (CHead e1 (Bind Abbr) v))).\lambda (H2: (eq C (CHead c0 k u) c2)).(let H3 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead c1 k u) (CHead e1 (Bind Abbr) v) H1 in (let H4 \def f_equal C K (\lambda (e: C).match e return K with [(CSort _) \Rightarrow k | (CHead _ k _) \Rightarrow k]) (CHead c1 k u) (CHead e1 (Bind Abbr) v) H1 in (let H5 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c1 | (CHead c _ _) \Rightarrow c]) (CHead c1 k u) (CHead e1 (Bind Abbr) v) H1 in eq_ind C e1 (\lambda (c: C).(eq K k (Bind Abbr)) \to (eq T u v) \to (eq C (CHead c0 k u) c2) \to (csub3 g c c0) \to ex2 C (\lambda (e2: C).eq C c2 (CHead e2 (Bind Abbr) v)) (\lambda (e2: C).csub3 g e1 e2)) (\lambda (H6: (eq K k (Bind Abbr))).eq_ind K (Bind Abbr) (\lambda (k0: K).(eq T u v) \to (eq C (CHead c0 k0 u) c2) \to (csub3 g e1 c0) \to ex2 C (\lambda (e2: C).eq C c2 (CHead e2 (Bind Abbr) v)) (\lambda (e2: C).csub3 g e1 e2)) (\lambda (H7: (eq T u v)).eq_ind T v (\lambda (t: T).(eq C (CHead c0 (Bind Abbr) t) c2) \to (csub3 g e1 c0) \to ex2 C (\lambda (e2: C).eq C c2 (CHead e2 (Bind Abbr) v)) (\lambda (e2: C).csub3 g e1 e2)) (\lambda (H8: (eq C (CHead c0 (Bind Abbr) v) c2)).eq_ind C (CHead c0 (Bind Abbr) v) (\lambda (c: C).(csub3 g e1 c0) \to ex2 C (\lambda (e2: C).eq C c (CHead e2 (Bind Abbr) v)) (\lambda (e2: C).csub3 g e1 e2)) (\lambda (H9: (csub3 g e1 c0)).let H10 \def eq_ind_r C c2 (\lambda (c: C).csub3 g (CHead e1 (Bind Abbr) v) c) H (CHead c0 (Bind Abbr) v) H8 in ex_intro2 C (\lambda (e2: C).eq C (CHead c0 (Bind Abbr) v) (CHead e2 (Bind Abbr) v)) (\lambda (e2: C).csub3 g e1 e2) c0 (refl_equal C (CHead c0 (Bind Abbr) v)) H9) c2 H8) u (sym_eq T u v H7)) k (sym_eq K k (Bind Abbr) H6)) c1 (sym_eq C c1 e1 H5)) H4) H3) H2 H0) | (csub3_void c1 c0 H0 b H1 u1 u2) \Rightarrow (\lambda (H2: (eq C (CHead c1 (Bind Void) u1) (CHead e1 (Bind Abbr) v))).\lambda (H3: (eq C (CHead c0 (Bind b) u2) c2)).(let H4 \def eq_ind C (CHead c1 (Bind Void) u1) (\lambda (e: C).match e return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow False | Abst \Rightarrow False | Void \Rightarrow True]) | (Flat _) \Rightarrow False])]) I (CHead e1 (Bind Abbr) v) H2 in False_ind ((eq C (CHead c0 (Bind b) u2) c2) \to (csub3 g c1 c0) \to (not (eq B b Void)) \to ex2 C (\lambda (e2: C).eq C c2 (CHead e2 (Bind Abbr) v)) (\lambda (e2: C).csub3 g e1 e2)) H4) H3 H0 H1) | (csub3_abst c1 c0 H0 u t H1) \Rightarrow (\lambda (H2: (eq C (CHead c1 (Bind Abst) t) (CHead e1 (Bind Abbr) v))).\lambda (H3: (eq C (CHead c0 (Bind Abbr) u) c2)).(let H4 \def eq_ind C (CHead c1 (Bind Abst) t) (\lambda (e: C).match e return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow False | Abst \Rightarrow True | Void \Rightarrow False]) | (Flat _) \Rightarrow False])]) I (CHead e1 (Bind Abbr) v) H2 in False_ind ((eq C (CHead c0 (Bind Abbr) u) c2) \to (csub3 g c1 c0) \to (ty3 g c0 u t) \to ex2 C (\lambda (e2: C).eq C c2 (CHead e2 (Bind Abbr) v)) (\lambda (e2: C).csub3 g e1 e2)) H4) H3 H0 H1)] in H0 (refl_equal C (CHead e1 (Bind Abbr) v)) (refl_equal C c2).
+
+theorem csub3_gen_abst: \forall (g: G).\forall (e1: C).\forall (c2: C).\forall (v1: T).(csub3 g (CHead e1 (Bind Abst) v1) c2) \to or (ex2 C (\lambda (e2: C).eq C c2 (CHead e2 (Bind Abst) v1)) (\lambda (e2: C).csub3 g e1 e2)) (ex3_2 C T (\lambda (e2: C).\lambda (v2: T).eq C c2 (CHead e2 (Bind Abbr) v2)) (\lambda (e2: C).\lambda (_: T).csub3 g e1 e2) (\lambda (e2: C).\lambda (v2: T).ty3 g e2 v2 v1)) \def \lambda (g: G).\lambda (e1: C).\lambda (c2: C).\lambda (v1: T).\lambda (H: (csub3 g (CHead e1 (Bind Abst) v1) c2)).let H0 \def match H return (\lambda (c: C).\lambda (c0: C).(eq C c (CHead e1 (Bind Abst) v1)) \to (eq C c0 c2) \to or (ex2 C (\lambda (e2: C).eq C c2 (CHead e2 (Bind Abst) v1)) (\lambda (e2: C).csub3 g e1 e2)) (ex3_2 C T (\lambda (e2: C).\lambda (v2: T).eq C c2 (CHead e2 (Bind Abbr) v2)) (\lambda (e2: C).\lambda (_: T).csub3 g e1 e2) (\lambda (e2: C).\lambda (v2: T).ty3 g e2 v2 v1))) with [(csub3_sort n) \Rightarrow (\lambda (H0: (eq C (CSort n) (CHead e1 (Bind Abst) v1))).\lambda (H1: (eq C (CSort n) c2)).(let H2 \def eq_ind C (CSort n) (\lambda (e: C).match e return (Prop) with [(CSort _) \Rightarrow True | (CHead _ _ _) \Rightarrow False]) I (CHead e1 (Bind Abst) v1) H0 in False_ind ((eq C (CSort n) c2) \to or (ex2 C (\lambda (e2: C).eq C c2 (CHead e2 (Bind Abst) v1)) (\lambda (e2: C).csub3 g e1 e2)) (ex3_2 C T (\lambda (e2: C).\lambda (v2: T).eq C c2 (CHead e2 (Bind Abbr) v2)) (\lambda (e2: C).\lambda (_: T).csub3 g e1 e2) (\lambda (e2: C).\lambda (v2: T).ty3 g e2 v2 v1))) H2) H1) | (csub3_head c1 c0 H0 k u) \Rightarrow (\lambda (H1: (eq C (CHead c1 k u) (CHead e1 (Bind Abst) v1))).\lambda (H2: (eq C (CHead c0 k u) c2)).(let H3 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead c1 k u) (CHead e1 (Bind Abst) v1) H1 in (let H4 \def f_equal C K (\lambda (e: C).match e return K with [(CSort _) \Rightarrow k | (CHead _ k _) \Rightarrow k]) (CHead c1 k u) (CHead e1 (Bind Abst) v1) H1 in (let H5 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c1 | (CHead c _ _) \Rightarrow c]) (CHead c1 k u) (CHead e1 (Bind Abst) v1) H1 in eq_ind C e1 (\lambda (c: C).(eq K k (Bind Abst)) \to (eq T u v1) \to (eq C (CHead c0 k u) c2) \to (csub3 g c c0) \to or (ex2 C (\lambda (e2: C).eq C c2 (CHead e2 (Bind Abst) v1)) (\lambda (e2: C).csub3 g e1 e2)) (ex3_2 C T (\lambda (e2: C).\lambda (v2: T).eq C c2 (CHead e2 (Bind Abbr) v2)) (\lambda (e2: C).\lambda (_: T).csub3 g e1 e2) (\lambda (e2: C).\lambda (v2: T).ty3 g e2 v2 v1))) (\lambda (H6: (eq K k (Bind Abst))).eq_ind K (Bind Abst) (\lambda (k0: K).(eq T u v1) \to (eq C (CHead c0 k0 u) c2) \to (csub3 g e1 c0) \to or (ex2 C (\lambda (e2: C).eq C c2 (CHead e2 (Bind Abst) v1)) (\lambda (e2: C).csub3 g e1 e2)) (ex3_2 C T (\lambda (e2: C).\lambda (v2: T).eq C c2 (CHead e2 (Bind Abbr) v2)) (\lambda (e2: C).\lambda (_: T).csub3 g e1 e2) (\lambda (e2: C).\lambda (v2: T).ty3 g e2 v2 v1))) (\lambda (H7: (eq T u v1)).eq_ind T v1 (\lambda (t: T).(eq C (CHead c0 (Bind Abst) t) c2) \to (csub3 g e1 c0) \to or (ex2 C (\lambda (e2: C).eq C c2 (CHead e2 (Bind Abst) v1)) (\lambda (e2: C).csub3 g e1 e2)) (ex3_2 C T (\lambda (e2: C).\lambda (v2: T).eq C c2 (CHead e2 (Bind Abbr) v2)) (\lambda (e2: C).\lambda (_: T).csub3 g e1 e2) (\lambda (e2: C).\lambda (v2: T).ty3 g e2 v2 v1))) (\lambda (H8: (eq C (CHead c0 (Bind Abst) v1) c2)).eq_ind C (CHead c0 (Bind Abst) v1) (\lambda (c: C).(csub3 g e1 c0) \to or (ex2 C (\lambda (e2: C).eq C c (CHead e2 (Bind Abst) v1)) (\lambda (e2: C).csub3 g e1 e2)) (ex3_2 C T (\lambda (e2: C).\lambda (v2: T).eq C c (CHead e2 (Bind Abbr) v2)) (\lambda (e2: C).\lambda (_: T).csub3 g e1 e2) (\lambda (e2: C).\lambda (v2: T).ty3 g e2 v2 v1))) (\lambda (H9: (csub3 g e1 c0)).let H10 \def eq_ind_r C c2 (\lambda (c: C).csub3 g (CHead e1 (Bind Abst) v1) c) H (CHead c0 (Bind Abst) v1) H8 in or_introl (ex2 C (\lambda (e2: C).eq C (CHead c0 (Bind Abst) v1) (CHead e2 (Bind Abst) v1)) (\lambda (e2: C).csub3 g e1 e2)) (ex3_2 C T (\lambda (e2: C).\lambda (v2: T).eq C (CHead c0 (Bind Abst) v1) (CHead e2 (Bind Abbr) v2)) (\lambda (e2: C).\lambda (_: T).csub3 g e1 e2) (\lambda (e2: C).\lambda (v2: T).ty3 g e2 v2 v1)) (ex_intro2 C (\lambda (e2: C).eq C (CHead c0 (Bind Abst) v1) (CHead e2 (Bind Abst) v1)) (\lambda (e2: C).csub3 g e1 e2) c0 (refl_equal C (CHead c0 (Bind Abst) v1)) H9)) c2 H8) u (sym_eq T u v1 H7)) k (sym_eq K k (Bind Abst) H6)) c1 (sym_eq C c1 e1 H5)) H4) H3) H2 H0) | (csub3_void c1 c0 H0 b H1 u1 u2) \Rightarrow (\lambda (H2: (eq C (CHead c1 (Bind Void) u1) (CHead e1 (Bind Abst) v1))).\lambda (H3: (eq C (CHead c0 (Bind b) u2) c2)).(let H4 \def eq_ind C (CHead c1 (Bind Void) u1) (\lambda (e: C).match e return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow False | Abst \Rightarrow False | Void \Rightarrow True]) | (Flat _) \Rightarrow False])]) I (CHead e1 (Bind Abst) v1) H2 in False_ind ((eq C (CHead c0 (Bind b) u2) c2) \to (csub3 g c1 c0) \to (not (eq B b Void)) \to or (ex2 C (\lambda (e2: C).eq C c2 (CHead e2 (Bind Abst) v1)) (\lambda (e2: C).csub3 g e1 e2)) (ex3_2 C T (\lambda (e2: C).\lambda (v2: T).eq C c2 (CHead e2 (Bind Abbr) v2)) (\lambda (e2: C).\lambda (_: T).csub3 g e1 e2) (\lambda (e2: C).\lambda (v2: T).ty3 g e2 v2 v1))) H4) H3 H0 H1) | (csub3_abst c1 c0 H0 u t H1) \Rightarrow (\lambda (H2: (eq C (CHead c1 (Bind Abst) t) (CHead e1 (Bind Abst) v1))).\lambda (H3: (eq C (CHead c0 (Bind Abbr) u) c2)).(let H4 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow t | (CHead _ _ t) \Rightarrow t]) (CHead c1 (Bind Abst) t) (CHead e1 (Bind Abst) v1) H2 in (let H5 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c1 | (CHead c _ _) \Rightarrow c]) (CHead c1 (Bind Abst) t) (CHead e1 (Bind Abst) v1) H2 in eq_ind C e1 (\lambda (c: C).(eq T t v1) \to (eq C (CHead c0 (Bind Abbr) u) c2) \to (csub3 g c c0) \to (ty3 g c0 u t) \to or (ex2 C (\lambda (e2: C).eq C c2 (CHead e2 (Bind Abst) v1)) (\lambda (e2: C).csub3 g e1 e2)) (ex3_2 C T (\lambda (e2: C).\lambda (v2: T).eq C c2 (CHead e2 (Bind Abbr) v2)) (\lambda (e2: C).\lambda (_: T).csub3 g e1 e2) (\lambda (e2: C).\lambda (v2: T).ty3 g e2 v2 v1))) (\lambda (H6: (eq T t v1)).eq_ind T v1 (\lambda (t0: T).(eq C (CHead c0 (Bind Abbr) u) c2) \to (csub3 g e1 c0) \to (ty3 g c0 u t0) \to or (ex2 C (\lambda (e2: C).eq C c2 (CHead e2 (Bind Abst) v1)) (\lambda (e2: C).csub3 g e1 e2)) (ex3_2 C T (\lambda (e2: C).\lambda (v2: T).eq C c2 (CHead e2 (Bind Abbr) v2)) (\lambda (e2: C).\lambda (_: T).csub3 g e1 e2) (\lambda (e2: C).\lambda (v2: T).ty3 g e2 v2 v1))) (\lambda (H7: (eq C (CHead c0 (Bind Abbr) u) c2)).eq_ind C (CHead c0 (Bind Abbr) u) (\lambda (c: C).(csub3 g e1 c0) \to (ty3 g c0 u v1) \to or (ex2 C (\lambda (e2: C).eq C c (CHead e2 (Bind Abst) v1)) (\lambda (e2: C).csub3 g e1 e2)) (ex3_2 C T (\lambda (e2: C).\lambda (v2: T).eq C c (CHead e2 (Bind Abbr) v2)) (\lambda (e2: C).\lambda (_: T).csub3 g e1 e2) (\lambda (e2: C).\lambda (v2: T).ty3 g e2 v2 v1))) (\lambda (H8: (csub3 g e1 c0)).\lambda (H9: (ty3 g c0 u v1)).let H10 \def eq_ind_r C c2 (\lambda (c: C).csub3 g (CHead e1 (Bind Abst) v1) c) H (CHead c0 (Bind Abbr) u) H7 in or_intror (ex2 C (\lambda (e2: C).eq C (CHead c0 (Bind Abbr) u) (CHead e2 (Bind Abst) v1)) (\lambda (e2: C).csub3 g e1 e2)) (ex3_2 C T (\lambda (e2: C).\lambda (v2: T).eq C (CHead c0 (Bind Abbr) u) (CHead e2 (Bind Abbr) v2)) (\lambda (e2: C).\lambda (_: T).csub3 g e1 e2) (\lambda (e2: C).\lambda (v2: T).ty3 g e2 v2 v1)) (ex3_2_intro C T (\lambda (e2: C).\lambda (v2: T).eq C (CHead c0 (Bind Abbr) u) (CHead e2 (Bind Abbr) v2)) (\lambda (e2: C).\lambda (_: T).csub3 g e1 e2) (\lambda (e2: C).\lambda (v2: T).ty3 g e2 v2 v1) c0 u (refl_equal C (CHead c0 (Bind Abbr) u)) H8 H9)) c2 H7) t (sym_eq T t v1 H6)) c1 (sym_eq C c1 e1 H5)) H4) H3 H0 H1)] in H0 (refl_equal C (CHead e1 (Bind Abst) v1)) (refl_equal C c2).
+
+theorem csub3_gen_bind: \forall (g: G).\forall (b1: B).\forall (e1: C).\forall (c2: C).\forall (v1: T).(csub3 g (CHead e1 (Bind b1) v1) c2) \to ex2_3 B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C c2 (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csub3 g e1 e2) \def \lambda (g: G).\lambda (b1: B).\lambda (e1: C).\lambda (c2: C).\lambda (v1: T).\lambda (H: (csub3 g (CHead e1 (Bind b1) v1) c2)).let H0 \def match H return (\lambda (c: C).\lambda (c0: C).(eq C c (CHead e1 (Bind b1) v1)) \to (eq C c0 c2) \to ex2_3 B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C c2 (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csub3 g e1 e2)) with [(csub3_sort n) \Rightarrow (\lambda (H0: (eq C (CSort n) (CHead e1 (Bind b1) v1))).\lambda (H1: (eq C (CSort n) c2)).(let H2 \def eq_ind C (CSort n) (\lambda (e: C).match e return (Prop) with [(CSort _) \Rightarrow True | (CHead _ _ _) \Rightarrow False]) I (CHead e1 (Bind b1) v1) H0 in False_ind ((eq C (CSort n) c2) \to ex2_3 B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C c2 (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csub3 g e1 e2)) H2) H1) | (csub3_head c1 c0 H0 k u) \Rightarrow (\lambda (H1: (eq C (CHead c1 k u) (CHead e1 (Bind b1) v1))).\lambda (H2: (eq C (CHead c0 k u) c2)).(let H3 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead c1 k u) (CHead e1 (Bind b1) v1) H1 in (let H4 \def f_equal C K (\lambda (e: C).match e return K with [(CSort _) \Rightarrow k | (CHead _ k _) \Rightarrow k]) (CHead c1 k u) (CHead e1 (Bind b1) v1) H1 in (let H5 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c1 | (CHead c _ _) \Rightarrow c]) (CHead c1 k u) (CHead e1 (Bind b1) v1) H1 in eq_ind C e1 (\lambda (c: C).(eq K k (Bind b1)) \to (eq T u v1) \to (eq C (CHead c0 k u) c2) \to (csub3 g c c0) \to ex2_3 B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C c2 (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csub3 g e1 e2)) (\lambda (H6: (eq K k (Bind b1))).eq_ind K (Bind b1) (\lambda (k0: K).(eq T u v1) \to (eq C (CHead c0 k0 u) c2) \to (csub3 g e1 c0) \to ex2_3 B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C c2 (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csub3 g e1 e2)) (\lambda (H7: (eq T u v1)).eq_ind T v1 (\lambda (t: T).(eq C (CHead c0 (Bind b1) t) c2) \to (csub3 g e1 c0) \to ex2_3 B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C c2 (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csub3 g e1 e2)) (\lambda (H8: (eq C (CHead c0 (Bind b1) v1) c2)).eq_ind C (CHead c0 (Bind b1) v1) (\lambda (c: C).(csub3 g e1 c0) \to ex2_3 B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C c (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csub3 g e1 e2)) (\lambda (H9: (csub3 g e1 c0)).let H10 \def eq_ind_r C c2 (\lambda (c: C).csub3 g (CHead e1 (Bind b1) v1) c) H (CHead c0 (Bind b1) v1) H8 in ex2_3_intro B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C (CHead c0 (Bind b1) v1) (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csub3 g e1 e2) b1 c0 v1 (refl_equal C (CHead c0 (Bind b1) v1)) H9) c2 H8) u (sym_eq T u v1 H7)) k (sym_eq K k (Bind b1) H6)) c1 (sym_eq C c1 e1 H5)) H4) H3) H2 H0) | (csub3_void c1 c0 H0 b H1 u1 u2) \Rightarrow (\lambda (H2: (eq C (CHead c1 (Bind Void) u1) (CHead e1 (Bind b1) v1))).\lambda (H3: (eq C (CHead c0 (Bind b) u2) c2)).(let H4 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u1 | (CHead _ _ t) \Rightarrow t]) (CHead c1 (Bind Void) u1) (CHead e1 (Bind b1) v1) H2 in (let H5 \def f_equal C B (\lambda (e: C).match e return B with [(CSort _) \Rightarrow Void | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Void])]) (CHead c1 (Bind Void) u1) (CHead e1 (Bind b1) v1) H2 in (let H6 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c1 | (CHead c _ _) \Rightarrow c]) (CHead c1 (Bind Void) u1) (CHead e1 (Bind b1) v1) H2 in eq_ind C e1 (\lambda (c: C).(eq B Void b1) \to (eq T u1 v1) \to (eq C (CHead c0 (Bind b) u2) c2) \to (csub3 g c c0) \to (not (eq B b Void)) \to ex2_3 B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C c2 (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csub3 g e1 e2)) (\lambda (H7: (eq B Void b1)).eq_ind B Void (\lambda (_: B).(eq T u1 v1) \to (eq C (CHead c0 (Bind b) u2) c2) \to (csub3 g e1 c0) \to (not (eq B b Void)) \to ex2_3 B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C c2 (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csub3 g e1 e2)) (\lambda (H8: (eq T u1 v1)).eq_ind T v1 (\lambda (_: T).(eq C (CHead c0 (Bind b) u2) c2) \to (csub3 g e1 c0) \to (not (eq B b Void)) \to ex2_3 B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C c2 (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csub3 g e1 e2)) (\lambda (H9: (eq C (CHead c0 (Bind b) u2) c2)).eq_ind C (CHead c0 (Bind b) u2) (\lambda (c: C).(csub3 g e1 c0) \to (not (eq B b Void)) \to ex2_3 B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C c (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csub3 g e1 e2)) (\lambda (H10: (csub3 g e1 c0)).\lambda (_: (not (eq B b Void))).let H12 \def eq_ind_r C c2 (\lambda (c: C).csub3 g (CHead e1 (Bind b1) v1) c) H (CHead c0 (Bind b) u2) H9 in let H13 \def eq_ind_r B b1 (\lambda (b0: B).csub3 g (CHead e1 (Bind b0) v1) (CHead c0 (Bind b) u2)) H12 Void H7 in ex2_3_intro B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C (CHead c0 (Bind b) u2) (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csub3 g e1 e2) b c0 u2 (refl_equal C (CHead c0 (Bind b) u2)) H10) c2 H9) u1 (sym_eq T u1 v1 H8)) b1 H7) c1 (sym_eq C c1 e1 H6)) H5) H4) H3 H0 H1) | (csub3_abst c1 c0 H0 u t H1) \Rightarrow (\lambda (H2: (eq C (CHead c1 (Bind Abst) t) (CHead e1 (Bind b1) v1))).\lambda (H3: (eq C (CHead c0 (Bind Abbr) u) c2)).(let H4 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow t | (CHead _ _ t) \Rightarrow t]) (CHead c1 (Bind Abst) t) (CHead e1 (Bind b1) v1) H2 in (let H5 \def f_equal C B (\lambda (e: C).match e return B with [(CSort _) \Rightarrow Abst | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abst])]) (CHead c1 (Bind Abst) t) (CHead e1 (Bind b1) v1) H2 in (let H6 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c1 | (CHead c _ _) \Rightarrow c]) (CHead c1 (Bind Abst) t) (CHead e1 (Bind b1) v1) H2 in eq_ind C e1 (\lambda (c: C).(eq B Abst b1) \to (eq T t v1) \to (eq C (CHead c0 (Bind Abbr) u) c2) \to (csub3 g c c0) \to (ty3 g c0 u t) \to ex2_3 B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C c2 (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csub3 g e1 e2)) (\lambda (H7: (eq B Abst b1)).eq_ind B Abst (\lambda (_: B).(eq T t v1) \to (eq C (CHead c0 (Bind Abbr) u) c2) \to (csub3 g e1 c0) \to (ty3 g c0 u t) \to ex2_3 B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C c2 (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csub3 g e1 e2)) (\lambda (H8: (eq T t v1)).eq_ind T v1 (\lambda (t0: T).(eq C (CHead c0 (Bind Abbr) u) c2) \to (csub3 g e1 c0) \to (ty3 g c0 u t0) \to ex2_3 B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C c2 (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csub3 g e1 e2)) (\lambda (H9: (eq C (CHead c0 (Bind Abbr) u) c2)).eq_ind C (CHead c0 (Bind Abbr) u) (\lambda (c: C).(csub3 g e1 c0) \to (ty3 g c0 u v1) \to ex2_3 B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C c (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csub3 g e1 e2)) (\lambda (H10: (csub3 g e1 c0)).\lambda (_: (ty3 g c0 u v1)).let H12 \def eq_ind_r C c2 (\lambda (c: C).csub3 g (CHead e1 (Bind b1) v1) c) H (CHead c0 (Bind Abbr) u) H9 in let H13 \def eq_ind_r B b1 (\lambda (b: B).csub3 g (CHead e1 (Bind b) v1) (CHead c0 (Bind Abbr) u)) H12 Abst H7 in ex2_3_intro B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C (CHead c0 (Bind Abbr) u) (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csub3 g e1 e2) Abbr c0 u (refl_equal C (CHead c0 (Bind Abbr) u)) H10) c2 H9) t (sym_eq T t v1 H8)) b1 H7) c1 (sym_eq C c1 e1 H6)) H5) H4) H3 H0 H1)] in H0 (refl_equal C (CHead e1 (Bind b1) v1)) (refl_equal C c2).
+
+theorem csub3_refl: \forall (g: G).\forall (c: C).csub3 g c c \def \lambda (g: G).\lambda (c: C).C_ind (\lambda (c0: C).csub3 g c0 c0) (\lambda (n: nat).csub3_sort g n) (\lambda (c0: C).\lambda (H: (csub3 g c0 c0)).\lambda (k: K).\lambda (t: T).csub3_head g c0 c0 H k t) c.
+
+theorem csub3_clear_conf: \forall (g: G).\forall (c1: C).\forall (c2: C).(csub3 g c1 c2) \to \forall (e1: C).(clear c1 e1) \to ex2 C (\lambda (e2: C).csub3 g e1 e2) (\lambda (e2: C).clear c2 e2) \def \lambda (g: G).\lambda (c1: C).\lambda (c2: C).\lambda (H: (csub3 g c1 c2)).csub3_ind g (\lambda (c: C).\lambda (c0: C).\forall (e1: C).(clear c e1) \to ex2 C (\lambda (e2: C).csub3 g e1 e2) (\lambda (e2: C).clear c0 e2)) (\lambda (n: nat).\lambda (e1: C).\lambda (H0: (clear (CSort n) e1)).clear_gen_sort e1 n H0 (ex2 C (\lambda (e2: C).csub3 g e1 e2) (\lambda (e2: C).clear (CSort n) e2))) (\lambda (c3: C).\lambda (c4: C).\lambda (H0: (csub3 g c3 c4)).\lambda (H1: ((\forall (e1: C).(clear c3 e1) \to ex2 C (\lambda (e2: C).csub3 g e1 e2) (\lambda (e2: C).clear c4 e2)))).\lambda (k: K).\lambda (u: T).\lambda (e1: C).\lambda (H2: (clear (CHead c3 k u) e1)).(match k return (\lambda (k0: K).(clear (CHead c3 k0 u) e1) \to ex2 C (\lambda (e2: C).csub3 g e1 e2) (\lambda (e2: C).clear (CHead c4 k0 u) e2)) with [(Bind b) \Rightarrow (\lambda (H3: (clear (CHead c3 (Bind b) u) e1)).eq_ind_r C (CHead c3 (Bind b) u) (\lambda (c: C).ex2 C (\lambda (e2: C).csub3 g c e2) (\lambda (e2: C).clear (CHead c4 (Bind b) u) e2)) (ex_intro2 C (\lambda (e2: C).csub3 g (CHead c3 (Bind b) u) e2) (\lambda (e2: C).clear (CHead c4 (Bind b) u) e2) (CHead c4 (Bind b) u) (csub3_head g c3 c4 H0 (Bind b) u) (clear_bind b c4 u)) e1 (clear_gen_bind b c3 e1 u H3)) | (Flat f) \Rightarrow (\lambda (H3: (clear (CHead c3 (Flat f) u) e1)).let H4 \def H1 e1 (clear_gen_flat f c3 e1 u H3) in ex2_ind C (\lambda (e2: C).csub3 g e1 e2) (\lambda (e2: C).clear c4 e2) (ex2 C (\lambda (e2: C).csub3 g e1 e2) (\lambda (e2: C).clear (CHead c4 (Flat f) u) e2)) (\lambda (x: C).\lambda (H5: (csub3 g e1 x)).\lambda (H6: (clear c4 x)).ex_intro2 C (\lambda (e2: C).csub3 g e1 e2) (\lambda (e2: C).clear (CHead c4 (Flat f) u) e2) x H5 (clear_flat c4 x H6 f u)) H4)]) H2) (\lambda (c3: C).\lambda (c4: C).\lambda (H0: (csub3 g c3 c4)).\lambda (_: ((\forall (e1: C).(clear c3 e1) \to ex2 C (\lambda (e2: C).csub3 g e1 e2) (\lambda (e2: C).clear c4 e2)))).\lambda (b: B).\lambda (H2: (not (eq B b Void))).\lambda (u1: T).\lambda (u2: T).\lambda (e1: C).\lambda (H3: (clear (CHead c3 (Bind Void) u1) e1)).eq_ind_r C (CHead c3 (Bind Void) u1) (\lambda (c: C).ex2 C (\lambda (e2: C).csub3 g c e2) (\lambda (e2: C).clear (CHead c4 (Bind b) u2) e2)) (ex_intro2 C (\lambda (e2: C).csub3 g (CHead c3 (Bind Void) u1) e2) (\lambda (e2: C).clear (CHead c4 (Bind b) u2) e2) (CHead c4 (Bind b) u2) (csub3_void g c3 c4 H0 b H2 u1 u2) (clear_bind b c4 u2)) e1 (clear_gen_bind Void c3 e1 u1 H3)) (\lambda (c3: C).\lambda (c4: C).\lambda (H0: (csub3 g c3 c4)).\lambda (_: ((\forall (e1: C).(clear c3 e1) \to ex2 C (\lambda (e2: C).csub3 g e1 e2) (\lambda (e2: C).clear c4 e2)))).\lambda (u: T).\lambda (t: T).\lambda (H2: (ty3 g c4 u t)).\lambda (e1: C).\lambda (H3: (clear (CHead c3 (Bind Abst) t) e1)).eq_ind_r C (CHead c3 (Bind Abst) t) (\lambda (c: C).ex2 C (\lambda (e2: C).csub3 g c e2) (\lambda (e2: C).clear (CHead c4 (Bind Abbr) u) e2)) (ex_intro2 C (\lambda (e2: C).csub3 g (CHead c3 (Bind Abst) t) e2) (\lambda (e2: C).clear (CHead c4 (Bind Abbr) u) e2) (CHead c4 (Bind Abbr) u) (csub3_abst g c3 c4 H0 u t H2) (clear_bind Abbr c4 u)) e1 (clear_gen_bind Abst c3 e1 t H3)) c1 c2 H.
+
+theorem csub3_drop_flat: \forall (g: G).\forall (f: F).\forall (n: nat).\forall (c1: C).\forall (c2: C).(csub3 g c1 c2) \to \forall (d1: C).\forall (u: T).(drop n O c1 (CHead d1 (Flat f) u)) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop n O c2 (CHead d2 (Flat f) u)) \def \lambda (g: G).\lambda (f: F).\lambda (n: nat).nat_ind (\lambda (n0: nat).\forall (c1: C).\forall (c2: C).(csub3 g c1 c2) \to \forall (d1: C).\forall (u: T).(drop n0 O c1 (CHead d1 (Flat f) u)) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop n0 O c2 (CHead d2 (Flat f) u))) (\lambda (c1: C).\lambda (c2: C).\lambda (H: (csub3 g c1 c2)).\lambda (d1: C).\lambda (u: T).\lambda (H0: (drop O O c1 (CHead d1 (Flat f) u))).let H1 \def eq_ind C c1 (\lambda (c: C).csub3 g c c2) H (CHead d1 (Flat f) u) (drop_gen_refl c1 (CHead d1 (Flat f) u) H0) in let H2 \def match H1 return (\lambda (c: C).\lambda (c0: C).(eq C c (CHead d1 (Flat f) u)) \to (eq C c0 c2) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O c2 (CHead d2 (Flat f) u))) with [(csub3_sort n) \Rightarrow (\lambda (H0: (eq C (CSort n) (CHead d1 (Flat f) u))).\lambda (H1: (eq C (CSort n) c2)).(let H2 \def eq_ind C (CSort n) (\lambda (e: C).match e return (Prop) with [(CSort _) \Rightarrow True | (CHead _ _ _) \Rightarrow False]) I (CHead d1 (Flat f) u) H0 in False_ind ((eq C (CSort n) c2) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O c2 (CHead d2 (Flat f) u))) H2) H1) | (csub3_head c1 c0 H0 k u0) \Rightarrow (\lambda (H1: (eq C (CHead c1 k u0) (CHead d1 (Flat f) u))).\lambda (H2: (eq C (CHead c0 k u0) c2)).(let H3 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u0 | (CHead _ _ t) \Rightarrow t]) (CHead c1 k u0) (CHead d1 (Flat f) u) H1 in (let H4 \def f_equal C K (\lambda (e: C).match e return K with [(CSort _) \Rightarrow k | (CHead _ k _) \Rightarrow k]) (CHead c1 k u0) (CHead d1 (Flat f) u) H1 in (let H5 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c1 | (CHead c _ _) \Rightarrow c]) (CHead c1 k u0) (CHead d1 (Flat f) u) H1 in eq_ind C d1 (\lambda (c: C).(eq K k (Flat f)) \to (eq T u0 u) \to (eq C (CHead c0 k u0) c2) \to (csub3 g c c0) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O c2 (CHead d2 (Flat f) u))) (\lambda (H6: (eq K k (Flat f))).eq_ind K (Flat f) (\lambda (k0: K).(eq T u0 u) \to (eq C (CHead c0 k0 u0) c2) \to (csub3 g d1 c0) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O c2 (CHead d2 (Flat f) u))) (\lambda (H7: (eq T u0 u)).eq_ind T u (\lambda (t: T).(eq C (CHead c0 (Flat f) t) c2) \to (csub3 g d1 c0) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O c2 (CHead d2 (Flat f) u))) (\lambda (H8: (eq C (CHead c0 (Flat f) u) c2)).eq_ind C (CHead c0 (Flat f) u) (\lambda (c: C).(csub3 g d1 c0) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O c (CHead d2 (Flat f) u))) (\lambda (H9: (csub3 g d1 c0)).ex_intro2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O (CHead c0 (Flat f) u) (CHead d2 (Flat f) u)) c0 H9 (drop_refl (CHead c0 (Flat f) u))) c2 H8) u0 (sym_eq T u0 u H7)) k (sym_eq K k (Flat f) H6)) c1 (sym_eq C c1 d1 H5)) H4) H3) H2 H0) | (csub3_void c1 c0 H0 b H1 u1 u2) \Rightarrow (\lambda (H2: (eq C (CHead c1 (Bind Void) u1) (CHead d1 (Flat f) u))).\lambda (H3: (eq C (CHead c0 (Bind b) u2) c2)).(let H4 \def eq_ind C (CHead c1 (Bind Void) u1) (\lambda (e: C).match e return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (CHead d1 (Flat f) u) H2 in False_ind ((eq C (CHead c0 (Bind b) u2) c2) \to (csub3 g c1 c0) \to (not (eq B b Void)) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O c2 (CHead d2 (Flat f) u))) H4) H3 H0 H1) | (csub3_abst c1 c0 H0 u0 t H1) \Rightarrow (\lambda (H2: (eq C (CHead c1 (Bind Abst) t) (CHead d1 (Flat f) u))).\lambda (H3: (eq C (CHead c0 (Bind Abbr) u0) c2)).(let H4 \def eq_ind C (CHead c1 (Bind Abst) t) (\lambda (e: C).match e return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (CHead d1 (Flat f) u) H2 in False_ind ((eq C (CHead c0 (Bind Abbr) u0) c2) \to (csub3 g c1 c0) \to (ty3 g c0 u0 t) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O c2 (CHead d2 (Flat f) u))) H4) H3 H0 H1)] in H2 (refl_equal C (CHead d1 (Flat f) u)) (refl_equal C c2)) (\lambda (n0: nat).\lambda (H: ((\forall (c1: C).\forall (c2: C).(csub3 g c1 c2) \to \forall (d1: C).\forall (u: T).(drop n0 O c1 (CHead d1 (Flat f) u)) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop n0 O c2 (CHead d2 (Flat f) u))))).\lambda (c1: C).\lambda (c2: C).\lambda (H0: (csub3 g c1 c2)).csub3_ind g (\lambda (c: C).\lambda (c0: C).\forall (d1: C).\forall (u: T).(drop (S n0) O c (CHead d1 (Flat f) u)) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O c0 (CHead d2 (Flat f) u))) (\lambda (n1: nat).\lambda (d1: C).\lambda (u: T).\lambda (H1: (drop (S n0) O (CSort n1) (CHead d1 (Flat f) u))).let H2 \def match H1 return (\lambda (n: nat).\lambda (n2: nat).\lambda (c: C).\lambda (c0: C).(eq nat n (S n0)) \to (eq nat n2 O) \to (eq C c (CSort n1)) \to (eq C c0 (CHead d1 (Flat f) u)) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CSort n1) (CHead d2 (Flat f) u))) with [(drop_refl c) \Rightarrow (\lambda (H1: (eq nat O (S n0))).\lambda (H2: (eq nat O O)).\lambda (H3: (eq C c (CSort n1))).\lambda (H4: (eq C c (CHead d1 (Flat f) u))).(let H5 \def eq_ind nat O (\lambda (e: nat).match e return (Prop) with [O \Rightarrow True | (S _) \Rightarrow False]) I (S n0) H1 in False_ind ((eq nat O O) \to (eq C c (CSort n1)) \to (eq C c (CHead d1 (Flat f) u)) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CSort n1) (CHead d2 (Flat f) u))) H5) H2 H3 H4) | (drop_drop k h c e H1 u0) \Rightarrow (\lambda (H2: (eq nat (S h) (S n0))).\lambda (H3: (eq nat O O)).\lambda (H4: (eq C (CHead c k u0) (CSort n1))).\lambda (H5: (eq C e (CHead d1 (Flat f) u))).(let H6 \def f_equal nat nat (\lambda (e0: nat).match e0 return nat with [O \Rightarrow h | (S n) \Rightarrow n]) (S h) (S n0) H2 in eq_ind nat n0 (\lambda (n: nat).(eq nat O O) \to (eq C (CHead c k u0) (CSort n1)) \to (eq C e (CHead d1 (Flat f) u)) \to (drop (r k n) O c e) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CSort n1) (CHead d2 (Flat f) u))) (\lambda (_: (eq nat O O)).\lambda (H8: (eq C (CHead c k u0) (CSort n1))).let H9 \def eq_ind C (CHead c k u0) (\lambda (e0: C).match e0 return (Prop) with [(CSort _) \Rightarrow False | (CHead _ _ _) \Rightarrow True]) I (CSort n1) H8 in False_ind ((eq C e (CHead d1 (Flat f) u)) \to (drop (r k n0) O c e) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CSort n1) (CHead d2 (Flat f) u))) H9) h (sym_eq nat h n0 H6)) H3 H4 H5 H1) | (drop_skip k h d c e H1 u0) \Rightarrow (\lambda (H2: (eq nat h (S n0))).\lambda (H3: (eq nat (S d) O)).\lambda (H4: (eq C (CHead c k (lift h (r k d) u0)) (CSort n1))).\lambda (H5: (eq C (CHead e k u0) (CHead d1 (Flat f) u))).eq_ind nat (S n0) (\lambda (n: nat).(eq nat (S d) O) \to (eq C (CHead c k (lift n (r k d) u0)) (CSort n1)) \to (eq C (CHead e k u0) (CHead d1 (Flat f) u)) \to (drop n (r k d) c e) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CSort n1) (CHead d2 (Flat f) u))) (\lambda (H6: (eq nat (S d) O)).let H7 \def eq_ind nat (S d) (\lambda (e0: nat).match e0 return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H6 in False_ind ((eq C (CHead c k (lift (S n0) (r k d) u0)) (CSort n1)) \to (eq C (CHead e k u0) (CHead d1 (Flat f) u)) \to (drop (S n0) (r k d) c e) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CSort n1) (CHead d2 (Flat f) u))) H7) h (sym_eq nat h (S n0) H2) H3 H4 H5 H1)] in H2 (refl_equal nat (S n0)) (refl_equal nat O) (refl_equal C (CSort n1)) (refl_equal C (CHead d1 (Flat f) u))) (\lambda (c0: C).\lambda (c3: C).\lambda (H1: (csub3 g c0 c3)).\lambda (H2: ((\forall (d1: C).\forall (u: T).(drop (S n0) O c0 (CHead d1 (Flat f) u)) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O c3 (CHead d2 (Flat f) u))))).\lambda (k: K).K_ind (\lambda (k0: K).\forall (u: T).\forall (d1: C).\forall (u0: T).(drop (S n0) O (CHead c0 k0 u) (CHead d1 (Flat f) u0)) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 k0 u) (CHead d2 (Flat f) u0))) (\lambda (b: B).\lambda (u: T).\lambda (d1: C).\lambda (u0: T).\lambda (H3: (drop (S n0) O (CHead c0 (Bind b) u) (CHead d1 (Flat f) u0))).ex2_ind C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop n0 O c3 (CHead d2 (Flat f) u0)) (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Bind b) u) (CHead d2 (Flat f) u0))) (\lambda (x: C).\lambda (H4: (csub3 g d1 x)).\lambda (H5: (drop n0 O c3 (CHead x (Flat f) u0))).ex_intro2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Bind b) u) (CHead d2 (Flat f) u0)) x H4 (drop_drop (Bind b) n0 c3 (CHead x (Flat f) u0) H5 u)) (H c0 c3 H1 d1 u0 (drop_gen_drop (Bind b) c0 (CHead d1 (Flat f) u0) u n0 H3))) (\lambda (f0: F).\lambda (u: T).\lambda (d1: C).\lambda (u0: T).\lambda (H3: (drop (S n0) O (CHead c0 (Flat f0) u) (CHead d1 (Flat f) u0))).ex2_ind C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O c3 (CHead d2 (Flat f) u0)) (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Flat f0) u) (CHead d2 (Flat f) u0))) (\lambda (x: C).\lambda (H4: (csub3 g d1 x)).\lambda (H5: (drop (S n0) O c3 (CHead x (Flat f) u0))).ex_intro2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Flat f0) u) (CHead d2 (Flat f) u0)) x H4 (drop_drop (Flat f0) n0 c3 (CHead x (Flat f) u0) H5 u)) (H2 d1 u0 (drop_gen_drop (Flat f0) c0 (CHead d1 (Flat f) u0) u n0 H3))) k) (\lambda (c0: C).\lambda (c3: C).\lambda (H1: (csub3 g c0 c3)).\lambda (_: ((\forall (d1: C).\forall (u: T).(drop (S n0) O c0 (CHead d1 (Flat f) u)) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O c3 (CHead d2 (Flat f) u))))).\lambda (b: B).\lambda (_: (not (eq B b Void))).\lambda (u1: T).\lambda (u2: T).\lambda (d1: C).\lambda (u: T).\lambda (H4: (drop (S n0) O (CHead c0 (Bind Void) u1) (CHead d1 (Flat f) u))).ex2_ind C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop n0 O c3 (CHead d2 (Flat f) u)) (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Bind b) u2) (CHead d2 (Flat f) u))) (\lambda (x: C).\lambda (H5: (csub3 g d1 x)).\lambda (H6: (drop n0 O c3 (CHead x (Flat f) u))).ex_intro2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Bind b) u2) (CHead d2 (Flat f) u)) x H5 (drop_drop (Bind b) n0 c3 (CHead x (Flat f) u) H6 u2)) (H c0 c3 H1 d1 u (drop_gen_drop (Bind Void) c0 (CHead d1 (Flat f) u) u1 n0 H4))) (\lambda (c0: C).\lambda (c3: C).\lambda (H1: (csub3 g c0 c3)).\lambda (_: ((\forall (d1: C).\forall (u: T).(drop (S n0) O c0 (CHead d1 (Flat f) u)) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O c3 (CHead d2 (Flat f) u))))).\lambda (u: T).\lambda (t: T).\lambda (_: (ty3 g c3 u t)).\lambda (d1: C).\lambda (u0: T).\lambda (H4: (drop (S n0) O (CHead c0 (Bind Abst) t) (CHead d1 (Flat f) u0))).ex2_ind C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop n0 O c3 (CHead d2 (Flat f) u0)) (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Bind Abbr) u) (CHead d2 (Flat f) u0))) (\lambda (x: C).\lambda (H5: (csub3 g d1 x)).\lambda (H6: (drop n0 O c3 (CHead x (Flat f) u0))).ex_intro2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Bind Abbr) u) (CHead d2 (Flat f) u0)) x H5 (drop_drop (Bind Abbr) n0 c3 (CHead x (Flat f) u0) H6 u)) (H c0 c3 H1 d1 u0 (drop_gen_drop (Bind Abst) c0 (CHead d1 (Flat f) u0) t n0 H4))) c1 c2 H0) n.
+
+theorem csub3_drop_abbr: \forall (g: G).\forall (n: nat).\forall (c1: C).\forall (c2: C).(csub3 g c1 c2) \to \forall (d1: C).\forall (u: T).(drop n O c1 (CHead d1 (Bind Abbr) u)) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop n O c2 (CHead d2 (Bind Abbr) u)) \def \lambda (g: G).\lambda (n: nat).nat_ind (\lambda (n0: nat).\forall (c1: C).\forall (c2: C).(csub3 g c1 c2) \to \forall (d1: C).\forall (u: T).(drop n0 O c1 (CHead d1 (Bind Abbr) u)) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop n0 O c2 (CHead d2 (Bind Abbr) u))) (\lambda (c1: C).\lambda (c2: C).\lambda (H: (csub3 g c1 c2)).\lambda (d1: C).\lambda (u: T).\lambda (H0: (drop O O c1 (CHead d1 (Bind Abbr) u))).let H1 \def eq_ind C c1 (\lambda (c: C).csub3 g c c2) H (CHead d1 (Bind Abbr) u) (drop_gen_refl c1 (CHead d1 (Bind Abbr) u) H0) in let H2 \def match H1 return (\lambda (c: C).\lambda (c0: C).(eq C c (CHead d1 (Bind Abbr) u)) \to (eq C c0 c2) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O c2 (CHead d2 (Bind Abbr) u))) with [(csub3_sort n) \Rightarrow (\lambda (H0: (eq C (CSort n) (CHead d1 (Bind Abbr) u))).\lambda (H1: (eq C (CSort n) c2)).(let H2 \def eq_ind C (CSort n) (\lambda (e: C).match e return (Prop) with [(CSort _) \Rightarrow True | (CHead _ _ _) \Rightarrow False]) I (CHead d1 (Bind Abbr) u) H0 in False_ind ((eq C (CSort n) c2) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O c2 (CHead d2 (Bind Abbr) u))) H2) H1) | (csub3_head c1 c0 H0 k u0) \Rightarrow (\lambda (H1: (eq C (CHead c1 k u0) (CHead d1 (Bind Abbr) u))).\lambda (H2: (eq C (CHead c0 k u0) c2)).(let H3 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u0 | (CHead _ _ t) \Rightarrow t]) (CHead c1 k u0) (CHead d1 (Bind Abbr) u) H1 in (let H4 \def f_equal C K (\lambda (e: C).match e return K with [(CSort _) \Rightarrow k | (CHead _ k _) \Rightarrow k]) (CHead c1 k u0) (CHead d1 (Bind Abbr) u) H1 in (let H5 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c1 | (CHead c _ _) \Rightarrow c]) (CHead c1 k u0) (CHead d1 (Bind Abbr) u) H1 in eq_ind C d1 (\lambda (c: C).(eq K k (Bind Abbr)) \to (eq T u0 u) \to (eq C (CHead c0 k u0) c2) \to (csub3 g c c0) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O c2 (CHead d2 (Bind Abbr) u))) (\lambda (H6: (eq K k (Bind Abbr))).eq_ind K (Bind Abbr) (\lambda (k0: K).(eq T u0 u) \to (eq C (CHead c0 k0 u0) c2) \to (csub3 g d1 c0) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O c2 (CHead d2 (Bind Abbr) u))) (\lambda (H7: (eq T u0 u)).eq_ind T u (\lambda (t: T).(eq C (CHead c0 (Bind Abbr) t) c2) \to (csub3 g d1 c0) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O c2 (CHead d2 (Bind Abbr) u))) (\lambda (H8: (eq C (CHead c0 (Bind Abbr) u) c2)).eq_ind C (CHead c0 (Bind Abbr) u) (\lambda (c: C).(csub3 g d1 c0) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O c (CHead d2 (Bind Abbr) u))) (\lambda (H9: (csub3 g d1 c0)).ex_intro2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O (CHead c0 (Bind Abbr) u) (CHead d2 (Bind Abbr) u)) c0 H9 (drop_refl (CHead c0 (Bind Abbr) u))) c2 H8) u0 (sym_eq T u0 u H7)) k (sym_eq K k (Bind Abbr) H6)) c1 (sym_eq C c1 d1 H5)) H4) H3) H2 H0) | (csub3_void c1 c0 H0 b H1 u1 u2) \Rightarrow (\lambda (H2: (eq C (CHead c1 (Bind Void) u1) (CHead d1 (Bind Abbr) u))).\lambda (H3: (eq C (CHead c0 (Bind b) u2) c2)).(let H4 \def eq_ind C (CHead c1 (Bind Void) u1) (\lambda (e: C).match e return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow False | Abst \Rightarrow False | Void \Rightarrow True]) | (Flat _) \Rightarrow False])]) I (CHead d1 (Bind Abbr) u) H2 in False_ind ((eq C (CHead c0 (Bind b) u2) c2) \to (csub3 g c1 c0) \to (not (eq B b Void)) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O c2 (CHead d2 (Bind Abbr) u))) H4) H3 H0 H1) | (csub3_abst c1 c0 H0 u0 t H1) \Rightarrow (\lambda (H2: (eq C (CHead c1 (Bind Abst) t) (CHead d1 (Bind Abbr) u))).\lambda (H3: (eq C (CHead c0 (Bind Abbr) u0) c2)).(let H4 \def eq_ind C (CHead c1 (Bind Abst) t) (\lambda (e: C).match e return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow False | Abst \Rightarrow True | Void \Rightarrow False]) | (Flat _) \Rightarrow False])]) I (CHead d1 (Bind Abbr) u) H2 in False_ind ((eq C (CHead c0 (Bind Abbr) u0) c2) \to (csub3 g c1 c0) \to (ty3 g c0 u0 t) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O c2 (CHead d2 (Bind Abbr) u))) H4) H3 H0 H1)] in H2 (refl_equal C (CHead d1 (Bind Abbr) u)) (refl_equal C c2)) (\lambda (n0: nat).\lambda (H: ((\forall (c1: C).\forall (c2: C).(csub3 g c1 c2) \to \forall (d1: C).\forall (u: T).(drop n0 O c1 (CHead d1 (Bind Abbr) u)) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop n0 O c2 (CHead d2 (Bind Abbr) u))))).\lambda (c1: C).\lambda (c2: C).\lambda (H0: (csub3 g c1 c2)).csub3_ind g (\lambda (c: C).\lambda (c0: C).\forall (d1: C).\forall (u: T).(drop (S n0) O c (CHead d1 (Bind Abbr) u)) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O c0 (CHead d2 (Bind Abbr) u))) (\lambda (n1: nat).\lambda (d1: C).\lambda (u: T).\lambda (H1: (drop (S n0) O (CSort n1) (CHead d1 (Bind Abbr) u))).let H2 \def match H1 return (\lambda (n: nat).\lambda (n2: nat).\lambda (c: C).\lambda (c0: C).(eq nat n (S n0)) \to (eq nat n2 O) \to (eq C c (CSort n1)) \to (eq C c0 (CHead d1 (Bind Abbr) u)) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CSort n1) (CHead d2 (Bind Abbr) u))) with [(drop_refl c) \Rightarrow (\lambda (H1: (eq nat O (S n0))).\lambda (H2: (eq nat O O)).\lambda (H3: (eq C c (CSort n1))).\lambda (H4: (eq C c (CHead d1 (Bind Abbr) u))).(let H5 \def eq_ind nat O (\lambda (e: nat).match e return (Prop) with [O \Rightarrow True | (S _) \Rightarrow False]) I (S n0) H1 in False_ind ((eq nat O O) \to (eq C c (CSort n1)) \to (eq C c (CHead d1 (Bind Abbr) u)) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CSort n1) (CHead d2 (Bind Abbr) u))) H5) H2 H3 H4) | (drop_drop k h c e H1 u0) \Rightarrow (\lambda (H2: (eq nat (S h) (S n0))).\lambda (H3: (eq nat O O)).\lambda (H4: (eq C (CHead c k u0) (CSort n1))).\lambda (H5: (eq C e (CHead d1 (Bind Abbr) u))).(let H6 \def f_equal nat nat (\lambda (e0: nat).match e0 return nat with [O \Rightarrow h | (S n) \Rightarrow n]) (S h) (S n0) H2 in eq_ind nat n0 (\lambda (n: nat).(eq nat O O) \to (eq C (CHead c k u0) (CSort n1)) \to (eq C e (CHead d1 (Bind Abbr) u)) \to (drop (r k n) O c e) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CSort n1) (CHead d2 (Bind Abbr) u))) (\lambda (_: (eq nat O O)).\lambda (H8: (eq C (CHead c k u0) (CSort n1))).let H9 \def eq_ind C (CHead c k u0) (\lambda (e0: C).match e0 return (Prop) with [(CSort _) \Rightarrow False | (CHead _ _ _) \Rightarrow True]) I (CSort n1) H8 in False_ind ((eq C e (CHead d1 (Bind Abbr) u)) \to (drop (r k n0) O c e) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CSort n1) (CHead d2 (Bind Abbr) u))) H9) h (sym_eq nat h n0 H6)) H3 H4 H5 H1) | (drop_skip k h d c e H1 u0) \Rightarrow (\lambda (H2: (eq nat h (S n0))).\lambda (H3: (eq nat (S d) O)).\lambda (H4: (eq C (CHead c k (lift h (r k d) u0)) (CSort n1))).\lambda (H5: (eq C (CHead e k u0) (CHead d1 (Bind Abbr) u))).eq_ind nat (S n0) (\lambda (n: nat).(eq nat (S d) O) \to (eq C (CHead c k (lift n (r k d) u0)) (CSort n1)) \to (eq C (CHead e k u0) (CHead d1 (Bind Abbr) u)) \to (drop n (r k d) c e) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CSort n1) (CHead d2 (Bind Abbr) u))) (\lambda (H6: (eq nat (S d) O)).let H7 \def eq_ind nat (S d) (\lambda (e0: nat).match e0 return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H6 in False_ind ((eq C (CHead c k (lift (S n0) (r k d) u0)) (CSort n1)) \to (eq C (CHead e k u0) (CHead d1 (Bind Abbr) u)) \to (drop (S n0) (r k d) c e) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CSort n1) (CHead d2 (Bind Abbr) u))) H7) h (sym_eq nat h (S n0) H2) H3 H4 H5 H1)] in H2 (refl_equal nat (S n0)) (refl_equal nat O) (refl_equal C (CSort n1)) (refl_equal C (CHead d1 (Bind Abbr) u))) (\lambda (c0: C).\lambda (c3: C).\lambda (H1: (csub3 g c0 c3)).\lambda (H2: ((\forall (d1: C).\forall (u: T).(drop (S n0) O c0 (CHead d1 (Bind Abbr) u)) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O c3 (CHead d2 (Bind Abbr) u))))).\lambda (k: K).K_ind (\lambda (k0: K).\forall (u: T).\forall (d1: C).\forall (u0: T).(drop (S n0) O (CHead c0 k0 u) (CHead d1 (Bind Abbr) u0)) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 k0 u) (CHead d2 (Bind Abbr) u0))) (\lambda (b: B).\lambda (u: T).\lambda (d1: C).\lambda (u0: T).\lambda (H3: (drop (S n0) O (CHead c0 (Bind b) u) (CHead d1 (Bind Abbr) u0))).ex2_ind C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop n0 O c3 (CHead d2 (Bind Abbr) u0)) (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Bind b) u) (CHead d2 (Bind Abbr) u0))) (\lambda (x: C).\lambda (H4: (csub3 g d1 x)).\lambda (H5: (drop n0 O c3 (CHead x (Bind Abbr) u0))).ex_intro2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Bind b) u) (CHead d2 (Bind Abbr) u0)) x H4 (drop_drop (Bind b) n0 c3 (CHead x (Bind Abbr) u0) H5 u)) (H c0 c3 H1 d1 u0 (drop_gen_drop (Bind b) c0 (CHead d1 (Bind Abbr) u0) u n0 H3))) (\lambda (f: F).\lambda (u: T).\lambda (d1: C).\lambda (u0: T).\lambda (H3: (drop (S n0) O (CHead c0 (Flat f) u) (CHead d1 (Bind Abbr) u0))).ex2_ind C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O c3 (CHead d2 (Bind Abbr) u0)) (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Flat f) u) (CHead d2 (Bind Abbr) u0))) (\lambda (x: C).\lambda (H4: (csub3 g d1 x)).\lambda (H5: (drop (S n0) O c3 (CHead x (Bind Abbr) u0))).ex_intro2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Flat f) u) (CHead d2 (Bind Abbr) u0)) x H4 (drop_drop (Flat f) n0 c3 (CHead x (Bind Abbr) u0) H5 u)) (H2 d1 u0 (drop_gen_drop (Flat f) c0 (CHead d1 (Bind Abbr) u0) u n0 H3))) k) (\lambda (c0: C).\lambda (c3: C).\lambda (H1: (csub3 g c0 c3)).\lambda (_: ((\forall (d1: C).\forall (u: T).(drop (S n0) O c0 (CHead d1 (Bind Abbr) u)) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O c3 (CHead d2 (Bind Abbr) u))))).\lambda (b: B).\lambda (_: (not (eq B b Void))).\lambda (u1: T).\lambda (u2: T).\lambda (d1: C).\lambda (u: T).\lambda (H4: (drop (S n0) O (CHead c0 (Bind Void) u1) (CHead d1 (Bind Abbr) u))).ex2_ind C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop n0 O c3 (CHead d2 (Bind Abbr) u)) (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Bind b) u2) (CHead d2 (Bind Abbr) u))) (\lambda (x: C).\lambda (H5: (csub3 g d1 x)).\lambda (H6: (drop n0 O c3 (CHead x (Bind Abbr) u))).ex_intro2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Bind b) u2) (CHead d2 (Bind Abbr) u)) x H5 (drop_drop (Bind b) n0 c3 (CHead x (Bind Abbr) u) H6 u2)) (H c0 c3 H1 d1 u (drop_gen_drop (Bind Void) c0 (CHead d1 (Bind Abbr) u) u1 n0 H4))) (\lambda (c0: C).\lambda (c3: C).\lambda (H1: (csub3 g c0 c3)).\lambda (_: ((\forall (d1: C).\forall (u: T).(drop (S n0) O c0 (CHead d1 (Bind Abbr) u)) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O c3 (CHead d2 (Bind Abbr) u))))).\lambda (u: T).\lambda (t: T).\lambda (_: (ty3 g c3 u t)).\lambda (d1: C).\lambda (u0: T).\lambda (H4: (drop (S n0) O (CHead c0 (Bind Abst) t) (CHead d1 (Bind Abbr) u0))).ex2_ind C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop n0 O c3 (CHead d2 (Bind Abbr) u0)) (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Bind Abbr) u) (CHead d2 (Bind Abbr) u0))) (\lambda (x: C).\lambda (H5: (csub3 g d1 x)).\lambda (H6: (drop n0 O c3 (CHead x (Bind Abbr) u0))).ex_intro2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Bind Abbr) u) (CHead d2 (Bind Abbr) u0)) x H5 (drop_drop (Bind Abbr) n0 c3 (CHead x (Bind Abbr) u0) H6 u)) (H c0 c3 H1 d1 u0 (drop_gen_drop (Bind Abst) c0 (CHead d1 (Bind Abbr) u0) t n0 H4))) c1 c2 H0) n.
+
+theorem csub3_drop_abst: \forall (g: G).\forall (n: nat).\forall (c1: C).\forall (c2: C).(csub3 g c1 c2) \to \forall (d1: C).\forall (t: T).(drop n O c1 (CHead d1 (Bind Abst) t)) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop n O c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).drop n O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t)) \def \lambda (g: G).\lambda (n: nat).nat_ind (\lambda (n0: nat).\forall (c1: C).\forall (c2: C).(csub3 g c1 c2) \to \forall (d1: C).\forall (t: T).(drop n0 O c1 (CHead d1 (Bind Abst) t)) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop n0 O c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).drop n0 O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))) (\lambda (c1: C).\lambda (c2: C).\lambda (H: (csub3 g c1 c2)).\lambda (d1: C).\lambda (t: T).\lambda (H0: (drop O O c1 (CHead d1 (Bind Abst) t))).let H1 \def eq_ind C c1 (\lambda (c: C).csub3 g c c2) H (CHead d1 (Bind Abst) t) (drop_gen_refl c1 (CHead d1 (Bind Abst) t) H0) in let H2 \def match H1 return (\lambda (c: C).\lambda (c0: C).(eq C c (CHead d1 (Bind Abst) t)) \to (eq C c0 c2) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).drop O O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))) with [(csub3_sort n) \Rightarrow (\lambda (H1: (eq C (CSort n) (CHead d1 (Bind Abst) t))).\lambda (H2: (eq C (CSort n) c2)).(let H3 \def eq_ind C (CSort n) (\lambda (e: C).match e return (Prop) with [(CSort _) \Rightarrow True | (CHead _ _ _) \Rightarrow False]) I (CHead d1 (Bind Abst) t) H1 in False_ind ((eq C (CSort n) c2) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).drop O O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))) H3) H2) | (csub3_head c0 c3 H1 k u) \Rightarrow (\lambda (H2: (eq C (CHead c0 k u) (CHead d1 (Bind Abst) t))).\lambda (H3: (eq C (CHead c3 k u) c2)).(let H4 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead c0 k u) (CHead d1 (Bind Abst) t) H2 in (let H5 \def f_equal C K (\lambda (e: C).match e return K with [(CSort _) \Rightarrow k | (CHead _ k _) \Rightarrow k]) (CHead c0 k u) (CHead d1 (Bind Abst) t) H2 in (let H6 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c0 | (CHead c _ _) \Rightarrow c]) (CHead c0 k u) (CHead d1 (Bind Abst) t) H2 in eq_ind C d1 (\lambda (c: C).(eq K k (Bind Abst)) \to (eq T u t) \to (eq C (CHead c3 k u) c2) \to (csub3 g c c3) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop O O c2 (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t))) (\lambda (H7: (eq K k (Bind Abst))).eq_ind K (Bind Abst) (\lambda (k0: K).(eq T u t) \to (eq C (CHead c3 k0 u) c2) \to (csub3 g d1 c3) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop O O c2 (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t))) (\lambda (H8: (eq T u t)).eq_ind T t (\lambda (t0: T).(eq C (CHead c3 (Bind Abst) t0) c2) \to (csub3 g d1 c3) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop O O c2 (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t))) (\lambda (H9: (eq C (CHead c3 (Bind Abst) t) c2)).eq_ind C (CHead c3 (Bind Abst) t) (\lambda (c: C).(csub3 g d1 c3) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O c (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop O O c (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t))) (\lambda (H10: (csub3 g d1 c3)).or_introl (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O (CHead c3 (Bind Abst) t) (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop O O (CHead c3 (Bind Abst) t) (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t)) (ex_intro2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O (CHead c3 (Bind Abst) t) (CHead d2 (Bind Abst) t)) c3 H10 (drop_refl (CHead c3 (Bind Abst) t)))) c2 H9) u (sym_eq T u t H8)) k (sym_eq K k (Bind Abst) H7)) c0 (sym_eq C c0 d1 H6)) H5) H4) H3 H1) | (csub3_void c0 c3 H1 b H2 u1 u2) \Rightarrow (\lambda (H3: (eq C (CHead c0 (Bind Void) u1) (CHead d1 (Bind Abst) t))).\lambda (H4: (eq C (CHead c3 (Bind b) u2) c2)).(let H5 \def eq_ind C (CHead c0 (Bind Void) u1) (\lambda (e: C).match e return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow False | Abst \Rightarrow False | Void \Rightarrow True]) | (Flat _) \Rightarrow False])]) I (CHead d1 (Bind Abst) t) H3 in False_ind ((eq C (CHead c3 (Bind b) u2) c2) \to (csub3 g c0 c3) \to (not (eq B b Void)) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).drop O O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))) H5) H4 H1 H2) | (csub3_abst c0 c3 H1 u t0 H2) \Rightarrow (\lambda (H3: (eq C (CHead c0 (Bind Abst) t0) (CHead d1 (Bind Abst) t))).\lambda (H4: (eq C (CHead c3 (Bind Abbr) u) c2)).(let H5 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow t0 | (CHead _ _ t) \Rightarrow t]) (CHead c0 (Bind Abst) t0) (CHead d1 (Bind Abst) t) H3 in (let H6 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow c0 | (CHead c _ _) \Rightarrow c]) (CHead c0 (Bind Abst) t0) (CHead d1 (Bind Abst) t) H3 in eq_ind C d1 (\lambda (c: C).(eq T t0 t) \to (eq C (CHead c3 (Bind Abbr) u) c2) \to (csub3 g c c3) \to (ty3 g c3 u t0) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop O O c2 (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t))) (\lambda (H7: (eq T t0 t)).eq_ind T t (\lambda (t1: T).(eq C (CHead c3 (Bind Abbr) u) c2) \to (csub3 g d1 c3) \to (ty3 g c3 u t1) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop O O c2 (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t))) (\lambda (H8: (eq C (CHead c3 (Bind Abbr) u) c2)).eq_ind C (CHead c3 (Bind Abbr) u) (\lambda (c: C).(csub3 g d1 c3) \to (ty3 g c3 u t) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O c (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop O O c (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t))) (\lambda (H9: (csub3 g d1 c3)).\lambda (H10: (ty3 g c3 u t)).or_intror (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop O O (CHead c3 (Bind Abbr) u) (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop O O (CHead c3 (Bind Abbr) u) (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t)) (ex3_2_intro C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop O O (CHead c3 (Bind Abbr) u) (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t) c3 u H9 (drop_refl (CHead c3 (Bind Abbr) u)) H10)) c2 H8) t0 (sym_eq T t0 t H7)) c0 (sym_eq C c0 d1 H6)) H5) H4 H1 H2)] in H2 (refl_equal C (CHead d1 (Bind Abst) t)) (refl_equal C c2)) (\lambda (n0: nat).\lambda (H: ((\forall (c1: C).\forall (c2: C).(csub3 g c1 c2) \to \forall (d1: C).\forall (t: T).(drop n0 O c1 (CHead d1 (Bind Abst) t)) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop n0 O c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).drop n0 O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))))).\lambda (c1: C).\lambda (c2: C).\lambda (H0: (csub3 g c1 c2)).csub3_ind g (\lambda (c: C).\lambda (c0: C).\forall (d1: C).\forall (t: T).(drop (S n0) O c (CHead d1 (Bind Abst) t)) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O c0 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).drop (S n0) O c0 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))) (\lambda (n1: nat).\lambda (d1: C).\lambda (t: T).\lambda (H1: (drop (S n0) O (CSort n1) (CHead d1 (Bind Abst) t))).let H2 \def match H1 return (\lambda (n: nat).\lambda (n2: nat).\lambda (c: C).\lambda (c0: C).(eq nat n (S n0)) \to (eq nat n2 O) \to (eq C c (CSort n1)) \to (eq C c0 (CHead d1 (Bind Abst) t)) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CSort n1) (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).drop (S n0) O (CSort n1) (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))) with [(drop_refl c) \Rightarrow (\lambda (H1: (eq nat O (S n0))).\lambda (H2: (eq nat O O)).\lambda (H3: (eq C c (CSort n1))).\lambda (H4: (eq C c (CHead d1 (Bind Abst) t))).(let H5 \def eq_ind nat O (\lambda (e: nat).match e return (Prop) with [O \Rightarrow True | (S _) \Rightarrow False]) I (S n0) H1 in False_ind ((eq nat O O) \to (eq C c (CSort n1)) \to (eq C c (CHead d1 (Bind Abst) t)) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CSort n1) (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).drop (S n0) O (CSort n1) (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))) H5) H2 H3 H4) | (drop_drop k h c e H1 u) \Rightarrow (\lambda (H2: (eq nat (S h) (S n0))).\lambda (H3: (eq nat O O)).\lambda (H4: (eq C (CHead c k u) (CSort n1))).\lambda (H5: (eq C e (CHead d1 (Bind Abst) t))).(let H6 \def f_equal nat nat (\lambda (e0: nat).match e0 return nat with [O \Rightarrow h | (S n) \Rightarrow n]) (S h) (S n0) H2 in eq_ind nat n0 (\lambda (n: nat).(eq nat O O) \to (eq C (CHead c k u) (CSort n1)) \to (eq C e (CHead d1 (Bind Abst) t)) \to (drop (r k n) O c e) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CSort n1) (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop (S n0) O (CSort n1) (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t))) (\lambda (_: (eq nat O O)).\lambda (H8: (eq C (CHead c k u) (CSort n1))).let H9 \def eq_ind C (CHead c k u) (\lambda (e0: C).match e0 return (Prop) with [(CSort _) \Rightarrow False | (CHead _ _ _) \Rightarrow True]) I (CSort n1) H8 in False_ind ((eq C e (CHead d1 (Bind Abst) t)) \to (drop (r k n0) O c e) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CSort n1) (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop (S n0) O (CSort n1) (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t))) H9) h (sym_eq nat h n0 H6)) H3 H4 H5 H1) | (drop_skip k h d c e H1 u) \Rightarrow (\lambda (H2: (eq nat h (S n0))).\lambda (H3: (eq nat (S d) O)).\lambda (H4: (eq C (CHead c k (lift h (r k d) u)) (CSort n1))).\lambda (H5: (eq C (CHead e k u) (CHead d1 (Bind Abst) t))).eq_ind nat (S n0) (\lambda (n: nat).(eq nat (S d) O) \to (eq C (CHead c k (lift n (r k d) u)) (CSort n1)) \to (eq C (CHead e k u) (CHead d1 (Bind Abst) t)) \to (drop n (r k d) c e) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CSort n1) (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop (S n0) O (CSort n1) (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t))) (\lambda (H6: (eq nat (S d) O)).let H7 \def eq_ind nat (S d) (\lambda (e0: nat).match e0 return (Prop) with [O \Rightarrow False | (S _) \Rightarrow True]) I O H6 in False_ind ((eq C (CHead c k (lift (S n0) (r k d) u)) (CSort n1)) \to (eq C (CHead e k u) (CHead d1 (Bind Abst) t)) \to (drop (S n0) (r k d) c e) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CSort n1) (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop (S n0) O (CSort n1) (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t))) H7) h (sym_eq nat h (S n0) H2) H3 H4 H5 H1)] in H2 (refl_equal nat (S n0)) (refl_equal nat O) (refl_equal C (CSort n1)) (refl_equal C (CHead d1 (Bind Abst) t))) (\lambda (c0: C).\lambda (c3: C).\lambda (H1: (csub3 g c0 c3)).\lambda (H2: ((\forall (d1: C).\forall (t: T).(drop (S n0) O c0 (CHead d1 (Bind Abst) t)) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O c3 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).drop (S n0) O c3 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))))).\lambda (k: K).K_ind (\lambda (k0: K).\forall (u: T).\forall (d1: C).\forall (t: T).(drop (S n0) O (CHead c0 k0 u) (CHead d1 (Bind Abst) t)) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 k0 u) (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop (S n0) O (CHead c3 k0 u) (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t))) (\lambda (b: B).\lambda (u: T).\lambda (d1: C).\lambda (t: T).\lambda (H3: (drop (S n0) O (CHead c0 (Bind b) u) (CHead d1 (Bind Abst) t))).or_ind (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop n0 O c3 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop n0 O c3 (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t)) (or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Bind b) u) (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop (S n0) O (CHead c3 (Bind b) u) (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t))) (\lambda (H4: (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop n0 O c3 (CHead d2 (Bind Abst) t)))).ex2_ind C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop n0 O c3 (CHead d2 (Bind Abst) t)) (or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Bind b) u) (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop (S n0) O (CHead c3 (Bind b) u) (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t))) (\lambda (x: C).\lambda (H5: (csub3 g d1 x)).\lambda (H6: (drop n0 O c3 (CHead x (Bind Abst) t))).or_introl (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Bind b) u) (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop (S n0) O (CHead c3 (Bind b) u) (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t)) (ex_intro2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Bind b) u) (CHead d2 (Bind Abst) t)) x H5 (drop_drop (Bind b) n0 c3 (CHead x (Bind Abst) t) H6 u))) H4) (\lambda (H4: (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).drop n0 O c3 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))).ex3_2_ind C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop n0 O c3 (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t) (or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Bind b) u) (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop (S n0) O (CHead c3 (Bind b) u) (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t))) (\lambda (x0: C).\lambda (x1: T).\lambda (H5: (csub3 g d1 x0)).\lambda (H6: (drop n0 O c3 (CHead x0 (Bind Abbr) x1))).\lambda (H7: (ty3 g x0 x1 t)).or_intror (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Bind b) u) (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop (S n0) O (CHead c3 (Bind b) u) (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t)) (ex3_2_intro C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop (S n0) O (CHead c3 (Bind b) u) (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t) x0 x1 H5 (drop_drop (Bind b) n0 c3 (CHead x0 (Bind Abbr) x1) H6 u) H7)) H4) (H c0 c3 H1 d1 t (drop_gen_drop (Bind b) c0 (CHead d1 (Bind Abst) t) u n0 H3))) (\lambda (f: F).\lambda (u: T).\lambda (d1: C).\lambda (t: T).\lambda (H3: (drop (S n0) O (CHead c0 (Flat f) u) (CHead d1 (Bind Abst) t))).or_ind (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O c3 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop (S n0) O c3 (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t)) (or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Flat f) u) (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop (S n0) O (CHead c3 (Flat f) u) (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t))) (\lambda (H4: (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O c3 (CHead d2 (Bind Abst) t)))).ex2_ind C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O c3 (CHead d2 (Bind Abst) t)) (or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Flat f) u) (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop (S n0) O (CHead c3 (Flat f) u) (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t))) (\lambda (x: C).\lambda (H5: (csub3 g d1 x)).\lambda (H6: (drop (S n0) O c3 (CHead x (Bind Abst) t))).or_introl (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Flat f) u) (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop (S n0) O (CHead c3 (Flat f) u) (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t)) (ex_intro2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Flat f) u) (CHead d2 (Bind Abst) t)) x H5 (drop_drop (Flat f) n0 c3 (CHead x (Bind Abst) t) H6 u))) H4) (\lambda (H4: (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).drop (S n0) O c3 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))).ex3_2_ind C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop (S n0) O c3 (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t) (or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Flat f) u) (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop (S n0) O (CHead c3 (Flat f) u) (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t))) (\lambda (x0: C).\lambda (x1: T).\lambda (H5: (csub3 g d1 x0)).\lambda (H6: (drop (S n0) O c3 (CHead x0 (Bind Abbr) x1))).\lambda (H7: (ty3 g x0 x1 t)).or_intror (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Flat f) u) (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop (S n0) O (CHead c3 (Flat f) u) (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t)) (ex3_2_intro C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop (S n0) O (CHead c3 (Flat f) u) (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t) x0 x1 H5 (drop_drop (Flat f) n0 c3 (CHead x0 (Bind Abbr) x1) H6 u) H7)) H4) (H2 d1 t (drop_gen_drop (Flat f) c0 (CHead d1 (Bind Abst) t) u n0 H3))) k) (\lambda (c0: C).\lambda (c3: C).\lambda (H1: (csub3 g c0 c3)).\lambda (_: ((\forall (d1: C).\forall (t: T).(drop (S n0) O c0 (CHead d1 (Bind Abst) t)) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O c3 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).drop (S n0) O c3 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))))).\lambda (b: B).\lambda (_: (not (eq B b Void))).\lambda (u1: T).\lambda (u2: T).\lambda (d1: C).\lambda (t: T).\lambda (H4: (drop (S n0) O (CHead c0 (Bind Void) u1) (CHead d1 (Bind Abst) t))).or_ind (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop n0 O c3 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).drop n0 O c3 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t)) (or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Bind b) u2) (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).drop (S n0) O (CHead c3 (Bind b) u2) (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))) (\lambda (H5: (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop n0 O c3 (CHead d2 (Bind Abst) t)))).ex2_ind C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop n0 O c3 (CHead d2 (Bind Abst) t)) (or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Bind b) u2) (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).drop (S n0) O (CHead c3 (Bind b) u2) (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))) (\lambda (x: C).\lambda (H6: (csub3 g d1 x)).\lambda (H7: (drop n0 O c3 (CHead x (Bind Abst) t))).or_introl (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Bind b) u2) (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).drop (S n0) O (CHead c3 (Bind b) u2) (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t)) (ex_intro2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Bind b) u2) (CHead d2 (Bind Abst) t)) x H6 (drop_drop (Bind b) n0 c3 (CHead x (Bind Abst) t) H7 u2))) H5) (\lambda (H5: (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).drop n0 O c3 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))).ex3_2_ind C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).drop n0 O c3 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t) (or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Bind b) u2) (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).drop (S n0) O (CHead c3 (Bind b) u2) (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))) (\lambda (x0: C).\lambda (x1: T).\lambda (H6: (csub3 g d1 x0)).\lambda (H7: (drop n0 O c3 (CHead x0 (Bind Abbr) x1))).\lambda (H8: (ty3 g x0 x1 t)).or_intror (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Bind b) u2) (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).drop (S n0) O (CHead c3 (Bind b) u2) (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t)) (ex3_2_intro C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).drop (S n0) O (CHead c3 (Bind b) u2) (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t) x0 x1 H6 (drop_drop (Bind b) n0 c3 (CHead x0 (Bind Abbr) x1) H7 u2) H8)) H5) (H c0 c3 H1 d1 t (drop_gen_drop (Bind Void) c0 (CHead d1 (Bind Abst) t) u1 n0 H4))) (\lambda (c0: C).\lambda (c3: C).\lambda (H1: (csub3 g c0 c3)).\lambda (_: ((\forall (d1: C).\forall (t: T).(drop (S n0) O c0 (CHead d1 (Bind Abst) t)) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O c3 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).drop (S n0) O c3 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))))).\lambda (u: T).\lambda (t: T).\lambda (_: (ty3 g c3 u t)).\lambda (d1: C).\lambda (t0: T).\lambda (H4: (drop (S n0) O (CHead c0 (Bind Abst) t) (CHead d1 (Bind Abst) t0))).or_ind (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop n0 O c3 (CHead d2 (Bind Abst) t0))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop n0 O c3 (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t0)) (or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Bind Abbr) u) (CHead d2 (Bind Abst) t0))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop (S n0) O (CHead c3 (Bind Abbr) u) (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t0))) (\lambda (H5: (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop n0 O c3 (CHead d2 (Bind Abst) t0)))).ex2_ind C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop n0 O c3 (CHead d2 (Bind Abst) t0)) (or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Bind Abbr) u) (CHead d2 (Bind Abst) t0))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop (S n0) O (CHead c3 (Bind Abbr) u) (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t0))) (\lambda (x: C).\lambda (H6: (csub3 g d1 x)).\lambda (H7: (drop n0 O c3 (CHead x (Bind Abst) t0))).or_introl (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Bind Abbr) u) (CHead d2 (Bind Abst) t0))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop (S n0) O (CHead c3 (Bind Abbr) u) (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t0)) (ex_intro2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Bind Abbr) u) (CHead d2 (Bind Abst) t0)) x H6 (drop_drop (Bind Abbr) n0 c3 (CHead x (Bind Abst) t0) H7 u))) H5) (\lambda (H5: (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).drop n0 O c3 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t0))).ex3_2_ind C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop n0 O c3 (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t0) (or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Bind Abbr) u) (CHead d2 (Bind Abst) t0))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop (S n0) O (CHead c3 (Bind Abbr) u) (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t0))) (\lambda (x0: C).\lambda (x1: T).\lambda (H6: (csub3 g d1 x0)).\lambda (H7: (drop n0 O c3 (CHead x0 (Bind Abbr) x1))).\lambda (H8: (ty3 g x0 x1 t0)).or_intror (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop (S n0) O (CHead c3 (Bind Abbr) u) (CHead d2 (Bind Abst) t0))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop (S n0) O (CHead c3 (Bind Abbr) u) (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t0)) (ex3_2_intro C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u0: T).drop (S n0) O (CHead c3 (Bind Abbr) u) (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 t0) x0 x1 H6 (drop_drop (Bind Abbr) n0 c3 (CHead x0 (Bind Abbr) x1) H7 u) H8)) H5) (H c0 c3 H1 d1 t0 (drop_gen_drop (Bind Abst) c0 (CHead d1 (Bind Abst) t0) t n0 H4))) c1 c2 H0) n.
+
+theorem csub3_getl_abbr: \forall (g: G).\forall (c1: C).\forall (d1: C).\forall (u: T).\forall (n: nat).(getl n c1 (CHead d1 (Bind Abbr) u)) \to \forall (c2: C).(csub3 g c1 c2) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl n c2 (CHead d2 (Bind Abbr) u)) \def \lambda (g: G).\lambda (c1: C).\lambda (d1: C).\lambda (u: T).\lambda (n: nat).\lambda (H: (getl n c1 (CHead d1 (Bind Abbr) u))).let H0 \def getl_gen_all c1 (CHead d1 (Bind Abbr) u) n H in ex2_ind C (\lambda (e: C).drop n O c1 e) (\lambda (e: C).clear e (CHead d1 (Bind Abbr) u)) (\forall (c2: C).(csub3 g c1 c2) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl n c2 (CHead d2 (Bind Abbr) u))) (\lambda (x: C).\lambda (H1: (drop n O c1 x)).\lambda (H2: (clear x (CHead d1 (Bind Abbr) u))).(match x return (\lambda (c: C).(drop n O c1 c) \to (clear c (CHead d1 (Bind Abbr) u)) \to \forall (c2: C).(csub3 g c1 c2) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl n c2 (CHead d2 (Bind Abbr) u))) with [(CSort n0) \Rightarrow (\lambda (_: (drop n O c1 (CSort n0))).\lambda (H4: (clear (CSort n0) (CHead d1 (Bind Abbr) u))).clear_gen_sort (CHead d1 (Bind Abbr) u) n0 H4 (\forall (c2: C).(csub3 g c1 c2) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl n c2 (CHead d2 (Bind Abbr) u)))) | (CHead c k t) \Rightarrow (\lambda (H3: (drop n O c1 (CHead c k t))).\lambda (H4: (clear (CHead c k t) (CHead d1 (Bind Abbr) u))).(match k return (\lambda (k0: K).(drop n O c1 (CHead c k0 t)) \to (clear (CHead c k0 t) (CHead d1 (Bind Abbr) u)) \to \forall (c2: C).(csub3 g c1 c2) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl n c2 (CHead d2 (Bind Abbr) u))) with [(Bind b) \Rightarrow (\lambda (H5: (drop n O c1 (CHead c (Bind b) t))).\lambda (H6: (clear (CHead c (Bind b) t) (CHead d1 (Bind Abbr) u))).let H7 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow d1 | (CHead c _ _) \Rightarrow c]) (CHead d1 (Bind Abbr) u) (CHead c (Bind b) t) (clear_gen_bind b c (CHead d1 (Bind Abbr) u) t H6) in (let H8 \def f_equal C B (\lambda (e: C).match e return B with [(CSort _) \Rightarrow Abbr | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (CHead d1 (Bind Abbr) u) (CHead c (Bind b) t) (clear_gen_bind b c (CHead d1 (Bind Abbr) u) t H6) in (let H9 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u | (CHead _ _ t) \Rightarrow t]) (CHead d1 (Bind Abbr) u) (CHead c (Bind b) t) (clear_gen_bind b c (CHead d1 (Bind Abbr) u) t H6) in \lambda (H10: (eq B Abbr b)).\lambda (H11: (eq C d1 c)).\lambda (c2: C).\lambda (H12: (csub3 g c1 c2)).let H13 \def eq_ind_r T t (\lambda (t: T).drop n O c1 (CHead c (Bind b) t)) H5 u H9 in let H14 \def eq_ind_r B b (\lambda (b: B).drop n O c1 (CHead c (Bind b) u)) H13 Abbr H10 in let H15 \def eq_ind_r C c (\lambda (c: C).drop n O c1 (CHead c (Bind Abbr) u)) H14 d1 H11 in ex2_ind C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop n O c2 (CHead d2 (Bind Abbr) u)) (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl n c2 (CHead d2 (Bind Abbr) u))) (\lambda (x0: C).\lambda (H16: (csub3 g d1 x0)).\lambda (H17: (drop n O c2 (CHead x0 (Bind Abbr) u))).ex_intro2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl n c2 (CHead d2 (Bind Abbr) u)) x0 H16 (getl_intro n c2 (CHead x0 (Bind Abbr) u) (CHead x0 (Bind Abbr) u) H17 (clear_bind Abbr x0 u))) (csub3_drop_abbr g n c1 c2 H12 d1 u H15)) H8) H7) | (Flat f) \Rightarrow (\lambda (H5: (drop n O c1 (CHead c (Flat f) t))).\lambda (H6: (clear (CHead c (Flat f) t) (CHead d1 (Bind Abbr) u))).let H7 \def H5 in unintro C c1 (\lambda (c0: C).(drop n O c0 (CHead c (Flat f) t)) \to \forall (c2: C).(csub3 g c0 c2) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl n c2 (CHead d2 (Bind Abbr) u))) (nat_ind (\lambda (n0: nat).\forall (x0: C).(drop n0 O x0 (CHead c (Flat f) t)) \to \forall (c2: C).(csub3 g x0 c2) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl n0 c2 (CHead d2 (Bind Abbr) u))) (\lambda (x0: C).\lambda (H8: (drop O O x0 (CHead c (Flat f) t))).\lambda (c2: C).\lambda (H9: (csub3 g x0 c2)).let H10 \def eq_ind C x0 (\lambda (c: C).csub3 g c c2) H9 (CHead c (Flat f) t) (drop_gen_refl x0 (CHead c (Flat f) t) H8) in let H_y \def clear_flat c (CHead d1 (Bind Abbr) u) (clear_gen_flat f c (CHead d1 (Bind Abbr) u) t H6) f t in let H11 \def csub3_clear_conf g (CHead c (Flat f) t) c2 H10 (CHead d1 (Bind Abbr) u) H_y in ex2_ind C (\lambda (e2: C).csub3 g (CHead d1 (Bind Abbr) u) e2) (\lambda (e2: C).clear c2 e2) (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl O c2 (CHead d2 (Bind Abbr) u))) (\lambda (x1: C).\lambda (H12: (csub3 g (CHead d1 (Bind Abbr) u) x1)).\lambda (H13: (clear c2 x1)).let H14 \def csub3_gen_abbr g d1 x1 u H12 in ex2_ind C (\lambda (e2: C).eq C x1 (CHead e2 (Bind Abbr) u)) (\lambda (e2: C).csub3 g d1 e2) (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl O c2 (CHead d2 (Bind Abbr) u))) (\lambda (x2: C).\lambda (H15: (eq C x1 (CHead x2 (Bind Abbr) u))).\lambda (H16: (csub3 g d1 x2)).let H17 \def eq_ind C x1 (\lambda (c: C).clear c2 c) H13 (CHead x2 (Bind Abbr) u) H15 in ex_intro2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl O c2 (CHead d2 (Bind Abbr) u)) x2 H16 (getl_intro O c2 (CHead x2 (Bind Abbr) u) c2 (drop_refl c2) H17)) H14) H11) (\lambda (n0: nat).\lambda (H8: ((\forall (x: C).(drop n0 O x (CHead c (Flat f) t)) \to \forall (c2: C).(csub3 g x c2) \to ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl n0 c2 (CHead d2 (Bind Abbr) u))))).\lambda (x0: C).\lambda (H9: (drop (S n0) O x0 (CHead c (Flat f) t))).\lambda (c2: C).\lambda (H10: (csub3 g x0 c2)).let H11 \def drop_clear x0 (CHead c (Flat f) t) n0 H9 in ex2_3_ind B C T (\lambda (b: B).\lambda (e: C).\lambda (v: T).clear x0 (CHead e (Bind b) v)) (\lambda (_: B).\lambda (e: C).\lambda (_: T).drop n0 O e (CHead c (Flat f) t)) (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl (S n0) c2 (CHead d2 (Bind Abbr) u))) (\lambda (x1: B).\lambda (x2: C).\lambda (x3: T).\lambda (H12: (clear x0 (CHead x2 (Bind x1) x3))).\lambda (H13: (drop n0 O x2 (CHead c (Flat f) t))).let H14 \def csub3_clear_conf g x0 c2 H10 (CHead x2 (Bind x1) x3) H12 in ex2_ind C (\lambda (e2: C).csub3 g (CHead x2 (Bind x1) x3) e2) (\lambda (e2: C).clear c2 e2) (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl (S n0) c2 (CHead d2 (Bind Abbr) u))) (\lambda (x4: C).\lambda (H15: (csub3 g (CHead x2 (Bind x1) x3) x4)).\lambda (H16: (clear c2 x4)).let H17 \def csub3_gen_bind g x1 x2 x4 x3 H15 in ex2_3_ind B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C x4 (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csub3 g x2 e2) (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl (S n0) c2 (CHead d2 (Bind Abbr) u))) (\lambda (x5: B).\lambda (x6: C).\lambda (x7: T).\lambda (H18: (eq C x4 (CHead x6 (Bind x5) x7))).\lambda (H19: (csub3 g x2 x6)).let H20 \def eq_ind C x4 (\lambda (c: C).clear c2 c) H16 (CHead x6 (Bind x5) x7) H18 in let H21 \def H8 x2 H13 x6 H19 in ex2_ind C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl n0 x6 (CHead d2 (Bind Abbr) u)) (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl (S n0) c2 (CHead d2 (Bind Abbr) u))) (\lambda (x8: C).\lambda (H22: (csub3 g d1 x8)).\lambda (H23: (getl n0 x6 (CHead x8 (Bind Abbr) u))).ex_intro2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl (S n0) c2 (CHead d2 (Bind Abbr) u)) x8 H22 (getl_clear_bind x5 c2 x6 x7 H20 (CHead x8 (Bind Abbr) u) n0 H23)) H21) H17) H14) H11) n) H7)]) H3 H4)]) H1 H2) H0.
+
+theorem csub3_getl_abst: \forall (g: G).\forall (c1: C).\forall (d1: C).\forall (t: T).\forall (n: nat).(getl n c1 (CHead d1 (Bind Abst) t)) \to \forall (c2: C).(csub3 g c1 c2) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl n c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl n c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t)) \def \lambda (g: G).\lambda (c1: C).\lambda (d1: C).\lambda (t: T).\lambda (n: nat).\lambda (H: (getl n c1 (CHead d1 (Bind Abst) t))).let H0 \def getl_gen_all c1 (CHead d1 (Bind Abst) t) n H in ex2_ind C (\lambda (e: C).drop n O c1 e) (\lambda (e: C).clear e (CHead d1 (Bind Abst) t)) (\forall (c2: C).(csub3 g c1 c2) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl n c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl n c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))) (\lambda (x: C).\lambda (H1: (drop n O c1 x)).\lambda (H2: (clear x (CHead d1 (Bind Abst) t))).(match x return (\lambda (c: C).(drop n O c1 c) \to (clear c (CHead d1 (Bind Abst) t)) \to \forall (c2: C).(csub3 g c1 c2) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl n c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl n c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))) with [(CSort n0) \Rightarrow (\lambda (_: (drop n O c1 (CSort n0))).\lambda (H4: (clear (CSort n0) (CHead d1 (Bind Abst) t))).clear_gen_sort (CHead d1 (Bind Abst) t) n0 H4 (\forall (c2: C).(csub3 g c1 c2) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl n c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl n c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t)))) | (CHead c k t0) \Rightarrow (\lambda (H3: (drop n O c1 (CHead c k t0))).\lambda (H4: (clear (CHead c k t0) (CHead d1 (Bind Abst) t))).(match k return (\lambda (k0: K).(drop n O c1 (CHead c k0 t0)) \to (clear (CHead c k0 t0) (CHead d1 (Bind Abst) t)) \to \forall (c2: C).(csub3 g c1 c2) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl n c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl n c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))) with [(Bind b) \Rightarrow (\lambda (H5: (drop n O c1 (CHead c (Bind b) t0))).\lambda (H6: (clear (CHead c (Bind b) t0) (CHead d1 (Bind Abst) t))).let H7 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow d1 | (CHead c _ _) \Rightarrow c]) (CHead d1 (Bind Abst) t) (CHead c (Bind b) t0) (clear_gen_bind b c (CHead d1 (Bind Abst) t) t0 H6) in (let H8 \def f_equal C B (\lambda (e: C).match e return B with [(CSort _) \Rightarrow Abst | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abst])]) (CHead d1 (Bind Abst) t) (CHead c (Bind b) t0) (clear_gen_bind b c (CHead d1 (Bind Abst) t) t0 H6) in (let H9 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow t | (CHead _ _ t) \Rightarrow t]) (CHead d1 (Bind Abst) t) (CHead c (Bind b) t0) (clear_gen_bind b c (CHead d1 (Bind Abst) t) t0 H6) in \lambda (H10: (eq B Abst b)).\lambda (H11: (eq C d1 c)).\lambda (c2: C).\lambda (H12: (csub3 g c1 c2)).let H13 \def eq_ind_r T t0 (\lambda (t: T).drop n O c1 (CHead c (Bind b) t)) H5 t H9 in let H14 \def eq_ind_r B b (\lambda (b: B).drop n O c1 (CHead c (Bind b) t)) H13 Abst H10 in let H15 \def eq_ind_r C c (\lambda (c: C).drop n O c1 (CHead c (Bind Abst) t)) H14 d1 H11 in or_ind (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop n O c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).drop n O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t)) (or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl n c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl n c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))) (\lambda (H16: (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop n O c2 (CHead d2 (Bind Abst) t)))).ex2_ind C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).drop n O c2 (CHead d2 (Bind Abst) t)) (or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl n c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl n c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))) (\lambda (x0: C).\lambda (H17: (csub3 g d1 x0)).\lambda (H18: (drop n O c2 (CHead x0 (Bind Abst) t))).or_introl (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl n c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl n c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t)) (ex_intro2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl n c2 (CHead d2 (Bind Abst) t)) x0 H17 (getl_intro n c2 (CHead x0 (Bind Abst) t) (CHead x0 (Bind Abst) t) H18 (clear_bind Abst x0 t)))) H16) (\lambda (H16: (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).drop n O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))).ex3_2_ind C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).drop n O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t) (or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl n c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl n c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))) (\lambda (x0: C).\lambda (x1: T).\lambda (H17: (csub3 g d1 x0)).\lambda (H18: (drop n O c2 (CHead x0 (Bind Abbr) x1))).\lambda (H19: (ty3 g x0 x1 t)).or_intror (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl n c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl n c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t)) (ex3_2_intro C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl n c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t) x0 x1 H17 (getl_intro n c2 (CHead x0 (Bind Abbr) x1) (CHead x0 (Bind Abbr) x1) H18 (clear_bind Abbr x0 x1)) H19)) H16) (csub3_drop_abst g n c1 c2 H12 d1 t H15)) H8) H7) | (Flat f) \Rightarrow (\lambda (H5: (drop n O c1 (CHead c (Flat f) t0))).\lambda (H6: (clear (CHead c (Flat f) t0) (CHead d1 (Bind Abst) t))).let H7 \def H5 in unintro C c1 (\lambda (c0: C).(drop n O c0 (CHead c (Flat f) t0)) \to \forall (c2: C).(csub3 g c0 c2) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl n c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl n c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))) (nat_ind (\lambda (n0: nat).\forall (x0: C).(drop n0 O x0 (CHead c (Flat f) t0)) \to \forall (c2: C).(csub3 g x0 c2) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl n0 c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl n0 c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))) (\lambda (x0: C).\lambda (H8: (drop O O x0 (CHead c (Flat f) t0))).\lambda (c2: C).\lambda (H9: (csub3 g x0 c2)).let H10 \def eq_ind C x0 (\lambda (c: C).csub3 g c c2) H9 (CHead c (Flat f) t0) (drop_gen_refl x0 (CHead c (Flat f) t0) H8) in let H_y \def clear_flat c (CHead d1 (Bind Abst) t) (clear_gen_flat f c (CHead d1 (Bind Abst) t) t0 H6) f t0 in let H11 \def csub3_clear_conf g (CHead c (Flat f) t0) c2 H10 (CHead d1 (Bind Abst) t) H_y in ex2_ind C (\lambda (e2: C).csub3 g (CHead d1 (Bind Abst) t) e2) (\lambda (e2: C).clear c2 e2) (or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl O c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))) (\lambda (x1: C).\lambda (H12: (csub3 g (CHead d1 (Bind Abst) t) x1)).\lambda (H13: (clear c2 x1)).let H14 \def csub3_gen_abst g d1 x1 t H12 in or_ind (ex2 C (\lambda (e2: C).eq C x1 (CHead e2 (Bind Abst) t)) (\lambda (e2: C).csub3 g d1 e2)) (ex3_2 C T (\lambda (e2: C).\lambda (v2: T).eq C x1 (CHead e2 (Bind Abbr) v2)) (\lambda (e2: C).\lambda (_: T).csub3 g d1 e2) (\lambda (e2: C).\lambda (v2: T).ty3 g e2 v2 t)) (or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl O c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))) (\lambda (H15: (ex2 C (\lambda (e2: C).eq C x1 (CHead e2 (Bind Abst) t)) (\lambda (e2: C).csub3 g d1 e2))).ex2_ind C (\lambda (e2: C).eq C x1 (CHead e2 (Bind Abst) t)) (\lambda (e2: C).csub3 g d1 e2) (or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl O c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))) (\lambda (x2: C).\lambda (H16: (eq C x1 (CHead x2 (Bind Abst) t))).\lambda (H17: (csub3 g d1 x2)).let H18 \def eq_ind C x1 (\lambda (c: C).clear c2 c) H13 (CHead x2 (Bind Abst) t) H16 in or_introl (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl O c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t)) (ex_intro2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl O c2 (CHead d2 (Bind Abst) t)) x2 H17 (getl_intro O c2 (CHead x2 (Bind Abst) t) c2 (drop_refl c2) H18))) H15) (\lambda (H15: (ex3_2 C T (\lambda (e2: C).\lambda (v2: T).eq C x1 (CHead e2 (Bind Abbr) v2)) (\lambda (e2: C).\lambda (_: T).csub3 g d1 e2) (\lambda (e2: C).\lambda (v2: T).ty3 g e2 v2 t))).ex3_2_ind C T (\lambda (e2: C).\lambda (v2: T).eq C x1 (CHead e2 (Bind Abbr) v2)) (\lambda (e2: C).\lambda (_: T).csub3 g d1 e2) (\lambda (e2: C).\lambda (v2: T).ty3 g e2 v2 t) (or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl O c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))) (\lambda (x2: C).\lambda (x3: T).\lambda (H16: (eq C x1 (CHead x2 (Bind Abbr) x3))).\lambda (H17: (csub3 g d1 x2)).\lambda (H18: (ty3 g x2 x3 t)).let H19 \def eq_ind C x1 (\lambda (c: C).clear c2 c) H13 (CHead x2 (Bind Abbr) x3) H16 in or_intror (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl O c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t)) (ex3_2_intro C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl O c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t) x2 x3 H17 (getl_intro O c2 (CHead x2 (Bind Abbr) x3) c2 (drop_refl c2) H19) H18)) H15) H14) H11) (\lambda (n0: nat).\lambda (H8: ((\forall (x: C).(drop n0 O x (CHead c (Flat f) t0)) \to \forall (c2: C).(csub3 g x c2) \to or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl n0 c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl n0 c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))))).\lambda (x0: C).\lambda (H9: (drop (S n0) O x0 (CHead c (Flat f) t0))).\lambda (c2: C).\lambda (H10: (csub3 g x0 c2)).let H11 \def drop_clear x0 (CHead c (Flat f) t0) n0 H9 in ex2_3_ind B C T (\lambda (b: B).\lambda (e: C).\lambda (v: T).clear x0 (CHead e (Bind b) v)) (\lambda (_: B).\lambda (e: C).\lambda (_: T).drop n0 O e (CHead c (Flat f) t0)) (or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl (S n0) c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl (S n0) c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))) (\lambda (x1: B).\lambda (x2: C).\lambda (x3: T).\lambda (H12: (clear x0 (CHead x2 (Bind x1) x3))).\lambda (H13: (drop n0 O x2 (CHead c (Flat f) t0))).let H14 \def csub3_clear_conf g x0 c2 H10 (CHead x2 (Bind x1) x3) H12 in ex2_ind C (\lambda (e2: C).csub3 g (CHead x2 (Bind x1) x3) e2) (\lambda (e2: C).clear c2 e2) (or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl (S n0) c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl (S n0) c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))) (\lambda (x4: C).\lambda (H15: (csub3 g (CHead x2 (Bind x1) x3) x4)).\lambda (H16: (clear c2 x4)).let H17 \def csub3_gen_bind g x1 x2 x4 x3 H15 in ex2_3_ind B C T (\lambda (b2: B).\lambda (e2: C).\lambda (v2: T).eq C x4 (CHead e2 (Bind b2) v2)) (\lambda (_: B).\lambda (e2: C).\lambda (_: T).csub3 g x2 e2) (or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl (S n0) c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl (S n0) c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))) (\lambda (x5: B).\lambda (x6: C).\lambda (x7: T).\lambda (H18: (eq C x4 (CHead x6 (Bind x5) x7))).\lambda (H19: (csub3 g x2 x6)).let H20 \def eq_ind C x4 (\lambda (c: C).clear c2 c) H16 (CHead x6 (Bind x5) x7) H18 in let H21 \def H8 x2 H13 x6 H19 in or_ind (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl n0 x6 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl n0 x6 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t)) (or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl (S n0) c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl (S n0) c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))) (\lambda (H22: (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl n0 x6 (CHead d2 (Bind Abst) t)))).ex2_ind C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl n0 x6 (CHead d2 (Bind Abst) t)) (or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl (S n0) c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl (S n0) c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))) (\lambda (x8: C).\lambda (H23: (csub3 g d1 x8)).\lambda (H24: (getl n0 x6 (CHead x8 (Bind Abst) t))).or_introl (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl (S n0) c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl (S n0) c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t)) (ex_intro2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl (S n0) c2 (CHead d2 (Bind Abst) t)) x8 H23 (getl_clear_bind x5 c2 x6 x7 H20 (CHead x8 (Bind Abst) t) n0 H24))) H22) (\lambda (H22: (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl n0 x6 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))).ex3_2_ind C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl n0 x6 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t) (or (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl (S n0) c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl (S n0) c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t))) (\lambda (x8: C).\lambda (x9: T).\lambda (H23: (csub3 g d1 x8)).\lambda (H24: (getl n0 x6 (CHead x8 (Bind Abbr) x9))).\lambda (H25: (ty3 g x8 x9 t)).or_intror (ex2 C (\lambda (d2: C).csub3 g d1 d2) (\lambda (d2: C).getl (S n0) c2 (CHead d2 (Bind Abst) t))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl (S n0) c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t)) (ex3_2_intro C T (\lambda (d2: C).\lambda (_: T).csub3 g d1 d2) (\lambda (d2: C).\lambda (u: T).getl (S n0) c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u: T).ty3 g d2 u t) x8 x9 H23 (getl_clear_bind x5 c2 x6 x7 H20 (CHead x8 (Bind Abbr) x9) n0 H24) H25)) H22) H21) H17) H14) H11) n) H7)]) H3 H4)]) H1 H2) H0.
+
+theorem csub3_pr2: \forall (g: G).\forall (c1: C).\forall (t1: T).\forall (t2: T).(pr2 c1 t1 t2) \to \forall (c2: C).(csub3 g c1 c2) \to pr2 c2 t1 t2 \def \lambda (g: G).\lambda (c1: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pr2 c1 t1 t2)).pr2_ind (\lambda (c: C).\lambda (t: T).\lambda (t0: T).\forall (c2: C).(csub3 g c c2) \to pr2 c2 t t0) (\lambda (c: C).\lambda (t3: T).\lambda (t4: T).\lambda (H0: (pr0 t3 t4)).\lambda (c2: C).\lambda (_: (csub3 g c c2)).pr2_free c2 t3 t4 H0) (\lambda (c: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c (CHead d (Bind Abbr) u))).\lambda (t3: T).\lambda (t4: T).\lambda (H1: (pr0 t3 t4)).\lambda (t: T).\lambda (H2: (subst0 i u t4 t)).\lambda (c2: C).\lambda (H3: (csub3 g c c2)).let H4 \def csub3_getl_abbr g c d u i H0 c2 H3 in ex2_ind C (\lambda (d2: C).csub3 g d d2) (\lambda (d2: C).getl i c2 (CHead d2 (Bind Abbr) u)) (pr2 c2 t3 t) (\lambda (x: C).\lambda (_: (csub3 g d x)).\lambda (H6: (getl i c2 (CHead x (Bind Abbr) u))).pr2_delta c2 x u i H6 t3 t4 H1 t H2) H4) c1 t1 t2 H.
+
+theorem csub3_pc3: \forall (g: G).\forall (c1: C).\forall (t1: T).\forall (t2: T).(pc3 c1 t1 t2) \to \forall (c2: C).(csub3 g c1 c2) \to pc3 c2 t1 t2 \def \lambda (g: G).\lambda (c1: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pc3 c1 t1 t2)).pc3_ind_left c1 (\lambda (t: T).\lambda (t0: T).\forall (c2: C).(csub3 g c1 c2) \to pc3 c2 t t0) (\lambda (t: T).\lambda (c2: C).\lambda (_: (csub3 g c1 c2)).pc3_refl c2 t) (\lambda (t0: T).\lambda (t3: T).\lambda (H0: (pr2 c1 t0 t3)).\lambda (t4: T).\lambda (_: (pc3 c1 t3 t4)).\lambda (H2: ((\forall (c2: C).(csub3 g c1 c2) \to pc3 c2 t3 t4))).\lambda (c2: C).\lambda (H3: (csub3 g c1 c2)).pc3_pr2_u c2 t3 t0 (csub3_pr2 g c1 t0 t3 H0 c2 H3) t4 (H2 c2 H3)) (\lambda (t0: T).\lambda (t3: T).\lambda (H0: (pr2 c1 t0 t3)).\lambda (t4: T).\lambda (_: (pc3 c1 t0 t4)).\lambda (H2: ((\forall (c2: C).(csub3 g c1 c2) \to pc3 c2 t0 t4))).\lambda (c2: C).\lambda (H3: (csub3 g c1 c2)).pc3_t t0 c2 t3 (pc3_pr2_x c2 t3 t0 (csub3_pr2 g c1 t0 t3 H0 c2 H3)) t4 (H2 c2 H3)) t1 t2 H.
+
+theorem csub3_ty3: \forall (g: G).\forall (c1: C).\forall (t1: T).\forall (t2: T).(ty3 g c1 t1 t2) \to \forall (c2: C).(csub3 g c1 c2) \to ty3 g c2 t1 t2 \def \lambda (g: G).\lambda (c1: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (ty3 g c1 t1 t2)).ty3_ind g (\lambda (c: C).\lambda (t: T).\lambda (t0: T).\forall (c2: C).(csub3 g c c2) \to ty3 g c2 t t0) (\lambda (c: C).\lambda (t0: T).\lambda (t: T).\lambda (_: (ty3 g c t0 t)).\lambda (H1: ((\forall (c2: C).(csub3 g c c2) \to ty3 g c2 t0 t))).\lambda (u: T).\lambda (t3: T).\lambda (_: (ty3 g c u t3)).\lambda (H3: ((\forall (c2: C).(csub3 g c c2) \to ty3 g c2 u t3))).\lambda (H4: (pc3 c t3 t0)).\lambda (c2: C).\lambda (H5: (csub3 g c c2)).ty3_conv g c2 t0 t (H1 c2 H5) u t3 (H3 c2 H5) (csub3_pc3 g c t3 t0 H4 c2 H5)) (\lambda (c: C).\lambda (m: nat).\lambda (c2: C).\lambda (_: (csub3 g c c2)).ty3_sort g c2 m) (\lambda (n: nat).\lambda (c: C).\lambda (d: C).\lambda (u: T).\lambda (H0: (getl n c (CHead d (Bind Abbr) u))).\lambda (t: T).\lambda (_: (ty3 g d u t)).\lambda (H2: ((\forall (c2: C).(csub3 g d c2) \to ty3 g c2 u t))).\lambda (c2: C).\lambda (H3: (csub3 g c c2)).let H4 \def csub3_getl_abbr g c d u n H0 c2 H3 in ex2_ind C (\lambda (d2: C).csub3 g d d2) (\lambda (d2: C).getl n c2 (CHead d2 (Bind Abbr) u)) (ty3 g c2 (TLRef n) (lift (S n) O t)) (\lambda (x: C).\lambda (H5: (csub3 g d x)).\lambda (H6: (getl n c2 (CHead x (Bind Abbr) u))).ty3_abbr g n c2 x u H6 t (H2 x H5)) H4) (\lambda (n: nat).\lambda (c: C).\lambda (d: C).\lambda (u: T).\lambda (H0: (getl n c (CHead d (Bind Abst) u))).\lambda (t: T).\lambda (_: (ty3 g d u t)).\lambda (H2: ((\forall (c2: C).(csub3 g d c2) \to ty3 g c2 u t))).\lambda (c2: C).\lambda (H3: (csub3 g c c2)).let H4 \def csub3_getl_abst g c d u n H0 c2 H3 in or_ind (ex2 C (\lambda (d2: C).csub3 g d d2) (\lambda (d2: C).getl n c2 (CHead d2 (Bind Abst) u))) (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d d2) (\lambda (d2: C).\lambda (u0: T).getl n c2 (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 u)) (ty3 g c2 (TLRef n) (lift (S n) O u)) (\lambda (H5: (ex2 C (\lambda (d2: C).csub3 g d d2) (\lambda (d2: C).getl n c2 (CHead d2 (Bind Abst) u)))).ex2_ind C (\lambda (d2: C).csub3 g d d2) (\lambda (d2: C).getl n c2 (CHead d2 (Bind Abst) u)) (ty3 g c2 (TLRef n) (lift (S n) O u)) (\lambda (x: C).\lambda (H6: (csub3 g d x)).\lambda (H7: (getl n c2 (CHead x (Bind Abst) u))).ty3_abst g n c2 x u H7 t (H2 x H6)) H5) (\lambda (H5: (ex3_2 C T (\lambda (d2: C).\lambda (_: T).csub3 g d d2) (\lambda (d2: C).\lambda (u: T).getl n c2 (CHead d2 (Bind Abbr) u)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 u))).ex3_2_ind C T (\lambda (d2: C).\lambda (_: T).csub3 g d d2) (\lambda (d2: C).\lambda (u0: T).getl n c2 (CHead d2 (Bind Abbr) u0)) (\lambda (d2: C).\lambda (u0: T).ty3 g d2 u0 u) (ty3 g c2 (TLRef n) (lift (S n) O u)) (\lambda (x0: C).\lambda (x1: T).\lambda (_: (csub3 g d x0)).\lambda (H7: (getl n c2 (CHead x0 (Bind Abbr) x1))).\lambda (H8: (ty3 g x0 x1 u)).ty3_abbr g n c2 x0 x1 H7 u H8) H5) H4) (\lambda (c: C).\lambda (u: T).\lambda (t: T).\lambda (_: (ty3 g c u t)).\lambda (H1: ((\forall (c2: C).(csub3 g c c2) \to ty3 g c2 u t))).\lambda (b: B).\lambda (t0: T).\lambda (t3: T).\lambda (_: (ty3 g (CHead c (Bind b) u) t0 t3)).\lambda (H3: ((\forall (c2: C).(csub3 g (CHead c (Bind b) u) c2) \to ty3 g c2 t0 t3))).\lambda (t4: T).\lambda (_: (ty3 g (CHead c (Bind b) u) t3 t4)).\lambda (H5: ((\forall (c2: C).(csub3 g (CHead c (Bind b) u) c2) \to ty3 g c2 t3 t4))).\lambda (c2: C).\lambda (H6: (csub3 g c c2)).ty3_bind g c2 u t (H1 c2 H6) b t0 t3 (H3 (CHead c2 (Bind b) u) (csub3_head g c c2 H6 (Bind b) u)) t4 (H5 (CHead c2 (Bind b) u) (csub3_head g c c2 H6 (Bind b) u))) (\lambda (c: C).\lambda (w: T).\lambda (u: T).\lambda (_: (ty3 g c w u)).\lambda (H1: ((\forall (c2: C).(csub3 g c c2) \to ty3 g c2 w u))).\lambda (v: T).\lambda (t: T).\lambda (_: (ty3 g c v (THead (Bind Abst) u t))).\lambda (H3: ((\forall (c2: C).(csub3 g c c2) \to ty3 g c2 v (THead (Bind Abst) u t)))).\lambda (c2: C).\lambda (H4: (csub3 g c c2)).ty3_appl g c2 w u (H1 c2 H4) v t (H3 c2 H4)) (\lambda (c: C).\lambda (t0: T).\lambda (t3: T).\lambda (_: (ty3 g c t0 t3)).\lambda (H1: ((\forall (c2: C).(csub3 g c c2) \to ty3 g c2 t0 t3))).\lambda (t4: T).\lambda (_: (ty3 g c t3 t4)).\lambda (H3: ((\forall (c2: C).(csub3 g c c2) \to ty3 g c2 t3 t4))).\lambda (c2: C).\lambda (H4: (csub3 g c c2)).ty3_cast g c2 t0 t3 (H1 c2 H4) t4 (H3 c2 H4)) c1 t1 t2 H.
+
+theorem csub3_ty3_ld: \forall (g: G).\forall (c: C).\forall (u: T).\forall (v: T).(ty3 g c u v) \to \forall (t1: T).\forall (t2: T).(ty3 g (CHead c (Bind Abst) v) t1 t2) \to ty3 g (CHead c (Bind Abbr) u) t1 t2 \def \lambda (g: G).\lambda (c: C).\lambda (u: T).\lambda (v: T).\lambda (H: (ty3 g c u v)).\lambda (t1: T).\lambda (t2: T).\lambda (H0: (ty3 g (CHead c (Bind Abst) v) t1 t2)).csub3_ty3 g (CHead c (Bind Abst) v) t1 t2 H0 (CHead c (Bind Abbr) u) (csub3_abst g c c (csub3_refl g c) u v H).
+
+theorem ty3_sred_wcpr0_pr0: \forall (g: G).\forall (c1: C).\forall (t1: T).\forall (t: T).(ty3 g c1 t1 t) \to \forall (c2: C).(wcpr0 c1 c2) \to \forall (t2: T).(pr0 t1 t2) \to ty3 g c2 t2 t \def \lambda (g: G).\lambda (c1: C).\lambda (t1: T).\lambda (t: T).\lambda (H: (ty3 g c1 t1 t)).ty3_ind g (\lambda (c: C).\lambda (t0: T).\lambda (t2: T).\forall (c2: C).(wcpr0 c c2) \to \forall (t3: T).(pr0 t0 t3) \to ty3 g c2 t3 t2) (\lambda (c: C).\lambda (t2: T).\lambda (t0: T).\lambda (_: (ty3 g c t2 t0)).\lambda (H1: ((\forall (c2: C).(wcpr0 c c2) \to \forall (t3: T).(pr0 t2 t3) \to ty3 g c2 t3 t0))).\lambda (u: T).\lambda (t3: T).\lambda (_: (ty3 g c u t3)).\lambda (H3: ((\forall (c2: C).(wcpr0 c c2) \to \forall (t2: T).(pr0 u t2) \to ty3 g c2 t2 t3))).\lambda (H4: (pc3 c t3 t2)).\lambda (c2: C).\lambda (H5: (wcpr0 c c2)).\lambda (t4: T).\lambda (H6: (pr0 u t4)).ty3_conv g c2 t2 t0 (H1 c2 H5 t2 (pr0_refl t2)) t4 t3 (H3 c2 H5 t4 H6) (pc3_wcpr0 c c2 H5 t3 t2 H4)) (\lambda (c: C).\lambda (m: nat).\lambda (c2: C).\lambda (_: (wcpr0 c c2)).\lambda (t2: T).\lambda (H1: (pr0 (TSort m) t2)).eq_ind_r T (TSort m) (\lambda (t0: T).ty3 g c2 t0 (TSort (next g m))) (ty3_sort g c2 m) t2 (pr0_gen_sort t2 m H1)) (\lambda (n: nat).\lambda (c: C).\lambda (d: C).\lambda (u: T).\lambda (H0: (getl n c (CHead d (Bind Abbr) u))).\lambda (t0: T).\lambda (_: (ty3 g d u t0)).\lambda (H2: ((\forall (c2: C).(wcpr0 d c2) \to \forall (t2: T).(pr0 u t2) \to ty3 g c2 t2 t0))).\lambda (c2: C).\lambda (H3: (wcpr0 c c2)).\lambda (t2: T).\lambda (H4: (pr0 (TLRef n) t2)).eq_ind_r T (TLRef n) (\lambda (t3: T).ty3 g c2 t3 (lift (S n) O t0)) (ex3_2_ind C T (\lambda (e2: C).\lambda (u2: T).getl n c2 (CHead e2 (Bind Abbr) u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 d e2) (\lambda (_: C).\lambda (u2: T).pr0 u u2) (ty3 g c2 (TLRef n) (lift (S n) O t0)) (\lambda (x0: C).\lambda (x1: T).\lambda (H5: (getl n c2 (CHead x0 (Bind Abbr) x1))).\lambda (H6: (wcpr0 d x0)).\lambda (H7: (pr0 u x1)).ty3_abbr g n c2 x0 x1 H5 t0 (H2 x0 H6 x1 H7)) (wcpr0_getl c c2 H3 n d u (Bind Abbr) H0)) t2 (pr0_gen_lref t2 n H4)) (\lambda (n: nat).\lambda (c: C).\lambda (d: C).\lambda (u: T).\lambda (H0: (getl n c (CHead d (Bind Abst) u))).\lambda (t0: T).\lambda (_: (ty3 g d u t0)).\lambda (H2: ((\forall (c2: C).(wcpr0 d c2) \to \forall (t2: T).(pr0 u t2) \to ty3 g c2 t2 t0))).\lambda (c2: C).\lambda (H3: (wcpr0 c c2)).\lambda (t2: T).\lambda (H4: (pr0 (TLRef n) t2)).eq_ind_r T (TLRef n) (\lambda (t3: T).ty3 g c2 t3 (lift (S n) O u)) (ex3_2_ind C T (\lambda (e2: C).\lambda (u2: T).getl n c2 (CHead e2 (Bind Abst) u2)) (\lambda (e2: C).\lambda (_: T).wcpr0 d e2) (\lambda (_: C).\lambda (u2: T).pr0 u u2) (ty3 g c2 (TLRef n) (lift (S n) O u)) (\lambda (x0: C).\lambda (x1: T).\lambda (H5: (getl n c2 (CHead x0 (Bind Abst) x1))).\lambda (H6: (wcpr0 d x0)).\lambda (H7: (pr0 u x1)).ty3_conv g c2 (lift (S n) O u) (lift (S n) O t0) (ty3_lift g x0 u t0 (H2 x0 H6 u (pr0_refl u)) c2 O (S n) (getl_drop Abst c2 x0 x1 n H5)) (TLRef n) (lift (S n) O x1) (ty3_abst g n c2 x0 x1 H5 t0 (H2 x0 H6 x1 H7)) (pc3_lift c2 x0 (S n) O (getl_drop Abst c2 x0 x1 n H5) x1 u (pc3_pr2_x x0 x1 u (pr2_free x0 u x1 H7)))) (wcpr0_getl c c2 H3 n d u (Bind Abst) H0)) t2 (pr0_gen_lref t2 n H4)) (\lambda (c: C).\lambda (u: T).\lambda (t0: T).\lambda (_: (ty3 g c u t0)).\lambda (H1: ((\forall (c2: C).(wcpr0 c c2) \to \forall (t2: T).(pr0 u t2) \to ty3 g c2 t2 t0))).\lambda (b: B).\lambda (t2: T).\lambda (t3: T).\lambda (H2: (ty3 g (CHead c (Bind b) u) t2 t3)).\lambda (H3: ((\forall (c2: C).(wcpr0 (CHead c (Bind b) u) c2) \to \forall (t4: T).(pr0 t2 t4) \to ty3 g c2 t4 t3))).\lambda (t4: T).\lambda (H4: (ty3 g (CHead c (Bind b) u) t3 t4)).\lambda (H5: ((\forall (c2: C).(wcpr0 (CHead c (Bind b) u) c2) \to \forall (t2: T).(pr0 t3 t2) \to ty3 g c2 t2 t4))).\lambda (c2: C).\lambda (H6: (wcpr0 c c2)).\lambda (t5: T).\lambda (H7: (pr0 (THead (Bind b) u t2) t5)).let H8 \def match H7 return (\lambda (t: T).\lambda (t0: T).(eq T t (THead (Bind b) u t2)) \to (eq T t0 t5) \to ty3 g c2 t5 (THead (Bind b) u t3)) with [(pr0_refl t4) \Rightarrow (\lambda (H7: (eq T t4 (THead (Bind b) u t2))).\lambda (H8: (eq T t4 t5)).eq_ind T (THead (Bind b) u t2) (\lambda (t: T).(eq T t t5) \to ty3 g c2 t5 (THead (Bind b) u t3)) (\lambda (H9: (eq T (THead (Bind b) u t2) t5)).eq_ind T (THead (Bind b) u t2) (\lambda (t: T).ty3 g c2 t (THead (Bind b) u t3)) (ty3_bind g c2 u t0 (H1 c2 H6 u (pr0_refl u)) b t2 t3 (H3 (CHead c2 (Bind b) u) (wcpr0_comp c c2 H6 u u (pr0_refl u) (Bind b)) t2 (pr0_refl t2)) t4 (H5 (CHead c2 (Bind b) u) (wcpr0_comp c c2 H6 u u (pr0_refl u) (Bind b)) t3 (pr0_refl t3))) t5 H9) t4 (sym_eq T t4 (THead (Bind b) u t2) H7) H8) | (pr0_comp u1 u2 H7 t4 t5 H8 k) \Rightarrow (\lambda (H9: (eq T (THead k u1 t4) (THead (Bind b) u t2))).\lambda (H10: (eq T (THead k u2 t5) t5)).(let H11 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t4 | (TLRef _) \Rightarrow t4 | (THead _ _ t) \Rightarrow t]) (THead k u1 t4) (THead (Bind b) u t2) H9 in (let H12 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u1 | (TLRef _) \Rightarrow u1 | (THead _ t _) \Rightarrow t]) (THead k u1 t4) (THead (Bind b) u t2) H9 in (let H13 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k u1 t4) (THead (Bind b) u t2) H9 in eq_ind K (Bind b) (\lambda (k0: K).(eq T u1 u) \to (eq T t4 t2) \to (eq T (THead k0 u2 t5) t5) \to (pr0 u1 u2) \to (pr0 t4 t5) \to ty3 g c2 t5 (THead (Bind b) u t3)) (\lambda (H14: (eq T u1 u)).eq_ind T u (\lambda (t: T).(eq T t4 t2) \to (eq T (THead (Bind b) u2 t5) t5) \to (pr0 t u2) \to (pr0 t4 t5) \to ty3 g c2 t5 (THead (Bind b) u t3)) (\lambda (H15: (eq T t4 t2)).eq_ind T t2 (\lambda (t: T).(eq T (THead (Bind b) u2 t5) t5) \to (pr0 u u2) \to (pr0 t t5) \to ty3 g c2 t5 (THead (Bind b) u t3)) (\lambda (H16: (eq T (THead (Bind b) u2 t5) t5)).eq_ind T (THead (Bind b) u2 t5) (\lambda (t: T).(pr0 u u2) \to (pr0 t2 t5) \to ty3 g c2 t (THead (Bind b) u t3)) (\lambda (H17: (pr0 u u2)).\lambda (H18: (pr0 t2 t5)).ex_ind T (\lambda (t: T).ty3 g (CHead c2 (Bind b) u) t4 t) (ty3 g c2 (THead (Bind b) u2 t5) (THead (Bind b) u t3)) (\lambda (x: T).\lambda (H19: (ty3 g (CHead c2 (Bind b) u) t4 x)).ex_ind T (\lambda (t: T).ty3 g (CHead c2 (Bind b) u2) t3 t) (ty3 g c2 (THead (Bind b) u2 t5) (THead (Bind b) u t3)) (\lambda (x0: T).\lambda (H20: (ty3 g (CHead c2 (Bind b) u2) t3 x0)).ty3_conv g c2 (THead (Bind b) u t3) (THead (Bind b) u t4) (ty3_bind g c2 u t0 (H1 c2 H6 u (pr0_refl u)) b t3 t4 (H5 (CHead c2 (Bind b) u) (wcpr0_comp c c2 H6 u u (pr0_refl u) (Bind b)) t3 (pr0_refl t3)) x H19) (THead (Bind b) u2 t5) (THead (Bind b) u2 t3) (ty3_bind g c2 u2 t0 (H1 c2 H6 u2 H17) b t5 t3 (H3 (CHead c2 (Bind b) u2) (wcpr0_comp c c2 H6 u u2 H17 (Bind b)) t5 H18) x0 H20) (pc3_pr2_x c2 (THead (Bind b) u2 t3) (THead (Bind b) u t3) (pr2_head_1 c2 u u2 (pr2_free c2 u u2 H17) (Bind b) t3))) (ty3_correct g (CHead c2 (Bind b) u2) t5 t3 (H3 (CHead c2 (Bind b) u2) (wcpr0_comp c c2 H6 u u2 H17 (Bind b)) t5 H18))) (ty3_correct g (CHead c2 (Bind b) u) t3 t4 (H5 (CHead c2 (Bind b) u) (wcpr0_comp c c2 H6 u u (pr0_refl u) (Bind b)) t3 (pr0_refl t3)))) t5 H16) t4 (sym_eq T t4 t2 H15)) u1 (sym_eq T u1 u H14)) k (sym_eq K k (Bind b) H13)) H12) H11) H10 H7 H8) | (pr0_beta u0 v1 v2 H7 t4 t5 H8) \Rightarrow (\lambda (H9: (eq T (THead (Flat Appl) v1 (THead (Bind Abst) u0 t4)) (THead (Bind b) u t2))).\lambda (H10: (eq T (THead (Bind Abbr) v2 t5) t5)).(let H11 \def eq_ind T (THead (Flat Appl) v1 (THead (Bind Abst) u0 t4)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind b) u t2) H9 in False_ind ((eq T (THead (Bind Abbr) v2 t5) t5) \to (pr0 v1 v2) \to (pr0 t4 t5) \to ty3 g c2 t5 (THead (Bind b) u t3)) H11) H10 H7 H8) | (pr0_upsilon b0 H7 v1 v2 H8 u1 u2 H9 t4 t5 H10) \Rightarrow (\lambda (H11: (eq T (THead (Flat Appl) v1 (THead (Bind b0) u1 t4)) (THead (Bind b) u t2))).\lambda (H12: (eq T (THead (Bind b0) u2 (THead (Flat Appl) (lift (S O) O v2) t5)) t5)).(let H13 \def eq_ind T (THead (Flat Appl) v1 (THead (Bind b0) u1 t4)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind b) u t2) H11 in False_ind ((eq T (THead (Bind b0) u2 (THead (Flat Appl) (lift (S O) O v2) t5)) t5) \to (not (eq B b0 Abst)) \to (pr0 v1 v2) \to (pr0 u1 u2) \to (pr0 t4 t5) \to ty3 g c2 t5 (THead (Bind b) u t3)) H13) H12 H7 H8 H9 H10) | (pr0_delta u1 u2 H7 t4 t5 H8 w H9) \Rightarrow (\lambda (H10: (eq T (THead (Bind Abbr) u1 t4) (THead (Bind b) u t2))).\lambda (H11: (eq T (THead (Bind Abbr) u2 w) t5)).(let H12 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t4 | (TLRef _) \Rightarrow t4 | (THead _ _ t) \Rightarrow t]) (THead (Bind Abbr) u1 t4) (THead (Bind b) u t2) H10 in (let H13 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u1 | (TLRef _) \Rightarrow u1 | (THead _ t _) \Rightarrow t]) (THead (Bind Abbr) u1 t4) (THead (Bind b) u t2) H10 in (let H14 \def f_equal T B (\lambda (e: T).match e return B with [(TSort _) \Rightarrow Abbr | (TLRef _) \Rightarrow Abbr | (THead k _ _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow Abbr])]) (THead (Bind Abbr) u1 t4) (THead (Bind b) u t2) H10 in eq_ind B Abbr (\lambda (b: B).(eq T u1 u) \to (eq T t4 t2) \to (eq T (THead (Bind Abbr) u2 w) t5) \to (pr0 u1 u2) \to (pr0 t4 t5) \to (subst0 O u2 t5 w) \to ty3 g c2 t5 (THead (Bind b) u t3)) (\lambda (H15: (eq T u1 u)).eq_ind T u (\lambda (t: T).(eq T t4 t2) \to (eq T (THead (Bind Abbr) u2 w) t5) \to (pr0 t u2) \to (pr0 t4 t5) \to (subst0 O u2 t5 w) \to ty3 g c2 t5 (THead (Bind Abbr) u t3)) (\lambda (H16: (eq T t4 t2)).eq_ind T t2 (\lambda (t: T).(eq T (THead (Bind Abbr) u2 w) t5) \to (pr0 u u2) \to (pr0 t t5) \to (subst0 O u2 t5 w) \to ty3 g c2 t5 (THead (Bind Abbr) u t3)) (\lambda (H17: (eq T (THead (Bind Abbr) u2 w) t5)).eq_ind T (THead (Bind Abbr) u2 w) (\lambda (t: T).(pr0 u u2) \to (pr0 t2 t5) \to (subst0 O u2 t5 w) \to ty3 g c2 t (THead (Bind Abbr) u t3)) (\lambda (H18: (pr0 u u2)).\lambda (H19: (pr0 t2 t5)).\lambda (H20: (subst0 O u2 t5 w)).let H21 \def eq_ind_r B b (\lambda (b: B).\forall (c2: C).(wcpr0 (CHead c (Bind b) u) c2) \to \forall (t2: T).(pr0 t3 t2) \to ty3 g c2 t2 t4) H5 Abbr H14 in let H22 \def eq_ind_r B b (\lambda (b: B).ty3 g (CHead c (Bind b) u) t3 t4) H4 Abbr H14 in let H23 \def eq_ind_r B b (\lambda (b: B).\forall (c2: C).(wcpr0 (CHead c (Bind b) u) c2) \to \forall (t4: T).(pr0 t2 t4) \to ty3 g c2 t4 t3) H3 Abbr H14 in let H24 \def eq_ind_r B b (\lambda (b: B).ty3 g (CHead c (Bind b) u) t2 t3) H2 Abbr H14 in ex_ind T (\lambda (t: T).ty3 g (CHead c2 (Bind Abbr) u) t4 t) (ty3 g c2 (THead (Bind Abbr) u2 w) (THead (Bind Abbr) u t3)) (\lambda (x: T).\lambda (H25: (ty3 g (CHead c2 (Bind Abbr) u) t4 x)).ex_ind T (\lambda (t: T).ty3 g (CHead c2 (Bind Abbr) u2) t3 t) (ty3 g c2 (THead (Bind Abbr) u2 w) (THead (Bind Abbr) u t3)) (\lambda (x0: T).\lambda (H26: (ty3 g (CHead c2 (Bind Abbr) u2) t3 x0)).ty3_conv g c2 (THead (Bind Abbr) u t3) (THead (Bind Abbr) u t4) (ty3_bind g c2 u t0 (H1 c2 H6 u (pr0_refl u)) Abbr t3 t4 (H21 (CHead c2 (Bind Abbr) u) (wcpr0_comp c c2 H6 u u (pr0_refl u) (Bind Abbr)) t3 (pr0_refl t3)) x H25) (THead (Bind Abbr) u2 w) (THead (Bind Abbr) u2 t3) (ty3_bind g c2 u2 t0 (H1 c2 H6 u2 H18) Abbr w t3 (ty3_subst0 g (CHead c2 (Bind Abbr) u2) t5 t3 (H23 (CHead c2 (Bind Abbr) u2) (wcpr0_comp c c2 H6 u u2 H18 (Bind Abbr)) t5 H19) c2 u2 O (getl_refl Abbr c2 u2) w H20) x0 H26) (pc3_pr2_x c2 (THead (Bind Abbr) u2 t3) (THead (Bind Abbr) u t3) (pr2_head_1 c2 u u2 (pr2_free c2 u u2 H18) (Bind Abbr) t3))) (ty3_correct g (CHead c2 (Bind Abbr) u2) t5 t3 (H23 (CHead c2 (Bind Abbr) u2) (wcpr0_comp c c2 H6 u u2 H18 (Bind Abbr)) t5 H19))) (ty3_correct g (CHead c2 (Bind Abbr) u) t3 t4 (H21 (CHead c2 (Bind Abbr) u) (wcpr0_comp c c2 H6 u u (pr0_refl u) (Bind Abbr)) t3 (pr0_refl t3)))) t5 H17) t4 (sym_eq T t4 t2 H16)) u1 (sym_eq T u1 u H15)) b H14) H13) H12) H11 H7 H8 H9) | (pr0_zeta b0 H7 t4 t5 H8 u0) \Rightarrow (\lambda (H9: (eq T (THead (Bind b0) u0 (lift (S O) O t4)) (THead (Bind b) u t2))).\lambda (H10: (eq T t5 t5)).(let H11 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x (S O)) O t4) | (TLRef _) \Rightarrow ((let rec (lref_map: (\forall (f: ((nat \to nat))).\forall (d: nat).\forall (t: T).T)) = (\lambda (f: ((nat \to nat))).\lambda (d: nat).\lambda (t: T).match t with [(TSort n) \Rightarrow (TSort n) | (TLRef i) \Rightarrow (TLRef (match (blt i d) with [true \Rightarrow i | false \Rightarrow (f i)])) | (THead k u t0) \Rightarrow (THead k (lref_map f d u) (lref_map f (s k d) t0))]) in lref_map) (\lambda (x: nat).plus x (S O)) O t4) | (THead _ _ t) \Rightarrow t]) (THead (Bind b0) u0 (lift (S O) O t4)) (THead (Bind b) u t2) H9 in (let H12 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u0 | (TLRef _) \Rightarrow u0 | (THead _ t _) \Rightarrow t]) (THead (Bind b0) u0 (lift (S O) O t4)) (THead (Bind b) u t2) H9 in (let H13 \def f_equal T B (\lambda (e: T).match e return B with [(TSort _) \Rightarrow b0 | (TLRef _) \Rightarrow b0 | (THead k _ _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow b0])]) (THead (Bind b0) u0 (lift (S O) O t4)) (THead (Bind b) u t2) H9 in eq_ind B b (\lambda (b1: B).(eq T u0 u) \to (eq T (lift (S O) O t4) t2) \to (eq T t5 t5) \to (not (eq B b1 Abst)) \to (pr0 t4 t5) \to ty3 g c2 t5 (THead (Bind b) u t3)) (\lambda (H14: (eq T u0 u)).eq_ind T u (\lambda (_: T).(eq T (lift (S O) O t4) t2) \to (eq T t5 t5) \to (not (eq B b Abst)) \to (pr0 t4 t5) \to ty3 g c2 t5 (THead (Bind b) u t3)) (\lambda (H15: (eq T (lift (S O) O t4) t2)).eq_ind T (lift (S O) O t4) (\lambda (_: T).(eq T t5 t5) \to (not (eq B b Abst)) \to (pr0 t4 t5) \to ty3 g c2 t5 (THead (Bind b) u t3)) (\lambda (H16: (eq T t5 t5)).eq_ind T t5 (\lambda (t: T).(not (eq B b Abst)) \to (pr0 t4 t) \to ty3 g c2 t5 (THead (Bind b) u t3)) (\lambda (H17: (not (eq B b Abst))).\lambda (H18: (pr0 t4 t5)).let H19 \def eq_ind_r T t2 (\lambda (t: T).\forall (c2: C).(wcpr0 (CHead c (Bind b) u) c2) \to \forall (t2: T).(pr0 t t2) \to ty3 g c2 t2 t3) H3 (lift (S O) O t4) H15 in let H20 \def eq_ind_r T t2 (\lambda (t: T).ty3 g (CHead c (Bind b) u) t t3) H2 (lift (S O) O t4) H15 in ex_ind T (\lambda (t: T).ty3 g (CHead c2 (Bind b) u) t4 t) (ty3 g c2 t5 (THead (Bind b) u t3)) (\lambda (x: T).\lambda (H4: (ty3 g (CHead c2 (Bind b) u) t4 x)).B_ind (\lambda (b: B).(not (eq B b Abst)) \to (ty3 g (CHead c2 (Bind b) u) t3 t4) \to (ty3 g (CHead c2 (Bind b) u) t4 x) \to (ty3 g (CHead c2 (Bind b) u) (lift (S O) O t5) t3) \to ty3 g c2 t5 (THead (Bind b) u t3)) (\lambda (H21: (not (eq B Abbr Abst))).\lambda (H2: (ty3 g (CHead c2 (Bind Abbr) u) t3 t4)).\lambda (H5: (ty3 g (CHead c2 (Bind Abbr) u) t4 x)).\lambda (H22: (ty3 g (CHead c2 (Bind Abbr) u) (lift (S O) O t5) t3)).let H \def ty3_gen_cabbr g (CHead c2 (Bind Abbr) u) (lift (S O) O t5) t3 H22 c2 u O (getl_refl Abbr c2 u) (CHead c2 (Bind Abbr) u) (csubst1_refl O u (CHead c2 (Bind Abbr) u)) c2 (drop_drop (Bind Abbr) O c2 c2 (drop_refl c2) u) in ex3_2_ind T T (\lambda (y1: T).\lambda (_: T).subst1 O u (lift (S O) O t5) (lift (S O) O y1)) (\lambda (_: T).\lambda (y2: T).subst1 O u t3 (lift (S O) O y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g c2 y1 y2) (ty3 g c2 t5 (THead (Bind Abbr) u t3)) (\lambda (x0: T).\lambda (x1: T).\lambda (H0: (subst1 O u (lift (S O) O t5) (lift (S O) O x0))).\lambda (H3: (subst1 O u t3 (lift (S O) O x1))).\lambda (H23: (ty3 g c2 x0 x1)).let H24 \def eq_ind T x0 (\lambda (t: T).ty3 g c2 t x1) H23 t5 (lift_inj x0 t5 (S O) O (subst1_gen_lift_eq t5 u (lift (S O) O x0) (S O) O O (le_n O) (eq_ind_r nat (plus (S O) O) (\lambda (n: nat).lt O n) (le_n (plus (S O) O)) (plus O (S O)) (plus_sym O (S O))) H0)) in ty3_conv g c2 (THead (Bind Abbr) u t3) (THead (Bind Abbr) u t4) (ty3_bind g c2 u t0 (H1 c2 H6 u (pr0_refl u)) Abbr t3 t4 H2 x H5) t5 x1 H24 (pc3_pr3_x c2 x1 (THead (Bind Abbr) u t3) (pr3_t (THead (Bind Abbr) u (lift (S O) O x1)) (THead (Bind Abbr) u t3) c2 (pr3_pr2 c2 (THead (Bind Abbr) u t3) (THead (Bind Abbr) u (lift (S O) O x1)) (pr2_free c2 (THead (Bind Abbr) u t3) (THead (Bind Abbr) u (lift (S O) O x1)) (pr0_delta1 u u (pr0_refl u) t3 t3 (pr0_refl t3) (lift (S O) O x1) H3))) x1 (pr3_pr2 c2 (THead (Bind Abbr) u (lift (S O) O x1)) x1 (pr2_free c2 (THead (Bind Abbr) u (lift (S O) O x1)) x1 (pr0_zeta Abbr H21 x1 x1 (pr0_refl x1) u)))))) H) (\lambda (H21: (not (eq B Abst Abst))).\lambda (_: (ty3 g (CHead c2 (Bind Abst) u) t3 t4)).\lambda (_: (ty3 g (CHead c2 (Bind Abst) u) t4 x)).\lambda (_: (ty3 g (CHead c2 (Bind Abst) u) (lift (S O) O t5) t3)).let H \def match (H21 (refl_equal B Abst)) return (ty3 g c2 t5 (THead (Bind Abst) u t3)) with [] in H) (\lambda (H21: (not (eq B Void Abst))).\lambda (H2: (ty3 g (CHead c2 (Bind Void) u) t3 t4)).\lambda (H5: (ty3 g (CHead c2 (Bind Void) u) t4 x)).\lambda (H22: (ty3 g (CHead c2 (Bind Void) u) (lift (S O) O t5) t3)).let H \def ty3_gen_cvoid g (CHead c2 (Bind Void) u) (lift (S O) O t5) t3 H22 c2 u O (getl_refl Void c2 u) c2 (drop_drop (Bind Void) O c2 c2 (drop_refl c2) u) in ex3_2_ind T T (\lambda (y1: T).\lambda (_: T).eq T (lift (S O) O t5) (lift (S O) O y1)) (\lambda (_: T).\lambda (y2: T).eq T t3 (lift (S O) O y2)) (\lambda (y1: T).\lambda (y2: T).ty3 g c2 y1 y2) (ty3 g c2 t5 (THead (Bind Void) u t3)) (\lambda (x0: T).\lambda (x1: T).\lambda (H0: (eq T (lift (S O) O t5) (lift (S O) O x0))).\lambda (H3: (eq T t3 (lift (S O) O x1))).\lambda (H23: (ty3 g c2 x0 x1)).let H24 \def eq_ind T t3 (\lambda (t: T).ty3 g (CHead c2 (Bind Void) u) t t4) H2 (lift (S O) O x1) H3 in eq_ind_r T (lift (S O) O x1) (\lambda (t: T).ty3 g c2 t5 (THead (Bind Void) u t)) (let H25 \def eq_ind_r T x0 (\lambda (t: T).ty3 g c2 t x1) H23 t5 (lift_inj t5 x0 (S O) O H0) in ty3_conv g c2 (THead (Bind Void) u (lift (S O) O x1)) (THead (Bind Void) u t4) (ty3_bind g c2 u t0 (H1 c2 H6 u (pr0_refl u)) Void (lift (S O) O x1) t4 H24 x H5) t5 x1 H25 (pc3_pr2_x c2 x1 (THead (Bind Void) u (lift (S O) O x1)) (pr2_free c2 (THead (Bind Void) u (lift (S O) O x1)) x1 (pr0_zeta Void H21 x1 x1 (pr0_refl x1) u)))) t3 H3) H) b H17 (H5 (CHead c2 (Bind b) u) (wcpr0_comp c c2 H6 u u (pr0_refl u) (Bind b)) t3 (pr0_refl t3)) H4 (H19 (CHead c2 (Bind b) u) (wcpr0_comp c c2 H6 u u (pr0_refl u) (Bind b)) (lift (S O) O t5) (pr0_lift t4 t5 H18 (S O) O))) (ty3_correct g (CHead c2 (Bind b) u) t3 t4 (H5 (CHead c2 (Bind b) u) (wcpr0_comp c c2 H6 u u (pr0_refl u) (Bind b)) t3 (pr0_refl t3)))) t5 (sym_eq T t5 t5 H16)) t2 H15) u0 (sym_eq T u0 u H14)) b0 (sym_eq B b0 b H13)) H12) H11) H10 H7 H8) | (pr0_epsilon t4 t5 H7 u0) \Rightarrow (\lambda (H8: (eq T (THead (Flat Cast) u0 t4) (THead (Bind b) u t2))).\lambda (H9: (eq T t5 t5)).(let H10 \def eq_ind T (THead (Flat Cast) u0 t4) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind b) u t2) H8 in False_ind ((eq T t5 t5) \to (pr0 t4 t5) \to ty3 g c2 t5 (THead (Bind b) u t3)) H10) H9 H7)] in H8 (refl_equal T (THead (Bind b) u t2)) (refl_equal T t5)) (\lambda (c: C).\lambda (w: T).\lambda (u: T).\lambda (_: (ty3 g c w u)).\lambda (H1: ((\forall (c2: C).(wcpr0 c c2) \to \forall (t2: T).(pr0 w t2) \to ty3 g c2 t2 u))).\lambda (v: T).\lambda (t0: T).\lambda (H2: (ty3 g c v (THead (Bind Abst) u t0))).\lambda (H3: ((\forall (c2: C).(wcpr0 c c2) \to \forall (t2: T).(pr0 v t2) \to ty3 g c2 t2 (THead (Bind Abst) u t0)))).\lambda (c2: C).\lambda (H4: (wcpr0 c c2)).\lambda (t2: T).\lambda (H5: (pr0 (THead (Flat Appl) w v) t2)).let H6 \def match H5 return (\lambda (t: T).\lambda (t1: T).(eq T t (THead (Flat Appl) w v)) \to (eq T t1 t2) \to ty3 g c2 t2 (THead (Flat Appl) w (THead (Bind Abst) u t0))) with [(pr0_refl t0) \Rightarrow (\lambda (H5: (eq T t0 (THead (Flat Appl) w v))).\lambda (H6: (eq T t0 t2)).eq_ind T (THead (Flat Appl) w v) (\lambda (t: T).(eq T t t2) \to ty3 g c2 t2 (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (H7: (eq T (THead (Flat Appl) w v) t2)).eq_ind T (THead (Flat Appl) w v) (\lambda (t: T).ty3 g c2 t (THead (Flat Appl) w (THead (Bind Abst) u t0))) (ty3_appl g c2 w u (H1 c2 H4 w (pr0_refl w)) v t0 (H3 c2 H4 v (pr0_refl v))) t2 H7) t0 (sym_eq T t0 (THead (Flat Appl) w v) H5) H6) | (pr0_comp u1 u2 H5 t1 t0 H6 k) \Rightarrow (\lambda (H7: (eq T (THead k u1 t1) (THead (Flat Appl) w v))).\lambda (H8: (eq T (THead k u2 t0) t2)).(let H9 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t1 | (TLRef _) \Rightarrow t1 | (THead _ _ t) \Rightarrow t]) (THead k u1 t1) (THead (Flat Appl) w v) H7 in (let H10 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u1 | (TLRef _) \Rightarrow u1 | (THead _ t _) \Rightarrow t]) (THead k u1 t1) (THead (Flat Appl) w v) H7 in (let H11 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k u1 t1) (THead (Flat Appl) w v) H7 in eq_ind K (Flat Appl) (\lambda (k0: K).(eq T u1 w) \to (eq T t1 v) \to (eq T (THead k0 u2 t0) t2) \to (pr0 u1 u2) \to (pr0 t1 t0) \to ty3 g c2 t2 (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (H12: (eq T u1 w)).eq_ind T w (\lambda (t: T).(eq T t1 v) \to (eq T (THead (Flat Appl) u2 t0) t2) \to (pr0 t u2) \to (pr0 t1 t0) \to ty3 g c2 t2 (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (H13: (eq T t1 v)).eq_ind T v (\lambda (t: T).(eq T (THead (Flat Appl) u2 t0) t2) \to (pr0 w u2) \to (pr0 t t0) \to ty3 g c2 t2 (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (H14: (eq T (THead (Flat Appl) u2 t0) t2)).eq_ind T (THead (Flat Appl) u2 t0) (\lambda (t: T).(pr0 w u2) \to (pr0 v t0) \to ty3 g c2 t (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (H15: (pr0 w u2)).\lambda (H16: (pr0 v t0)).ex_ind T (\lambda (t: T).ty3 g c2 (THead (Bind Abst) u t0) t) (ty3 g c2 (THead (Flat Appl) u2 t0) (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (x: T).\lambda (H17: (ty3 g c2 (THead (Bind Abst) u t0) x)).ex4_3_ind T T T (\lambda (t2: T).\lambda (_: T).\lambda (_: T).pc3 c2 (THead (Bind Abst) u t2) x) (\lambda (_: T).\lambda (t: T).\lambda (_: T).ty3 g c2 u t) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c2 (Bind Abst) u) t0 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t3: T).ty3 g (CHead c2 (Bind Abst) u) t2 t3) (ty3 g c2 (THead (Flat Appl) u2 t0) (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (x0: T).\lambda (x1: T).\lambda (x2: T).\lambda (_: (pc3 c2 (THead (Bind Abst) u x0) x)).\lambda (H19: (ty3 g c2 u x1)).\lambda (H20: (ty3 g (CHead c2 (Bind Abst) u) t0 x0)).\lambda (H21: (ty3 g (CHead c2 (Bind Abst) u) x0 x2)).ty3_conv g c2 (THead (Flat Appl) w (THead (Bind Abst) u t0)) (THead (Flat Appl) w (THead (Bind Abst) u x0)) (ty3_appl g c2 w u (H1 c2 H4 w (pr0_refl w)) (THead (Bind Abst) u t0) x0 (ty3_bind g c2 u x1 H19 Abst t0 x0 H20 x2 H21)) (THead (Flat Appl) u2 t0) (THead (Flat Appl) u2 (THead (Bind Abst) u t0)) (ty3_appl g c2 u2 u (H1 c2 H4 u2 H15) t0 t0 (H3 c2 H4 t0 H16)) (pc3_pr2_x c2 (THead (Flat Appl) u2 (THead (Bind Abst) u t0)) (THead (Flat Appl) w (THead (Bind Abst) u t0)) (pr2_head_1 c2 w u2 (pr2_free c2 w u2 H15) (Flat Appl) (THead (Bind Abst) u t0)))) (ty3_gen_bind g Abst c2 u t0 x H17)) (ty3_correct g c2 v (THead (Bind Abst) u t0) (H3 c2 H4 v (pr0_refl v)))) t2 H14) t1 (sym_eq T t1 v H13)) u1 (sym_eq T u1 w H12)) k (sym_eq K k (Flat Appl) H11)) H10) H9) H8 H5 H6) | (pr0_beta u0 v1 v2 H5 t1 t0 H6) \Rightarrow (\lambda (H7: (eq T (THead (Flat Appl) v1 (THead (Bind Abst) u0 t1)) (THead (Flat Appl) w v))).\lambda (H8: (eq T (THead (Bind Abbr) v2 t0) t2)).(let H9 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow (THead (Bind Abst) u0 t1) | (TLRef _) \Rightarrow (THead (Bind Abst) u0 t1) | (THead _ _ t) \Rightarrow t]) (THead (Flat Appl) v1 (THead (Bind Abst) u0 t1)) (THead (Flat Appl) w v) H7 in (let H10 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow v1 | (TLRef _) \Rightarrow v1 | (THead _ t _) \Rightarrow t]) (THead (Flat Appl) v1 (THead (Bind Abst) u0 t1)) (THead (Flat Appl) w v) H7 in eq_ind T w (\lambda (t: T).(eq T (THead (Bind Abst) u0 t1) v) \to (eq T (THead (Bind Abbr) v2 t0) t2) \to (pr0 t v2) \to (pr0 t1 t0) \to ty3 g c2 t2 (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (H11: (eq T (THead (Bind Abst) u0 t1) v)).eq_ind T (THead (Bind Abst) u0 t1) (\lambda (_: T).(eq T (THead (Bind Abbr) v2 t0) t2) \to (pr0 w v2) \to (pr0 t1 t0) \to ty3 g c2 t2 (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (H12: (eq T (THead (Bind Abbr) v2 t0) t2)).eq_ind T (THead (Bind Abbr) v2 t0) (\lambda (t: T).(pr0 w v2) \to (pr0 t1 t0) \to ty3 g c2 t (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (H13: (pr0 w v2)).\lambda (H14: (pr0 t1 t0)).let H15 \def eq_ind_r T v (\lambda (t: T).\forall (c2: C).(wcpr0 c c2) \to \forall (t2: T).(pr0 t t2) \to ty3 g c2 t2 (THead (Bind Abst) u t0)) H3 (THead (Bind Abst) u0 t1) H11 in let H16 \def eq_ind_r T v (\lambda (t: T).ty3 g c t (THead (Bind Abst) u t0)) H2 (THead (Bind Abst) u0 t1) H11 in ex_ind T (\lambda (t: T).ty3 g c2 (THead (Bind Abst) u t0) t) (ty3 g c2 (THead (Bind Abbr) v2 t0) (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (x: T).\lambda (H2: (ty3 g c2 (THead (Bind Abst) u t0) x)).ex4_3_ind T T T (\lambda (t2: T).\lambda (_: T).\lambda (_: T).pc3 c2 (THead (Bind Abst) u t2) x) (\lambda (_: T).\lambda (t: T).\lambda (_: T).ty3 g c2 u t) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c2 (Bind Abst) u) t0 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t3: T).ty3 g (CHead c2 (Bind Abst) u) t2 t3) (ty3 g c2 (THead (Bind Abbr) v2 t0) (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (x0: T).\lambda (x1: T).\lambda (x2: T).\lambda (_: (pc3 c2 (THead (Bind Abst) u x0) x)).\lambda (H17: (ty3 g c2 u x1)).\lambda (H18: (ty3 g (CHead c2 (Bind Abst) u) t0 x0)).\lambda (H19: (ty3 g (CHead c2 (Bind Abst) u) x0 x2)).ex4_3_ind T T T (\lambda (t2: T).\lambda (_: T).\lambda (_: T).pc3 c2 (THead (Bind Abst) u0 t2) (THead (Bind Abst) u t0)) (\lambda (_: T).\lambda (t: T).\lambda (_: T).ty3 g c2 u0 t) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c2 (Bind Abst) u0) t0 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t3: T).ty3 g (CHead c2 (Bind Abst) u0) t2 t3) (ty3 g c2 (THead (Bind Abbr) v2 t0) (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (x3: T).\lambda (x4: T).\lambda (x5: T).\lambda (H0: (pc3 c2 (THead (Bind Abst) u0 x3) (THead (Bind Abst) u t0))).\lambda (H20: (ty3 g c2 u0 x4)).\lambda (H21: (ty3 g (CHead c2 (Bind Abst) u0) t0 x3)).\lambda (H22: (ty3 g (CHead c2 (Bind Abst) u0) x3 x5)).and_ind (pc3 c2 u0 u) (\forall (b: B).\forall (u: T).pc3 (CHead c2 (Bind b) u) x3 t0) (ty3 g c2 (THead (Bind Abbr) v2 t0) (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (H23: (pc3 c2 u0 u)).\lambda (H24: ((\forall (b: B).\forall (u: T).pc3 (CHead c2 (Bind b) u) x3 t0))).ty3_conv g c2 (THead (Flat Appl) w (THead (Bind Abst) u t0)) (THead (Flat Appl) w (THead (Bind Abst) u x0)) (ty3_appl g c2 w u (H1 c2 H4 w (pr0_refl w)) (THead (Bind Abst) u t0) x0 (ty3_bind g c2 u x1 H17 Abst t0 x0 H18 x2 H19)) (THead (Bind Abbr) v2 t0) (THead (Bind Abbr) v2 x3) (ty3_bind g c2 v2 u (H1 c2 H4 v2 H13) Abbr t0 x3 (csub3_ty3_ld g c2 v2 u0 (ty3_conv g c2 u0 x4 H20 v2 u (H1 c2 H4 v2 H13) (pc3_s c2 u u0 H23)) t0 x3 H21) x5 (csub3_ty3_ld g c2 v2 u0 (ty3_conv g c2 u0 x4 H20 v2 u (H1 c2 H4 v2 H13) (pc3_s c2 u u0 H23)) x3 x5 H22)) (pc3_t (THead (Bind Abbr) v2 t0) c2 (THead (Bind Abbr) v2 x3) (pc3_head_2 c2 v2 x3 t0 (Bind Abbr) (H24 Abbr v2)) (THead (Flat Appl) w (THead (Bind Abst) u t0)) (pc3_pr2_x c2 (THead (Bind Abbr) v2 t0) (THead (Flat Appl) w (THead (Bind Abst) u t0)) (pr2_free c2 (THead (Flat Appl) w (THead (Bind Abst) u t0)) (THead (Bind Abbr) v2 t0) (pr0_beta u w v2 H13 t0 t0 (pr0_refl t0)))))) (pc3_gen_abst c2 u0 u x3 t0 H0)) (ty3_gen_bind g Abst c2 u0 t0 (THead (Bind Abst) u t0) (H15 c2 H4 (THead (Bind Abst) u0 t0) (pr0_comp u0 u0 (pr0_refl u0) t1 t0 H14 (Bind Abst))))) (ty3_gen_bind g Abst c2 u t0 x H2)) (ty3_correct g c2 (THead (Bind Abst) u0 t1) (THead (Bind Abst) u t0) (H15 c2 H4 (THead (Bind Abst) u0 t1) (pr0_refl (THead (Bind Abst) u0 t1))))) t2 H12) v H11) v1 (sym_eq T v1 w H10)) H9) H8 H5 H6) | (pr0_upsilon b H5 v1 v2 H6 u1 u2 H7 t1 t0 H8) \Rightarrow (\lambda (H9: (eq T (THead (Flat Appl) v1 (THead (Bind b) u1 t1)) (THead (Flat Appl) w v))).\lambda (H10: (eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t0)) t2)).(let H11 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow (THead (Bind b) u1 t1) | (TLRef _) \Rightarrow (THead (Bind b) u1 t1) | (THead _ _ t) \Rightarrow t]) (THead (Flat Appl) v1 (THead (Bind b) u1 t1)) (THead (Flat Appl) w v) H9 in (let H12 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow v1 | (TLRef _) \Rightarrow v1 | (THead _ t _) \Rightarrow t]) (THead (Flat Appl) v1 (THead (Bind b) u1 t1)) (THead (Flat Appl) w v) H9 in eq_ind T w (\lambda (t: T).(eq T (THead (Bind b) u1 t1) v) \to (eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t0)) t2) \to (not (eq B b Abst)) \to (pr0 t v2) \to (pr0 u1 u2) \to (pr0 t1 t0) \to ty3 g c2 t2 (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (H13: (eq T (THead (Bind b) u1 t1) v)).eq_ind T (THead (Bind b) u1 t1) (\lambda (_: T).(eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t0)) t2) \to (not (eq B b Abst)) \to (pr0 w v2) \to (pr0 u1 u2) \to (pr0 t1 t0) \to ty3 g c2 t2 (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (H14: (eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t0)) t2)).eq_ind T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t0)) (\lambda (t: T).(not (eq B b Abst)) \to (pr0 w v2) \to (pr0 u1 u2) \to (pr0 t1 t0) \to ty3 g c2 t (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (H15: (not (eq B b Abst))).\lambda (H16: (pr0 w v2)).\lambda (H17: (pr0 u1 u2)).\lambda (H18: (pr0 t1 t0)).let H19 \def eq_ind_r T v (\lambda (t: T).\forall (c2: C).(wcpr0 c c2) \to \forall (t2: T).(pr0 t t2) \to ty3 g c2 t2 (THead (Bind Abst) u t0)) H3 (THead (Bind b) u1 t1) H13 in let H20 \def eq_ind_r T v (\lambda (t: T).ty3 g c t (THead (Bind Abst) u t0)) H2 (THead (Bind b) u1 t1) H13 in ex_ind T (\lambda (t: T).ty3 g c2 (THead (Bind Abst) u t0) t) (ty3 g c2 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t0)) (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (x: T).\lambda (H2: (ty3 g c2 (THead (Bind Abst) u t0) x)).let H3 \def H2 in ex4_3_ind T T T (\lambda (t2: T).\lambda (_: T).\lambda (_: T).pc3 c2 (THead (Bind Abst) u t2) x) (\lambda (_: T).\lambda (t: T).\lambda (_: T).ty3 g c2 u t) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c2 (Bind Abst) u) t0 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t3: T).ty3 g (CHead c2 (Bind Abst) u) t2 t3) (ty3 g c2 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t0)) (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (x0: T).\lambda (x1: T).\lambda (x2: T).\lambda (_: (pc3 c2 (THead (Bind Abst) u x0) x)).\lambda (H22: (ty3 g c2 u x1)).\lambda (H23: (ty3 g (CHead c2 (Bind Abst) u) t0 x0)).\lambda (H24: (ty3 g (CHead c2 (Bind Abst) u) x0 x2)).ex4_3_ind T T T (\lambda (t2: T).\lambda (_: T).\lambda (_: T).pc3 c2 (THead (Bind b) u2 t2) (THead (Bind Abst) u t0)) (\lambda (_: T).\lambda (t: T).\lambda (_: T).ty3 g c2 u2 t) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c2 (Bind b) u2) t0 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t3: T).ty3 g (CHead c2 (Bind b) u2) t2 t3) (ty3 g c2 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t0)) (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (x3: T).\lambda (x4: T).\lambda (x5: T).\lambda (H0: (pc3 c2 (THead (Bind b) u2 x3) (THead (Bind Abst) u t0))).\lambda (H25: (ty3 g c2 u2 x4)).\lambda (H26: (ty3 g (CHead c2 (Bind b) u2) t0 x3)).\lambda (_: (ty3 g (CHead c2 (Bind b) u2) x3 x5)).let H28 \def eq_ind T (lift (S O) O (THead (Bind Abst) u t0)) (\lambda (t: T).pc3 (CHead c2 (Bind b) u2) x3 t) (pc3_gen_not_abst b H15 c2 x3 t0 u2 u H0) (THead (Bind Abst) (lift (S O) O u) (lift (S O) (S O) t0)) (lift_bind Abst u t0 (S O) O) in let H29 \def eq_ind T (lift (S O) O (THead (Bind Abst) u t0)) (\lambda (t: T).ty3 g (CHead c2 (Bind b) u2) t (lift (S O) O x)) (ty3_lift g c2 (THead (Bind Abst) u t0) x H2 (CHead c2 (Bind b) u2) O (S O) (drop_drop (Bind b) O c2 c2 (drop_refl c2) u2)) (THead (Bind Abst) (lift (S O) O u) (lift (S O) (S O) t0)) (lift_bind Abst u t0 (S O) O) in ex4_3_ind T T T (\lambda (t2: T).\lambda (_: T).\lambda (_: T).pc3 (CHead c2 (Bind b) u2) (THead (Bind Abst) (lift (S O) O u) t2) (lift (S O) O x)) (\lambda (_: T).\lambda (t: T).\lambda (_: T).ty3 g (CHead c2 (Bind b) u2) (lift (S O) O u) t) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead (CHead c2 (Bind b) u2) (Bind Abst) (lift (S O) O u)) (lift (S O) (S O) t0) t2) (\lambda (t2: T).\lambda (_: T).\lambda (t3: T).ty3 g (CHead (CHead c2 (Bind b) u2) (Bind Abst) (lift (S O) O u)) t2 t3) (ty3 g c2 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t0)) (THead (Flat Appl) w (THead (Bind Abst) u t0))) (\lambda (x6: T).\lambda (x7: T).\lambda (x8: T).\lambda (_: (pc3 (CHead c2 (Bind b) u2) (THead (Bind Abst) (lift (S O) O u) x6) (lift (S O) O x))).\lambda (H31: (ty3 g (CHead c2 (Bind b) u2) (lift (S O) O u) x7)).\lambda (H32: (ty3 g (CHead (CHead c2 (Bind b) u2) (Bind Abst) (lift (S O) O u)) (lift (S O) (S O) t0) x6)).\lambda (H33: (ty3 g (CHead (CHead c2 (Bind b) u2) (Bind Abst) (lift (S O) O u)) x6 x8)).ty3_conv g c2 (THead (Flat Appl) w (THead (Bind Abst) u t0)) (THead (Flat Appl) w (THead (Bind Abst) u x0)) (ty3_appl g c2 w u (H1 c2 H4 w (pr0_refl w)) (THead (Bind Abst) u t0) x0 (ty3_bind g c2 u x1 H22 Abst t0 x0 H23 x2 H24)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t0)) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) (THead (Bind Abst) (lift (S O) O u) (lift (S O) (S O) t0)))) (ty3_bind g c2 u2 x4 H25 b (THead (Flat Appl) (lift (S O) O v2) t0) (THead (Flat Appl) (lift (S O) O v2) (THead (Bind Abst) (lift (S O) O u) (lift (S O) (S O) t0))) (ty3_appl g (CHead c2 (Bind b) u2) (lift (S O) O v2) (lift (S O) O u) (ty3_lift g c2 v2 u (H1 c2 H4 v2 H16) (CHead c2 (Bind b) u2) O (S O) (drop_drop (Bind b) O c2 c2 (drop_refl c2) u2)) t0 (lift (S O) (S O) t0) (ty3_conv g (CHead c2 (Bind b) u2) (THead (Bind Abst) (lift (S O) O u) (lift (S O) (S O) t0)) (THead (Bind Abst) (lift (S O) O u) x6) (ty3_bind g (CHead c2 (Bind b) u2) (lift (S O) O u) x7 H31 Abst (lift (S O) (S O) t0) x6 H32 x8 H33) t0 x3 H26 H28)) (THead (Flat Appl) (lift (S O) O v2) (THead (Bind Abst) (lift (S O) O u) x6)) (ty3_appl g (CHead c2 (Bind b) u2) (lift (S O) O v2) (lift (S O) O u) (ty3_lift g c2 v2 u (H1 c2 H4 v2 H16) (CHead c2 (Bind b) u2) O (S O) (drop_drop (Bind b) O c2 c2 (drop_refl c2) u2)) (THead (Bind Abst) (lift (S O) O u) (lift (S O) (S O) t0)) x6 (ty3_bind g (CHead c2 (Bind b) u2) (lift (S O) O u) x7 H31 Abst (lift (S O) (S O) t0) x6 H32 x8 H33))) (eq_ind T (lift (S O) O (THead (Bind Abst) u t0)) (\lambda (t: T).pc3 c2 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t)) (THead (Flat Appl) w (THead (Bind Abst) u t0))) (pc3_pc1 (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) (lift (S O) O (THead (Bind Abst) u t0)))) (THead (Flat Appl) w (THead (Bind Abst) u t0)) (pc1_pr0_u2 (THead (Flat Appl) v2 (THead (Bind b) u2 (lift (S O) O (THead (Bind Abst) u t0)))) (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) (lift (S O) O (THead (Bind Abst) u t0)))) (pr0_upsilon b H15 v2 v2 (pr0_refl v2) u2 u2 (pr0_refl u2) (lift (S O) O (THead (Bind Abst) u t0)) (lift (S O) O (THead (Bind Abst) u t0)) (pr0_refl (lift (S O) O (THead (Bind Abst) u t0)))) (THead (Flat Appl) w (THead (Bind Abst) u t0)) (pc1_s (THead (Flat Appl) v2 (THead (Bind b) u2 (lift (S O) O (THead (Bind Abst) u t0)))) (THead (Flat Appl) w (THead (Bind Abst) u t0)) (pc1_head w v2 (pc1_pr0_r w v2 H16) (THead (Bind Abst) u t0) (THead (Bind b) u2 (lift (S O) O (THead (Bind Abst) u t0))) (pc1_pr0_x (THead (Bind Abst) u t0) (THead (Bind b) u2 (lift (S O) O (THead (Bind Abst) u t0))) (pr0_zeta b H15 (THead (Bind Abst) u t0) (THead (Bind Abst) u t0) (pr0_refl (THead (Bind Abst) u t0)) u2)) (Flat Appl)))) c2) (THead (Bind Abst) (lift (S O) O u) (lift (S O) (S O) t0)) (lift_bind Abst u t0 (S O) O))) (ty3_gen_bind g Abst (CHead c2 (Bind b) u2) (lift (S O) O u) (lift (S O) (S O) t0) (lift (S O) O x) H29)) (ty3_gen_bind g b c2 u2 t0 (THead (Bind Abst) u t0) (H19 c2 H4 (THead (Bind b) u2 t0) (pr0_comp u1 u2 H17 t1 t0 H18 (Bind b))))) (ty3_gen_bind g Abst c2 u t0 x H3)) (ty3_correct g c2 (THead (Bind b) u2 t0) (THead (Bind Abst) u t0) (H19 c2 H4 (THead (Bind b) u2 t0) (pr0_comp u1 u2 H17 t1 t0 H18 (Bind b))))) t2 H14) v H13) v1 (sym_eq T v1 w H12)) H11) H10 H5 H6 H7 H8) | (pr0_delta u1 u2 H5 t1 t0 H6 w0 H7) \Rightarrow (\lambda (H8: (eq T (THead (Bind Abbr) u1 t1) (THead (Flat Appl) w v))).\lambda (H9: (eq T (THead (Bind Abbr) u2 w0) t2)).(let H10 \def eq_ind T (THead (Bind Abbr) u1 t1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (THead (Flat Appl) w v) H8 in False_ind ((eq T (THead (Bind Abbr) u2 w0) t2) \to (pr0 u1 u2) \to (pr0 t1 t0) \to (subst0 O u2 t0 w0) \to ty3 g c2 t2 (THead (Flat Appl) w (THead (Bind Abst) u t0))) H10) H9 H5 H6 H7) | (pr0_zeta b H5 t1 t0 H6 u0) \Rightarrow (\lambda (H7: (eq T (THead (Bind b) u0 (lift (S O) O t1)) (THead (Flat Appl) w v))).\lambda (H8: (eq T t0 t2)).(let H9 \def eq_ind T (THead (Bind b) u0 (lift (S O) O t1)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (THead (Flat Appl) w v) H7 in False_ind ((eq T t0 t2) \to (not (eq B b Abst)) \to (pr0 t1 t0) \to ty3 g c2 t2 (THead (Flat Appl) w (THead (Bind Abst) u t0))) H9) H8 H5 H6) | (pr0_epsilon t1 t0 H5 u0) \Rightarrow (\lambda (H6: (eq T (THead (Flat Cast) u0 t1) (THead (Flat Appl) w v))).\lambda (H7: (eq T t0 t2)).(let H8 \def eq_ind T (THead (Flat Cast) u0 t1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat f) \Rightarrow (match f return (Prop) with [Appl \Rightarrow False | Cast \Rightarrow True])])]) I (THead (Flat Appl) w v) H6 in False_ind ((eq T t0 t2) \to (pr0 t1 t0) \to ty3 g c2 t2 (THead (Flat Appl) w (THead (Bind Abst) u t0))) H8) H7 H5)] in H6 (refl_equal T (THead (Flat Appl) w v)) (refl_equal T t2)) (\lambda (c: C).\lambda (t2: T).\lambda (t3: T).\lambda (_: (ty3 g c t2 t3)).\lambda (H1: ((\forall (c2: C).(wcpr0 c c2) \to \forall (t4: T).(pr0 t2 t4) \to ty3 g c2 t4 t3))).\lambda (t0: T).\lambda (_: (ty3 g c t3 t0)).\lambda (H3: ((\forall (c2: C).(wcpr0 c c2) \to \forall (t2: T).(pr0 t3 t2) \to ty3 g c2 t2 t0))).\lambda (c2: C).\lambda (H4: (wcpr0 c c2)).\lambda (t4: T).\lambda (H5: (pr0 (THead (Flat Cast) t3 t2) t4)).let H6 \def match H5 return (\lambda (t: T).\lambda (t0: T).(eq T t (THead (Flat Cast) t3 t2)) \to (eq T t0 t4) \to ty3 g c2 t4 t3) with [(pr0_refl t) \Rightarrow (\lambda (H5: (eq T t (THead (Flat Cast) t3 t2))).\lambda (H6: (eq T t t4)).eq_ind T (THead (Flat Cast) t3 t2) (\lambda (t0: T).(eq T t0 t4) \to ty3 g c2 t4 t3) (\lambda (H7: (eq T (THead (Flat Cast) t3 t2) t4)).eq_ind T (THead (Flat Cast) t3 t2) (\lambda (t0: T).ty3 g c2 t0 t3) (ty3_cast g c2 t2 t3 (H1 c2 H4 t2 (pr0_refl t2)) t0 (H3 c2 H4 t3 (pr0_refl t3))) t4 H7) t (sym_eq T t (THead (Flat Cast) t3 t2) H5) H6) | (pr0_comp u1 u2 H5 t4 t5 H6 k) \Rightarrow (\lambda (H7: (eq T (THead k u1 t4) (THead (Flat Cast) t3 t2))).\lambda (H8: (eq T (THead k u2 t5) t4)).(let H9 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t4 | (TLRef _) \Rightarrow t4 | (THead _ _ t) \Rightarrow t]) (THead k u1 t4) (THead (Flat Cast) t3 t2) H7 in (let H10 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u1 | (TLRef _) \Rightarrow u1 | (THead _ t _) \Rightarrow t]) (THead k u1 t4) (THead (Flat Cast) t3 t2) H7 in (let H11 \def f_equal T K (\lambda (e: T).match e return K with [(TSort _) \Rightarrow k | (TLRef _) \Rightarrow k | (THead k _ _) \Rightarrow k]) (THead k u1 t4) (THead (Flat Cast) t3 t2) H7 in eq_ind K (Flat Cast) (\lambda (k0: K).(eq T u1 t3) \to (eq T t4 t2) \to (eq T (THead k0 u2 t5) t4) \to (pr0 u1 u2) \to (pr0 t4 t5) \to ty3 g c2 t4 t3) (\lambda (H12: (eq T u1 t3)).eq_ind T t3 (\lambda (t: T).(eq T t4 t2) \to (eq T (THead (Flat Cast) u2 t5) t4) \to (pr0 t u2) \to (pr0 t4 t5) \to ty3 g c2 t4 t3) (\lambda (H13: (eq T t4 t2)).eq_ind T t2 (\lambda (t: T).(eq T (THead (Flat Cast) u2 t5) t4) \to (pr0 t3 u2) \to (pr0 t t5) \to ty3 g c2 t4 t3) (\lambda (H14: (eq T (THead (Flat Cast) u2 t5) t4)).eq_ind T (THead (Flat Cast) u2 t5) (\lambda (t: T).(pr0 t3 u2) \to (pr0 t2 t5) \to ty3 g c2 t t3) (\lambda (H15: (pr0 t3 u2)).\lambda (H16: (pr0 t2 t5)).ty3_conv g c2 t3 t0 (H3 c2 H4 t3 (pr0_refl t3)) (THead (Flat Cast) u2 t5) u2 (ty3_cast g c2 t5 u2 (ty3_conv g c2 u2 t0 (H3 c2 H4 u2 H15) t5 t3 (H1 c2 H4 t5 H16) (pc3_pr2_r c2 t3 u2 (pr2_free c2 t3 u2 H15))) t0 (H3 c2 H4 u2 H15)) (pc3_pr2_x c2 u2 t3 (pr2_free c2 t3 u2 H15))) t4 H14) t4 (sym_eq T t4 t2 H13)) u1 (sym_eq T u1 t3 H12)) k (sym_eq K k (Flat Cast) H11)) H10) H9) H8 H5 H6) | (pr0_beta u v1 v2 H5 t4 t5 H6) \Rightarrow (\lambda (H7: (eq T (THead (Flat Appl) v1 (THead (Bind Abst) u t4)) (THead (Flat Cast) t3 t2))).\lambda (H8: (eq T (THead (Bind Abbr) v2 t5) t4)).(let H9 \def eq_ind T (THead (Flat Appl) v1 (THead (Bind Abst) u t4)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat f) \Rightarrow (match f return (Prop) with [Appl \Rightarrow True | Cast \Rightarrow False])])]) I (THead (Flat Cast) t3 t2) H7 in False_ind ((eq T (THead (Bind Abbr) v2 t5) t4) \to (pr0 v1 v2) \to (pr0 t4 t5) \to ty3 g c2 t4 t3) H9) H8 H5 H6) | (pr0_upsilon b H5 v1 v2 H6 u1 u2 H7 t4 t5 H8) \Rightarrow (\lambda (H9: (eq T (THead (Flat Appl) v1 (THead (Bind b) u1 t4)) (THead (Flat Cast) t3 t2))).\lambda (H10: (eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t5)) t4)).(let H11 \def eq_ind T (THead (Flat Appl) v1 (THead (Bind b) u1 t4)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat f) \Rightarrow (match f return (Prop) with [Appl \Rightarrow True | Cast \Rightarrow False])])]) I (THead (Flat Cast) t3 t2) H9 in False_ind ((eq T (THead (Bind b) u2 (THead (Flat Appl) (lift (S O) O v2) t5)) t4) \to (not (eq B b Abst)) \to (pr0 v1 v2) \to (pr0 u1 u2) \to (pr0 t4 t5) \to ty3 g c2 t4 t3) H11) H10 H5 H6 H7 H8) | (pr0_delta u1 u2 H5 t4 t5 H6 w H7) \Rightarrow (\lambda (H8: (eq T (THead (Bind Abbr) u1 t4) (THead (Flat Cast) t3 t2))).\lambda (H9: (eq T (THead (Bind Abbr) u2 w) t4)).(let H10 \def eq_ind T (THead (Bind Abbr) u1 t4) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (THead (Flat Cast) t3 t2) H8 in False_ind ((eq T (THead (Bind Abbr) u2 w) t4) \to (pr0 u1 u2) \to (pr0 t4 t5) \to (subst0 O u2 t5 w) \to ty3 g c2 t4 t3) H10) H9 H5 H6 H7) | (pr0_zeta b H5 t4 t5 H6 u) \Rightarrow (\lambda (H7: (eq T (THead (Bind b) u (lift (S O) O t4)) (THead (Flat Cast) t3 t2))).\lambda (H8: (eq T t5 t4)).(let H9 \def eq_ind T (THead (Bind b) u (lift (S O) O t4)) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (THead (Flat Cast) t3 t2) H7 in False_ind ((eq T t5 t4) \to (not (eq B b Abst)) \to (pr0 t4 t5) \to ty3 g c2 t4 t3) H9) H8 H5 H6) | (pr0_epsilon t4 t5 H5 u) \Rightarrow (\lambda (H6: (eq T (THead (Flat Cast) u t4) (THead (Flat Cast) t3 t2))).\lambda (H7: (eq T t5 t4)).(let H8 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t4 | (TLRef _) \Rightarrow t4 | (THead _ _ t) \Rightarrow t]) (THead (Flat Cast) u t4) (THead (Flat Cast) t3 t2) H6 in (let H9 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow u | (TLRef _) \Rightarrow u | (THead _ t _) \Rightarrow t]) (THead (Flat Cast) u t4) (THead (Flat Cast) t3 t2) H6 in eq_ind T t3 (\lambda (_: T).(eq T t4 t2) \to (eq T t5 t4) \to (pr0 t4 t5) \to ty3 g c2 t4 t3) (\lambda (H10: (eq T t4 t2)).eq_ind T t2 (\lambda (t: T).(eq T t5 t4) \to (pr0 t t5) \to ty3 g c2 t4 t3) (\lambda (H11: (eq T t5 t4)).eq_ind T t4 (\lambda (t: T).(pr0 t2 t) \to ty3 g c2 t4 t3) (\lambda (H12: (pr0 t2 t4)).H1 c2 H4 t4 H12) t5 (sym_eq T t5 t4 H11)) t4 (sym_eq T t4 t2 H10)) u (sym_eq T u t3 H9)) H8) H7 H5)] in H6 (refl_equal T (THead (Flat Cast) t3 t2)) (refl_equal T t4)) c1 t1 t H.
+
+theorem ty3_sred_pr1: \forall (c: C).\forall (t1: T).\forall (t2: T).(pr1 t1 t2) \to \forall (g: G).\forall (t: T).(ty3 g c t1 t) \to ty3 g c t2 t \def \lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pr1 t1 t2)).pr1_ind (\lambda (t: T).\lambda (t0: T).\forall (g: G).\forall (t3: T).(ty3 g c t t3) \to ty3 g c t0 t3) (\lambda (t: T).\lambda (g: G).\lambda (t0: T).\lambda (H0: (ty3 g c t t0)).H0) (\lambda (t3: T).\lambda (t4: T).\lambda (H0: (pr0 t4 t3)).\lambda (t5: T).\lambda (_: (pr1 t3 t5)).\lambda (H2: ((\forall (g: G).\forall (t: T).(ty3 g c t3 t) \to ty3 g c t5 t))).\lambda (g: G).\lambda (t: T).\lambda (H3: (ty3 g c t4 t)).H2 g t (ty3_sred_wcpr0_pr0 g c t4 t H3 c (wcpr0_refl c) t3 H0)) t1 t2 H.
+
+theorem ty3_sred_pr2: \forall (c: C).\forall (t1: T).\forall (t2: T).(pr2 c t1 t2) \to \forall (g: G).\forall (t: T).(ty3 g c t1 t) \to ty3 g c t2 t \def \lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pr2 c t1 t2)).pr2_ind (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).\forall (g: G).\forall (t3: T).(ty3 g c0 t t3) \to ty3 g c0 t0 t3) (\lambda (c0: C).\lambda (t3: T).\lambda (t4: T).\lambda (H0: (pr0 t3 t4)).\lambda (g: G).\lambda (t: T).\lambda (H1: (ty3 g c0 t3 t)).ty3_sred_wcpr0_pr0 g c0 t3 t H1 c0 (wcpr0_refl c0) t4 H0) (\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c0 (CHead d (Bind Abbr) u))).\lambda (t3: T).\lambda (t4: T).\lambda (H1: (pr0 t3 t4)).\lambda (t: T).\lambda (H2: (subst0 i u t4 t)).\lambda (g: G).\lambda (t0: T).\lambda (H3: (ty3 g c0 t3 t0)).ty3_subst0 g c0 t4 t0 (ty3_sred_wcpr0_pr0 g c0 t3 t0 H3 c0 (wcpr0_refl c0) t4 H1) d u i H0 t H2) c t1 t2 H.
+
+theorem ty3_sred_pr3: \forall (c: C).\forall (t1: T).\forall (t2: T).(pr3 c t1 t2) \to \forall (g: G).\forall (t: T).(ty3 g c t1 t) \to ty3 g c t2 t \def \lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (pr3 c t1 t2)).pr3_ind c (\lambda (t: T).\lambda (t0: T).\forall (g: G).\forall (t3: T).(ty3 g c t t3) \to ty3 g c t0 t3) (\lambda (t: T).\lambda (g: G).\lambda (t0: T).\lambda (H0: (ty3 g c t t0)).H0) (\lambda (t3: T).\lambda (t4: T).\lambda (H0: (pr2 c t4 t3)).\lambda (t5: T).\lambda (_: (pr3 c t3 t5)).\lambda (H2: ((\forall (g: G).\forall (t: T).(ty3 g c t3 t) \to ty3 g c t5 t))).\lambda (g: G).\lambda (t: T).\lambda (H3: (ty3 g c t4 t)).H2 g t (ty3_sred_pr2 c t4 t3 H0 g t H3)) t1 t2 H.
+
+theorem ty3_cred_pr2: \forall (g: G).\forall (c: C).\forall (v1: T).\forall (v2: T).(pr2 c v1 v2) \to \forall (b: B).\forall (t1: T).\forall (t2: T).(ty3 g (CHead c (Bind b) v1) t1 t2) \to ty3 g (CHead c (Bind b) v2) t1 t2 \def \lambda (g: G).\lambda (c: C).\lambda (v1: T).\lambda (v2: T).\lambda (H: (pr2 c v1 v2)).pr2_ind (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).\forall (b: B).\forall (t1: T).\forall (t2: T).(ty3 g (CHead c0 (Bind b) t) t1 t2) \to ty3 g (CHead c0 (Bind b) t0) t1 t2) (\lambda (c0: C).\lambda (t1: T).\lambda (t2: T).\lambda (H0: (pr0 t1 t2)).\lambda (b: B).\lambda (t0: T).\lambda (t3: T).\lambda (H1: (ty3 g (CHead c0 (Bind b) t1) t0 t3)).ty3_sred_wcpr0_pr0 g (CHead c0 (Bind b) t1) t0 t3 H1 (CHead c0 (Bind b) t2) (wcpr0_comp c0 c0 (wcpr0_refl c0) t1 t2 H0 (Bind b)) t0 (pr0_refl t0)) (\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (i: nat).\lambda (H0: (getl i c0 (CHead d (Bind Abbr) u))).\lambda (t1: T).\lambda (t2: T).\lambda (H1: (pr0 t1 t2)).\lambda (t: T).\lambda (H2: (subst0 i u t2 t)).\lambda (b: B).\lambda (t0: T).\lambda (t3: T).\lambda (H3: (ty3 g (CHead c0 (Bind b) t1) t0 t3)).ty3_csubst0 g (CHead c0 (Bind b) t2) t0 t3 (ty3_sred_wcpr0_pr0 g (CHead c0 (Bind b) t1) t0 t3 H3 (CHead c0 (Bind b) t2) (wcpr0_comp c0 c0 (wcpr0_refl c0) t1 t2 H1 (Bind b)) t0 (pr0_refl t0)) d u (S i) (getl_clear_bind b (CHead c0 (Bind b) t2) c0 t2 (clear_bind b c0 t2) (CHead d (Bind Abbr) u) i H0) (CHead c0 (Bind b) t) (csubst0_snd_bind b i u t2 t H2 c0)) c v1 v2 H.
+
+theorem ty3_cred_pr3: \forall (g: G).\forall (c: C).\forall (v1: T).\forall (v2: T).(pr3 c v1 v2) \to \forall (b: B).\forall (t1: T).\forall (t2: T).(ty3 g (CHead c (Bind b) v1) t1 t2) \to ty3 g (CHead c (Bind b) v2) t1 t2 \def \lambda (g: G).\lambda (c: C).\lambda (v1: T).\lambda (v2: T).\lambda (H: (pr3 c v1 v2)).pr3_ind c (\lambda (t: T).\lambda (t0: T).\forall (b: B).\forall (t1: T).\forall (t2: T).(ty3 g (CHead c (Bind b) t) t1 t2) \to ty3 g (CHead c (Bind b) t0) t1 t2) (\lambda (t: T).\lambda (b: B).\lambda (t1: T).\lambda (t2: T).\lambda (H0: (ty3 g (CHead c (Bind b) t) t1 t2)).H0) (\lambda (t2: T).\lambda (t1: T).\lambda (H0: (pr2 c t1 t2)).\lambda (t3: T).\lambda (_: (pr3 c t2 t3)).\lambda (H2: ((\forall (b: B).\forall (t1: T).\forall (t4: T).(ty3 g (CHead c (Bind b) t2) t1 t4) \to ty3 g (CHead c (Bind b) t3) t1 t4))).\lambda (b: B).\lambda (t0: T).\lambda (t4: T).\lambda (H3: (ty3 g (CHead c (Bind b) t1) t0 t4)).H2 b t0 t4 (ty3_cred_pr2 g c t1 t2 H0 b t0 t4 H3)) v1 v2 H.
+
+theorem ty3_gen.__le_S_minus: \forall (d: nat).\forall (h: nat).\forall (n: nat).(le (plus d h) n) \to le d (S (minus n h)) \def \lambda (d: nat).\lambda (h: nat).\lambda (n: nat).\lambda (H: (le (plus d h) n)).let H0 \def le_trans d (plus d h) n (le_plus_l d h) H in let H1 \def eq_ind nat n (\lambda (n: nat).le d n) H0 (plus (minus n h) h) (le_plus_minus_sym h n (le_trans_plus_r d h n H)) in le_S d (minus n h) (le_minus d n h H).
+
+theorem ty3_gen_lift: \forall (g: G).\forall (c: C).\forall (t1: T).\forall (x: T).\forall (h: nat).\forall (d: nat).(ty3 g c (lift h d t1) x) \to \forall (e: C).(drop h d c e) \to ex2 T (\lambda (t2: T).pc3 c (lift h d t2) x) (\lambda (t2: T).ty3 g e t1 t2) \def \lambda (g: G).\lambda (c: C).\lambda (t1: T).\lambda (x: T).\lambda (h: nat).\lambda (d: nat).\lambda (H: (ty3 g c (lift h d t1) x)).insert_eq T (lift h d t1) (\lambda (t: T).ty3 g c t x) (\forall (e: C).(drop h d c e) \to ex2 T (\lambda (t2: T).pc3 c (lift h d t2) x) (\lambda (t2: T).ty3 g e t1 t2)) (\lambda (y: T).\lambda (H0: (ty3 g c y x)).unintro nat d (\lambda (n: nat).(eq T y (lift h n t1)) \to \forall (e: C).(drop h n c e) \to ex2 T (\lambda (t2: T).pc3 c (lift h n t2) x) (\lambda (t2: T).ty3 g e t1 t2)) (unintro T t1 (\lambda (t: T).\forall (x0: nat).(eq T y (lift h x0 t)) \to \forall (e: C).(drop h x0 c e) \to ex2 T (\lambda (t2: T).pc3 c (lift h x0 t2) x) (\lambda (t2: T).ty3 g e t t2)) (ty3_ind g (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).\forall (x0: T).\forall (x1: nat).(eq T t (lift h x1 x0)) \to \forall (e: C).(drop h x1 c0 e) \to ex2 T (\lambda (t2: T).pc3 c0 (lift h x1 t2) t0) (\lambda (t2: T).ty3 g e x0 t2)) (\lambda (c0: C).\lambda (t2: T).\lambda (t: T).\lambda (_: (ty3 g c0 t2 t)).\lambda (_: ((\forall (x: T).\forall (x0: nat).(eq T t2 (lift h x0 x)) \to \forall (e: C).(drop h x0 c0 e) \to ex2 T (\lambda (t2: T).pc3 c0 (lift h x0 t2) t) (\lambda (t2: T).ty3 g e x t2)))).\lambda (u: T).\lambda (t3: T).\lambda (H3: (ty3 g c0 u t3)).\lambda (H4: ((\forall (x: T).\forall (x0: nat).(eq T u (lift h x0 x)) \to \forall (e: C).(drop h x0 c0 e) \to ex2 T (\lambda (t2: T).pc3 c0 (lift h x0 t2) t3) (\lambda (t2: T).ty3 g e x t2)))).\lambda (H5: (pc3 c0 t3 t2)).\lambda (x0: T).\lambda (x1: nat).\lambda (H6: (eq T u (lift h x1 x0))).\lambda (e: C).\lambda (H7: (drop h x1 c0 e)).let H8 \def eq_ind T u (\lambda (t: T).\forall (x: T).\forall (x0: nat).(eq T t (lift h x0 x)) \to \forall (e: C).(drop h x0 c0 e) \to ex2 T (\lambda (t2: T).pc3 c0 (lift h x0 t2) t3) (\lambda (t2: T).ty3 g e x t2)) H4 (lift h x1 x0) H6 in let H9 \def eq_ind T u (\lambda (t: T).ty3 g c0 t t3) H3 (lift h x1 x0) H6 in let H10 \def H8 x0 x1 (refl_equal T (lift h x1 x0)) e H7 in ex2_ind T (\lambda (t4: T).pc3 c0 (lift h x1 t4) t3) (\lambda (t4: T).ty3 g e x0 t4) (ex2 T (\lambda (t4: T).pc3 c0 (lift h x1 t4) t2) (\lambda (t4: T).ty3 g e x0 t4)) (\lambda (x2: T).\lambda (H11: (pc3 c0 (lift h x1 x2) t3)).\lambda (H12: (ty3 g e x0 x2)).ex_intro2 T (\lambda (t4: T).pc3 c0 (lift h x1 t4) t2) (\lambda (t4: T).ty3 g e x0 t4) x2 (pc3_t t3 c0 (lift h x1 x2) H11 t2 H5) H12) H10) (\lambda (c0: C).\lambda (m: nat).\lambda (x0: T).\lambda (x1: nat).\lambda (H1: (eq T (TSort m) (lift h x1 x0))).\lambda (e: C).\lambda (_: (drop h x1 c0 e)).eq_ind_r T (TSort m) (\lambda (t: T).ex2 T (\lambda (t2: T).pc3 c0 (lift h x1 t2) (TSort (next g m))) (\lambda (t2: T).ty3 g e t t2)) (ex_intro2 T (\lambda (t2: T).pc3 c0 (lift h x1 t2) (TSort (next g m))) (\lambda (t2: T).ty3 g e (TSort m) t2) (TSort (next g m)) (eq_ind_r T (TSort (next g m)) (\lambda (t: T).pc3 c0 t (TSort (next g m))) (pc3_refl c0 (TSort (next g m))) (lift h x1 (TSort (next g m))) (lift_sort (next g m) h x1)) (ty3_sort g e m)) x0 (lift_gen_sort h x1 m x0 H1)) (\lambda (n: nat).\lambda (c0: C).\lambda (d0: C).\lambda (u: T).\lambda (H1: (getl n c0 (CHead d0 (Bind Abbr) u))).\lambda (t: T).\lambda (H2: (ty3 g d0 u t)).\lambda (H3: ((\forall (x: T).\forall (x0: nat).(eq T u (lift h x0 x)) \to \forall (e: C).(drop h x0 d0 e) \to ex2 T (\lambda (t2: T).pc3 d0 (lift h x0 t2) t) (\lambda (t2: T).ty3 g e x t2)))).\lambda (x0: T).\lambda (x1: nat).\lambda (H4: (eq T (TLRef n) (lift h x1 x0))).\lambda (e: C).\lambda (H5: (drop h x1 c0 e)).let H_x \def lift_gen_lref x0 x1 h n H4 in let H6 \def H_x in or_ind (and (lt n x1) (eq T x0 (TLRef n))) (and (le (plus x1 h) n) (eq T x0 (TLRef (minus n h)))) (ex2 T (\lambda (t2: T).pc3 c0 (lift h x1 t2) (lift (S n) O t)) (\lambda (t2: T).ty3 g e x0 t2)) (\lambda (H7: (and (lt n x1) (eq T x0 (TLRef n)))).and_ind (lt n x1) (eq T x0 (TLRef n)) (ex2 T (\lambda (t2: T).pc3 c0 (lift h x1 t2) (lift (S n) O t)) (\lambda (t2: T).ty3 g e x0 t2)) (\lambda (H8: (lt n x1)).\lambda (H9: (eq T x0 (TLRef n))).eq_ind_r T (TLRef n) (\lambda (t0: T).ex2 T (\lambda (t2: T).pc3 c0 (lift h x1 t2) (lift (S n) O t)) (\lambda (t2: T).ty3 g e t0 t2)) (let H10 \def eq_ind nat x1 (\lambda (n: nat).drop h n c0 e) H5 (S (plus n (minus x1 (S n)))) (lt_plus_minus n x1 H8) in ex3_2_ind T C (\lambda (v: T).\lambda (_: C).eq T u (lift h (minus x1 (S n)) v)) (\lambda (v: T).\lambda (e0: C).getl n e (CHead e0 (Bind Abbr) v)) (\lambda (_: T).\lambda (e0: C).drop h (minus x1 (S n)) d0 e0) (ex2 T (\lambda (t2: T).pc3 c0 (lift h x1 t2) (lift (S n) O t)) (\lambda (t2: T).ty3 g e (TLRef n) t2)) (\lambda (x2: T).\lambda (x3: C).\lambda (H11: (eq T u (lift h (minus x1 (S n)) x2))).\lambda (H12: (getl n e (CHead x3 (Bind Abbr) x2))).\lambda (H13: (drop h (minus x1 (S n)) d0 x3)).let H14 \def eq_ind T u (\lambda (t0: T).\forall (x: T).\forall (x0: nat).(eq T t0 (lift h x0 x)) \to \forall (e: C).(drop h x0 d0 e) \to ex2 T (\lambda (t2: T).pc3 d0 (lift h x0 t2) t) (\lambda (t2: T).ty3 g e x t2)) H3 (lift h (minus x1 (S n)) x2) H11 in let H15 \def eq_ind T u (\lambda (t0: T).ty3 g d0 t0 t) H2 (lift h (minus x1 (S n)) x2) H11 in let H16 \def H14 x2 (minus x1 (S n)) (refl_equal T (lift h (minus x1 (S n)) x2)) x3 H13 in ex2_ind T (\lambda (t2: T).pc3 d0 (lift h (minus x1 (S n)) t2) t) (\lambda (t2: T).ty3 g x3 x2 t2) (ex2 T (\lambda (t2: T).pc3 c0 (lift h x1 t2) (lift (S n) O t)) (\lambda (t2: T).ty3 g e (TLRef n) t2)) (\lambda (x4: T).\lambda (H17: (pc3 d0 (lift h (minus x1 (S n)) x4) t)).\lambda (H18: (ty3 g x3 x2 x4)).eq_ind_r nat (plus (S n) (minus x1 (S n))) (\lambda (n0: nat).ex2 T (\lambda (t2: T).pc3 c0 (lift h n0 t2) (lift (S n) O t)) (\lambda (t2: T).ty3 g e (TLRef n) t2)) (ex_intro2 T (\lambda (t2: T).pc3 c0 (lift h (plus (S n) (minus x1 (S n))) t2) (lift (S n) O t)) (\lambda (t2: T).ty3 g e (TLRef n) t2) (lift (S n) O x4) (eq_ind_r T (lift (S n) O (lift h (minus x1 (S n)) x4)) (\lambda (t0: T).pc3 c0 t0 (lift (S n) O t)) (pc3_lift c0 d0 (S n) O (getl_drop Abbr c0 d0 u n H1) (lift h (minus x1 (S n)) x4) t H17) (lift h (plus (S n) (minus x1 (S n))) (lift (S n) O x4)) (lift_d x4 h (S n) (minus x1 (S n)) O (le_O_n (minus x1 (S n))))) (ty3_abbr g n e x3 x2 H12 x4 H18)) x1 (le_plus_minus (S n) x1 H8)) H16) (getl_drop_conf_lt Abbr c0 d0 u n H1 e h (minus x1 (S n)) H10)) x0 H9) H7) (\lambda (H7: (and (le (plus x1 h) n) (eq T x0 (TLRef (minus n h))))).and_ind (le (plus x1 h) n) (eq T x0 (TLRef (minus n h))) (ex2 T (\lambda (t2: T).pc3 c0 (lift h x1 t2) (lift (S n) O t)) (\lambda (t2: T).ty3 g e x0 t2)) (\lambda (H8: (le (plus x1 h) n)).\lambda (H9: (eq T x0 (TLRef (minus n h)))).eq_ind_r T (TLRef (minus n h)) (\lambda (t0: T).ex2 T (\lambda (t2: T).pc3 c0 (lift h x1 t2) (lift (S n) O t)) (\lambda (t2: T).ty3 g e t0 t2)) (ex_intro2 T (\lambda (t2: T).pc3 c0 (lift h x1 t2) (lift (S n) O t)) (\lambda (t2: T).ty3 g e (TLRef (minus n h)) t2) (lift (S (minus n h)) O t) (eq_ind_r T (lift (plus h (S (minus n h))) O t) (\lambda (t0: T).pc3 c0 t0 (lift (S n) O t)) (eq_ind nat (S (plus h (minus n h))) (\lambda (n0: nat).pc3 c0 (lift n0 O t) (lift (S n) O t)) (eq_ind nat n (\lambda (n0: nat).pc3 c0 (lift (S n0) O t) (lift (S n) O t)) (pc3_refl c0 (lift (S n) O t)) (plus h (minus n h)) (le_plus_minus h n (le_trans_plus_r x1 h n H8))) (plus h (S (minus n h))) (plus_n_Sm h (minus n h))) (lift h x1 (lift (S (minus n h)) O t)) (lift_free t (S (minus n h)) h O x1 (le_trans x1 (S (minus n h)) (plus O (S (minus n h))) (ty3_gen.__le_S_minus x1 h n H8) (le_n (plus O (S (minus n h))))) (le_O_n x1))) (ty3_abbr g (minus n h) e d0 u (getl_drop_conf_ge n (CHead d0 (Bind Abbr) u) c0 H1 e h x1 H5 H8) t H2)) x0 H9) H7) H6) (\lambda (n: nat).\lambda (c0: C).\lambda (d0: C).\lambda (u: T).\lambda (H1: (getl n c0 (CHead d0 (Bind Abst) u))).\lambda (t: T).\lambda (H2: (ty3 g d0 u t)).\lambda (H3: ((\forall (x: T).\forall (x0: nat).(eq T u (lift h x0 x)) \to \forall (e: C).(drop h x0 d0 e) \to ex2 T (\lambda (t2: T).pc3 d0 (lift h x0 t2) t) (\lambda (t2: T).ty3 g e x t2)))).\lambda (x0: T).\lambda (x1: nat).\lambda (H4: (eq T (TLRef n) (lift h x1 x0))).\lambda (e: C).\lambda (H5: (drop h x1 c0 e)).let H_x \def lift_gen_lref x0 x1 h n H4 in let H6 \def H_x in or_ind (and (lt n x1) (eq T x0 (TLRef n))) (and (le (plus x1 h) n) (eq T x0 (TLRef (minus n h)))) (ex2 T (\lambda (t2: T).pc3 c0 (lift h x1 t2) (lift (S n) O u)) (\lambda (t2: T).ty3 g e x0 t2)) (\lambda (H7: (and (lt n x1) (eq T x0 (TLRef n)))).and_ind (lt n x1) (eq T x0 (TLRef n)) (ex2 T (\lambda (t2: T).pc3 c0 (lift h x1 t2) (lift (S n) O u)) (\lambda (t2: T).ty3 g e x0 t2)) (\lambda (H8: (lt n x1)).\lambda (H9: (eq T x0 (TLRef n))).eq_ind_r T (TLRef n) (\lambda (t0: T).ex2 T (\lambda (t2: T).pc3 c0 (lift h x1 t2) (lift (S n) O u)) (\lambda (t2: T).ty3 g e t0 t2)) (let H10 \def eq_ind nat x1 (\lambda (n: nat).drop h n c0 e) H5 (S (plus n (minus x1 (S n)))) (lt_plus_minus n x1 H8) in ex3_2_ind T C (\lambda (v: T).\lambda (_: C).eq T u (lift h (minus x1 (S n)) v)) (\lambda (v: T).\lambda (e0: C).getl n e (CHead e0 (Bind Abst) v)) (\lambda (_: T).\lambda (e0: C).drop h (minus x1 (S n)) d0 e0) (ex2 T (\lambda (t2: T).pc3 c0 (lift h x1 t2) (lift (S n) O u)) (\lambda (t2: T).ty3 g e (TLRef n) t2)) (\lambda (x2: T).\lambda (x3: C).\lambda (H11: (eq T u (lift h (minus x1 (S n)) x2))).\lambda (H12: (getl n e (CHead x3 (Bind Abst) x2))).\lambda (H13: (drop h (minus x1 (S n)) d0 x3)).let H14 \def eq_ind T u (\lambda (t0: T).\forall (x: T).\forall (x0: nat).(eq T t0 (lift h x0 x)) \to \forall (e: C).(drop h x0 d0 e) \to ex2 T (\lambda (t2: T).pc3 d0 (lift h x0 t2) t) (\lambda (t2: T).ty3 g e x t2)) H3 (lift h (minus x1 (S n)) x2) H11 in let H15 \def eq_ind T u (\lambda (t0: T).ty3 g d0 t0 t) H2 (lift h (minus x1 (S n)) x2) H11 in eq_ind_r T (lift h (minus x1 (S n)) x2) (\lambda (t0: T).ex2 T (\lambda (t2: T).pc3 c0 (lift h x1 t2) (lift (S n) O t0)) (\lambda (t2: T).ty3 g e (TLRef n) t2)) (let H16 \def H14 x2 (minus x1 (S n)) (refl_equal T (lift h (minus x1 (S n)) x2)) x3 H13 in ex2_ind T (\lambda (t2: T).pc3 d0 (lift h (minus x1 (S n)) t2) t) (\lambda (t2: T).ty3 g x3 x2 t2) (ex2 T (\lambda (t2: T).pc3 c0 (lift h x1 t2) (lift (S n) O (lift h (minus x1 (S n)) x2))) (\lambda (t2: T).ty3 g e (TLRef n) t2)) (\lambda (x4: T).\lambda (_: (pc3 d0 (lift h (minus x1 (S n)) x4) t)).\lambda (H18: (ty3 g x3 x2 x4)).eq_ind_r nat (plus (S n) (minus x1 (S n))) (\lambda (n0: nat).ex2 T (\lambda (t2: T).pc3 c0 (lift h n0 t2) (lift (S n) O (lift h (minus n0 (S n)) x2))) (\lambda (t2: T).ty3 g e (TLRef n) t2)) (ex_intro2 T (\lambda (t2: T).pc3 c0 (lift h (plus (S n) (minus x1 (S n))) t2) (lift (S n) O (lift h (minus (plus (S n) (minus x1 (S n))) (S n)) x2))) (\lambda (t2: T).ty3 g e (TLRef n) t2) (lift (S n) O x2) (eq_ind_r T (lift (S n) O (lift h (minus x1 (S n)) x2)) (\lambda (t0: T).pc3 c0 t0 (lift (S n) O (lift h (minus (plus (S n) (minus x1 (S n))) (S n)) x2))) (eq_ind nat x1 (\lambda (n0: nat).pc3 c0 (lift (S n) O (lift h (minus x1 (S n)) x2)) (lift (S n) O (lift h (minus n0 (S n)) x2))) (pc3_refl c0 (lift (S n) O (lift h (minus x1 (S n)) x2))) (plus (S n) (minus x1 (S n))) (le_plus_minus (S n) x1 H8)) (lift h (plus (S n) (minus x1 (S n))) (lift (S n) O x2)) (lift_d x2 h (S n) (minus x1 (S n)) O (le_O_n (minus x1 (S n))))) (ty3_abst g n e x3 x2 H12 x4 H18)) x1 (le_plus_minus (S n) x1 H8)) H16) u H11) (getl_drop_conf_lt Abst c0 d0 u n H1 e h (minus x1 (S n)) H10)) x0 H9) H7) (\lambda (H7: (and (le (plus x1 h) n) (eq T x0 (TLRef (minus n h))))).and_ind (le (plus x1 h) n) (eq T x0 (TLRef (minus n h))) (ex2 T (\lambda (t2: T).pc3 c0 (lift h x1 t2) (lift (S n) O u)) (\lambda (t2: T).ty3 g e x0 t2)) (\lambda (H8: (le (plus x1 h) n)).\lambda (H9: (eq T x0 (TLRef (minus n h)))).eq_ind_r T (TLRef (minus n h)) (\lambda (t0: T).ex2 T (\lambda (t2: T).pc3 c0 (lift h x1 t2) (lift (S n) O u)) (\lambda (t2: T).ty3 g e t0 t2)) (ex_intro2 T (\lambda (t2: T).pc3 c0 (lift h x1 t2) (lift (S n) O u)) (\lambda (t2: T).ty3 g e (TLRef (minus n h)) t2) (lift (S (minus n h)) O u) (eq_ind_r T (lift (plus h (S (minus n h))) O u) (\lambda (t0: T).pc3 c0 t0 (lift (S n) O u)) (eq_ind nat (S (plus h (minus n h))) (\lambda (n0: nat).pc3 c0 (lift n0 O u) (lift (S n) O u)) (eq_ind nat n (\lambda (n0: nat).pc3 c0 (lift (S n0) O u) (lift (S n) O u)) (pc3_refl c0 (lift (S n) O u)) (plus h (minus n h)) (le_plus_minus h n (le_trans_plus_r x1 h n H8))) (plus h (S (minus n h))) (plus_n_Sm h (minus n h))) (lift h x1 (lift (S (minus n h)) O u)) (lift_free u (S (minus n h)) h O x1 (le_trans x1 (S (minus n h)) (plus O (S (minus n h))) (ty3_gen.__le_S_minus x1 h n H8) (le_n (plus O (S (minus n h))))) (le_O_n x1))) (ty3_abst g (minus n h) e d0 u (getl_drop_conf_ge n (CHead d0 (Bind Abst) u) c0 H1 e h x1 H5 H8) t H2)) x0 H9) H7) H6) (\lambda (c0: C).\lambda (u: T).\lambda (t: T).\lambda (H1: (ty3 g c0 u t)).\lambda (H2: ((\forall (x: T).\forall (x0: nat).(eq T u (lift h x0 x)) \to \forall (e: C).(drop h x0 c0 e) \to ex2 T (\lambda (t2: T).pc3 c0 (lift h x0 t2) t) (\lambda (t2: T).ty3 g e x t2)))).\lambda (b: B).\lambda (t2: T).\lambda (t3: T).\lambda (H3: (ty3 g (CHead c0 (Bind b) u) t2 t3)).\lambda (H4: ((\forall (x: T).\forall (x0: nat).(eq T t2 (lift h x0 x)) \to \forall (e: C).(drop h x0 (CHead c0 (Bind b) u) e) \to ex2 T (\lambda (t2: T).pc3 (CHead c0 (Bind b) u) (lift h x0 t2) t3) (\lambda (t2: T).ty3 g e x t2)))).\lambda (t0: T).\lambda (H5: (ty3 g (CHead c0 (Bind b) u) t3 t0)).\lambda (H6: ((\forall (x: T).\forall (x0: nat).(eq T t3 (lift h x0 x)) \to \forall (e: C).(drop h x0 (CHead c0 (Bind b) u) e) \to ex2 T (\lambda (t2: T).pc3 (CHead c0 (Bind b) u) (lift h x0 t2) t0) (\lambda (t2: T).ty3 g e x t2)))).\lambda (x0: T).\lambda (x1: nat).\lambda (H7: (eq T (THead (Bind b) u t2) (lift h x1 x0))).\lambda (e: C).\lambda (H8: (drop h x1 c0 e)).ex3_2_ind T T (\lambda (y0: T).\lambda (z: T).eq T x0 (THead (Bind b) y0 z)) (\lambda (y0: T).\lambda (_: T).eq T u (lift h x1 y0)) (\lambda (_: T).\lambda (z: T).eq T t2 (lift h (S x1) z)) (ex2 T (\lambda (t4: T).pc3 c0 (lift h x1 t4) (THead (Bind b) u t3)) (\lambda (t4: T).ty3 g e x0 t4)) (\lambda (x2: T).\lambda (x3: T).\lambda (H9: (eq T x0 (THead (Bind b) x2 x3))).\lambda (H10: (eq T u (lift h x1 x2))).\lambda (H11: (eq T t2 (lift h (S x1) x3))).eq_ind_r T (THead (Bind b) x2 x3) (\lambda (t4: T).ex2 T (\lambda (t5: T).pc3 c0 (lift h x1 t5) (THead (Bind b) u t3)) (\lambda (t5: T).ty3 g e t4 t5)) (let H12 \def eq_ind T t2 (\lambda (t: T).\forall (x: T).\forall (x0: nat).(eq T t (lift h x0 x)) \to \forall (e: C).(drop h x0 (CHead c0 (Bind b) u) e) \to ex2 T (\lambda (t2: T).pc3 (CHead c0 (Bind b) u) (lift h x0 t2) t3) (\lambda (t2: T).ty3 g e x t2)) H4 (lift h (S x1) x3) H11 in let H13 \def eq_ind T t2 (\lambda (t: T).ty3 g (CHead c0 (Bind b) u) t t3) H3 (lift h (S x1) x3) H11 in let H14 \def eq_ind T u (\lambda (t: T).ty3 g (CHead c0 (Bind b) t) (lift h (S x1) x3) t3) H13 (lift h x1 x2) H10 in let H15 \def eq_ind T u (\lambda (t: T).\forall (x: T).\forall (x0: nat).(eq T (lift h (S x1) x3) (lift h x0 x)) \to \forall (e: C).(drop h x0 (CHead c0 (Bind b) t) e) \to ex2 T (\lambda (t2: T).pc3 (CHead c0 (Bind b) t) (lift h x0 t2) t3) (\lambda (t2: T).ty3 g e x t2)) H12 (lift h x1 x2) H10 in let H16 \def eq_ind T u (\lambda (t: T).\forall (x: T).\forall (x0: nat).(eq T t3 (lift h x0 x)) \to \forall (e: C).(drop h x0 (CHead c0 (Bind b) t) e) \to ex2 T (\lambda (t2: T).pc3 (CHead c0 (Bind b) t) (lift h x0 t2) t0) (\lambda (t2: T).ty3 g e x t2)) H6 (lift h x1 x2) H10 in let H17 \def eq_ind T u (\lambda (t: T).ty3 g (CHead c0 (Bind b) t) t3 t0) H5 (lift h x1 x2) H10 in let H18 \def eq_ind T u (\lambda (t0: T).\forall (x: T).\forall (x0: nat).(eq T t0 (lift h x0 x)) \to \forall (e: C).(drop h x0 c0 e) \to ex2 T (\lambda (t2: T).pc3 c0 (lift h x0 t2) t) (\lambda (t2: T).ty3 g e x t2)) H2 (lift h x1 x2) H10 in let H19 \def eq_ind T u (\lambda (t0: T).ty3 g c0 t0 t) H1 (lift h x1 x2) H10 in eq_ind_r T (lift h x1 x2) (\lambda (t4: T).ex2 T (\lambda (t5: T).pc3 c0 (lift h x1 t5) (THead (Bind b) t4 t3)) (\lambda (t5: T).ty3 g e (THead (Bind b) x2 x3) t5)) (let H20 \def H18 x2 x1 (refl_equal T (lift h x1 x2)) e H8 in ex2_ind T (\lambda (t4: T).pc3 c0 (lift h x1 t4) t) (\lambda (t4: T).ty3 g e x2 t4) (ex2 T (\lambda (t4: T).pc3 c0 (lift h x1 t4) (THead (Bind b) (lift h x1 x2) t3)) (\lambda (t4: T).ty3 g e (THead (Bind b) x2 x3) t4)) (\lambda (x4: T).\lambda (_: (pc3 c0 (lift h x1 x4) t)).\lambda (H22: (ty3 g e x2 x4)).let H23 \def H15 x3 (S x1) (refl_equal T (lift h (S x1) x3)) (CHead e (Bind b) x2) (drop_skip_bind h x1 c0 e H8 b x2) in ex2_ind T (\lambda (t4: T).pc3 (CHead c0 (Bind b) (lift h x1 x2)) (lift h (S x1) t4) t3) (\lambda (t4: T).ty3 g (CHead e (Bind b) x2) x3 t4) (ex2 T (\lambda (t4: T).pc3 c0 (lift h x1 t4) (THead (Bind b) (lift h x1 x2) t3)) (\lambda (t4: T).ty3 g e (THead (Bind b) x2 x3) t4)) (\lambda (x5: T).\lambda (H24: (pc3 (CHead c0 (Bind b) (lift h x1 x2)) (lift h (S x1) x5) t3)).\lambda (H25: (ty3 g (CHead e (Bind b) x2) x3 x5)).ex_ind T (\lambda (t4: T).ty3 g (CHead e (Bind b) x2) x5 t4) (ex2 T (\lambda (t4: T).pc3 c0 (lift h x1 t4) (THead (Bind b) (lift h x1 x2) t3)) (\lambda (t4: T).ty3 g e (THead (Bind b) x2 x3) t4)) (\lambda (x6: T).\lambda (H26: (ty3 g (CHead e (Bind b) x2) x5 x6)).ex_intro2 T (\lambda (t4: T).pc3 c0 (lift h x1 t4) (THead (Bind b) (lift h x1 x2) t3)) (\lambda (t4: T).ty3 g e (THead (Bind b) x2 x3) t4) (THead (Bind b) x2 x5) (eq_ind_r T (THead (Bind b) (lift h x1 x2) (lift h (S x1) x5)) (\lambda (t4: T).pc3 c0 t4 (THead (Bind b) (lift h x1 x2) t3)) (pc3_head_2 c0 (lift h x1 x2) (lift h (S x1) x5) t3 (Bind b) H24) (lift h x1 (THead (Bind b) x2 x5)) (lift_bind b x2 x5 h x1)) (ty3_bind g e x2 x4 H22 b x3 x5 H25 x6 H26)) (ty3_correct g (CHead e (Bind b) x2) x3 x5 H25)) H23) H20) u H10) x0 H9) (lift_gen_bind b u t2 x0 h x1 H7)) (\lambda (c0: C).\lambda (w: T).\lambda (u: T).\lambda (H1: (ty3 g c0 w u)).\lambda (H2: ((\forall (x: T).\forall (x0: nat).(eq T w (lift h x0 x)) \to \forall (e: C).(drop h x0 c0 e) \to ex2 T (\lambda (t2: T).pc3 c0 (lift h x0 t2) u) (\lambda (t2: T).ty3 g e x t2)))).\lambda (v: T).\lambda (t: T).\lambda (H3: (ty3 g c0 v (THead (Bind Abst) u t))).\lambda (H4: ((\forall (x: T).\forall (x0: nat).(eq T v (lift h x0 x)) \to \forall (e: C).(drop h x0 c0 e) \to ex2 T (\lambda (t2: T).pc3 c0 (lift h x0 t2) (THead (Bind Abst) u t)) (\lambda (t2: T).ty3 g e x t2)))).\lambda (x0: T).\lambda (x1: nat).\lambda (H5: (eq T (THead (Flat Appl) w v) (lift h x1 x0))).\lambda (e: C).\lambda (H6: (drop h x1 c0 e)).ex3_2_ind T T (\lambda (y0: T).\lambda (z: T).eq T x0 (THead (Flat Appl) y0 z)) (\lambda (y0: T).\lambda (_: T).eq T w (lift h x1 y0)) (\lambda (_: T).\lambda (z: T).eq T v (lift h x1 z)) (ex2 T (\lambda (t2: T).pc3 c0 (lift h x1 t2) (THead (Flat Appl) w (THead (Bind Abst) u t))) (\lambda (t2: T).ty3 g e x0 t2)) (\lambda (x2: T).\lambda (x3: T).\lambda (H7: (eq T x0 (THead (Flat Appl) x2 x3))).\lambda (H8: (eq T w (lift h x1 x2))).\lambda (H9: (eq T v (lift h x1 x3))).eq_ind_r T (THead (Flat Appl) x2 x3) (\lambda (t0: T).ex2 T (\lambda (t2: T).pc3 c0 (lift h x1 t2) (THead (Flat Appl) w (THead (Bind Abst) u t))) (\lambda (t2: T).ty3 g e t0 t2)) (let H10 \def eq_ind T v (\lambda (t0: T).\forall (x: T).\forall (x0: nat).(eq T t0 (lift h x0 x)) \to \forall (e: C).(drop h x0 c0 e) \to ex2 T (\lambda (t2: T).pc3 c0 (lift h x0 t2) (THead (Bind Abst) u t)) (\lambda (t2: T).ty3 g e x t2)) H4 (lift h x1 x3) H9 in let H11 \def eq_ind T v (\lambda (t0: T).ty3 g c0 t0 (THead (Bind Abst) u t)) H3 (lift h x1 x3) H9 in let H12 \def eq_ind T w (\lambda (t: T).\forall (x: T).\forall (x0: nat).(eq T t (lift h x0 x)) \to \forall (e: C).(drop h x0 c0 e) \to ex2 T (\lambda (t2: T).pc3 c0 (lift h x0 t2) u) (\lambda (t2: T).ty3 g e x t2)) H2 (lift h x1 x2) H8 in let H13 \def eq_ind T w (\lambda (t: T).ty3 g c0 t u) H1 (lift h x1 x2) H8 in eq_ind_r T (lift h x1 x2) (\lambda (t0: T).ex2 T (\lambda (t2: T).pc3 c0 (lift h x1 t2) (THead (Flat Appl) t0 (THead (Bind Abst) u t))) (\lambda (t2: T).ty3 g e (THead (Flat Appl) x2 x3) t2)) (let H14 \def H12 x2 x1 (refl_equal T (lift h x1 x2)) e H6 in ex2_ind T (\lambda (t2: T).pc3 c0 (lift h x1 t2) u) (\lambda (t2: T).ty3 g e x2 t2) (ex2 T (\lambda (t2: T).pc3 c0 (lift h x1 t2) (THead (Flat Appl) (lift h x1 x2) (THead (Bind Abst) u t))) (\lambda (t2: T).ty3 g e (THead (Flat Appl) x2 x3) t2)) (\lambda (x4: T).\lambda (H15: (pc3 c0 (lift h x1 x4) u)).\lambda (H16: (ty3 g e x2 x4)).let H17 \def H10 x3 x1 (refl_equal T (lift h x1 x3)) e H6 in ex2_ind T (\lambda (t2: T).pc3 c0 (lift h x1 t2) (THead (Bind Abst) u t)) (\lambda (t2: T).ty3 g e x3 t2) (ex2 T (\lambda (t2: T).pc3 c0 (lift h x1 t2) (THead (Flat Appl) (lift h x1 x2) (THead (Bind Abst) u t))) (\lambda (t2: T).ty3 g e (THead (Flat Appl) x2 x3) t2)) (\lambda (x5: T).\lambda (H18: (pc3 c0 (lift h x1 x5) (THead (Bind Abst) u t))).\lambda (H19: (ty3 g e x3 x5)).ex3_2_ind T T (\lambda (u1: T).\lambda (t2: T).pr3 e x5 (THead (Bind Abst) u1 t2)) (\lambda (u1: T).\lambda (_: T).pr3 c0 u (lift h x1 u1)) (\lambda (_: T).\lambda (t2: T).\forall (b: B).\forall (u0: T).pr3 (CHead c0 (Bind b) u0) t (lift h (S x1) t2)) (ex2 T (\lambda (t2: T).pc3 c0 (lift h x1 t2) (THead (Flat Appl) (lift h x1 x2) (THead (Bind Abst) u t))) (\lambda (t2: T).ty3 g e (THead (Flat Appl) x2 x3) t2)) (\lambda (x6: T).\lambda (x7: T).\lambda (H20: (pr3 e x5 (THead (Bind Abst) x6 x7))).\lambda (H21: (pr3 c0 u (lift h x1 x6))).\lambda (H22: ((\forall (b: B).\forall (u: T).pr3 (CHead c0 (Bind b) u) t (lift h (S x1) x7)))).ex_ind T (\lambda (t0: T).ty3 g e x5 t0) (ex2 T (\lambda (t2: T).pc3 c0 (lift h x1 t2) (THead (Flat Appl) (lift h x1 x2) (THead (Bind Abst) u t))) (\lambda (t2: T).ty3 g e (THead (Flat Appl) x2 x3) t2)) (\lambda (x8: T).\lambda (H23: (ty3 g e x5 x8)).ex4_3_ind T T T (\lambda (t2: T).\lambda (_: T).\lambda (_: T).pc3 e (THead (Bind Abst) x6 t2) x8) (\lambda (_: T).\lambda (t0: T).\lambda (_: T).ty3 g e x6 t0) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead e (Bind Abst) x6) x7 t2) (\lambda (t2: T).\lambda (_: T).\lambda (t3: T).ty3 g (CHead e (Bind Abst) x6) t2 t3) (ex2 T (\lambda (t2: T).pc3 c0 (lift h x1 t2) (THead (Flat Appl) (lift h x1 x2) (THead (Bind Abst) u t))) (\lambda (t2: T).ty3 g e (THead (Flat Appl) x2 x3) t2)) (\lambda (x9: T).\lambda (x10: T).\lambda (x11: T).\lambda (_: (pc3 e (THead (Bind Abst) x6 x9) x8)).\lambda (H25: (ty3 g e x6 x10)).\lambda (H26: (ty3 g (CHead e (Bind Abst) x6) x7 x9)).\lambda (H27: (ty3 g (CHead e (Bind Abst) x6) x9 x11)).ex_intro2 T (\lambda (t2: T).pc3 c0 (lift h x1 t2) (THead (Flat Appl) (lift h x1 x2) (THead (Bind Abst) u t))) (\lambda (t2: T).ty3 g e (THead (Flat Appl) x2 x3) t2) (THead (Flat Appl) x2 (THead (Bind Abst) x6 x7)) (eq_ind_r T (THead (Flat Appl) (lift h x1 x2) (lift h x1 (THead (Bind Abst) x6 x7))) (\lambda (t0: T).pc3 c0 t0 (THead (Flat Appl) (lift h x1 x2) (THead (Bind Abst) u t))) (pc3_thin_dx c0 (lift h x1 (THead (Bind Abst) x6 x7)) (THead (Bind Abst) u t) (eq_ind_r T (THead (Bind Abst) (lift h x1 x6) (lift h (S x1) x7)) (\lambda (t0: T).pc3 c0 t0 (THead (Bind Abst) u t)) (pc3_head_21 c0 (lift h x1 x6) u (pc3_pr3_x c0 (lift h x1 x6) u H21) (Bind Abst) (lift h (S x1) x7) t (pc3_pr3_x (CHead c0 (Bind Abst) (lift h x1 x6)) (lift h (S x1) x7) t (H22 Abst (lift h x1 x6)))) (lift h x1 (THead (Bind Abst) x6 x7)) (lift_bind Abst x6 x7 h x1)) (lift h x1 x2) Appl) (lift h x1 (THead (Flat Appl) x2 (THead (Bind Abst) x6 x7))) (lift_flat Appl x2 (THead (Bind Abst) x6 x7) h x1)) (ty3_appl g e x2 x6 (ty3_conv g e x6 x10 H25 x2 x4 H16 (pc3_gen_lift c0 x4 x6 h x1 (pc3_t u c0 (lift h x1 x4) H15 (lift h x1 x6) (pc3_pr3_r c0 u (lift h x1 x6) H21)) e H6)) x3 x7 (ty3_conv g e (THead (Bind Abst) x6 x7) (THead (Bind Abst) x6 x9) (ty3_bind g e x6 x10 H25 Abst x7 x9 H26 x11 H27) x3 x5 H19 (pc3_pr3_r e x5 (THead (Bind Abst) x6 x7) H20)))) (ty3_gen_bind g Abst e x6 x7 x8 (ty3_sred_pr3 e x5 (THead (Bind Abst) x6 x7) H20 g x8 H23))) (ty3_correct g e x3 x5 H19)) (pc3_gen_lift_abst c0 x5 t u h x1 H18 e H6)) H17) H14) w H8) x0 H7) (lift_gen_flat Appl w v x0 h x1 H5)) (\lambda (c0: C).\lambda (t2: T).\lambda (t3: T).\lambda (H1: (ty3 g c0 t2 t3)).\lambda (H2: ((\forall (x: T).\forall (x0: nat).(eq T t2 (lift h x0 x)) \to \forall (e: C).(drop h x0 c0 e) \to ex2 T (\lambda (t2: T).pc3 c0 (lift h x0 t2) t3) (\lambda (t2: T).ty3 g e x t2)))).\lambda (t0: T).\lambda (H3: (ty3 g c0 t3 t0)).\lambda (H4: ((\forall (x: T).\forall (x0: nat).(eq T t3 (lift h x0 x)) \to \forall (e: C).(drop h x0 c0 e) \to ex2 T (\lambda (t2: T).pc3 c0 (lift h x0 t2) t0) (\lambda (t2: T).ty3 g e x t2)))).\lambda (x0: T).\lambda (x1: nat).\lambda (H5: (eq T (THead (Flat Cast) t3 t2) (lift h x1 x0))).\lambda (e: C).\lambda (H6: (drop h x1 c0 e)).ex3_2_ind T T (\lambda (y0: T).\lambda (z: T).eq T x0 (THead (Flat Cast) y0 z)) (\lambda (y0: T).\lambda (_: T).eq T t3 (lift h x1 y0)) (\lambda (_: T).\lambda (z: T).eq T t2 (lift h x1 z)) (ex2 T (\lambda (t4: T).pc3 c0 (lift h x1 t4) t3) (\lambda (t4: T).ty3 g e x0 t4)) (\lambda (x2: T).\lambda (x3: T).\lambda (H7: (eq T x0 (THead (Flat Cast) x2 x3))).\lambda (H8: (eq T t3 (lift h x1 x2))).\lambda (H9: (eq T t2 (lift h x1 x3))).eq_ind_r T (THead (Flat Cast) x2 x3) (\lambda (t: T).ex2 T (\lambda (t4: T).pc3 c0 (lift h x1 t4) t3) (\lambda (t4: T).ty3 g e t t4)) (let H10 \def eq_ind T t3 (\lambda (t: T).\forall (x: T).\forall (x0: nat).(eq T t (lift h x0 x)) \to \forall (e: C).(drop h x0 c0 e) \to ex2 T (\lambda (t2: T).pc3 c0 (lift h x0 t2) t0) (\lambda (t2: T).ty3 g e x t2)) H4 (lift h x1 x2) H8 in let H11 \def eq_ind T t3 (\lambda (t: T).ty3 g c0 t t0) H3 (lift h x1 x2) H8 in let H12 \def eq_ind T t3 (\lambda (t: T).\forall (x: T).\forall (x0: nat).(eq T t2 (lift h x0 x)) \to \forall (e: C).(drop h x0 c0 e) \to ex2 T (\lambda (t2: T).pc3 c0 (lift h x0 t2) t) (\lambda (t2: T).ty3 g e x t2)) H2 (lift h x1 x2) H8 in let H13 \def eq_ind T t3 (\lambda (t: T).ty3 g c0 t2 t) H1 (lift h x1 x2) H8 in eq_ind_r T (lift h x1 x2) (\lambda (t: T).ex2 T (\lambda (t4: T).pc3 c0 (lift h x1 t4) t) (\lambda (t4: T).ty3 g e (THead (Flat Cast) x2 x3) t4)) (let H14 \def eq_ind T t2 (\lambda (t: T).ty3 g c0 t (lift h x1 x2)) H13 (lift h x1 x3) H9 in let H15 \def eq_ind T t2 (\lambda (t: T).\forall (x: T).\forall (x0: nat).(eq T t (lift h x0 x)) \to \forall (e: C).(drop h x0 c0 e) \to ex2 T (\lambda (t2: T).pc3 c0 (lift h x0 t2) (lift h x1 x2)) (\lambda (t2: T).ty3 g e x t2)) H12 (lift h x1 x3) H9 in let H16 \def H15 x3 x1 (refl_equal T (lift h x1 x3)) e H6 in ex2_ind T (\lambda (t4: T).pc3 c0 (lift h x1 t4) (lift h x1 x2)) (\lambda (t4: T).ty3 g e x3 t4) (ex2 T (\lambda (t4: T).pc3 c0 (lift h x1 t4) (lift h x1 x2)) (\lambda (t4: T).ty3 g e (THead (Flat Cast) x2 x3) t4)) (\lambda (x4: T).\lambda (H17: (pc3 c0 (lift h x1 x4) (lift h x1 x2))).\lambda (H18: (ty3 g e x3 x4)).let H19 \def H10 x2 x1 (refl_equal T (lift h x1 x2)) e H6 in ex2_ind T (\lambda (t4: T).pc3 c0 (lift h x1 t4) t0) (\lambda (t4: T).ty3 g e x2 t4) (ex2 T (\lambda (t4: T).pc3 c0 (lift h x1 t4) (lift h x1 x2)) (\lambda (t4: T).ty3 g e (THead (Flat Cast) x2 x3) t4)) (\lambda (x5: T).\lambda (_: (pc3 c0 (lift h x1 x5) t0)).\lambda (H21: (ty3 g e x2 x5)).ex_intro2 T (\lambda (t4: T).pc3 c0 (lift h x1 t4) (lift h x1 x2)) (\lambda (t4: T).ty3 g e (THead (Flat Cast) x2 x3) t4) x2 (pc3_refl c0 (lift h x1 x2)) (ty3_cast g e x3 x2 (ty3_conv g e x2 x5 H21 x3 x4 H18 (pc3_gen_lift c0 x4 x2 h x1 H17 e H6)) x5 H21)) H19) H16) t3 H8) x0 H7) (lift_gen_flat Cast t3 t2 x0 h x1 H5)) c y x H0))) H.
+
+theorem ty3_tred: \forall (g: G).\forall (c: C).\forall (u: T).\forall (t1: T).(ty3 g c u t1) \to \forall (t2: T).(pr3 c t1 t2) \to ty3 g c u t2 \def \lambda (g: G).\lambda (c: C).\lambda (u: T).\lambda (t1: T).\lambda (H: (ty3 g c u t1)).\lambda (t2: T).\lambda (H0: (pr3 c t1 t2)).ex_ind T (\lambda (t: T).ty3 g c t1 t) (ty3 g c u t2) (\lambda (x: T).\lambda (H1: (ty3 g c t1 x)).ty3_conv g c t2 x (ty3_sred_pr3 c t1 t2 H0 g x H1) u t1 H (pc3_pr3_r c t1 t2 H0)) (ty3_correct g c u t1 H).
+
+theorem ty3_sconv_pc3: \forall (g: G).\forall (c: C).\forall (u1: T).\forall (t1: T).(ty3 g c u1 t1) \to \forall (u2: T).\forall (t2: T).(ty3 g c u2 t2) \to (pc3 c u1 u2) \to pc3 c t1 t2 \def \lambda (g: G).\lambda (c: C).\lambda (u1: T).\lambda (t1: T).\lambda (H: (ty3 g c u1 t1)).\lambda (u2: T).\lambda (t2: T).\lambda (H0: (ty3 g c u2 t2)).\lambda (H1: (pc3 c u1 u2)).let H2 \def H1 in ex2_ind T (\lambda (t: T).pr3 c u1 t) (\lambda (t: T).pr3 c u2 t) (pc3 c t1 t2) (\lambda (x: T).\lambda (H3: (pr3 c u1 x)).\lambda (H4: (pr3 c u2 x)).ty3_unique g c x t1 (ty3_sred_pr3 c u1 x H3 g t1 H) t2 (ty3_sred_pr3 c u2 x H4 g t2 H0)) H2.
+
+theorem ty3_sred_back: \forall (g: G).\forall (c: C).\forall (t1: T).\forall (t0: T).(ty3 g c t1 t0) \to \forall (t2: T).(pr3 c t1 t2) \to \forall (t: T).(ty3 g c t2 t) \to ty3 g c t1 t \def \lambda (g: G).\lambda (c: C).\lambda (t1: T).\lambda (t0: T).\lambda (H: (ty3 g c t1 t0)).\lambda (t2: T).\lambda (H0: (pr3 c t1 t2)).\lambda (t: T).\lambda (H1: (ty3 g c t2 t)).ex_ind T (\lambda (t3: T).ty3 g c t t3) (ty3 g c t1 t) (\lambda (x: T).\lambda (H2: (ty3 g c t x)).ty3_conv g c t x H2 t1 t0 H (ty3_unique g c t2 t0 (ty3_sred_pr3 c t1 t2 H0 g t0 H) t H1)) (ty3_correct g c t2 t H1).
+
+theorem ty3_sconv: \forall (g: G).\forall (c: C).\forall (u1: T).\forall (t1: T).(ty3 g c u1 t1) \to \forall (u2: T).\forall (t2: T).(ty3 g c u2 t2) \to (pc3 c u1 u2) \to ty3 g c u1 t2 \def \lambda (g: G).\lambda (c: C).\lambda (u1: T).\lambda (t1: T).\lambda (H: (ty3 g c u1 t1)).\lambda (u2: T).\lambda (t2: T).\lambda (H0: (ty3 g c u2 t2)).\lambda (H1: (pc3 c u1 u2)).let H2 \def H1 in ex2_ind T (\lambda (t: T).pr3 c u1 t) (\lambda (t: T).pr3 c u2 t) (ty3 g c u1 t2) (\lambda (x: T).\lambda (H3: (pr3 c u1 x)).\lambda (H4: (pr3 c u2 x)).ty3_sred_back g c u1 t1 H x H3 t2 (ty3_sred_pr3 c u2 x H4 g t2 H0)) H2.
+
+theorem ty3_tau0: \forall (g: G).\forall (c: C).\forall (u: T).\forall (t1: T).(ty3 g c u t1) \to \forall (t2: T).(tau0 g c u t2) \to ty3 g c u t2 \def \lambda (g: G).\lambda (c: C).\lambda (u: T).\lambda (t1: T).\lambda (H: (ty3 g c u t1)).ty3_ind g (\lambda (c0: C).\lambda (t: T).\lambda (_: T).\forall (t2: T).(tau0 g c0 t t2) \to ty3 g c0 t t2) (\lambda (c0: C).\lambda (t2: T).\lambda (t: T).\lambda (_: (ty3 g c0 t2 t)).\lambda (_: ((\forall (t3: T).(tau0 g c0 t2 t3) \to ty3 g c0 t2 t3))).\lambda (u0: T).\lambda (t3: T).\lambda (_: (ty3 g c0 u0 t3)).\lambda (H3: ((\forall (t2: T).(tau0 g c0 u0 t2) \to ty3 g c0 u0 t2))).\lambda (_: (pc3 c0 t3 t2)).\lambda (t0: T).\lambda (H5: (tau0 g c0 u0 t0)).H3 t0 H5) (\lambda (c0: C).\lambda (m: nat).\lambda (t2: T).\lambda (H0: (tau0 g c0 (TSort m) t2)).let H1 \def match H0 return (\lambda (c: C).\lambda (t: T).\lambda (t0: T).(eq C c c0) \to (eq T t (TSort m)) \to (eq T t0 t2) \to ty3 g c0 (TSort m) t2) with [(tau0_sort c0 n) \Rightarrow (\lambda (H0: (eq C c0 c0)).\lambda (H1: (eq T (TSort n) (TSort m))).\lambda (H2: (eq T (TSort (next g n)) t2)).eq_ind C c0 (\lambda (_: C).(eq T (TSort n) (TSort m)) \to (eq T (TSort (next g n)) t2) \to ty3 g c0 (TSort m) t2) (\lambda (H3: (eq T (TSort n) (TSort m))).let H4 \def f_equal T nat (\lambda (e: T).match e return nat with [(TSort n) \Rightarrow n | (TLRef _) \Rightarrow n | (THead _ _ _) \Rightarrow n]) (TSort n) (TSort m) H3 in eq_ind nat m (\lambda (n0: nat).(eq T (TSort (next g n0)) t2) \to ty3 g c0 (TSort m) t2) (\lambda (H5: (eq T (TSort (next g m)) t2)).eq_ind T (TSort (next g m)) (\lambda (t: T).ty3 g c0 (TSort m) t) (ty3_sort g c0 m) t2 H5) n (sym_eq nat n m H4)) c0 (sym_eq C c0 c0 H0) H1 H2) | (tau0_abbr c0 d v i H0 w H1) \Rightarrow (\lambda (H2: (eq C c0 c0)).\lambda (H3: (eq T (TLRef i) (TSort m))).\lambda (H4: (eq T (lift (S i) O w) t2)).eq_ind C c0 (\lambda (c: C).(eq T (TLRef i) (TSort m)) \to (eq T (lift (S i) O w) t2) \to (getl i c (CHead d (Bind Abbr) v)) \to (tau0 g d v w) \to ty3 g c0 (TSort m) t2) (\lambda (H5: (eq T (TLRef i) (TSort m))).let H6 \def eq_ind T (TLRef i) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (TSort m) H5 in False_ind ((eq T (lift (S i) O w) t2) \to (getl i c0 (CHead d (Bind Abbr) v)) \to (tau0 g d v w) \to ty3 g c0 (TSort m) t2) H6) c0 (sym_eq C c0 c0 H2) H3 H4 H0 H1) | (tau0_abst c0 d v i H0 w H1) \Rightarrow (\lambda (H2: (eq C c0 c0)).\lambda (H3: (eq T (TLRef i) (TSort m))).\lambda (H4: (eq T (lift (S i) O v) t2)).eq_ind C c0 (\lambda (c: C).(eq T (TLRef i) (TSort m)) \to (eq T (lift (S i) O v) t2) \to (getl i c (CHead d (Bind Abst) v)) \to (tau0 g d v w) \to ty3 g c0 (TSort m) t2) (\lambda (H5: (eq T (TLRef i) (TSort m))).let H6 \def eq_ind T (TLRef i) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (TSort m) H5 in False_ind ((eq T (lift (S i) O v) t2) \to (getl i c0 (CHead d (Bind Abst) v)) \to (tau0 g d v w) \to ty3 g c0 (TSort m) t2) H6) c0 (sym_eq C c0 c0 H2) H3 H4 H0 H1) | (tau0_bind b c0 v t1 t0 H0) \Rightarrow (\lambda (H1: (eq C c0 c0)).\lambda (H2: (eq T (THead (Bind b) v t1) (TSort m))).\lambda (H3: (eq T (THead (Bind b) v t0) t2)).eq_ind C c0 (\lambda (c: C).(eq T (THead (Bind b) v t1) (TSort m)) \to (eq T (THead (Bind b) v t0) t2) \to (tau0 g (CHead c (Bind b) v) t1 t0) \to ty3 g c0 (TSort m) t2) (\lambda (H4: (eq T (THead (Bind b) v t1) (TSort m))).let H5 \def eq_ind T (THead (Bind b) v t1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TSort m) H4 in False_ind ((eq T (THead (Bind b) v t0) t2) \to (tau0 g (CHead c0 (Bind b) v) t1 t0) \to ty3 g c0 (TSort m) t2) H5) c0 (sym_eq C c0 c0 H1) H2 H3 H0) | (tau0_appl c0 v t1 t0 H0) \Rightarrow (\lambda (H1: (eq C c0 c0)).\lambda (H2: (eq T (THead (Flat Appl) v t1) (TSort m))).\lambda (H3: (eq T (THead (Flat Appl) v t0) t2)).eq_ind C c0 (\lambda (c: C).(eq T (THead (Flat Appl) v t1) (TSort m)) \to (eq T (THead (Flat Appl) v t0) t2) \to (tau0 g c t1 t0) \to ty3 g c0 (TSort m) t2) (\lambda (H4: (eq T (THead (Flat Appl) v t1) (TSort m))).let H5 \def eq_ind T (THead (Flat Appl) v t1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TSort m) H4 in False_ind ((eq T (THead (Flat Appl) v t0) t2) \to (tau0 g c0 t1 t0) \to ty3 g c0 (TSort m) t2) H5) c0 (sym_eq C c0 c0 H1) H2 H3 H0) | (tau0_cast c0 v1 v2 H0 t1 t0 H1) \Rightarrow (\lambda (H2: (eq C c0 c0)).\lambda (H3: (eq T (THead (Flat Cast) v1 t1) (TSort m))).\lambda (H4: (eq T (THead (Flat Cast) v2 t0) t2)).eq_ind C c0 (\lambda (c: C).(eq T (THead (Flat Cast) v1 t1) (TSort m)) \to (eq T (THead (Flat Cast) v2 t0) t2) \to (tau0 g c v1 v2) \to (tau0 g c t1 t0) \to ty3 g c0 (TSort m) t2) (\lambda (H5: (eq T (THead (Flat Cast) v1 t1) (TSort m))).let H6 \def eq_ind T (THead (Flat Cast) v1 t1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TSort m) H5 in False_ind ((eq T (THead (Flat Cast) v2 t0) t2) \to (tau0 g c0 v1 v2) \to (tau0 g c0 t1 t0) \to ty3 g c0 (TSort m) t2) H6) c0 (sym_eq C c0 c0 H2) H3 H4 H0 H1)] in H1 (refl_equal C c0) (refl_equal T (TSort m)) (refl_equal T t2)) (\lambda (n: nat).\lambda (c0: C).\lambda (d: C).\lambda (u0: T).\lambda (H0: (getl n c0 (CHead d (Bind Abbr) u0))).\lambda (t: T).\lambda (_: (ty3 g d u0 t)).\lambda (H2: ((\forall (t2: T).(tau0 g d u0 t2) \to ty3 g d u0 t2))).\lambda (t2: T).\lambda (H3: (tau0 g c0 (TLRef n) t2)).let H4 \def match H3 return (\lambda (c: C).\lambda (t: T).\lambda (t0: T).(eq C c c0) \to (eq T t (TLRef n)) \to (eq T t0 t2) \to ty3 g c0 (TLRef n) t2) with [(tau0_sort c0 n0) \Rightarrow (\lambda (H3: (eq C c0 c0)).\lambda (H4: (eq T (TSort n0) (TLRef n))).\lambda (H5: (eq T (TSort (next g n0)) t2)).eq_ind C c0 (\lambda (_: C).(eq T (TSort n0) (TLRef n)) \to (eq T (TSort (next g n0)) t2) \to ty3 g c0 (TLRef n) t2) (\lambda (H6: (eq T (TSort n0) (TLRef n))).let H7 \def eq_ind T (TSort n0) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow True | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow False]) I (TLRef n) H6 in False_ind ((eq T (TSort (next g n0)) t2) \to ty3 g c0 (TLRef n) t2) H7) c0 (sym_eq C c0 c0 H3) H4 H5) | (tau0_abbr c0 d0 v i H3 w H4) \Rightarrow (\lambda (H5: (eq C c0 c0)).\lambda (H6: (eq T (TLRef i) (TLRef n))).\lambda (H7: (eq T (lift (S i) O w) t2)).eq_ind C c0 (\lambda (c: C).(eq T (TLRef i) (TLRef n)) \to (eq T (lift (S i) O w) t2) \to (getl i c (CHead d0 (Bind Abbr) v)) \to (tau0 g d0 v w) \to ty3 g c0 (TLRef n) t2) (\lambda (H8: (eq T (TLRef i) (TLRef n))).let H9 \def f_equal T nat (\lambda (e: T).match e return nat with [(TSort _) \Rightarrow i | (TLRef n) \Rightarrow n | (THead _ _ _) \Rightarrow i]) (TLRef i) (TLRef n) H8 in eq_ind nat n (\lambda (n0: nat).(eq T (lift (S n0) O w) t2) \to (getl n0 c0 (CHead d0 (Bind Abbr) v)) \to (tau0 g d0 v w) \to ty3 g c0 (TLRef n) t2) (\lambda (H10: (eq T (lift (S n) O w) t2)).eq_ind T (lift (S n) O w) (\lambda (t: T).(getl n c0 (CHead d0 (Bind Abbr) v)) \to (tau0 g d0 v w) \to ty3 g c0 (TLRef n) t) (\lambda (H11: (getl n c0 (CHead d0 (Bind Abbr) v))).\lambda (H12: (tau0 g d0 v w)).let H13 \def eq_ind C (CHead d (Bind Abbr) u0) (\lambda (c: C).getl n c0 c) H0 (CHead d0 (Bind Abbr) v) (getl_mono c0 (CHead d (Bind Abbr) u0) n H0 (CHead d0 (Bind Abbr) v) H11) in let H14 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abbr) u0) (CHead d0 (Bind Abbr) v) (getl_mono c0 (CHead d (Bind Abbr) u0) n H0 (CHead d0 (Bind Abbr) v) H11) in (let H15 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u0 | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abbr) u0) (CHead d0 (Bind Abbr) v) (getl_mono c0 (CHead d (Bind Abbr) u0) n H0 (CHead d0 (Bind Abbr) v) H11) in \lambda (H16: (eq C d d0)).let H17 \def eq_ind_r T v (\lambda (t: T).getl n c0 (CHead d0 (Bind Abbr) t)) H13 u0 H15 in let H18 \def eq_ind_r T v (\lambda (t: T).tau0 g d0 t w) H12 u0 H15 in let H19 \def eq_ind_r C d0 (\lambda (c: C).getl n c0 (CHead c (Bind Abbr) u0)) H17 d H16 in let H20 \def eq_ind_r C d0 (\lambda (c: C).tau0 g c u0 w) H18 d H16 in ty3_abbr g n c0 d u0 H19 w (H2 w H20)) H14) t2 H10) i (sym_eq nat i n H9)) c0 (sym_eq C c0 c0 H5) H6 H7 H3 H4) | (tau0_abst c0 d0 v i H3 w H4) \Rightarrow (\lambda (H5: (eq C c0 c0)).\lambda (H6: (eq T (TLRef i) (TLRef n))).\lambda (H7: (eq T (lift (S i) O v) t2)).eq_ind C c0 (\lambda (c: C).(eq T (TLRef i) (TLRef n)) \to (eq T (lift (S i) O v) t2) \to (getl i c (CHead d0 (Bind Abst) v)) \to (tau0 g d0 v w) \to ty3 g c0 (TLRef n) t2) (\lambda (H8: (eq T (TLRef i) (TLRef n))).let H9 \def f_equal T nat (\lambda (e: T).match e return nat with [(TSort _) \Rightarrow i | (TLRef n) \Rightarrow n | (THead _ _ _) \Rightarrow i]) (TLRef i) (TLRef n) H8 in eq_ind nat n (\lambda (n0: nat).(eq T (lift (S n0) O v) t2) \to (getl n0 c0 (CHead d0 (Bind Abst) v)) \to (tau0 g d0 v w) \to ty3 g c0 (TLRef n) t2) (\lambda (H10: (eq T (lift (S n) O v) t2)).eq_ind T (lift (S n) O v) (\lambda (t: T).(getl n c0 (CHead d0 (Bind Abst) v)) \to (tau0 g d0 v w) \to ty3 g c0 (TLRef n) t) (\lambda (H11: (getl n c0 (CHead d0 (Bind Abst) v))).\lambda (_: (tau0 g d0 v w)).let H2 \def eq_ind C (CHead d (Bind Abbr) u0) (\lambda (c: C).getl n c0 c) H0 (CHead d0 (Bind Abst) v) (getl_mono c0 (CHead d (Bind Abbr) u0) n H0 (CHead d0 (Bind Abst) v) H11) in let H13 \def eq_ind C (CHead d (Bind Abbr) u0) (\lambda (ee: C).match ee return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow True | Abst \Rightarrow False | Void \Rightarrow False]) | (Flat _) \Rightarrow False])]) I (CHead d0 (Bind Abst) v) (getl_mono c0 (CHead d (Bind Abbr) u0) n H0 (CHead d0 (Bind Abst) v) H11) in False_ind (ty3 g c0 (TLRef n) (lift (S n) O v)) H13) t2 H10) i (sym_eq nat i n H9)) c0 (sym_eq C c0 c0 H5) H6 H7 H3 H4) | (tau0_bind b c0 v t1 t0 H3) \Rightarrow (\lambda (H4: (eq C c0 c0)).\lambda (H5: (eq T (THead (Bind b) v t1) (TLRef n))).\lambda (H6: (eq T (THead (Bind b) v t0) t2)).eq_ind C c0 (\lambda (c: C).(eq T (THead (Bind b) v t1) (TLRef n)) \to (eq T (THead (Bind b) v t0) t2) \to (tau0 g (CHead c (Bind b) v) t1 t0) \to ty3 g c0 (TLRef n) t2) (\lambda (H7: (eq T (THead (Bind b) v t1) (TLRef n))).let H8 \def eq_ind T (THead (Bind b) v t1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef n) H7 in False_ind ((eq T (THead (Bind b) v t0) t2) \to (tau0 g (CHead c0 (Bind b) v) t1 t0) \to ty3 g c0 (TLRef n) t2) H8) c0 (sym_eq C c0 c0 H4) H5 H6 H3) | (tau0_appl c0 v t1 t0 H3) \Rightarrow (\lambda (H4: (eq C c0 c0)).\lambda (H5: (eq T (THead (Flat Appl) v t1) (TLRef n))).\lambda (H6: (eq T (THead (Flat Appl) v t0) t2)).eq_ind C c0 (\lambda (c: C).(eq T (THead (Flat Appl) v t1) (TLRef n)) \to (eq T (THead (Flat Appl) v t0) t2) \to (tau0 g c t1 t0) \to ty3 g c0 (TLRef n) t2) (\lambda (H7: (eq T (THead (Flat Appl) v t1) (TLRef n))).let H8 \def eq_ind T (THead (Flat Appl) v t1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef n) H7 in False_ind ((eq T (THead (Flat Appl) v t0) t2) \to (tau0 g c0 t1 t0) \to ty3 g c0 (TLRef n) t2) H8) c0 (sym_eq C c0 c0 H4) H5 H6 H3) | (tau0_cast c0 v1 v2 H3 t1 t0 H4) \Rightarrow (\lambda (H5: (eq C c0 c0)).\lambda (H6: (eq T (THead (Flat Cast) v1 t1) (TLRef n))).\lambda (H7: (eq T (THead (Flat Cast) v2 t0) t2)).eq_ind C c0 (\lambda (c: C).(eq T (THead (Flat Cast) v1 t1) (TLRef n)) \to (eq T (THead (Flat Cast) v2 t0) t2) \to (tau0 g c v1 v2) \to (tau0 g c t1 t0) \to ty3 g c0 (TLRef n) t2) (\lambda (H8: (eq T (THead (Flat Cast) v1 t1) (TLRef n))).let H9 \def eq_ind T (THead (Flat Cast) v1 t1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef n) H8 in False_ind ((eq T (THead (Flat Cast) v2 t0) t2) \to (tau0 g c0 v1 v2) \to (tau0 g c0 t1 t0) \to ty3 g c0 (TLRef n) t2) H9) c0 (sym_eq C c0 c0 H5) H6 H7 H3 H4)] in H4 (refl_equal C c0) (refl_equal T (TLRef n)) (refl_equal T t2)) (\lambda (n: nat).\lambda (c0: C).\lambda (d: C).\lambda (u0: T).\lambda (H0: (getl n c0 (CHead d (Bind Abst) u0))).\lambda (t: T).\lambda (H1: (ty3 g d u0 t)).\lambda (_: ((\forall (t2: T).(tau0 g d u0 t2) \to ty3 g d u0 t2))).\lambda (t2: T).\lambda (H3: (tau0 g c0 (TLRef n) t2)).let H4 \def match H3 return (\lambda (c: C).\lambda (t: T).\lambda (t0: T).(eq C c c0) \to (eq T t (TLRef n)) \to (eq T t0 t2) \to ty3 g c0 (TLRef n) t2) with [(tau0_sort c0 n0) \Rightarrow (\lambda (H3: (eq C c0 c0)).\lambda (H4: (eq T (TSort n0) (TLRef n))).\lambda (H5: (eq T (TSort (next g n0)) t2)).eq_ind C c0 (\lambda (_: C).(eq T (TSort n0) (TLRef n)) \to (eq T (TSort (next g n0)) t2) \to ty3 g c0 (TLRef n) t2) (\lambda (H6: (eq T (TSort n0) (TLRef n))).let H7 \def eq_ind T (TSort n0) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow True | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow False]) I (TLRef n) H6 in False_ind ((eq T (TSort (next g n0)) t2) \to ty3 g c0 (TLRef n) t2) H7) c0 (sym_eq C c0 c0 H3) H4 H5) | (tau0_abbr c0 d0 v i H3 w H4) \Rightarrow (\lambda (H5: (eq C c0 c0)).\lambda (H6: (eq T (TLRef i) (TLRef n))).\lambda (H7: (eq T (lift (S i) O w) t2)).eq_ind C c0 (\lambda (c: C).(eq T (TLRef i) (TLRef n)) \to (eq T (lift (S i) O w) t2) \to (getl i c (CHead d0 (Bind Abbr) v)) \to (tau0 g d0 v w) \to ty3 g c0 (TLRef n) t2) (\lambda (H8: (eq T (TLRef i) (TLRef n))).let H9 \def f_equal T nat (\lambda (e: T).match e return nat with [(TSort _) \Rightarrow i | (TLRef n) \Rightarrow n | (THead _ _ _) \Rightarrow i]) (TLRef i) (TLRef n) H8 in eq_ind nat n (\lambda (n0: nat).(eq T (lift (S n0) O w) t2) \to (getl n0 c0 (CHead d0 (Bind Abbr) v)) \to (tau0 g d0 v w) \to ty3 g c0 (TLRef n) t2) (\lambda (H10: (eq T (lift (S n) O w) t2)).eq_ind T (lift (S n) O w) (\lambda (t: T).(getl n c0 (CHead d0 (Bind Abbr) v)) \to (tau0 g d0 v w) \to ty3 g c0 (TLRef n) t) (\lambda (H11: (getl n c0 (CHead d0 (Bind Abbr) v))).\lambda (_: (tau0 g d0 v w)).let H2 \def eq_ind C (CHead d (Bind Abst) u0) (\lambda (c: C).getl n c0 c) H0 (CHead d0 (Bind Abbr) v) (getl_mono c0 (CHead d (Bind Abst) u0) n H0 (CHead d0 (Bind Abbr) v) H11) in let H13 \def eq_ind C (CHead d (Bind Abst) u0) (\lambda (ee: C).match ee return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow False | Abst \Rightarrow True | Void \Rightarrow False]) | (Flat _) \Rightarrow False])]) I (CHead d0 (Bind Abbr) v) (getl_mono c0 (CHead d (Bind Abst) u0) n H0 (CHead d0 (Bind Abbr) v) H11) in False_ind (ty3 g c0 (TLRef n) (lift (S n) O w)) H13) t2 H10) i (sym_eq nat i n H9)) c0 (sym_eq C c0 c0 H5) H6 H7 H3 H4) | (tau0_abst c0 d0 v i H3 w H4) \Rightarrow (\lambda (H5: (eq C c0 c0)).\lambda (H6: (eq T (TLRef i) (TLRef n))).\lambda (H7: (eq T (lift (S i) O v) t2)).eq_ind C c0 (\lambda (c: C).(eq T (TLRef i) (TLRef n)) \to (eq T (lift (S i) O v) t2) \to (getl i c (CHead d0 (Bind Abst) v)) \to (tau0 g d0 v w) \to ty3 g c0 (TLRef n) t2) (\lambda (H8: (eq T (TLRef i) (TLRef n))).let H9 \def f_equal T nat (\lambda (e: T).match e return nat with [(TSort _) \Rightarrow i | (TLRef n) \Rightarrow n | (THead _ _ _) \Rightarrow i]) (TLRef i) (TLRef n) H8 in eq_ind nat n (\lambda (n0: nat).(eq T (lift (S n0) O v) t2) \to (getl n0 c0 (CHead d0 (Bind Abst) v)) \to (tau0 g d0 v w) \to ty3 g c0 (TLRef n) t2) (\lambda (H10: (eq T (lift (S n) O v) t2)).eq_ind T (lift (S n) O v) (\lambda (t: T).(getl n c0 (CHead d0 (Bind Abst) v)) \to (tau0 g d0 v w) \to ty3 g c0 (TLRef n) t) (\lambda (H11: (getl n c0 (CHead d0 (Bind Abst) v))).\lambda (H12: (tau0 g d0 v w)).let H2 \def eq_ind C (CHead d (Bind Abst) u0) (\lambda (c: C).getl n c0 c) H0 (CHead d0 (Bind Abst) v) (getl_mono c0 (CHead d (Bind Abst) u0) n H0 (CHead d0 (Bind Abst) v) H11) in let H13 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow d | (CHead c _ _) \Rightarrow c]) (CHead d (Bind Abst) u0) (CHead d0 (Bind Abst) v) (getl_mono c0 (CHead d (Bind Abst) u0) n H0 (CHead d0 (Bind Abst) v) H11) in (let H14 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow u0 | (CHead _ _ t) \Rightarrow t]) (CHead d (Bind Abst) u0) (CHead d0 (Bind Abst) v) (getl_mono c0 (CHead d (Bind Abst) u0) n H0 (CHead d0 (Bind Abst) v) H11) in \lambda (H15: (eq C d d0)).let H16 \def eq_ind_r T v (\lambda (t: T).getl n c0 (CHead d0 (Bind Abst) t)) H2 u0 H14 in let H17 \def eq_ind_r T v (\lambda (t: T).tau0 g d0 t w) H12 u0 H14 in eq_ind T u0 (\lambda (t: T).ty3 g c0 (TLRef n) (lift (S n) O t)) (let H18 \def eq_ind_r C d0 (\lambda (c: C).getl n c0 (CHead c (Bind Abst) u0)) H16 d H15 in let H19 \def eq_ind_r C d0 (\lambda (c: C).tau0 g c u0 w) H17 d H15 in ty3_abst g n c0 d u0 H18 t H1) v H14) H13) t2 H10) i (sym_eq nat i n H9)) c0 (sym_eq C c0 c0 H5) H6 H7 H3 H4) | (tau0_bind b c0 v t1 t0 H3) \Rightarrow (\lambda (H4: (eq C c0 c0)).\lambda (H5: (eq T (THead (Bind b) v t1) (TLRef n))).\lambda (H6: (eq T (THead (Bind b) v t0) t2)).eq_ind C c0 (\lambda (c: C).(eq T (THead (Bind b) v t1) (TLRef n)) \to (eq T (THead (Bind b) v t0) t2) \to (tau0 g (CHead c (Bind b) v) t1 t0) \to ty3 g c0 (TLRef n) t2) (\lambda (H7: (eq T (THead (Bind b) v t1) (TLRef n))).let H8 \def eq_ind T (THead (Bind b) v t1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef n) H7 in False_ind ((eq T (THead (Bind b) v t0) t2) \to (tau0 g (CHead c0 (Bind b) v) t1 t0) \to ty3 g c0 (TLRef n) t2) H8) c0 (sym_eq C c0 c0 H4) H5 H6 H3) | (tau0_appl c0 v t1 t0 H3) \Rightarrow (\lambda (H4: (eq C c0 c0)).\lambda (H5: (eq T (THead (Flat Appl) v t1) (TLRef n))).\lambda (H6: (eq T (THead (Flat Appl) v t0) t2)).eq_ind C c0 (\lambda (c: C).(eq T (THead (Flat Appl) v t1) (TLRef n)) \to (eq T (THead (Flat Appl) v t0) t2) \to (tau0 g c t1 t0) \to ty3 g c0 (TLRef n) t2) (\lambda (H7: (eq T (THead (Flat Appl) v t1) (TLRef n))).let H8 \def eq_ind T (THead (Flat Appl) v t1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef n) H7 in False_ind ((eq T (THead (Flat Appl) v t0) t2) \to (tau0 g c0 t1 t0) \to ty3 g c0 (TLRef n) t2) H8) c0 (sym_eq C c0 c0 H4) H5 H6 H3) | (tau0_cast c0 v1 v2 H3 t1 t0 H4) \Rightarrow (\lambda (H5: (eq C c0 c0)).\lambda (H6: (eq T (THead (Flat Cast) v1 t1) (TLRef n))).\lambda (H7: (eq T (THead (Flat Cast) v2 t0) t2)).eq_ind C c0 (\lambda (c: C).(eq T (THead (Flat Cast) v1 t1) (TLRef n)) \to (eq T (THead (Flat Cast) v2 t0) t2) \to (tau0 g c v1 v2) \to (tau0 g c t1 t0) \to ty3 g c0 (TLRef n) t2) (\lambda (H8: (eq T (THead (Flat Cast) v1 t1) (TLRef n))).let H9 \def eq_ind T (THead (Flat Cast) v1 t1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow True]) I (TLRef n) H8 in False_ind ((eq T (THead (Flat Cast) v2 t0) t2) \to (tau0 g c0 v1 v2) \to (tau0 g c0 t1 t0) \to ty3 g c0 (TLRef n) t2) H9) c0 (sym_eq C c0 c0 H5) H6 H7 H3 H4)] in H4 (refl_equal C c0) (refl_equal T (TLRef n)) (refl_equal T t2)) (\lambda (c0: C).\lambda (u0: T).\lambda (t: T).\lambda (H0: (ty3 g c0 u0 t)).\lambda (_: ((\forall (t2: T).(tau0 g c0 u0 t2) \to ty3 g c0 u0 t2))).\lambda (b: B).\lambda (t2: T).\lambda (t3: T).\lambda (_: (ty3 g (CHead c0 (Bind b) u0) t2 t3)).\lambda (H3: ((\forall (t3: T).(tau0 g (CHead c0 (Bind b) u0) t2 t3) \to ty3 g (CHead c0 (Bind b) u0) t2 t3))).\lambda (t0: T).\lambda (_: (ty3 g (CHead c0 (Bind b) u0) t3 t0)).\lambda (_: ((\forall (t2: T).(tau0 g (CHead c0 (Bind b) u0) t3 t2) \to ty3 g (CHead c0 (Bind b) u0) t3 t2))).\lambda (t4: T).\lambda (H6: (tau0 g c0 (THead (Bind b) u0 t2) t4)).let H7 \def match H6 return (\lambda (c: C).\lambda (t: T).\lambda (t0: T).(eq C c c0) \to (eq T t (THead (Bind b) u0 t2)) \to (eq T t0 t4) \to ty3 g c0 (THead (Bind b) u0 t2) t4) with [(tau0_sort c0 n) \Rightarrow (\lambda (H6: (eq C c0 c0)).\lambda (H7: (eq T (TSort n) (THead (Bind b) u0 t2))).\lambda (H8: (eq T (TSort (next g n)) t4)).eq_ind C c0 (\lambda (_: C).(eq T (TSort n) (THead (Bind b) u0 t2)) \to (eq T (TSort (next g n)) t4) \to ty3 g c0 (THead (Bind b) u0 t2) t4) (\lambda (H9: (eq T (TSort n) (THead (Bind b) u0 t2))).let H10 \def eq_ind T (TSort n) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow True | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow False]) I (THead (Bind b) u0 t2) H9 in False_ind ((eq T (TSort (next g n)) t4) \to ty3 g c0 (THead (Bind b) u0 t2) t4) H10) c0 (sym_eq C c0 c0 H6) H7 H8) | (tau0_abbr c0 d v i H6 w H7) \Rightarrow (\lambda (H8: (eq C c0 c0)).\lambda (H9: (eq T (TLRef i) (THead (Bind b) u0 t2))).\lambda (H10: (eq T (lift (S i) O w) t4)).eq_ind C c0 (\lambda (c: C).(eq T (TLRef i) (THead (Bind b) u0 t2)) \to (eq T (lift (S i) O w) t4) \to (getl i c (CHead d (Bind Abbr) v)) \to (tau0 g d v w) \to ty3 g c0 (THead (Bind b) u0 t2) t4) (\lambda (H11: (eq T (TLRef i) (THead (Bind b) u0 t2))).let H12 \def eq_ind T (TLRef i) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Bind b) u0 t2) H11 in False_ind ((eq T (lift (S i) O w) t4) \to (getl i c0 (CHead d (Bind Abbr) v)) \to (tau0 g d v w) \to ty3 g c0 (THead (Bind b) u0 t2) t4) H12) c0 (sym_eq C c0 c0 H8) H9 H10 H6 H7) | (tau0_abst c0 d v i H6 w H7) \Rightarrow (\lambda (H8: (eq C c0 c0)).\lambda (H9: (eq T (TLRef i) (THead (Bind b) u0 t2))).\lambda (H10: (eq T (lift (S i) O v) t4)).eq_ind C c0 (\lambda (c: C).(eq T (TLRef i) (THead (Bind b) u0 t2)) \to (eq T (lift (S i) O v) t4) \to (getl i c (CHead d (Bind Abst) v)) \to (tau0 g d v w) \to ty3 g c0 (THead (Bind b) u0 t2) t4) (\lambda (H11: (eq T (TLRef i) (THead (Bind b) u0 t2))).let H12 \def eq_ind T (TLRef i) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Bind b) u0 t2) H11 in False_ind ((eq T (lift (S i) O v) t4) \to (getl i c0 (CHead d (Bind Abst) v)) \to (tau0 g d v w) \to ty3 g c0 (THead (Bind b) u0 t2) t4) H12) c0 (sym_eq C c0 c0 H8) H9 H10 H6 H7) | (tau0_bind b0 c0 v t4 t5 H6) \Rightarrow (\lambda (H7: (eq C c0 c0)).\lambda (H8: (eq T (THead (Bind b0) v t4) (THead (Bind b) u0 t2))).\lambda (H9: (eq T (THead (Bind b0) v t5) t4)).eq_ind C c0 (\lambda (c: C).(eq T (THead (Bind b0) v t4) (THead (Bind b) u0 t2)) \to (eq T (THead (Bind b0) v t5) t4) \to (tau0 g (CHead c (Bind b0) v) t4 t5) \to ty3 g c0 (THead (Bind b) u0 t2) t4) (\lambda (H10: (eq T (THead (Bind b0) v t4) (THead (Bind b) u0 t2))).let H11 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t4 | (TLRef _) \Rightarrow t4 | (THead _ _ t) \Rightarrow t]) (THead (Bind b0) v t4) (THead (Bind b) u0 t2) H10 in (let H12 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow v | (TLRef _) \Rightarrow v | (THead _ t _) \Rightarrow t]) (THead (Bind b0) v t4) (THead (Bind b) u0 t2) H10 in (let H13 \def f_equal T B (\lambda (e: T).match e return B with [(TSort _) \Rightarrow b0 | (TLRef _) \Rightarrow b0 | (THead k _ _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow b0])]) (THead (Bind b0) v t4) (THead (Bind b) u0 t2) H10 in eq_ind B b (\lambda (b1: B).(eq T v u0) \to (eq T t4 t2) \to (eq T (THead (Bind b1) v t5) t4) \to (tau0 g (CHead c0 (Bind b1) v) t4 t5) \to ty3 g c0 (THead (Bind b) u0 t2) t4) (\lambda (H14: (eq T v u0)).eq_ind T u0 (\lambda (t: T).(eq T t4 t2) \to (eq T (THead (Bind b) t t5) t4) \to (tau0 g (CHead c0 (Bind b) t) t4 t5) \to ty3 g c0 (THead (Bind b) u0 t2) t4) (\lambda (H15: (eq T t4 t2)).eq_ind T t2 (\lambda (t: T).(eq T (THead (Bind b) u0 t5) t4) \to (tau0 g (CHead c0 (Bind b) u0) t t5) \to ty3 g c0 (THead (Bind b) u0 t2) t4) (\lambda (H16: (eq T (THead (Bind b) u0 t5) t4)).eq_ind T (THead (Bind b) u0 t5) (\lambda (t: T).(tau0 g (CHead c0 (Bind b) u0) t2 t5) \to ty3 g c0 (THead (Bind b) u0 t2) t) (\lambda (H17: (tau0 g (CHead c0 (Bind b) u0) t2 t5)).let H_y \def H3 t5 H17 in ex_ind T (\lambda (t: T).ty3 g (CHead c0 (Bind b) u0) t5 t) (ty3 g c0 (THead (Bind b) u0 t2) (THead (Bind b) u0 t5)) (\lambda (x: T).\lambda (H1: (ty3 g (CHead c0 (Bind b) u0) t5 x)).ty3_bind g c0 u0 t H0 b t2 t5 H_y x H1) (ty3_correct g (CHead c0 (Bind b) u0) t2 t5 H_y)) t4 H16) t4 (sym_eq T t4 t2 H15)) v (sym_eq T v u0 H14)) b0 (sym_eq B b0 b H13)) H12) H11) c0 (sym_eq C c0 c0 H7) H8 H9 H6) | (tau0_appl c0 v t4 t5 H6) \Rightarrow (\lambda (H7: (eq C c0 c0)).\lambda (H8: (eq T (THead (Flat Appl) v t4) (THead (Bind b) u0 t2))).\lambda (H9: (eq T (THead (Flat Appl) v t5) t4)).eq_ind C c0 (\lambda (c: C).(eq T (THead (Flat Appl) v t4) (THead (Bind b) u0 t2)) \to (eq T (THead (Flat Appl) v t5) t4) \to (tau0 g c t4 t5) \to ty3 g c0 (THead (Bind b) u0 t2) t4) (\lambda (H10: (eq T (THead (Flat Appl) v t4) (THead (Bind b) u0 t2))).let H11 \def eq_ind T (THead (Flat Appl) v t4) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind b) u0 t2) H10 in False_ind ((eq T (THead (Flat Appl) v t5) t4) \to (tau0 g c0 t4 t5) \to ty3 g c0 (THead (Bind b) u0 t2) t4) H11) c0 (sym_eq C c0 c0 H7) H8 H9 H6) | (tau0_cast c0 v1 v2 H6 t4 t5 H7) \Rightarrow (\lambda (H8: (eq C c0 c0)).\lambda (H9: (eq T (THead (Flat Cast) v1 t4) (THead (Bind b) u0 t2))).\lambda (H10: (eq T (THead (Flat Cast) v2 t5) t4)).eq_ind C c0 (\lambda (c: C).(eq T (THead (Flat Cast) v1 t4) (THead (Bind b) u0 t2)) \to (eq T (THead (Flat Cast) v2 t5) t4) \to (tau0 g c v1 v2) \to (tau0 g c t4 t5) \to ty3 g c0 (THead (Bind b) u0 t2) t4) (\lambda (H11: (eq T (THead (Flat Cast) v1 t4) (THead (Bind b) u0 t2))).let H12 \def eq_ind T (THead (Flat Cast) v1 t4) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat _) \Rightarrow True])]) I (THead (Bind b) u0 t2) H11 in False_ind ((eq T (THead (Flat Cast) v2 t5) t4) \to (tau0 g c0 v1 v2) \to (tau0 g c0 t4 t5) \to ty3 g c0 (THead (Bind b) u0 t2) t4) H12) c0 (sym_eq C c0 c0 H8) H9 H10 H6 H7)] in H7 (refl_equal C c0) (refl_equal T (THead (Bind b) u0 t2)) (refl_equal T t4)) (\lambda (c0: C).\lambda (w: T).\lambda (u0: T).\lambda (H0: (ty3 g c0 w u0)).\lambda (_: ((\forall (t2: T).(tau0 g c0 w t2) \to ty3 g c0 w t2))).\lambda (v: T).\lambda (t: T).\lambda (H2: (ty3 g c0 v (THead (Bind Abst) u0 t))).\lambda (H3: ((\forall (t2: T).(tau0 g c0 v t2) \to ty3 g c0 v t2))).\lambda (t2: T).\lambda (H4: (tau0 g c0 (THead (Flat Appl) w v) t2)).let H5 \def match H4 return (\lambda (c: C).\lambda (t: T).\lambda (t0: T).(eq C c c0) \to (eq T t (THead (Flat Appl) w v)) \to (eq T t0 t2) \to ty3 g c0 (THead (Flat Appl) w v) t2) with [(tau0_sort c0 n) \Rightarrow (\lambda (H4: (eq C c0 c0)).\lambda (H5: (eq T (TSort n) (THead (Flat Appl) w v))).\lambda (H6: (eq T (TSort (next g n)) t2)).eq_ind C c0 (\lambda (_: C).(eq T (TSort n) (THead (Flat Appl) w v)) \to (eq T (TSort (next g n)) t2) \to ty3 g c0 (THead (Flat Appl) w v) t2) (\lambda (H7: (eq T (TSort n) (THead (Flat Appl) w v))).let H8 \def eq_ind T (TSort n) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow True | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow False]) I (THead (Flat Appl) w v) H7 in False_ind ((eq T (TSort (next g n)) t2) \to ty3 g c0 (THead (Flat Appl) w v) t2) H8) c0 (sym_eq C c0 c0 H4) H5 H6) | (tau0_abbr c0 d v0 i H4 w0 H5) \Rightarrow (\lambda (H6: (eq C c0 c0)).\lambda (H7: (eq T (TLRef i) (THead (Flat Appl) w v))).\lambda (H8: (eq T (lift (S i) O w0) t2)).eq_ind C c0 (\lambda (c: C).(eq T (TLRef i) (THead (Flat Appl) w v)) \to (eq T (lift (S i) O w0) t2) \to (getl i c (CHead d (Bind Abbr) v0)) \to (tau0 g d v0 w0) \to ty3 g c0 (THead (Flat Appl) w v) t2) (\lambda (H9: (eq T (TLRef i) (THead (Flat Appl) w v))).let H10 \def eq_ind T (TLRef i) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Flat Appl) w v) H9 in False_ind ((eq T (lift (S i) O w0) t2) \to (getl i c0 (CHead d (Bind Abbr) v0)) \to (tau0 g d v0 w0) \to ty3 g c0 (THead (Flat Appl) w v) t2) H10) c0 (sym_eq C c0 c0 H6) H7 H8 H4 H5) | (tau0_abst c0 d v0 i H4 w0 H5) \Rightarrow (\lambda (H6: (eq C c0 c0)).\lambda (H7: (eq T (TLRef i) (THead (Flat Appl) w v))).\lambda (H8: (eq T (lift (S i) O v0) t2)).eq_ind C c0 (\lambda (c: C).(eq T (TLRef i) (THead (Flat Appl) w v)) \to (eq T (lift (S i) O v0) t2) \to (getl i c (CHead d (Bind Abst) v0)) \to (tau0 g d v0 w0) \to ty3 g c0 (THead (Flat Appl) w v) t2) (\lambda (H9: (eq T (TLRef i) (THead (Flat Appl) w v))).let H10 \def eq_ind T (TLRef i) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Flat Appl) w v) H9 in False_ind ((eq T (lift (S i) O v0) t2) \to (getl i c0 (CHead d (Bind Abst) v0)) \to (tau0 g d v0 w0) \to ty3 g c0 (THead (Flat Appl) w v) t2) H10) c0 (sym_eq C c0 c0 H6) H7 H8 H4 H5) | (tau0_bind b c0 v0 t1 t0 H4) \Rightarrow (\lambda (H5: (eq C c0 c0)).\lambda (H6: (eq T (THead (Bind b) v0 t1) (THead (Flat Appl) w v))).\lambda (H7: (eq T (THead (Bind b) v0 t0) t2)).eq_ind C c0 (\lambda (c: C).(eq T (THead (Bind b) v0 t1) (THead (Flat Appl) w v)) \to (eq T (THead (Bind b) v0 t0) t2) \to (tau0 g (CHead c (Bind b) v0) t1 t0) \to ty3 g c0 (THead (Flat Appl) w v) t2) (\lambda (H8: (eq T (THead (Bind b) v0 t1) (THead (Flat Appl) w v))).let H9 \def eq_ind T (THead (Bind b) v0 t1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (THead (Flat Appl) w v) H8 in False_ind ((eq T (THead (Bind b) v0 t0) t2) \to (tau0 g (CHead c0 (Bind b) v0) t1 t0) \to ty3 g c0 (THead (Flat Appl) w v) t2) H9) c0 (sym_eq C c0 c0 H5) H6 H7 H4) | (tau0_appl c0 v0 t1 t0 H4) \Rightarrow (\lambda (H5: (eq C c0 c0)).\lambda (H6: (eq T (THead (Flat Appl) v0 t1) (THead (Flat Appl) w v))).\lambda (H7: (eq T (THead (Flat Appl) v0 t0) t2)).eq_ind C c0 (\lambda (c: C).(eq T (THead (Flat Appl) v0 t1) (THead (Flat Appl) w v)) \to (eq T (THead (Flat Appl) v0 t0) t2) \to (tau0 g c t1 t0) \to ty3 g c0 (THead (Flat Appl) w v) t2) (\lambda (H8: (eq T (THead (Flat Appl) v0 t1) (THead (Flat Appl) w v))).let H9 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t1 | (TLRef _) \Rightarrow t1 | (THead _ _ t) \Rightarrow t]) (THead (Flat Appl) v0 t1) (THead (Flat Appl) w v) H8 in (let H10 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow v0 | (TLRef _) \Rightarrow v0 | (THead _ t _) \Rightarrow t]) (THead (Flat Appl) v0 t1) (THead (Flat Appl) w v) H8 in eq_ind T w (\lambda (t: T).(eq T t1 v) \to (eq T (THead (Flat Appl) t t0) t2) \to (tau0 g c0 t1 t0) \to ty3 g c0 (THead (Flat Appl) w v) t2) (\lambda (H11: (eq T t1 v)).eq_ind T v (\lambda (t: T).(eq T (THead (Flat Appl) w t0) t2) \to (tau0 g c0 t t0) \to ty3 g c0 (THead (Flat Appl) w v) t2) (\lambda (H12: (eq T (THead (Flat Appl) w t0) t2)).eq_ind T (THead (Flat Appl) w t0) (\lambda (t: T).(tau0 g c0 v t0) \to ty3 g c0 (THead (Flat Appl) w v) t) (\lambda (H13: (tau0 g c0 v t0)).let H_y \def H3 t0 H13 in let H1 \def ty3_unique g c0 v t0 H_y (THead (Bind Abst) u0 t) H2 in ex_ind T (\lambda (t: T).ty3 g c0 t0 t) (ty3 g c0 (THead (Flat Appl) w v) (THead (Flat Appl) w t0)) (\lambda (x: T).\lambda (H3: (ty3 g c0 t0 x)).ex_ind T (\lambda (t: T).ty3 g c0 u0 t) (ty3 g c0 (THead (Flat Appl) w v) (THead (Flat Appl) w t0)) (\lambda (x0: T).\lambda (_: (ty3 g c0 u0 x0)).ex_ind T (\lambda (t2: T).ty3 g c0 (THead (Bind Abst) u0 t) t2) (ty3 g c0 (THead (Flat Appl) w v) (THead (Flat Appl) w t0)) (\lambda (x1: T).\lambda (H15: (ty3 g c0 (THead (Bind Abst) u0 t) x1)).ex4_3_ind T T T (\lambda (t2: T).\lambda (_: T).\lambda (_: T).pc3 c0 (THead (Bind Abst) u0 t2) x1) (\lambda (_: T).\lambda (t: T).\lambda (_: T).ty3 g c0 u0 t) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c0 (Bind Abst) u0) t t2) (\lambda (t2: T).\lambda (_: T).\lambda (t3: T).ty3 g (CHead c0 (Bind Abst) u0) t2 t3) (ty3 g c0 (THead (Flat Appl) w v) (THead (Flat Appl) w t0)) (\lambda (x2: T).\lambda (x3: T).\lambda (x4: T).\lambda (_: (pc3 c0 (THead (Bind Abst) u0 x2) x1)).\lambda (H17: (ty3 g c0 u0 x3)).\lambda (H18: (ty3 g (CHead c0 (Bind Abst) u0) t x2)).\lambda (H19: (ty3 g (CHead c0 (Bind Abst) u0) x2 x4)).ty3_conv g c0 (THead (Flat Appl) w t0) (THead (Flat Appl) w (THead (Bind Abst) u0 x2)) (ty3_appl g c0 w u0 H0 t0 x2 (ty3_sconv g c0 t0 x H3 (THead (Bind Abst) u0 t) (THead (Bind Abst) u0 x2) (ty3_bind g c0 u0 x3 H17 Abst t x2 H18 x4 H19) H1)) (THead (Flat Appl) w v) (THead (Flat Appl) w (THead (Bind Abst) u0 t)) (ty3_appl g c0 w u0 H0 v t H2) (pc3_s c0 (THead (Flat Appl) w (THead (Bind Abst) u0 t)) (THead (Flat Appl) w t0) (pc3_thin_dx c0 t0 (THead (Bind Abst) u0 t) H1 w Appl))) (ty3_gen_bind g Abst c0 u0 t x1 H15)) (ty3_correct g c0 v (THead (Bind Abst) u0 t) H2)) (ty3_correct g c0 w u0 H0)) (ty3_correct g c0 v t0 H_y)) t2 H12) t1 (sym_eq T t1 v H11)) v0 (sym_eq T v0 w H10)) H9) c0 (sym_eq C c0 c0 H5) H6 H7 H4) | (tau0_cast c0 v1 v2 H4 t1 t0 H5) \Rightarrow (\lambda (H6: (eq C c0 c0)).\lambda (H7: (eq T (THead (Flat Cast) v1 t1) (THead (Flat Appl) w v))).\lambda (H8: (eq T (THead (Flat Cast) v2 t0) t2)).eq_ind C c0 (\lambda (c: C).(eq T (THead (Flat Cast) v1 t1) (THead (Flat Appl) w v)) \to (eq T (THead (Flat Cast) v2 t0) t2) \to (tau0 g c v1 v2) \to (tau0 g c t1 t0) \to ty3 g c0 (THead (Flat Appl) w v) t2) (\lambda (H9: (eq T (THead (Flat Cast) v1 t1) (THead (Flat Appl) w v))).let H10 \def eq_ind T (THead (Flat Cast) v1 t1) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat f) \Rightarrow (match f return (Prop) with [Appl \Rightarrow False | Cast \Rightarrow True])])]) I (THead (Flat Appl) w v) H9 in False_ind ((eq T (THead (Flat Cast) v2 t0) t2) \to (tau0 g c0 v1 v2) \to (tau0 g c0 t1 t0) \to ty3 g c0 (THead (Flat Appl) w v) t2) H10) c0 (sym_eq C c0 c0 H6) H7 H8 H4 H5)] in H5 (refl_equal C c0) (refl_equal T (THead (Flat Appl) w v)) (refl_equal T t2)) (\lambda (c0: C).\lambda (t2: T).\lambda (t3: T).\lambda (H0: (ty3 g c0 t2 t3)).\lambda (H1: ((\forall (t3: T).(tau0 g c0 t2 t3) \to ty3 g c0 t2 t3))).\lambda (t0: T).\lambda (_: (ty3 g c0 t3 t0)).\lambda (H3: ((\forall (t2: T).(tau0 g c0 t3 t2) \to ty3 g c0 t3 t2))).\lambda (t4: T).\lambda (H4: (tau0 g c0 (THead (Flat Cast) t3 t2) t4)).let H5 \def match H4 return (\lambda (c: C).\lambda (t: T).\lambda (t0: T).(eq C c c0) \to (eq T t (THead (Flat Cast) t3 t2)) \to (eq T t0 t4) \to ty3 g c0 (THead (Flat Cast) t3 t2) t4) with [(tau0_sort c0 n) \Rightarrow (\lambda (H4: (eq C c0 c0)).\lambda (H5: (eq T (TSort n) (THead (Flat Cast) t3 t2))).\lambda (H6: (eq T (TSort (next g n)) t4)).eq_ind C c0 (\lambda (_: C).(eq T (TSort n) (THead (Flat Cast) t3 t2)) \to (eq T (TSort (next g n)) t4) \to ty3 g c0 (THead (Flat Cast) t3 t2) t4) (\lambda (H7: (eq T (TSort n) (THead (Flat Cast) t3 t2))).let H8 \def eq_ind T (TSort n) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow True | (TLRef _) \Rightarrow False | (THead _ _ _) \Rightarrow False]) I (THead (Flat Cast) t3 t2) H7 in False_ind ((eq T (TSort (next g n)) t4) \to ty3 g c0 (THead (Flat Cast) t3 t2) t4) H8) c0 (sym_eq C c0 c0 H4) H5 H6) | (tau0_abbr c0 d v i H4 w H5) \Rightarrow (\lambda (H6: (eq C c0 c0)).\lambda (H7: (eq T (TLRef i) (THead (Flat Cast) t3 t2))).\lambda (H8: (eq T (lift (S i) O w) t4)).eq_ind C c0 (\lambda (c: C).(eq T (TLRef i) (THead (Flat Cast) t3 t2)) \to (eq T (lift (S i) O w) t4) \to (getl i c (CHead d (Bind Abbr) v)) \to (tau0 g d v w) \to ty3 g c0 (THead (Flat Cast) t3 t2) t4) (\lambda (H9: (eq T (TLRef i) (THead (Flat Cast) t3 t2))).let H10 \def eq_ind T (TLRef i) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Flat Cast) t3 t2) H9 in False_ind ((eq T (lift (S i) O w) t4) \to (getl i c0 (CHead d (Bind Abbr) v)) \to (tau0 g d v w) \to ty3 g c0 (THead (Flat Cast) t3 t2) t4) H10) c0 (sym_eq C c0 c0 H6) H7 H8 H4 H5) | (tau0_abst c0 d v i H4 w H5) \Rightarrow (\lambda (H6: (eq C c0 c0)).\lambda (H7: (eq T (TLRef i) (THead (Flat Cast) t3 t2))).\lambda (H8: (eq T (lift (S i) O v) t4)).eq_ind C c0 (\lambda (c: C).(eq T (TLRef i) (THead (Flat Cast) t3 t2)) \to (eq T (lift (S i) O v) t4) \to (getl i c (CHead d (Bind Abst) v)) \to (tau0 g d v w) \to ty3 g c0 (THead (Flat Cast) t3 t2) t4) (\lambda (H9: (eq T (TLRef i) (THead (Flat Cast) t3 t2))).let H10 \def eq_ind T (TLRef i) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow True | (THead _ _ _) \Rightarrow False]) I (THead (Flat Cast) t3 t2) H9 in False_ind ((eq T (lift (S i) O v) t4) \to (getl i c0 (CHead d (Bind Abst) v)) \to (tau0 g d v w) \to ty3 g c0 (THead (Flat Cast) t3 t2) t4) H10) c0 (sym_eq C c0 c0 H6) H7 H8 H4 H5) | (tau0_bind b c0 v t4 t5 H4) \Rightarrow (\lambda (H5: (eq C c0 c0)).\lambda (H6: (eq T (THead (Bind b) v t4) (THead (Flat Cast) t3 t2))).\lambda (H7: (eq T (THead (Bind b) v t5) t4)).eq_ind C c0 (\lambda (c: C).(eq T (THead (Bind b) v t4) (THead (Flat Cast) t3 t2)) \to (eq T (THead (Bind b) v t5) t4) \to (tau0 g (CHead c (Bind b) v) t4 t5) \to ty3 g c0 (THead (Flat Cast) t3 t2) t4) (\lambda (H8: (eq T (THead (Bind b) v t4) (THead (Flat Cast) t3 t2))).let H9 \def eq_ind T (THead (Bind b) v t4) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow True | (Flat _) \Rightarrow False])]) I (THead (Flat Cast) t3 t2) H8 in False_ind ((eq T (THead (Bind b) v t5) t4) \to (tau0 g (CHead c0 (Bind b) v) t4 t5) \to ty3 g c0 (THead (Flat Cast) t3 t2) t4) H9) c0 (sym_eq C c0 c0 H5) H6 H7 H4) | (tau0_appl c0 v t4 t5 H4) \Rightarrow (\lambda (H5: (eq C c0 c0)).\lambda (H6: (eq T (THead (Flat Appl) v t4) (THead (Flat Cast) t3 t2))).\lambda (H7: (eq T (THead (Flat Appl) v t5) t4)).eq_ind C c0 (\lambda (c: C).(eq T (THead (Flat Appl) v t4) (THead (Flat Cast) t3 t2)) \to (eq T (THead (Flat Appl) v t5) t4) \to (tau0 g c t4 t5) \to ty3 g c0 (THead (Flat Cast) t3 t2) t4) (\lambda (H8: (eq T (THead (Flat Appl) v t4) (THead (Flat Cast) t3 t2))).let H9 \def eq_ind T (THead (Flat Appl) v t4) (\lambda (e: T).match e return (Prop) with [(TSort _) \Rightarrow False | (TLRef _) \Rightarrow False | (THead k _ _) \Rightarrow (match k return (Prop) with [(Bind _) \Rightarrow False | (Flat f) \Rightarrow (match f return (Prop) with [Appl \Rightarrow True | Cast \Rightarrow False])])]) I (THead (Flat Cast) t3 t2) H8 in False_ind ((eq T (THead (Flat Appl) v t5) t4) \to (tau0 g c0 t4 t5) \to ty3 g c0 (THead (Flat Cast) t3 t2) t4) H9) c0 (sym_eq C c0 c0 H5) H6 H7 H4) | (tau0_cast c0 v1 v2 H4 t4 t5 H5) \Rightarrow (\lambda (H6: (eq C c0 c0)).\lambda (H7: (eq T (THead (Flat Cast) v1 t4) (THead (Flat Cast) t3 t2))).\lambda (H8: (eq T (THead (Flat Cast) v2 t5) t4)).eq_ind C c0 (\lambda (c: C).(eq T (THead (Flat Cast) v1 t4) (THead (Flat Cast) t3 t2)) \to (eq T (THead (Flat Cast) v2 t5) t4) \to (tau0 g c v1 v2) \to (tau0 g c t4 t5) \to ty3 g c0 (THead (Flat Cast) t3 t2) t4) (\lambda (H9: (eq T (THead (Flat Cast) v1 t4) (THead (Flat Cast) t3 t2))).let H10 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow t4 | (TLRef _) \Rightarrow t4 | (THead _ _ t) \Rightarrow t]) (THead (Flat Cast) v1 t4) (THead (Flat Cast) t3 t2) H9 in (let H11 \def f_equal T T (\lambda (e: T).match e return T with [(TSort _) \Rightarrow v1 | (TLRef _) \Rightarrow v1 | (THead _ t _) \Rightarrow t]) (THead (Flat Cast) v1 t4) (THead (Flat Cast) t3 t2) H9 in eq_ind T t3 (\lambda (t: T).(eq T t4 t2) \to (eq T (THead (Flat Cast) v2 t5) t4) \to (tau0 g c0 t v2) \to (tau0 g c0 t4 t5) \to ty3 g c0 (THead (Flat Cast) t3 t2) t4) (\lambda (H12: (eq T t4 t2)).eq_ind T t2 (\lambda (t: T).(eq T (THead (Flat Cast) v2 t5) t4) \to (tau0 g c0 t3 v2) \to (tau0 g c0 t t5) \to ty3 g c0 (THead (Flat Cast) t3 t2) t4) (\lambda (H13: (eq T (THead (Flat Cast) v2 t5) t4)).eq_ind T (THead (Flat Cast) v2 t5) (\lambda (t: T).(tau0 g c0 t3 v2) \to (tau0 g c0 t2 t5) \to ty3 g c0 (THead (Flat Cast) t3 t2) t) (\lambda (H14: (tau0 g c0 t3 v2)).\lambda (H15: (tau0 g c0 t2 t5)).let H_y \def H1 t5 H15 in let H_y0 \def H3 v2 H14 in let H3 \def ty3_unique g c0 t2 t5 H_y t3 H0 in ex_ind T (\lambda (t: T).ty3 g c0 v2 t) (ty3 g c0 (THead (Flat Cast) t3 t2) (THead (Flat Cast) v2 t5)) (\lambda (x: T).\lambda (H16: (ty3 g c0 v2 x)).ex_ind T (\lambda (t: T).ty3 g c0 t5 t) (ty3 g c0 (THead (Flat Cast) t3 t2) (THead (Flat Cast) v2 t5)) (\lambda (x0: T).\lambda (H17: (ty3 g c0 t5 x0)).ty3_conv g c0 (THead (Flat Cast) v2 t5) v2 (ty3_cast g c0 t5 v2 (ty3_sconv g c0 t5 x0 H17 t3 v2 H_y0 H3) x H16) (THead (Flat Cast) t3 t2) t3 (ty3_cast g c0 t2 t3 H0 v2 H_y0) (pc3_s c0 t3 (THead (Flat Cast) v2 t5) (pc3_pr2_u c0 t5 (THead (Flat Cast) v2 t5) (pr2_free c0 (THead (Flat Cast) v2 t5) t5 (pr0_epsilon t5 t5 (pr0_refl t5) v2)) t3 H3))) (ty3_correct g c0 t2 t5 H_y)) (ty3_correct g c0 t3 v2 H_y0)) t4 H13) t4 (sym_eq T t4 t2 H12)) v1 (sym_eq T v1 t3 H11)) H10) c0 (sym_eq C c0 c0 H6) H7 H8 H4 H5)] in H5 (refl_equal C c0) (refl_equal T (THead (Flat Cast) t3 t2)) (refl_equal T t4)) c u t1 H.
+
+theorem ty3_arity: \forall (g: G).\forall (c: C).\forall (t1: T).\forall (t2: T).(ty3 g c t1 t2) \to ex2 A (\lambda (a1: A).arity g c t1 a1) (\lambda (a1: A).arity g c t2 (asucc g a1)) \def \lambda (g: G).\lambda (c: C).\lambda (t1: T).\lambda (t2: T).\lambda (H: (ty3 g c t1 t2)).ty3_ind g (\lambda (c0: C).\lambda (t: T).\lambda (t0: T).ex2 A (\lambda (a1: A).arity g c0 t a1) (\lambda (a1: A).arity g c0 t0 (asucc g a1))) (\lambda (c0: C).\lambda (t3: T).\lambda (t: T).\lambda (_: (ty3 g c0 t3 t)).\lambda (H1: (ex2 A (\lambda (a1: A).arity g c0 t3 a1) (\lambda (a1: A).arity g c0 t (asucc g a1)))).\lambda (u: T).\lambda (t4: T).\lambda (_: (ty3 g c0 u t4)).\lambda (H3: (ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (a1: A).arity g c0 t4 (asucc g a1)))).\lambda (H4: (pc3 c0 t4 t3)).let H5 \def H1 in ex2_ind A (\lambda (a1: A).arity g c0 t3 a1) (\lambda (a1: A).arity g c0 t (asucc g a1)) (ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (a1: A).arity g c0 t3 (asucc g a1))) (\lambda (x: A).\lambda (H6: (arity g c0 t3 x)).\lambda (_: (arity g c0 t (asucc g x))).let H8 \def H3 in ex2_ind A (\lambda (a1: A).arity g c0 u a1) (\lambda (a1: A).arity g c0 t4 (asucc g a1)) (ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (a1: A).arity g c0 t3 (asucc g a1))) (\lambda (x0: A).\lambda (H9: (arity g c0 u x0)).\lambda (H10: (arity g c0 t4 (asucc g x0))).let H11 \def H4 in ex2_ind T (\lambda (t0: T).pr3 c0 t4 t0) (\lambda (t0: T).pr3 c0 t3 t0) (ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (a1: A).arity g c0 t3 (asucc g a1))) (\lambda (x1: T).\lambda (H12: (pr3 c0 t4 x1)).\lambda (H13: (pr3 c0 t3 x1)).ex_intro2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (a1: A).arity g c0 t3 (asucc g a1)) x0 H9 (arity_repl g c0 t3 x H6 (asucc g x0) (leq_sym g (asucc g x0) x (arity_mono g c0 x1 (asucc g x0) (arity_sred_pr3 c0 t4 x1 H12 g (asucc g x0) H10) x (arity_sred_pr3 c0 t3 x1 H13 g x H6))))) H11) H8) H5) (\lambda (c0: C).\lambda (m: nat).ex_intro2 A (\lambda (a1: A).arity g c0 (TSort m) a1) (\lambda (a1: A).arity g c0 (TSort (next g m)) (asucc g a1)) (ASort O m) (arity_sort g c0 m) (arity_sort g c0 (next g m))) (\lambda (n: nat).\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (H0: (getl n c0 (CHead d (Bind Abbr) u))).\lambda (t: T).\lambda (_: (ty3 g d u t)).\lambda (H2: (ex2 A (\lambda (a1: A).arity g d u a1) (\lambda (a1: A).arity g d t (asucc g a1)))).let H3 \def H2 in ex2_ind A (\lambda (a1: A).arity g d u a1) (\lambda (a1: A).arity g d t (asucc g a1)) (ex2 A (\lambda (a1: A).arity g c0 (TLRef n) a1) (\lambda (a1: A).arity g c0 (lift (S n) O t) (asucc g a1))) (\lambda (x: A).\lambda (H4: (arity g d u x)).\lambda (H5: (arity g d t (asucc g x))).ex_intro2 A (\lambda (a1: A).arity g c0 (TLRef n) a1) (\lambda (a1: A).arity g c0 (lift (S n) O t) (asucc g a1)) x (arity_abbr g c0 d u n H0 x H4) (arity_lift g d t (asucc g x) H5 c0 (S n) O (getl_drop Abbr c0 d u n H0))) H3) (\lambda (n: nat).\lambda (c0: C).\lambda (d: C).\lambda (u: T).\lambda (H0: (getl n c0 (CHead d (Bind Abst) u))).\lambda (t: T).\lambda (_: (ty3 g d u t)).\lambda (H2: (ex2 A (\lambda (a1: A).arity g d u a1) (\lambda (a1: A).arity g d t (asucc g a1)))).let H3 \def H2 in ex2_ind A (\lambda (a1: A).arity g d u a1) (\lambda (a1: A).arity g d t (asucc g a1)) (ex2 A (\lambda (a1: A).arity g c0 (TLRef n) a1) (\lambda (a1: A).arity g c0 (lift (S n) O u) (asucc g a1))) (\lambda (x: A).\lambda (H4: (arity g d u x)).\lambda (_: (arity g d t (asucc g x))).let H_x \def leq_asucc g x in let H6 \def H_x in ex_ind A (\lambda (a0: A).leq g x (asucc g a0)) (ex2 A (\lambda (a1: A).arity g c0 (TLRef n) a1) (\lambda (a1: A).arity g c0 (lift (S n) O u) (asucc g a1))) (\lambda (x0: A).\lambda (H7: (leq g x (asucc g x0))).ex_intro2 A (\lambda (a1: A).arity g c0 (TLRef n) a1) (\lambda (a1: A).arity g c0 (lift (S n) O u) (asucc g a1)) x0 (arity_abst g c0 d u n H0 x0 (arity_repl g d u x H4 (asucc g x0) H7)) (arity_lift g d u (asucc g x0) (arity_repl g d u x H4 (asucc g x0) H7) c0 (S n) O (getl_drop Abst c0 d u n H0))) H6) H3) (\lambda (c0: C).\lambda (u: T).\lambda (t: T).\lambda (_: (ty3 g c0 u t)).\lambda (H1: (ex2 A (\lambda (a1: A).arity g c0 u a1) (\lambda (a1: A).arity g c0 t (asucc g a1)))).\lambda (b: B).\lambda (t3: T).\lambda (t4: T).\lambda (_: (ty3 g (CHead c0 (Bind b) u) t3 t4)).\lambda (H3: (ex2 A (\lambda (a1: A).arity g (CHead c0 (Bind b) u) t3 a1) (\lambda (a1: A).arity g (CHead c0 (Bind b) u) t4 (asucc g a1)))).\lambda (t0: T).\lambda (H4: (ty3 g (CHead c0 (Bind b) u) t4 t0)).\lambda (H5: (ex2 A (\lambda (a1: A).arity g (CHead c0 (Bind b) u) t4 a1) (\lambda (a1: A).arity g (CHead c0 (Bind b) u) t0 (asucc g a1)))).let H6 \def H1 in ex2_ind A (\lambda (a1: A).arity g c0 u a1) (\lambda (a1: A).arity g c0 t (asucc g a1)) (ex2 A (\lambda (a1: A).arity g c0 (THead (Bind b) u t3) a1) (\lambda (a1: A).arity g c0 (THead (Bind b) u t4) (asucc g a1))) (\lambda (x: A).\lambda (H7: (arity g c0 u x)).\lambda (_: (arity g c0 t (asucc g x))).let H9 \def H3 in ex2_ind A (\lambda (a1: A).arity g (CHead c0 (Bind b) u) t3 a1) (\lambda (a1: A).arity g (CHead c0 (Bind b) u) t4 (asucc g a1)) (ex2 A (\lambda (a1: A).arity g c0 (THead (Bind b) u t3) a1) (\lambda (a1: A).arity g c0 (THead (Bind b) u t4) (asucc g a1))) (\lambda (x0: A).\lambda (H10: (arity g (CHead c0 (Bind b) u) t3 x0)).\lambda (H11: (arity g (CHead c0 (Bind b) u) t4 (asucc g x0))).let H_x \def leq_asucc g x in let H12 \def H_x in ex_ind A (\lambda (a0: A).leq g x (asucc g a0)) (ex2 A (\lambda (a1: A).arity g c0 (THead (Bind b) u t3) a1) (\lambda (a1: A).arity g c0 (THead (Bind b) u t4) (asucc g a1))) (\lambda (x1: A).\lambda (H13: (leq g x (asucc g x1))).(match b return (\lambda (b0: B).(ty3 g (CHead c0 (Bind b0) u) t4 t0) \to (ex2 A (\lambda (a1: A).arity g (CHead c0 (Bind b0) u) t4 a1) (\lambda (a1: A).arity g (CHead c0 (Bind b0) u) t0 (asucc g a1))) \to (arity g (CHead c0 (Bind b0) u) t3 x0) \to (arity g (CHead c0 (Bind b0) u) t4 (asucc g x0)) \to ex2 A (\lambda (a1: A).arity g c0 (THead (Bind b0) u t3) a1) (\lambda (a1: A).arity g c0 (THead (Bind b0) u t4) (asucc g a1))) with [Abbr \Rightarrow (\lambda (_: (ty3 g (CHead c0 (Bind Abbr) u) t4 t0)).\lambda (_: (ex2 A (\lambda (a1: A).arity g (CHead c0 (Bind Abbr) u) t4 a1) (\lambda (a1: A).arity g (CHead c0 (Bind Abbr) u) t0 (asucc g a1)))).\lambda (H16: (arity g (CHead c0 (Bind Abbr) u) t3 x0)).\lambda (H17: (arity g (CHead c0 (Bind Abbr) u) t4 (asucc g x0))).ex_intro2 A (\lambda (a1: A).arity g c0 (THead (Bind Abbr) u t3) a1) (\lambda (a1: A).arity g c0 (THead (Bind Abbr) u t4) (asucc g a1)) x0 (arity_bind g Abbr not_abbr_abst c0 u x H7 t3 x0 H16) (arity_bind g Abbr not_abbr_abst c0 u x H7 t4 (asucc g x0) H17)) | Abst \Rightarrow (\lambda (_: (ty3 g (CHead c0 (Bind Abst) u) t4 t0)).\lambda (_: (ex2 A (\lambda (a1: A).arity g (CHead c0 (Bind Abst) u) t4 a1) (\lambda (a1: A).arity g (CHead c0 (Bind Abst) u) t0 (asucc g a1)))).\lambda (H16: (arity g (CHead c0 (Bind Abst) u) t3 x0)).\lambda (H17: (arity g (CHead c0 (Bind Abst) u) t4 (asucc g x0))).ex_intro2 A (\lambda (a1: A).arity g c0 (THead (Bind Abst) u t3) a1) (\lambda (a1: A).arity g c0 (THead (Bind Abst) u t4) (asucc g a1)) (AHead x1 x0) (arity_head g c0 u x1 (arity_repl g c0 u x H7 (asucc g x1) H13) t3 x0 H16) (arity_repl g c0 (THead (Bind Abst) u t4) (AHead x1 (asucc g x0)) (arity_head g c0 u x1 (arity_repl g c0 u x H7 (asucc g x1) H13) t4 (asucc g x0) H17) (asucc g (AHead x1 x0)) (leq_refl g (asucc g (AHead x1 x0))))) | Void \Rightarrow (\lambda (_: (ty3 g (CHead c0 (Bind Void) u) t4 t0)).\lambda (_: (ex2 A (\lambda (a1: A).arity g (CHead c0 (Bind Void) u) t4 a1) (\lambda (a1: A).arity g (CHead c0 (Bind Void) u) t0 (asucc g a1)))).\lambda (H16: (arity g (CHead c0 (Bind Void) u) t3 x0)).\lambda (H17: (arity g (CHead c0 (Bind Void) u) t4 (asucc g x0))).ex_intro2 A (\lambda (a1: A).arity g c0 (THead (Bind Void) u t3) a1) (\lambda (a1: A).arity g c0 (THead (Bind Void) u t4) (asucc g a1)) x0 (arity_bind g Void not_void_abst c0 u x H7 t3 x0 H16) (arity_bind g Void not_void_abst c0 u x H7 t4 (asucc g x0) H17))]) H4 H5 H10 H11) H12) H9) H6) (\lambda (c0: C).\lambda (w: T).\lambda (u: T).\lambda (_: (ty3 g c0 w u)).\lambda (H1: (ex2 A (\lambda (a1: A).arity g c0 w a1) (\lambda (a1: A).arity g c0 u (asucc g a1)))).\lambda (v: T).\lambda (t: T).\lambda (_: (ty3 g c0 v (THead (Bind Abst) u t))).\lambda (H3: (ex2 A (\lambda (a1: A).arity g c0 v a1) (\lambda (a1: A).arity g c0 (THead (Bind Abst) u t) (asucc g a1)))).let H4 \def H1 in ex2_ind A (\lambda (a1: A).arity g c0 w a1) (\lambda (a1: A).arity g c0 u (asucc g a1)) (ex2 A (\lambda (a1: A).arity g c0 (THead (Flat Appl) w v) a1) (\lambda (a1: A).arity g c0 (THead (Flat Appl) w (THead (Bind Abst) u t)) (asucc g a1))) (\lambda (x: A).\lambda (H5: (arity g c0 w x)).\lambda (H6: (arity g c0 u (asucc g x))).let H7 \def H3 in ex2_ind A (\lambda (a1: A).arity g c0 v a1) (\lambda (a1: A).arity g c0 (THead (Bind Abst) u t) (asucc g a1)) (ex2 A (\lambda (a1: A).arity g c0 (THead (Flat Appl) w v) a1) (\lambda (a1: A).arity g c0 (THead (Flat Appl) w (THead (Bind Abst) u t)) (asucc g a1))) (\lambda (x0: A).\lambda (H8: (arity g c0 v x0)).\lambda (H9: (arity g c0 (THead (Bind Abst) u t) (asucc g x0))).let H10 \def arity_gen_abst g c0 u t (asucc g x0) H9 in ex3_2_ind A A (\lambda (a1: A).\lambda (a2: A).eq A (asucc g x0) (AHead a1 a2)) (\lambda (a1: A).\lambda (_: A).arity g c0 u (asucc g a1)) (\lambda (_: A).\lambda (a2: A).arity g (CHead c0 (Bind Abst) u) t a2) (ex2 A (\lambda (a1: A).arity g c0 (THead (Flat Appl) w v) a1) (\lambda (a1: A).arity g c0 (THead (Flat Appl) w (THead (Bind Abst) u t)) (asucc g a1))) (\lambda (x1: A).\lambda (x2: A).\lambda (H11: (eq A (asucc g x0) (AHead x1 x2))).\lambda (H12: (arity g c0 u (asucc g x1))).\lambda (H13: (arity g (CHead c0 (Bind Abst) u) t x2)).let H14 \def sym_equal A (asucc g x0) (AHead x1 x2) H11 in let H15 \def asucc_gen_head g x1 x2 x0 H14 in ex2_ind A (\lambda (a0: A).eq A x0 (AHead x1 a0)) (\lambda (a0: A).eq A x2 (asucc g a0)) (ex2 A (\lambda (a1: A).arity g c0 (THead (Flat Appl) w v) a1) (\lambda (a1: A).arity g c0 (THead (Flat Appl) w (THead (Bind Abst) u t)) (asucc g a1))) (\lambda (x3: A).\lambda (H16: (eq A x0 (AHead x1 x3))).\lambda (H17: (eq A x2 (asucc g x3))).let H18 \def eq_ind A x2 (\lambda (a: A).arity g (CHead c0 (Bind Abst) u) t a) H13 (asucc g x3) H17 in let H19 \def eq_ind A x0 (\lambda (a: A).arity g c0 v a) H8 (AHead x1 x3) H16 in ex_intro2 A (\lambda (a1: A).arity g c0 (THead (Flat Appl) w v) a1) (\lambda (a1: A).arity g c0 (THead (Flat Appl) w (THead (Bind Abst) u t)) (asucc g a1)) x3 (arity_appl g c0 w x1 (arity_repl g c0 w x H5 x1 (leq_sym g x1 x (asucc_inj g x1 x (arity_mono g c0 u (asucc g x1) H12 (asucc g x) H6)))) v x3 H19) (arity_appl g c0 w x H5 (THead (Bind Abst) u t) (asucc g x3) (arity_head g c0 u x H6 t (asucc g x3) H18))) H15) H10) H7) H4) (\lambda (c0: C).\lambda (t3: T).\lambda (t4: T).\lambda (_: (ty3 g c0 t3 t4)).\lambda (H1: (ex2 A (\lambda (a1: A).arity g c0 t3 a1) (\lambda (a1: A).arity g c0 t4 (asucc g a1)))).\lambda (t0: T).\lambda (_: (ty3 g c0 t4 t0)).\lambda (_: (ex2 A (\lambda (a1: A).arity g c0 t4 a1) (\lambda (a1: A).arity g c0 t0 (asucc g a1)))).let H4 \def H1 in ex2_ind A (\lambda (a1: A).arity g c0 t3 a1) (\lambda (a1: A).arity g c0 t4 (asucc g a1)) (ex2 A (\lambda (a1: A).arity g c0 (THead (Flat Cast) t4 t3) a1) (\lambda (a1: A).arity g c0 t4 (asucc g a1))) (\lambda (x: A).\lambda (H5: (arity g c0 t3 x)).\lambda (H6: (arity g c0 t4 (asucc g x))).ex_intro2 A (\lambda (a1: A).arity g c0 (THead (Flat Cast) t4 t3) a1) (\lambda (a1: A).arity g c0 t4 (asucc g a1)) x (arity_cast g c0 t4 x H6 t3 H5) H6) H4) c t1 t2 H.
+
+theorem ty3_predicative: \forall (g: G).\forall (c: C).\forall (v: T).\forall (t: T).\forall (u: T).(ty3 g c (THead (Bind Abst) v t) u) \to (pc3 c u v) \to \forall (P: (Prop)).P \def \lambda (g: G).\lambda (c: C).\lambda (v: T).\lambda (t: T).\lambda (u: T).\lambda (H: (ty3 g c (THead (Bind Abst) v t) u)).\lambda (H0: (pc3 c u v)).\lambda (P: (Prop)).let H1 \def H in ex4_3_ind T T T (\lambda (t2: T).\lambda (_: T).\lambda (_: T).pc3 c (THead (Bind Abst) v t2) u) (\lambda (_: T).\lambda (t0: T).\lambda (_: T).ty3 g c v t0) (\lambda (t2: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c (Bind Abst) v) t t2) (\lambda (t2: T).\lambda (_: T).\lambda (t1: T).ty3 g (CHead c (Bind Abst) v) t2 t1) P (\lambda (x0: T).\lambda (x1: T).\lambda (x2: T).\lambda (_: (pc3 c (THead (Bind Abst) v x0) u)).\lambda (H3: (ty3 g c v x1)).\lambda (_: (ty3 g (CHead c (Bind Abst) v) t x0)).\lambda (_: (ty3 g (CHead c (Bind Abst) v) x0 x2)).let H_y \def ty3_conv g c v x1 H3 (THead (Bind Abst) v t) u H H0 in let H_x \def ty3_arity g c (THead (Bind Abst) v t) v H_y in let H6 \def H_x in ex2_ind A (\lambda (a1: A).arity g c (THead (Bind Abst) v t) a1) (\lambda (a1: A).arity g c v (asucc g a1)) P (\lambda (x: A).\lambda (H7: (arity g c (THead (Bind Abst) v t) x)).\lambda (H8: (arity g c v (asucc g x))).let H9 \def arity_gen_abst g c v t x H7 in ex3_2_ind A A (\lambda (a1: A).\lambda (a2: A).eq A x (AHead a1 a2)) (\lambda (a1: A).\lambda (_: A).arity g c v (asucc g a1)) (\lambda (_: A).\lambda (a2: A).arity g (CHead c (Bind Abst) v) t a2) P (\lambda (x3: A).\lambda (x4: A).\lambda (H10: (eq A x (AHead x3 x4))).\lambda (H11: (arity g c v (asucc g x3))).\lambda (_: (arity g (CHead c (Bind Abst) v) t x4)).let H13 \def eq_ind A x (\lambda (a: A).arity g c v (asucc g a)) H8 (AHead x3 x4) H10 in leq_ahead_asucc_false g x3 (asucc g x4) (arity_mono g c v (asucc g (AHead x3 x4)) H13 (asucc g x3) H11) P) H9) H6) (ty3_gen_bind g Abst c v t u H1).
+
+theorem ty3_acyclic: \forall (g: G).\forall (c: C).\forall (t: T).\forall (u: T).(ty3 g c t u) \to (pc3 c u t) \to \forall (P: (Prop)).P \def \lambda (g: G).\lambda (c: C).\lambda (t: T).\lambda (u: T).\lambda (H: (ty3 g c t u)).\lambda (H0: (pc3 c u t)).\lambda (P: (Prop)).let H_y \def ty3_conv g c t u H t u H H0 in let H_x \def ty3_arity g c t t H_y in let H1 \def H_x in ex2_ind A (\lambda (a1: A).arity g c t a1) (\lambda (a1: A).arity g c t (asucc g a1)) P (\lambda (x: A).\lambda (H2: (arity g c t x)).\lambda (H3: (arity g c t (asucc g x))).leq_asucc_false g x (arity_mono g c t (asucc g x) H3 x H2) P) H1.
+
+theorem ty3_sn3: \forall (g: G).\forall (c: C).\forall (t: T).\forall (u: T).(ty3 g c t u) \to sn3 c t \def \lambda (g: G).\lambda (c: C).\lambda (t: T).\lambda (u: T).\lambda (H: (ty3 g c t u)).let H_x \def ty3_arity g c t u H in let H0 \def H_x in ex2_ind A (\lambda (a1: A).arity g c t a1) (\lambda (a1: A).arity g c u (asucc g a1)) (sn3 c t) (\lambda (x: A).\lambda (H1: (arity g c t x)).\lambda (_: (arity g c u (asucc g x))).sc3_sn3 g x c t (sc3_arity g c t x H1)) H0.
+
+theorem pc3_dec: \forall (g: G).\forall (c: C).\forall (u1: T).\forall (t1: T).(ty3 g c u1 t1) \to \forall (u2: T).\forall (t2: T).(ty3 g c u2 t2) \to or (pc3 c u1 u2) ((pc3 c u1 u2) \to \forall (P: (Prop)).P) \def \lambda (g: G).\lambda (c: C).\lambda (u1: T).\lambda (t1: T).\lambda (H: (ty3 g c u1 t1)).\lambda (u2: T).\lambda (t2: T).\lambda (H0: (ty3 g c u2 t2)).let H_y \def ty3_sn3 g c u1 t1 H in let H_y0 \def ty3_sn3 g c u2 t2 H0 in let H_x \def nf2_sn3 c u1 H_y in let H1 \def H_x in ex2_ind T (\lambda (u: T).pr3 c u1 u) (\lambda (u: T).nf2 c u) (or (pc3 c u1 u2) ((pc3 c u1 u2) \to \forall (P: (Prop)).P)) (\lambda (x: T).\lambda (H2: (pr3 c u1 x)).\lambda (H3: (nf2 c x)).let H_x0 \def nf2_sn3 c u2 H_y0 in let H4 \def H_x0 in ex2_ind T (\lambda (u: T).pr3 c u2 u) (\lambda (u: T).nf2 c u) (or (pc3 c u1 u2) ((pc3 c u1 u2) \to \forall (P: (Prop)).P)) (\lambda (x0: T).\lambda (H5: (pr3 c u2 x0)).\lambda (H6: (nf2 c x0)).let H_x1 \def term_dec x x0 in let H7 \def H_x1 in or_ind (eq T x x0) ((eq T x x0) \to \forall (P: (Prop)).P) (or (pc3 c u1 u2) ((pc3 c u1 u2) \to \forall (P: (Prop)).P)) (\lambda (H8: (eq T x x0)).let H9 \def eq_ind_r T x0 (\lambda (t: T).nf2 c t) H6 x H8 in let H10 \def eq_ind_r T x0 (\lambda (t: T).pr3 c u2 t) H5 x H8 in or_introl (pc3 c u1 u2) ((pc3 c u1 u2) \to \forall (P: (Prop)).P) (pc3_pr3_t c u1 x H2 u2 H10)) (\lambda (H8: (((eq T x x0) \to \forall (P: (Prop)).P))).or_intror (pc3 c u1 u2) ((pc3 c u1 u2) \to \forall (P: (Prop)).P) (\lambda (H9: (pc3 c u1 u2)).\lambda (P: (Prop)).let H10 \def H9 in ex2_ind T (\lambda (t: T).pr3 c u1 t) (\lambda (t: T).pr3 c u2 t) P (\lambda (x1: T).\lambda (H11: (pr3 c u1 x1)).\lambda (H12: (pr3 c u2 x1)).let H_x2 \def pr3_confluence c u2 x0 H5 x1 H12 in let H13 \def H_x2 in ex2_ind T (\lambda (t: T).pr3 c x0 t) (\lambda (t: T).pr3 c x1 t) P (\lambda (x2: T).\lambda (H14: (pr3 c x0 x2)).\lambda (H15: (pr3 c x1 x2)).let H_y1 \def nf2_pr3_unfold c x0 x2 H14 H6 in let H16 \def eq_ind_r T x2 (\lambda (t: T).pr3 c x1 t) H15 x0 H_y1 in let H17 \def nf2_pr3_confluence c x H3 x0 H6 u1 H2 in H8 (H17 (pr3_t x1 u1 c H11 x0 H16)) P) H13) H10)) H7) H4) H1.
+
+theorem pc3_abst_dec: \forall (g: G).\forall (c: C).\forall (u1: T).\forall (t1: T).(ty3 g c u1 t1) \to \forall (u2: T).\forall (t2: T).(ty3 g c u2 t2) \to or (ex4_2 T T (\lambda (u: T).\lambda (_: T).pc3 c u1 (THead (Bind Abst) u2 u)) (\lambda (u: T).\lambda (v2: T).ty3 g c (THead (Bind Abst) v2 u) t1) (\lambda (_: T).\lambda (v2: T).pr3 c u2 v2) (\lambda (_: T).\lambda (v2: T).nf2 c v2)) (\forall (u: T).(pc3 c u1 (THead (Bind Abst) u2 u)) \to \forall (P: (Prop)).P) \def \lambda (g: G).\lambda (c: C).\lambda (u1: T).\lambda (t1: T).\lambda (H: (ty3 g c u1 t1)).\lambda (u2: T).\lambda (t2: T).\lambda (H0: (ty3 g c u2 t2)).let H1 \def ty3_sn3 g c u1 t1 H in let H2 \def ty3_sn3 g c u2 t2 H0 in let H_x \def nf2_sn3 c u1 H1 in let H3 \def H_x in ex2_ind T (\lambda (u: T).pr3 c u1 u) (\lambda (u: T).nf2 c u) (or (ex4_2 T T (\lambda (u: T).\lambda (_: T).pc3 c u1 (THead (Bind Abst) u2 u)) (\lambda (u: T).\lambda (v2: T).ty3 g c (THead (Bind Abst) v2 u) t1) (\lambda (_: T).\lambda (v2: T).pr3 c u2 v2) (\lambda (_: T).\lambda (v2: T).nf2 c v2)) (\forall (u: T).(pc3 c u1 (THead (Bind Abst) u2 u)) \to \forall (P: (Prop)).P)) (\lambda (x: T).\lambda (H4: (pr3 c u1 x)).\lambda (H5: (nf2 c x)).let H_x0 \def nf2_sn3 c u2 H2 in let H6 \def H_x0 in ex2_ind T (\lambda (u: T).pr3 c u2 u) (\lambda (u: T).nf2 c u) (or (ex4_2 T T (\lambda (u: T).\lambda (_: T).pc3 c u1 (THead (Bind Abst) u2 u)) (\lambda (u: T).\lambda (v2: T).ty3 g c (THead (Bind Abst) v2 u) t1) (\lambda (_: T).\lambda (v2: T).pr3 c u2 v2) (\lambda (_: T).\lambda (v2: T).nf2 c v2)) (\forall (u: T).(pc3 c u1 (THead (Bind Abst) u2 u)) \to \forall (P: (Prop)).P)) (\lambda (x0: T).\lambda (H7: (pr3 c u2 x0)).\lambda (H8: (nf2 c x0)).let H_x1 \def abst_dec x x0 in let H9 \def H_x1 in or_ind (ex T (\lambda (t: T).eq T x (THead (Bind Abst) x0 t))) (\forall (t: T).(eq T x (THead (Bind Abst) x0 t)) \to \forall (P: (Prop)).P) (or (ex4_2 T T (\lambda (u: T).\lambda (_: T).pc3 c u1 (THead (Bind Abst) u2 u)) (\lambda (u: T).\lambda (v2: T).ty3 g c (THead (Bind Abst) v2 u) t1) (\lambda (_: T).\lambda (v2: T).pr3 c u2 v2) (\lambda (_: T).\lambda (v2: T).nf2 c v2)) (\forall (u: T).(pc3 c u1 (THead (Bind Abst) u2 u)) \to \forall (P: (Prop)).P)) (\lambda (H10: (ex T (\lambda (t: T).eq T x (THead (Bind Abst) x0 t)))).ex_ind T (\lambda (t: T).eq T x (THead (Bind Abst) x0 t)) (or (ex4_2 T T (\lambda (u: T).\lambda (_: T).pc3 c u1 (THead (Bind Abst) u2 u)) (\lambda (u: T).\lambda (v2: T).ty3 g c (THead (Bind Abst) v2 u) t1) (\lambda (_: T).\lambda (v2: T).pr3 c u2 v2) (\lambda (_: T).\lambda (v2: T).nf2 c v2)) (\forall (u: T).(pc3 c u1 (THead (Bind Abst) u2 u)) \to \forall (P: (Prop)).P)) (\lambda (x1: T).\lambda (H11: (eq T x (THead (Bind Abst) x0 x1))).let H12 \def eq_ind T x (\lambda (t: T).nf2 c t) H5 (THead (Bind Abst) x0 x1) H11 in let H13 \def eq_ind T x (\lambda (t: T).pr3 c u1 t) H4 (THead (Bind Abst) x0 x1) H11 in or_introl (ex4_2 T T (\lambda (u: T).\lambda (_: T).pc3 c u1 (THead (Bind Abst) u2 u)) (\lambda (u: T).\lambda (v2: T).ty3 g c (THead (Bind Abst) v2 u) t1) (\lambda (_: T).\lambda (v2: T).pr3 c u2 v2) (\lambda (_: T).\lambda (v2: T).nf2 c v2)) (\forall (u: T).(pc3 c u1 (THead (Bind Abst) u2 u)) \to \forall (P: (Prop)).P) (ex4_2_intro T T (\lambda (u: T).\lambda (_: T).pc3 c u1 (THead (Bind Abst) u2 u)) (\lambda (u: T).\lambda (v2: T).ty3 g c (THead (Bind Abst) v2 u) t1) (\lambda (_: T).\lambda (v2: T).pr3 c u2 v2) (\lambda (_: T).\lambda (v2: T).nf2 c v2) x1 x0 (pc3_pr3_t c u1 (THead (Bind Abst) x0 x1) H13 (THead (Bind Abst) u2 x1) (pr3_head_12 c u2 x0 H7 (Bind Abst) x1 x1 (pr3_refl (CHead c (Bind Abst) x0) x1))) (ty3_sred_pr3 c u1 (THead (Bind Abst) x0 x1) H13 g t1 H) H7 H8)) H10) (\lambda (H10: ((\forall (t: T).(eq T x (THead (Bind Abst) x0 t)) \to \forall (P: (Prop)).P))).or_intror (ex4_2 T T (\lambda (u: T).\lambda (_: T).pc3 c u1 (THead (Bind Abst) u2 u)) (\lambda (u: T).\lambda (v2: T).ty3 g c (THead (Bind Abst) v2 u) t1) (\lambda (_: T).\lambda (v2: T).pr3 c u2 v2) (\lambda (_: T).\lambda (v2: T).nf2 c v2)) (\forall (u: T).(pc3 c u1 (THead (Bind Abst) u2 u)) \to \forall (P: (Prop)).P) (\lambda (u: T).\lambda (H11: (pc3 c u1 (THead (Bind Abst) u2 u))).\lambda (P: (Prop)).let H12 \def H11 in ex2_ind T (\lambda (t: T).pr3 c u1 t) (\lambda (t: T).pr3 c (THead (Bind Abst) u2 u) t) P (\lambda (x1: T).\lambda (H13: (pr3 c u1 x1)).\lambda (H14: (pr3 c (THead (Bind Abst) u2 u) x1)).ex2_ind T (\lambda (t: T).pr3 c x1 t) (\lambda (t: T).pr3 c x t) P (\lambda (x2: T).\lambda (H15: (pr3 c x1 x2)).\lambda (H16: (pr3 c x x2)).let H_y \def nf2_pr3_unfold c x x2 H16 H5 in let H17 \def eq_ind_r T x2 (\lambda (t: T).pr3 c x1 t) H15 x H_y in let H18 \def pr3_gen_abst c u2 u x1 H14 in ex3_2_ind T T (\lambda (u3: T).\lambda (t3: T).eq T x1 (THead (Bind Abst) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr3 c u2 u3) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr3 (CHead c (Bind b) u0) u t3) P (\lambda (x3: T).\lambda (x4: T).\lambda (H19: (eq T x1 (THead (Bind Abst) x3 x4))).\lambda (H20: (pr3 c u2 x3)).\lambda (_: ((\forall (b: B).\forall (u0: T).pr3 (CHead c (Bind b) u0) u x4))).let H22 \def eq_ind T x1 (\lambda (t: T).pr3 c t x) H17 (THead (Bind Abst) x3 x4) H19 in let H23 \def pr3_gen_abst c x3 x4 x H22 in ex3_2_ind T T (\lambda (u3: T).\lambda (t3: T).eq T x (THead (Bind Abst) u3 t3)) (\lambda (u3: T).\lambda (_: T).pr3 c x3 u3) (\lambda (_: T).\lambda (t3: T).\forall (b: B).\forall (u0: T).pr3 (CHead c (Bind b) u0) x4 t3) P (\lambda (x5: T).\lambda (x6: T).\lambda (H24: (eq T x (THead (Bind Abst) x5 x6))).\lambda (H25: (pr3 c x3 x5)).\lambda (_: ((\forall (b: B).\forall (u: T).pr3 (CHead c (Bind b) u) x4 x6))).let H27 \def eq_ind T x (\lambda (t: T).\forall (t0: T).(eq T t (THead (Bind Abst) x0 t0)) \to \forall (P: (Prop)).P) H10 (THead (Bind Abst) x5 x6) H24 in let H28 \def eq_ind T x (\lambda (t: T).nf2 c t) H5 (THead (Bind Abst) x5 x6) H24 in let H29 \def nf2_gen_abst c x5 x6 H28 in and_ind (nf2 c x5) (nf2 (CHead c (Bind Abst) x5) x6) P (\lambda (H30: (nf2 c x5)).\lambda (_: (nf2 (CHead c (Bind Abst) x5) x6)).let H32 \def nf2_pr3_confluence c x0 H8 x5 H30 u2 H7 in H27 x6 (sym_equal T (THead (Bind Abst) x0 x6) (THead (Bind Abst) x5 x6) (f_equal3 K T T T THead (Bind Abst) (Bind Abst) x0 x5 x6 x6 (refl_equal K (Bind Abst)) (H32 (pr3_t x3 u2 c H20 x5 H25)) (refl_equal T x6))) P) H29) H23) H18) (pr3_confluence c u1 x1 H13 x H4)) H12)) H9) H6) H3.
+
+theorem ty3_inference: \forall (g: G).\forall (c: C).\forall (t1: T).or (ex T (\lambda (t2: T).ty3 g c t1 t2)) (\forall (t2: T).(ty3 g c t1 t2) \to \forall (P: (Prop)).P) \def \lambda (g: G).\lambda (c: C).\lambda (t1: T).flt_wf_ind (\lambda (c0: C).\lambda (t: T).or (ex T (\lambda (t2: T).ty3 g c0 t t2)) (\forall (t2: T).(ty3 g c0 t t2) \to \forall (P: (Prop)).P)) (\lambda (c2: C).\lambda (t2: T).match t2 return (\lambda (t: T).((\forall (c1: C).\forall (t1: T).(flt c1 t1 c2 t) \to or (ex T (\lambda (t2: T).ty3 g c1 t1 t2)) (\forall (t2: T).(ty3 g c1 t1 t2) \to \forall (P: (Prop)).P))) \to or (ex T (\lambda (t3: T).ty3 g c2 t t3)) (\forall (t3: T).(ty3 g c2 t t3) \to \forall (P: (Prop)).P)) with [(TSort n) \Rightarrow (\lambda (_: ((\forall (c1: C).\forall (t1: T).(flt c1 t1 c2 (TSort n)) \to or (ex T (\lambda (t2: T).ty3 g c1 t1 t2)) (\forall (t2: T).(ty3 g c1 t1 t2) \to \forall (P: (Prop)).P)))).or_introl (ex T (\lambda (t3: T).ty3 g c2 (TSort n) t3)) (\forall (t3: T).(ty3 g c2 (TSort n) t3) \to \forall (P: (Prop)).P) (ex_intro T (\lambda (t3: T).ty3 g c2 (TSort n) t3) (TSort (next g n)) (ty3_sort g c2 n))) | (TLRef n) \Rightarrow (\lambda (H: ((\forall (c1: C).\forall (t1: T).(flt c1 t1 c2 (TLRef n)) \to or (ex T (\lambda (t2: T).ty3 g c1 t1 t2)) (\forall (t2: T).(ty3 g c1 t1 t2) \to \forall (P: (Prop)).P)))).let H_x \def getl_dec c2 n in let H0 \def H_x in or_ind (ex_3 C B T (\lambda (e: C).\lambda (b: B).\lambda (v: T).getl n c2 (CHead e (Bind b) v))) (\forall (d: C).(getl n c2 d) \to \forall (P: (Prop)).P) (or (ex T (\lambda (t3: T).ty3 g c2 (TLRef n) t3)) (\forall (t3: T).(ty3 g c2 (TLRef n) t3) \to \forall (P: (Prop)).P)) (\lambda (H1: (ex_3 C B T (\lambda (e: C).\lambda (b: B).\lambda (v: T).getl n c2 (CHead e (Bind b) v)))).ex_3_ind C B T (\lambda (e: C).\lambda (b: B).\lambda (v: T).getl n c2 (CHead e (Bind b) v)) (or (ex T (\lambda (t3: T).ty3 g c2 (TLRef n) t3)) (\forall (t3: T).(ty3 g c2 (TLRef n) t3) \to \forall (P: (Prop)).P)) (\lambda (x0: C).\lambda (x1: B).\lambda (x2: T).\lambda (H2: (getl n c2 (CHead x0 (Bind x1) x2))).let H3 \def H x0 x2 (getl_flt x1 c2 x0 x2 n H2) in or_ind (ex T (\lambda (t3: T).ty3 g x0 x2 t3)) (\forall (t3: T).(ty3 g x0 x2 t3) \to \forall (P: (Prop)).P) (or (ex T (\lambda (t3: T).ty3 g c2 (TLRef n) t3)) (\forall (t3: T).(ty3 g c2 (TLRef n) t3) \to \forall (P: (Prop)).P)) (\lambda (H4: (ex T (\lambda (t2: T).ty3 g x0 x2 t2))).ex_ind T (\lambda (t3: T).ty3 g x0 x2 t3) (or (ex T (\lambda (t3: T).ty3 g c2 (TLRef n) t3)) (\forall (t3: T).(ty3 g c2 (TLRef n) t3) \to \forall (P: (Prop)).P)) (\lambda (x: T).\lambda (H5: (ty3 g x0 x2 x)).(match x1 return (\lambda (b: B).(getl n c2 (CHead x0 (Bind b) x2)) \to or (ex T (\lambda (t3: T).ty3 g c2 (TLRef n) t3)) (\forall (t3: T).(ty3 g c2 (TLRef n) t3) \to \forall (P: (Prop)).P)) with [Abbr \Rightarrow (\lambda (H6: (getl n c2 (CHead x0 (Bind Abbr) x2))).or_introl (ex T (\lambda (t3: T).ty3 g c2 (TLRef n) t3)) (\forall (t3: T).(ty3 g c2 (TLRef n) t3) \to \forall (P: (Prop)).P) (ex_intro T (\lambda (t3: T).ty3 g c2 (TLRef n) t3) (lift (S n) O x) (ty3_abbr g n c2 x0 x2 H6 x H5))) | Abst \Rightarrow (\lambda (H6: (getl n c2 (CHead x0 (Bind Abst) x2))).or_introl (ex T (\lambda (t3: T).ty3 g c2 (TLRef n) t3)) (\forall (t3: T).(ty3 g c2 (TLRef n) t3) \to \forall (P: (Prop)).P) (ex_intro T (\lambda (t3: T).ty3 g c2 (TLRef n) t3) (lift (S n) O x2) (ty3_abst g n c2 x0 x2 H6 x H5))) | Void \Rightarrow (\lambda (H6: (getl n c2 (CHead x0 (Bind Void) x2))).or_intror (ex T (\lambda (t3: T).ty3 g c2 (TLRef n) t3)) (\forall (t3: T).(ty3 g c2 (TLRef n) t3) \to \forall (P: (Prop)).P) (\lambda (t3: T).\lambda (H7: (ty3 g c2 (TLRef n) t3)).\lambda (P: (Prop)).or_ind (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t: T).pc3 c2 (lift (S n) O t) t3) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c2 (CHead e (Bind Abbr) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t)) (ex3_3 C T T (\lambda (_: C).\lambda (u: T).\lambda (_: T).pc3 c2 (lift (S n) O u) t3) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c2 (CHead e (Bind Abst) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t)) P (\lambda (H8: (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t: T).pc3 c2 (lift (S n) O t) t3) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c2 (CHead e (Bind Abbr) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t))).ex3_3_ind C T T (\lambda (_: C).\lambda (_: T).\lambda (t: T).pc3 c2 (lift (S n) O t) t3) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c2 (CHead e (Bind Abbr) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t) P (\lambda (x3: C).\lambda (x4: T).\lambda (x5: T).\lambda (_: (pc3 c2 (lift (S n) O x5) t3)).\lambda (H10: (getl n c2 (CHead x3 (Bind Abbr) x4))).\lambda (_: (ty3 g x3 x4 x5)).let H12 \def eq_ind C (CHead x0 (Bind Void) x2) (\lambda (c: C).getl n c2 c) H6 (CHead x3 (Bind Abbr) x4) (getl_mono c2 (CHead x0 (Bind Void) x2) n H6 (CHead x3 (Bind Abbr) x4) H10) in let H13 \def eq_ind C (CHead x0 (Bind Void) x2) (\lambda (ee: C).match ee return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow False | Abst \Rightarrow False | Void \Rightarrow True]) | (Flat _) \Rightarrow False])]) I (CHead x3 (Bind Abbr) x4) (getl_mono c2 (CHead x0 (Bind Void) x2) n H6 (CHead x3 (Bind Abbr) x4) H10) in False_ind P H13) H8) (\lambda (H8: (ex3_3 C T T (\lambda (_: C).\lambda (u: T).\lambda (_: T).pc3 c2 (lift (S n) O u) t3) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c2 (CHead e (Bind Abst) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t))).ex3_3_ind C T T (\lambda (_: C).\lambda (u: T).\lambda (_: T).pc3 c2 (lift (S n) O u) t3) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c2 (CHead e (Bind Abst) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t) P (\lambda (x3: C).\lambda (x4: T).\lambda (x5: T).\lambda (_: (pc3 c2 (lift (S n) O x4) t3)).\lambda (H10: (getl n c2 (CHead x3 (Bind Abst) x4))).\lambda (_: (ty3 g x3 x4 x5)).let H12 \def eq_ind C (CHead x0 (Bind Void) x2) (\lambda (c: C).getl n c2 c) H6 (CHead x3 (Bind Abst) x4) (getl_mono c2 (CHead x0 (Bind Void) x2) n H6 (CHead x3 (Bind Abst) x4) H10) in let H13 \def eq_ind C (CHead x0 (Bind Void) x2) (\lambda (ee: C).match ee return (Prop) with [(CSort _) \Rightarrow False | (CHead _ k _) \Rightarrow (match k return (Prop) with [(Bind b) \Rightarrow (match b return (Prop) with [Abbr \Rightarrow False | Abst \Rightarrow False | Void \Rightarrow True]) | (Flat _) \Rightarrow False])]) I (CHead x3 (Bind Abst) x4) (getl_mono c2 (CHead x0 (Bind Void) x2) n H6 (CHead x3 (Bind Abst) x4) H10) in False_ind P H13) H8) (ty3_gen_lref g c2 t3 n H7)))]) H2) H4) (\lambda (H4: ((\forall (t2: T).(ty3 g x0 x2 t2) \to \forall (P: (Prop)).P))).or_intror (ex T (\lambda (t3: T).ty3 g c2 (TLRef n) t3)) (\forall (t3: T).(ty3 g c2 (TLRef n) t3) \to \forall (P: (Prop)).P) (\lambda (t3: T).\lambda (H5: (ty3 g c2 (TLRef n) t3)).\lambda (P: (Prop)).or_ind (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t: T).pc3 c2 (lift (S n) O t) t3) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c2 (CHead e (Bind Abbr) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t)) (ex3_3 C T T (\lambda (_: C).\lambda (u: T).\lambda (_: T).pc3 c2 (lift (S n) O u) t3) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c2 (CHead e (Bind Abst) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t)) P (\lambda (H6: (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t: T).pc3 c2 (lift (S n) O t) t3) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c2 (CHead e (Bind Abbr) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t))).ex3_3_ind C T T (\lambda (_: C).\lambda (_: T).\lambda (t: T).pc3 c2 (lift (S n) O t) t3) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c2 (CHead e (Bind Abbr) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t) P (\lambda (x3: C).\lambda (x4: T).\lambda (x5: T).\lambda (_: (pc3 c2 (lift (S n) O x5) t3)).\lambda (H8: (getl n c2 (CHead x3 (Bind Abbr) x4))).\lambda (H9: (ty3 g x3 x4 x5)).let H10 \def eq_ind C (CHead x0 (Bind x1) x2) (\lambda (c: C).getl n c2 c) H2 (CHead x3 (Bind Abbr) x4) (getl_mono c2 (CHead x0 (Bind x1) x2) n H2 (CHead x3 (Bind Abbr) x4) H8) in let H11 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow x0 | (CHead c _ _) \Rightarrow c]) (CHead x0 (Bind x1) x2) (CHead x3 (Bind Abbr) x4) (getl_mono c2 (CHead x0 (Bind x1) x2) n H2 (CHead x3 (Bind Abbr) x4) H8) in (let H12 \def f_equal C B (\lambda (e: C).match e return B with [(CSort _) \Rightarrow x1 | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow x1])]) (CHead x0 (Bind x1) x2) (CHead x3 (Bind Abbr) x4) (getl_mono c2 (CHead x0 (Bind x1) x2) n H2 (CHead x3 (Bind Abbr) x4) H8) in (let H13 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow x2 | (CHead _ _ t) \Rightarrow t]) (CHead x0 (Bind x1) x2) (CHead x3 (Bind Abbr) x4) (getl_mono c2 (CHead x0 (Bind x1) x2) n H2 (CHead x3 (Bind Abbr) x4) H8) in \lambda (_: (eq B x1 Abbr)).\lambda (H15: (eq C x0 x3)).let H16 \def eq_ind_r T x4 (\lambda (t: T).getl n c2 (CHead x3 (Bind Abbr) t)) H10 x2 H13 in let H17 \def eq_ind_r T x4 (\lambda (t: T).ty3 g x3 t x5) H9 x2 H13 in let H18 \def eq_ind_r C x3 (\lambda (c: C).getl n c2 (CHead c (Bind Abbr) x2)) H16 x0 H15 in let H19 \def eq_ind_r C x3 (\lambda (c: C).ty3 g c x2 x5) H17 x0 H15 in H4 x5 H19 P) H12) H11) H6) (\lambda (H6: (ex3_3 C T T (\lambda (_: C).\lambda (u: T).\lambda (_: T).pc3 c2 (lift (S n) O u) t3) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c2 (CHead e (Bind Abst) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t))).ex3_3_ind C T T (\lambda (_: C).\lambda (u: T).\lambda (_: T).pc3 c2 (lift (S n) O u) t3) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c2 (CHead e (Bind Abst) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t) P (\lambda (x3: C).\lambda (x4: T).\lambda (x5: T).\lambda (H7: (pc3 c2 (lift (S n) O x4) t3)).\lambda (H8: (getl n c2 (CHead x3 (Bind Abst) x4))).\lambda (H9: (ty3 g x3 x4 x5)).let H10 \def eq_ind C (CHead x0 (Bind x1) x2) (\lambda (c: C).getl n c2 c) H2 (CHead x3 (Bind Abst) x4) (getl_mono c2 (CHead x0 (Bind x1) x2) n H2 (CHead x3 (Bind Abst) x4) H8) in let H11 \def f_equal C C (\lambda (e: C).match e return C with [(CSort _) \Rightarrow x0 | (CHead c _ _) \Rightarrow c]) (CHead x0 (Bind x1) x2) (CHead x3 (Bind Abst) x4) (getl_mono c2 (CHead x0 (Bind x1) x2) n H2 (CHead x3 (Bind Abst) x4) H8) in (let H12 \def f_equal C B (\lambda (e: C).match e return B with [(CSort _) \Rightarrow x1 | (CHead _ k _) \Rightarrow (match k return B with [(Bind b) \Rightarrow b | (Flat _) \Rightarrow x1])]) (CHead x0 (Bind x1) x2) (CHead x3 (Bind Abst) x4) (getl_mono c2 (CHead x0 (Bind x1) x2) n H2 (CHead x3 (Bind Abst) x4) H8) in (let H13 \def f_equal C T (\lambda (e: C).match e return T with [(CSort _) \Rightarrow x2 | (CHead _ _ t) \Rightarrow t]) (CHead x0 (Bind x1) x2) (CHead x3 (Bind Abst) x4) (getl_mono c2 (CHead x0 (Bind x1) x2) n H2 (CHead x3 (Bind Abst) x4) H8) in \lambda (_: (eq B x1 Abst)).\lambda (H15: (eq C x0 x3)).let H16 \def eq_ind_r T x4 (\lambda (t: T).getl n c2 (CHead x3 (Bind Abst) t)) H10 x2 H13 in let H17 \def eq_ind_r T x4 (\lambda (t: T).ty3 g x3 t x5) H9 x2 H13 in let H18 \def eq_ind_r T x4 (\lambda (t: T).pc3 c2 (lift (S n) O t) t3) H7 x2 H13 in let H19 \def eq_ind_r C x3 (\lambda (c: C).getl n c2 (CHead c (Bind Abst) x2)) H16 x0 H15 in let H20 \def eq_ind_r C x3 (\lambda (c: C).ty3 g c x2 x5) H17 x0 H15 in H4 x5 H20 P) H12) H11) H6) (ty3_gen_lref g c2 t3 n H5))) H3) H1) (\lambda (H1: ((\forall (d: C).(getl n c2 d) \to \forall (P: (Prop)).P))).or_intror (ex T (\lambda (t3: T).ty3 g c2 (TLRef n) t3)) (\forall (t3: T).(ty3 g c2 (TLRef n) t3) \to \forall (P: (Prop)).P) (\lambda (t3: T).\lambda (H2: (ty3 g c2 (TLRef n) t3)).\lambda (P: (Prop)).or_ind (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t: T).pc3 c2 (lift (S n) O t) t3) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c2 (CHead e (Bind Abbr) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t)) (ex3_3 C T T (\lambda (_: C).\lambda (u: T).\lambda (_: T).pc3 c2 (lift (S n) O u) t3) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c2 (CHead e (Bind Abst) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t)) P (\lambda (H3: (ex3_3 C T T (\lambda (_: C).\lambda (_: T).\lambda (t: T).pc3 c2 (lift (S n) O t) t3) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c2 (CHead e (Bind Abbr) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t))).ex3_3_ind C T T (\lambda (_: C).\lambda (_: T).\lambda (t: T).pc3 c2 (lift (S n) O t) t3) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c2 (CHead e (Bind Abbr) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t) P (\lambda (x0: C).\lambda (x1: T).\lambda (x2: T).\lambda (_: (pc3 c2 (lift (S n) O x2) t3)).\lambda (H5: (getl n c2 (CHead x0 (Bind Abbr) x1))).\lambda (_: (ty3 g x0 x1 x2)).H1 (CHead x0 (Bind Abbr) x1) H5 P) H3) (\lambda (H3: (ex3_3 C T T (\lambda (_: C).\lambda (u: T).\lambda (_: T).pc3 c2 (lift (S n) O u) t3) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c2 (CHead e (Bind Abst) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t))).ex3_3_ind C T T (\lambda (_: C).\lambda (u: T).\lambda (_: T).pc3 c2 (lift (S n) O u) t3) (\lambda (e: C).\lambda (u: T).\lambda (_: T).getl n c2 (CHead e (Bind Abst) u)) (\lambda (e: C).\lambda (u: T).\lambda (t: T).ty3 g e u t) P (\lambda (x0: C).\lambda (x1: T).\lambda (x2: T).\lambda (_: (pc3 c2 (lift (S n) O x1) t3)).\lambda (H5: (getl n c2 (CHead x0 (Bind Abst) x1))).\lambda (_: (ty3 g x0 x1 x2)).H1 (CHead x0 (Bind Abst) x1) H5 P) H3) (ty3_gen_lref g c2 t3 n H2))) H0) | (THead k t t0) \Rightarrow (\lambda (H: ((\forall (c1: C).\forall (t1: T).(flt c1 t1 c2 (THead k t t0)) \to or (ex T (\lambda (t2: T).ty3 g c1 t1 t2)) (\forall (t2: T).(ty3 g c1 t1 t2) \to \forall (P: (Prop)).P)))).(match k return (\lambda (k0: K).((\forall (c1: C).\forall (t1: T).(flt c1 t1 c2 (THead k0 t t0)) \to or (ex T (\lambda (t2: T).ty3 g c1 t1 t2)) (\forall (t2: T).(ty3 g c1 t1 t2) \to \forall (P: (Prop)).P))) \to or (ex T (\lambda (t3: T).ty3 g c2 (THead k0 t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead k0 t t0) t3) \to \forall (P: (Prop)).P)) with [(Bind b) \Rightarrow (\lambda (H0: ((\forall (c1: C).\forall (t1: T).(flt c1 t1 c2 (THead (Bind b) t t0)) \to or (ex T (\lambda (t2: T).ty3 g c1 t1 t2)) (\forall (t2: T).(ty3 g c1 t1 t2) \to \forall (P: (Prop)).P)))).let H1 \def H0 c2 t (flt_thead_sx (Bind b) c2 t t0) in or_ind (ex T (\lambda (t3: T).ty3 g c2 t t3)) (\forall (t3: T).(ty3 g c2 t t3) \to \forall (P: (Prop)).P) (or (ex T (\lambda (t3: T).ty3 g c2 (THead (Bind b) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Bind b) t t0) t3) \to \forall (P: (Prop)).P)) (\lambda (H2: (ex T (\lambda (t2: T).ty3 g c2 t t2))).ex_ind T (\lambda (t3: T).ty3 g c2 t t3) (or (ex T (\lambda (t3: T).ty3 g c2 (THead (Bind b) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Bind b) t t0) t3) \to \forall (P: (Prop)).P)) (\lambda (x: T).\lambda (H3: (ty3 g c2 t x)).let H4 \def H0 (CHead c2 (Bind b) t) t0 (flt_shift (Bind b) c2 t t0) in or_ind (ex T (\lambda (t3: T).ty3 g (CHead c2 (Bind b) t) t0 t3)) (\forall (t3: T).(ty3 g (CHead c2 (Bind b) t) t0 t3) \to \forall (P: (Prop)).P) (or (ex T (\lambda (t3: T).ty3 g c2 (THead (Bind b) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Bind b) t t0) t3) \to \forall (P: (Prop)).P)) (\lambda (H5: (ex T (\lambda (t2: T).ty3 g (CHead c2 (Bind b) t) t0 t2))).ex_ind T (\lambda (t3: T).ty3 g (CHead c2 (Bind b) t) t0 t3) (or (ex T (\lambda (t3: T).ty3 g c2 (THead (Bind b) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Bind b) t t0) t3) \to \forall (P: (Prop)).P)) (\lambda (x0: T).\lambda (H6: (ty3 g (CHead c2 (Bind b) t) t0 x0)).ex_ind T (\lambda (t3: T).ty3 g (CHead c2 (Bind b) t) x0 t3) (or (ex T (\lambda (t3: T).ty3 g c2 (THead (Bind b) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Bind b) t t0) t3) \to \forall (P: (Prop)).P)) (\lambda (x1: T).\lambda (H7: (ty3 g (CHead c2 (Bind b) t) x0 x1)).or_introl (ex T (\lambda (t3: T).ty3 g c2 (THead (Bind b) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Bind b) t t0) t3) \to \forall (P: (Prop)).P) (ex_intro T (\lambda (t3: T).ty3 g c2 (THead (Bind b) t t0) t3) (THead (Bind b) t x0) (ty3_bind g c2 t x H3 b t0 x0 H6 x1 H7))) (ty3_correct g (CHead c2 (Bind b) t) t0 x0 H6)) H5) (\lambda (H5: ((\forall (t2: T).(ty3 g (CHead c2 (Bind b) t) t0 t2) \to \forall (P: (Prop)).P))).or_intror (ex T (\lambda (t3: T).ty3 g c2 (THead (Bind b) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Bind b) t t0) t3) \to \forall (P: (Prop)).P) (\lambda (t3: T).\lambda (H6: (ty3 g c2 (THead (Bind b) t t0) t3)).\lambda (P: (Prop)).ex4_3_ind T T T (\lambda (t4: T).\lambda (_: T).\lambda (_: T).pc3 c2 (THead (Bind b) t t4) t3) (\lambda (_: T).\lambda (t5: T).\lambda (_: T).ty3 g c2 t t5) (\lambda (t4: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c2 (Bind b) t) t0 t4) (\lambda (t4: T).\lambda (_: T).\lambda (t6: T).ty3 g (CHead c2 (Bind b) t) t4 t6) P (\lambda (x0: T).\lambda (x1: T).\lambda (x2: T).\lambda (_: (pc3 c2 (THead (Bind b) t x0) t3)).\lambda (_: (ty3 g c2 t x1)).\lambda (H9: (ty3 g (CHead c2 (Bind b) t) t0 x0)).\lambda (_: (ty3 g (CHead c2 (Bind b) t) x0 x2)).H5 x0 H9 P) (ty3_gen_bind g b c2 t t0 t3 H6))) H4) H2) (\lambda (H2: ((\forall (t2: T).(ty3 g c2 t t2) \to \forall (P: (Prop)).P))).or_intror (ex T (\lambda (t3: T).ty3 g c2 (THead (Bind b) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Bind b) t t0) t3) \to \forall (P: (Prop)).P) (\lambda (t3: T).\lambda (H3: (ty3 g c2 (THead (Bind b) t t0) t3)).\lambda (P: (Prop)).ex4_3_ind T T T (\lambda (t4: T).\lambda (_: T).\lambda (_: T).pc3 c2 (THead (Bind b) t t4) t3) (\lambda (_: T).\lambda (t5: T).\lambda (_: T).ty3 g c2 t t5) (\lambda (t4: T).\lambda (_: T).\lambda (_: T).ty3 g (CHead c2 (Bind b) t) t0 t4) (\lambda (t4: T).\lambda (_: T).\lambda (t6: T).ty3 g (CHead c2 (Bind b) t) t4 t6) P (\lambda (x0: T).\lambda (x1: T).\lambda (x2: T).\lambda (_: (pc3 c2 (THead (Bind b) t x0) t3)).\lambda (H5: (ty3 g c2 t x1)).\lambda (_: (ty3 g (CHead c2 (Bind b) t) t0 x0)).\lambda (_: (ty3 g (CHead c2 (Bind b) t) x0 x2)).H2 x1 H5 P) (ty3_gen_bind g b c2 t t0 t3 H3))) H1) | (Flat f) \Rightarrow (\lambda (H0: ((\forall (c1: C).\forall (t1: T).(flt c1 t1 c2 (THead (Flat f) t t0)) \to or (ex T (\lambda (t2: T).ty3 g c1 t1 t2)) (\forall (t2: T).(ty3 g c1 t1 t2) \to \forall (P: (Prop)).P)))).(match f return (\lambda (f0: F).((\forall (c1: C).\forall (t1: T).(flt c1 t1 c2 (THead (Flat f0) t t0)) \to or (ex T (\lambda (t2: T).ty3 g c1 t1 t2)) (\forall (t2: T).(ty3 g c1 t1 t2) \to \forall (P: (Prop)).P))) \to or (ex T (\lambda (t3: T).ty3 g c2 (THead (Flat f0) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Flat f0) t t0) t3) \to \forall (P: (Prop)).P)) with [Appl \Rightarrow (\lambda (H1: ((\forall (c1: C).\forall (t1: T).(flt c1 t1 c2 (THead (Flat Appl) t t0)) \to or (ex T (\lambda (t2: T).ty3 g c1 t1 t2)) (\forall (t2: T).(ty3 g c1 t1 t2) \to \forall (P: (Prop)).P)))).let H2 \def H1 c2 t (flt_thead_sx (Flat Appl) c2 t t0) in or_ind (ex T (\lambda (t3: T).ty3 g c2 t t3)) (\forall (t3: T).(ty3 g c2 t t3) \to \forall (P: (Prop)).P) (or (ex T (\lambda (t3: T).ty3 g c2 (THead (Flat Appl) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Flat Appl) t t0) t3) \to \forall (P: (Prop)).P)) (\lambda (H3: (ex T (\lambda (t2: T).ty3 g c2 t t2))).ex_ind T (\lambda (t3: T).ty3 g c2 t t3) (or (ex T (\lambda (t3: T).ty3 g c2 (THead (Flat Appl) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Flat Appl) t t0) t3) \to \forall (P: (Prop)).P)) (\lambda (x: T).\lambda (H4: (ty3 g c2 t x)).let H5 \def H1 c2 t0 (flt_thead_dx (Flat Appl) c2 t t0) in or_ind (ex T (\lambda (t3: T).ty3 g c2 t0 t3)) (\forall (t3: T).(ty3 g c2 t0 t3) \to \forall (P: (Prop)).P) (or (ex T (\lambda (t3: T).ty3 g c2 (THead (Flat Appl) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Flat Appl) t t0) t3) \to \forall (P: (Prop)).P)) (\lambda (H6: (ex T (\lambda (t2: T).ty3 g c2 t0 t2))).ex_ind T (\lambda (t3: T).ty3 g c2 t0 t3) (or (ex T (\lambda (t3: T).ty3 g c2 (THead (Flat Appl) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Flat Appl) t t0) t3) \to \forall (P: (Prop)).P)) (\lambda (x0: T).\lambda (H7: (ty3 g c2 t0 x0)).ex_ind T (\lambda (t3: T).ty3 g c2 x0 t3) (or (ex T (\lambda (t3: T).ty3 g c2 (THead (Flat Appl) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Flat Appl) t t0) t3) \to \forall (P: (Prop)).P)) (\lambda (x1: T).\lambda (H8: (ty3 g c2 x0 x1)).ex_ind T (\lambda (t3: T).ty3 g c2 x t3) (or (ex T (\lambda (t3: T).ty3 g c2 (THead (Flat Appl) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Flat Appl) t t0) t3) \to \forall (P: (Prop)).P)) (\lambda (x2: T).\lambda (H9: (ty3 g c2 x x2)).let H10 \def ty3_sn3 g c2 x x2 H9 in let H_x \def nf2_sn3 c2 x H10 in let H11 \def H_x in ex2_ind T (\lambda (u: T).pr3 c2 x u) (\lambda (u: T).nf2 c2 u) (or (ex T (\lambda (t3: T).ty3 g c2 (THead (Flat Appl) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Flat Appl) t t0) t3) \to \forall (P: (Prop)).P)) (\lambda (x3: T).\lambda (H12: (pr3 c2 x x3)).\lambda (H13: (nf2 c2 x3)).let H14 \def ty3_sred_pr3 c2 x x3 H12 g x2 H9 in let H_x0 \def pc3_abst_dec g c2 x0 x1 H8 x3 x2 H14 in let H15 \def H_x0 in or_ind (ex4_2 T T (\lambda (u: T).\lambda (_: T).pc3 c2 x0 (THead (Bind Abst) x3 u)) (\lambda (u: T).\lambda (v2: T).ty3 g c2 (THead (Bind Abst) v2 u) x1) (\lambda (_: T).\lambda (v2: T).pr3 c2 x3 v2) (\lambda (_: T).\lambda (v2: T).nf2 c2 v2)) (\forall (u: T).(pc3 c2 x0 (THead (Bind Abst) x3 u)) \to \forall (P: (Prop)).P) (or (ex T (\lambda (t3: T).ty3 g c2 (THead (Flat Appl) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Flat Appl) t t0) t3) \to \forall (P: (Prop)).P)) (\lambda (H16: (ex4_2 T T (\lambda (u: T).\lambda (_: T).pc3 c2 x0 (THead (Bind Abst) x3 u)) (\lambda (u: T).\lambda (v2: T).ty3 g c2 (THead (Bind Abst) v2 u) x1) (\lambda (_: T).\lambda (v2: T).pr3 c2 x3 v2) (\lambda (_: T).\lambda (v2: T).nf2 c2 v2))).ex4_2_ind T T (\lambda (u: T).\lambda (_: T).pc3 c2 x0 (THead (Bind Abst) x3 u)) (\lambda (u: T).\lambda (v2: T).ty3 g c2 (THead (Bind Abst) v2 u) x1) (\lambda (_: T).\lambda (v2: T).pr3 c2 x3 v2) (\lambda (_: T).\lambda (v2: T).nf2 c2 v2) (or (ex T (\lambda (t3: T).ty3 g c2 (THead (Flat Appl) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Flat Appl) t t0) t3) \to \forall (P: (Prop)).P)) (\lambda (x4: T).\lambda (x5: T).\lambda (H17: (pc3 c2 x0 (THead (Bind Abst) x3 x4))).\lambda (H18: (ty3 g c2 (THead (Bind Abst) x5 x4) x1)).\lambda (H19: (pr3 c2 x3 x5)).\lambda (_: (nf2 c2 x5)).let H_y \def nf2_pr3_unfold c2 x3 x5 H19 H13 in let H21 \def eq_ind_r T x5 (\lambda (t: T).pr3 c2 x3 t) H19 x3 H_y in let H22 \def eq_ind_r T x5 (\lambda (t: T).ty3 g c2 (THead (Bind Abst) t x4) x1) H18 x3 H_y in or_introl (ex T (\lambda (t3: T).ty3 g c2 (THead (Flat Appl) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Flat Appl) t t0) t3) \to \forall (P: (Prop)).P) (ex_intro T (\lambda (t3: T).ty3 g c2 (THead (Flat Appl) t t0) t3) (THead (Flat Appl) t (THead (Bind Abst) x3 x4)) (ty3_appl g c2 t x3 (ty3_tred g c2 t x H4 x3 H12) t0 x4 (ty3_conv g c2 (THead (Bind Abst) x3 x4) x1 H22 t0 x0 H7 H17)))) H16) (\lambda (H16: ((\forall (u: T).(pc3 c2 x0 (THead (Bind Abst) x3 u)) \to \forall (P: (Prop)).P))).or_intror (ex T (\lambda (t3: T).ty3 g c2 (THead (Flat Appl) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Flat Appl) t t0) t3) \to \forall (P: (Prop)).P) (\lambda (t3: T).\lambda (H17: (ty3 g c2 (THead (Flat Appl) t t0) t3)).\lambda (P: (Prop)).ex3_2_ind T T (\lambda (u: T).\lambda (t4: T).pc3 c2 (THead (Flat Appl) t (THead (Bind Abst) u t4)) t3) (\lambda (u: T).\lambda (t4: T).ty3 g c2 t0 (THead (Bind Abst) u t4)) (\lambda (u: T).\lambda (_: T).ty3 g c2 t u) P (\lambda (x4: T).\lambda (x5: T).\lambda (_: (pc3 c2 (THead (Flat Appl) t (THead (Bind Abst) x4 x5)) t3)).\lambda (H19: (ty3 g c2 t0 (THead (Bind Abst) x4 x5))).\lambda (H20: (ty3 g c2 t x4)).let H_y \def ty3_unique g c2 t x4 H20 x H4 in let H_y0 \def ty3_unique g c2 t0 (THead (Bind Abst) x4 x5) H19 x0 H7 in H16 x5 (pc3_t (THead (Bind Abst) x4 x5) c2 x0 (pc3_s c2 x0 (THead (Bind Abst) x4 x5) H_y0) (THead (Bind Abst) x3 x5) (pc3_head_1 c2 x4 x3 (pc3_t x c2 x4 H_y x3 (pc3_pr3_r c2 x x3 H12)) (Bind Abst) x5)) P) (ty3_gen_appl g c2 t t0 t3 H17))) H15) H11) (ty3_correct g c2 t x H4)) (ty3_correct g c2 t0 x0 H7)) H6) (\lambda (H6: ((\forall (t2: T).(ty3 g c2 t0 t2) \to \forall (P: (Prop)).P))).or_intror (ex T (\lambda (t3: T).ty3 g c2 (THead (Flat Appl) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Flat Appl) t t0) t3) \to \forall (P: (Prop)).P) (\lambda (t3: T).\lambda (H7: (ty3 g c2 (THead (Flat Appl) t t0) t3)).\lambda (P: (Prop)).ex3_2_ind T T (\lambda (u: T).\lambda (t4: T).pc3 c2 (THead (Flat Appl) t (THead (Bind Abst) u t4)) t3) (\lambda (u: T).\lambda (t4: T).ty3 g c2 t0 (THead (Bind Abst) u t4)) (\lambda (u: T).\lambda (_: T).ty3 g c2 t u) P (\lambda (x0: T).\lambda (x1: T).\lambda (_: (pc3 c2 (THead (Flat Appl) t (THead (Bind Abst) x0 x1)) t3)).\lambda (H9: (ty3 g c2 t0 (THead (Bind Abst) x0 x1))).\lambda (_: (ty3 g c2 t x0)).H6 (THead (Bind Abst) x0 x1) H9 P) (ty3_gen_appl g c2 t t0 t3 H7))) H5) H3) (\lambda (H3: ((\forall (t2: T).(ty3 g c2 t t2) \to \forall (P: (Prop)).P))).or_intror (ex T (\lambda (t3: T).ty3 g c2 (THead (Flat Appl) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Flat Appl) t t0) t3) \to \forall (P: (Prop)).P) (\lambda (t3: T).\lambda (H4: (ty3 g c2 (THead (Flat Appl) t t0) t3)).\lambda (P: (Prop)).ex3_2_ind T T (\lambda (u: T).\lambda (t4: T).pc3 c2 (THead (Flat Appl) t (THead (Bind Abst) u t4)) t3) (\lambda (u: T).\lambda (t4: T).ty3 g c2 t0 (THead (Bind Abst) u t4)) (\lambda (u: T).\lambda (_: T).ty3 g c2 t u) P (\lambda (x0: T).\lambda (x1: T).\lambda (_: (pc3 c2 (THead (Flat Appl) t (THead (Bind Abst) x0 x1)) t3)).\lambda (_: (ty3 g c2 t0 (THead (Bind Abst) x0 x1))).\lambda (H7: (ty3 g c2 t x0)).H3 x0 H7 P) (ty3_gen_appl g c2 t t0 t3 H4))) H2) | Cast \Rightarrow (\lambda (H1: ((\forall (c1: C).\forall (t1: T).(flt c1 t1 c2 (THead (Flat Cast) t t0)) \to or (ex T (\lambda (t2: T).ty3 g c1 t1 t2)) (\forall (t2: T).(ty3 g c1 t1 t2) \to \forall (P: (Prop)).P)))).let H2 \def H1 c2 t (flt_thead_sx (Flat Cast) c2 t t0) in or_ind (ex T (\lambda (t3: T).ty3 g c2 t t3)) (\forall (t3: T).(ty3 g c2 t t3) \to \forall (P: (Prop)).P) (or (ex T (\lambda (t3: T).ty3 g c2 (THead (Flat Cast) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Flat Cast) t t0) t3) \to \forall (P: (Prop)).P)) (\lambda (H3: (ex T (\lambda (t2: T).ty3 g c2 t t2))).ex_ind T (\lambda (t3: T).ty3 g c2 t t3) (or (ex T (\lambda (t3: T).ty3 g c2 (THead (Flat Cast) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Flat Cast) t t0) t3) \to \forall (P: (Prop)).P)) (\lambda (x: T).\lambda (H4: (ty3 g c2 t x)).let H5 \def H1 c2 t0 (flt_thead_dx (Flat Cast) c2 t t0) in or_ind (ex T (\lambda (t3: T).ty3 g c2 t0 t3)) (\forall (t3: T).(ty3 g c2 t0 t3) \to \forall (P: (Prop)).P) (or (ex T (\lambda (t3: T).ty3 g c2 (THead (Flat Cast) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Flat Cast) t t0) t3) \to \forall (P: (Prop)).P)) (\lambda (H6: (ex T (\lambda (t2: T).ty3 g c2 t0 t2))).ex_ind T (\lambda (t3: T).ty3 g c2 t0 t3) (or (ex T (\lambda (t3: T).ty3 g c2 (THead (Flat Cast) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Flat Cast) t t0) t3) \to \forall (P: (Prop)).P)) (\lambda (x0: T).\lambda (H7: (ty3 g c2 t0 x0)).ex_ind T (\lambda (t3: T).ty3 g c2 x0 t3) (or (ex T (\lambda (t3: T).ty3 g c2 (THead (Flat Cast) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Flat Cast) t t0) t3) \to \forall (P: (Prop)).P)) (\lambda (x1: T).\lambda (H8: (ty3 g c2 x0 x1)).let H_x \def pc3_dec g c2 x0 x1 H8 t x H4 in let H9 \def H_x in or_ind (pc3 c2 x0 t) ((pc3 c2 x0 t) \to \forall (P: (Prop)).P) (or (ex T (\lambda (t3: T).ty3 g c2 (THead (Flat Cast) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Flat Cast) t t0) t3) \to \forall (P: (Prop)).P)) (\lambda (H10: (pc3 c2 x0 t)).or_introl (ex T (\lambda (t3: T).ty3 g c2 (THead (Flat Cast) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Flat Cast) t t0) t3) \to \forall (P: (Prop)).P) (ex_intro T (\lambda (t3: T).ty3 g c2 (THead (Flat Cast) t t0) t3) t (ty3_cast g c2 t0 t (ty3_conv g c2 t x H4 t0 x0 H7 H10) x H4))) (\lambda (H10: (((pc3 c2 x0 t) \to \forall (P: (Prop)).P))).or_intror (ex T (\lambda (t3: T).ty3 g c2 (THead (Flat Cast) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Flat Cast) t t0) t3) \to \forall (P: (Prop)).P) (\lambda (t3: T).\lambda (H11: (ty3 g c2 (THead (Flat Cast) t t0) t3)).\lambda (P: (Prop)).and_ind (pc3 c2 t t3) (ty3 g c2 t0 t) P (\lambda (_: (pc3 c2 t t3)).\lambda (H13: (ty3 g c2 t0 t)).let H_y \def ty3_unique g c2 t0 t H13 x0 H7 in H10 (pc3_s c2 x0 t H_y) P) (ty3_gen_cast g c2 t0 t t3 H11))) H9) (ty3_correct g c2 t0 x0 H7)) H6) (\lambda (H6: ((\forall (t2: T).(ty3 g c2 t0 t2) \to \forall (P: (Prop)).P))).or_intror (ex T (\lambda (t3: T).ty3 g c2 (THead (Flat Cast) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Flat Cast) t t0) t3) \to \forall (P: (Prop)).P) (\lambda (t3: T).\lambda (H7: (ty3 g c2 (THead (Flat Cast) t t0) t3)).\lambda (P: (Prop)).and_ind (pc3 c2 t t3) (ty3 g c2 t0 t) P (\lambda (_: (pc3 c2 t t3)).\lambda (H9: (ty3 g c2 t0 t)).H6 t H9 P) (ty3_gen_cast g c2 t0 t t3 H7))) H5) H3) (\lambda (H3: ((\forall (t2: T).(ty3 g c2 t t2) \to \forall (P: (Prop)).P))).or_intror (ex T (\lambda (t3: T).ty3 g c2 (THead (Flat Cast) t t0) t3)) (\forall (t3: T).(ty3 g c2 (THead (Flat Cast) t t0) t3) \to \forall (P: (Prop)).P) (\lambda (t3: T).\lambda (H4: (ty3 g c2 (THead (Flat Cast) t t0) t3)).\lambda (P: (Prop)).and_ind (pc3 c2 t t3) (ty3 g c2 t0 t) P (\lambda (_: (pc3 c2 t t3)).\lambda (H6: (ty3 g c2 t0 t)).ex_ind T (\lambda (t4: T).ty3 g c2 t t4) P (\lambda (x: T).\lambda (H7: (ty3 g c2 t x)).H3 x H7 P) (ty3_correct g c2 t0 t H6)) (ty3_gen_cast g c2 t0 t t3 H4))) H2)]) H0)]) H)]) c t1.
+

diff --git a/helm/software/matita/contribs/LAMBDA-TYPES/level-1/problems.ma b/helm/software/matita/contribs/LAMBDA-TYPES/level-1/problems.ma
new file mode 100644 (file)
index 0000000..4a9d3d5
--- /dev/null
+++ b/helm/software/matita/contribs/LAMBDA-TYPES/level-1/problems.ma
@@ -0,0 +1,37 @@
+(**************************************************************************)
+(*       ___                                                              *)
+(*      ||M||                                                             *)
+(*      ||A||       A project by Andrea Asperti                           *)
+(*      ||T||                                                             *)
+(*      ||I||       Developers:                                           *)
+(*      ||T||         The HELM team.                                      *)
+(*      ||A||         http://helm.cs.unibo.it                             *)
+(*      \   /                                                             *)
+(*       \ /        This file is distributed under the terms of the       *)
+(*        v         GNU General Public License Version 2                  *)
+(*                                                                        *)
+(**************************************************************************)
+
+(* Problematic objects for disambiguation/typechecking ********************)
+
+set "baseuri" "cic:/matita/contribs/LAMBDA-TYPES/level-1/problems".
+
+include "legacy/coq.ma".
+
+(* problem 1: disambiguation/typechecking does not terminate *)
+
+(*  - the "match" on "e" seems to be at the heart of the problem
+ *  - all declararations are on "net" except the one of "e"
+ *  - all equalities are on "nut"
+ *  - there are two "nit"
+ *  - all the oters instances of the natral numbers set are "nat"
+ *)
+ 
+alias id "nut" = "cic:/Coq/Init/Datatypes/nat.ind#xpointer(1/1)".
+alias id "net" = "cic:/Coq/Init/Datatypes/nat.ind#xpointer(1/1)".
+alias id "nit" = "cic:/Coq/Init/Datatypes/nat.ind#xpointer(1/1)".
+
+theorem nat_dec: 
+ \forall (n1: net).(\forall (n2: net).(or (eq nut n1 n2) ((eq nut n1 n2) \to (\forall (P: Prop).P))))
+\def  
+ \lambda (n1: net).(nat_ind (\lambda (n: net).(\forall (n2: net).(or (eq nut n n2) ((eq nut n n2) \to (\forall (P: Prop).P))))) (\lambda (n2: net).(nat_ind (\lambda (n: net).(or (eq nut O n) ((eq nut O n) \to (\forall (P: Prop).P)))) (or_introl (eq nut O O) ((eq nut O O) \to (\forall (P: Prop).P)) (refl_equal nat O)) (\lambda (n: net).(\lambda (_: (or (eq nut O n) ((eq nut O n) \to (\forall (P: Prop).P)))).(or_intror (eq nut O (S n)) ((eq nut O (S n)) \to (\forall (P: Prop).P)) (\lambda (H0: (eq nut O (S n))).(\lambda (P: Prop).(let H1 \def (eq_ind nat O (\lambda (ee: net).(match ee return Prop with [O \Rightarrow True | (S _) \Rightarrow False])) I (S n) H0) in (False_ind P H1))))))) n2)) (\lambda (n: net).(\lambda (H: ((\forall (n2: net).(or (eq nut n n2) ((eq nut n n2) \to (\forall (P: Prop).P)))))).(\lambda (n2: net).(nat_ind (\lambda (n0: net).(or (eq nut (S n) n0) ((eq nut (S n) n0) \to (\forall (P: Prop).P)))) (or_intror (eq nut (S n) O) ((eq nut (S n) O) \to (\forall (P: Prop).P)) (\lambda (H0: (eq nut (S n) O)).(\lambda (P: Prop).(let H1 \def (eq_ind nat (S n) (\lambda (ee: net).(match ee return Prop with [O \Rightarrow False | (S _) \Rightarrow True])) I O H0) in (False_ind P H1))))) (\lambda (n0: net).(\lambda (H0: (or (eq nut (S n) n0) ((eq nut (S n) n0) \to (\forall (P: Prop).P)))).(or_ind (eq nut n n0) ((eq nut n n0) \to (\forall (P: Prop).P)) (or (eq nut (S n) (S n0)) ((eq nut (S n) (S n0)) \to (\forall (P: Prop).P))) (\lambda (H1: (eq nut n n0)).(let H2 \def (eq_ind_r nat n0 (\lambda (n0: net).(or (eq nut (S n) n0) ((eq nut (S n) n0) \to (\forall (P: Prop).P)))) H0 n H1) in (eq_ind nat n (\lambda (n3: net).(or (eq nut (S n) (S n3)) ((eq nut (S n) (S n3)) \to (\forall (P: Prop).P)))) (or_introl (eq nut (S n) (S n)) ((eq nut (S n) (S n)) \to (\forall (P: Prop).P)) (refl_equal nat (S n))) n0 H1))) (\lambda (H1: (((eq nut n n0) \to (\forall (P: Prop).P)))).(or_intror (eq nut (S n) (S n0)) ((eq nut (S n) (S n0)) \to (\forall (P: Prop).P)) (\lambda (H2: (eq nut (S n) (S n0))).(\lambda (P: Prop).(let H3 \def (f_equal nat nat (\lambda (e: nit).(match (e:net) return nit with [O \Rightarrow n | (S n) \Rightarrow n])) (S n) (S n0) H2) in (let H4 \def (eq_ind_r nat n0 (\lambda (n0: net).((eq nut n n0) \to (\forall (P: Prop).P))) H1 n H3) in (let H5 \def (eq_ind_r nat n0 (\lambda (n0: net).(or (eq nut (S n) n0) ((eq nut (S n) n0) \to (\forall (P: Prop).P)))) H0 n H3) in (H4 (refl_equal nat n) P)))))))) (H n0)))) n2)))) n1).

diff --git a/helm/software/matita/contribs/RELATIONAL/BEq/defs.ma b/helm/software/matita/contribs/RELATIONAL/BEq/defs.ma
index 0b52af116a59c63f0a89c3f0ca05cbf14fa46e8e..d851a6b9fda2a98e45b90f067c7a140c229a0907 100644 (file)
--- a/helm/software/matita/contribs/RELATIONAL/BEq/defs.ma
+++ b/helm/software/matita/contribs/RELATIONAL/BEq/defs.ma
@@ -19,6 +19,14 @@ include "logic/equality.ma".
 include "BNot/defs.ma".
 
 inductive BEq (b1:Bool): Bool \to Bool \to Prop \def
-   | beq_false: \forall b2. BNot b1 b2 \to BEq b1 false b2
+   | beq_false: \forall b2. (~b1 == b2) \to BEq b1 false b2
    | beq_true : BEq b1 true b1
 .
+
+(*CSC: the URI must disappear: there is a bug now *)
+interpretation "boolean coimplication predicate" 'rel_coimp x y z = 
+   (cic:/matita/RELATIONAL/BEq/defs/BEq.ind#xpointer(1/1) x y z).
+
+notation "hvbox(a break * b break == c)" 
+  non associative with precedence 95
+for @{ 'rel_coimp $a $b $c}.

diff --git a/helm/software/matita/contribs/RELATIONAL/BNot/defs.ma b/helm/software/matita/contribs/RELATIONAL/BNot/defs.ma
index d622645134a57163096cebb2fc70999a38231aaf..401e599a758605954b9ce8f5855b2c87bf66d8c2 100644 (file)
--- a/helm/software/matita/contribs/RELATIONAL/BNot/defs.ma
+++ b/helm/software/matita/contribs/RELATIONAL/BNot/defs.ma
@@ -14,9 +14,20 @@
 
 set "baseuri" "cic:/matita/RELATIONAL/BNot/defs".
 
+include "logic/equality.ma".
+
 include "Bool/defs.ma".
 
 inductive BNot: Bool \to Bool \to Prop \def
    | bnot_false: BNot false true
    | bnot_true : BNot true false
 .
+
+(*CSC: the URI must disappear: there is a bug now *)
+interpretation "boolean not predicate" 'rel_not x y = 
+   (cic:/matita/RELATIONAL/BNot/defs/BNot.ind#xpointer(1/1) x y).
+
+(* FG: we can not use - here for some reason *)
+notation "hvbox(~ a break == b)" 
+  non associative with precedence 95
+for @{ 'rel_not $a $b}.

diff --git a/helm/software/matita/contribs/RELATIONAL/NLE/fwd.ma b/helm/software/matita/contribs/RELATIONAL/NLE/fwd.ma
index dd0a7cea6a958fb9af6de022a7f9a7d5eabedf24..19ad50b9b2aa7c11cae590a0f3ec987ec194e96d 100644 (file)
--- a/helm/software/matita/contribs/RELATIONAL/NLE/fwd.ma
+++ b/helm/software/matita/contribs/RELATIONAL/NLE/fwd.ma
@@ -20,7 +20,7 @@ include "Nat/fwd.ma".
 include "NLE/defs.ma".
 
 theorem nle_gen_succ_1: \forall x,y. x < y \to 
-                         \exists z. y = succ z \land x <= z.
+                        \exists z. y = succ z \land x <= z.
  intros. inversion H; clear H; intros;
  [ apply (eq_gen_succ_zero ? ? H)
  | lapply linear eq_gen_succ_succ to H2 as H0.
@@ -53,7 +53,7 @@ theorem nle_gen_zero_2: \forall x. x <= zero \to x = zero.
 qed.
 
 theorem nle_gen_succ_2: \forall y,x. x <= succ y \to
-                         x = zero \lor \exists z. x = succ z \land z <= y.
+                        x = zero \lor \exists z. x = succ z \land z <= y.
  intros 2; elim x; clear x; intros;
  [ auto
  | lapply linear nle_gen_succ_succ to H1.

diff --git a/helm/software/matita/contribs/RELATIONAL/NPlus/defs.ma b/helm/software/matita/contribs/RELATIONAL/NPlus/defs.ma
index 2bc2e8fe006716b2f9ff7d76e2f0738a8a6c94b9..289093403b3bc1c1643fc7607167a26f9d21d0a4 100644 (file)
--- a/helm/software/matita/contribs/RELATIONAL/NPlus/defs.ma
+++ b/helm/software/matita/contribs/RELATIONAL/NPlus/defs.ma
@@ -23,7 +23,7 @@ inductive NPlus (p:Nat): Nat \to Nat \to Prop \def
    | nplus_succ_2: \forall q, r. NPlus p q r \to NPlus p (succ q) (succ r).
 
 (*CSC: the URI must disappear: there is a bug now *)
-interpretation "natural plus (relational)" 'rel_plus x y z = 
+interpretation "natural plus predicate" 'rel_plus x y z = 
    (cic:/matita/RELATIONAL/NPlus/defs/NPlus.ind#xpointer(1/1) x y z).
 
 notation "hvbox(a break + b break == c)" 

diff --git a/helm/software/matita/contribs/RELATIONAL/NPlus/fwd.ma b/helm/software/matita/contribs/RELATIONAL/NPlus/fwd.ma
index 9b23cb2fb3c3248d6904ac841a3da2424b0c6f17..350a53f622b6d71bd8763bef5f37e72534c2a922 100644 (file)
--- a/helm/software/matita/contribs/RELATIONAL/NPlus/fwd.ma
+++ b/helm/software/matita/contribs/RELATIONAL/NPlus/fwd.ma
@@ -27,7 +27,7 @@ theorem nplus_gen_zero_1: \forall q,r. (zero + q == r) \to q = r.
 qed.
 
 theorem nplus_gen_succ_1: \forall p,q,r. ((succ p) + q == r) \to 
-                           \exists s. r = (succ s) \land (p + q == s).
+                          \exists s. r = (succ s) \land p + q == s.
  intros. elim H; clear H q r; intros;
  [
  | clear H1.
@@ -45,7 +45,7 @@ theorem nplus_gen_zero_2: \forall p,r. (p + zero == r) \to p = r.
 qed.
 
 theorem nplus_gen_succ_2: \forall p,q,r. (p + (succ q) == r) \to 
-                           \exists s. r = (succ s) \land (p + q == s).
+                          \exists s. r = (succ s) \land p + q == s.
  intros. inversion H; clear H; intros;
  [ lapply eq_gen_succ_zero to H as H0. apply H0
  | clear H1 H3 r.
@@ -56,7 +56,7 @@ theorem nplus_gen_succ_2: \forall p,q,r. (p + (succ q) == r) \to
 qed.
 
 theorem nplus_gen_zero_3: \forall p,q. (p + q == zero) \to 
-                           p = zero \land q = zero.
+                          p = zero \land q = zero.
  intros. inversion H; clear H; intros;
  [ rewrite < H1. clear H1 p.
    auto
@@ -66,8 +66,8 @@ theorem nplus_gen_zero_3: \forall p,q. (p + q == zero) \to
 qed.
 
 theorem nplus_gen_succ_3: \forall p,q,r. (p + q == (succ r)) \to
-                           \exists s. p = succ s \land (s + q == r) \lor
-                                      q = succ s \land (p + s == r).
+                          \exists s. p = succ s \land (s + q == r) \lor
+                                     q = succ s \land p + s == r.
  intros. inversion H; clear H; intros;
  [ rewrite < H1. clear H1 p
  | clear H1.
@@ -79,7 +79,7 @@ qed.
 (* alternative proofs invoking nplus_gen_2 *)
 
 variant nplus_gen_zero_3_alt: \forall p,q. (p + q == zero) \to 
-                               p = zero \land q = zero.
+                              p = zero \land q = zero.
  intros 2. elim q; clear q; intros;
  [ lapply linear nplus_gen_zero_2 to H as H0.
    rewrite > H0. clear H0 p.
@@ -92,8 +92,8 @@ variant nplus_gen_zero_3_alt: \forall p,q. (p + q == zero) \to
 qed.
 
 variant nplus_gen_succ_3_alt: \forall p,q,r. (p + q == (succ r)) \to
-                               \exists s. p = succ s \land (s + q == r) \lor
-                                          q = succ s \land (p + s == r).
+                              \exists s. p = succ s \land (s + q == r) \lor
+                                         q = succ s \land p + s == r.
  intros 2. elim q; clear q; intros;
  [ lapply linear nplus_gen_zero_2 to H as H0.
    rewrite > H0. clear H0 p

diff --git a/helm/software/matita/contribs/RELATIONAL/NPlus/props.ma b/helm/software/matita/contribs/RELATIONAL/NPlus/props.ma
index a80e13fa510f316db99284815a34f18794375fb2..a40187c65740bdf57362a887d94fda6fcf68b1de 100644 (file)
--- a/helm/software/matita/contribs/RELATIONAL/NPlus/props.ma
+++ b/helm/software/matita/contribs/RELATIONAL/NPlus/props.ma
@@ -21,7 +21,7 @@ theorem nplus_zero_1: \forall q. zero + q == q.
 qed.
 
 theorem nplus_succ_1: \forall p,q,r. NPlus p q r \to 
-                       (succ p) + q == (succ r).
+                      (succ p) + q == (succ r).
  intros 2. elim q; clear q;
  [ lapply linear nplus_gen_zero_2 to H as H0.
    rewrite > H0. clear H0 p
@@ -42,7 +42,7 @@ theorem nplus_sym: \forall p,q,r. (p + q == r) \to q + p == r.
 qed.
 
 theorem nplus_shift_succ_sx: \forall p,q,r. 
-                              (p + (succ q) == r) \to (succ p) + q == r.
+                             (p + (succ q) == r) \to (succ p) + q == r.
  intros.
  lapply linear nplus_gen_succ_2 to H as H0.
  decompose.
@@ -51,7 +51,7 @@ theorem nplus_shift_succ_sx: \forall p,q,r.
 qed.
 
 theorem nplus_shift_succ_dx: \forall p,q,r. 
-                              ((succ p) + q == r) \to p + (succ q) == r.
+                             ((succ p) + q == r) \to p + (succ q) == r.
  intros.
  lapply linear nplus_gen_succ_1 to H as H0.
  decompose.
@@ -60,8 +60,8 @@ theorem nplus_shift_succ_dx: \forall p,q,r.
 qed.
 
 theorem nplus_trans_1: \forall p,q1,r1. (p + q1 == r1) \to 
-                        \forall q2,r2. (r1 + q2 == r2) \to
-                        \exists q. (q1 + q2 == q) \land p + q == r2.
+                       \forall q2,r2. (r1 + q2 == r2) \to
+                       \exists q. (q1 + q2 == q) \land p + q == r2.
  intros 2; elim q1; clear q1; intros;
  [ lapply linear nplus_gen_zero_2 to H as H0.
    rewrite > H0. clear H0 p
@@ -77,8 +77,8 @@ theorem nplus_trans_1: \forall p,q1,r1. (p + q1 == r1) \to
 qed.
 
 theorem nplus_trans_2: \forall p1,q,r1. (p1 + q == r1) \to 
-                        \forall p2,r2. (p2 + r1 == r2) \to
-                        \exists p. (p1 + p2 == p) \land p + q == r2.
+                       \forall p2,r2. (p2 + r1 == r2) \to
+                       \exists p. (p1 + p2 == p) \land p + q == r2.
  intros 2; elim q; clear q; intros;
  [ lapply linear nplus_gen_zero_2 to H as H0.
    rewrite > H0. clear H0 p1
@@ -94,7 +94,7 @@ theorem nplus_trans_2: \forall p1,q,r1. (p1 + q == r1) \to
 qed.
 
 theorem nplus_conf: \forall p,q,r1. (p + q == r1) \to 
-                     \forall r2. (p + q == r2) \to r1 = r2.
+                    \forall r2. (p + q == r2) \to r1 = r2.
  intros 2. elim q; clear q; intros;
  [ lapply linear nplus_gen_zero_2 to H as H0.
    rewrite > H0 in H1. clear H0 p

diff --git a/helm/software/matita/core_notation.moo b/helm/software/matita/core_notation.moo
index 3b157ec5877d3933805a51b9344da2162db2c2d6..8ce02776502647fddc514f84a6a4d6e90ad70eed 100644 (file)
--- a/helm/software/matita/core_notation.moo
+++ b/helm/software/matita/core_notation.moo
@@ -117,5 +117,5 @@ notation "hvbox(a break \land b)"
 for @{ 'and $a $b }.
 
 notation "hvbox(\lnot a)" 
-  left associative with precedence 40
+  non associative with precedence 40
 for @{ 'not $a }.