update in ground_2, static_2, basic_2, apps_2, alpha_1

[helm.git] / matita / matita / contribs / lambdadelta / apps_2 / models / model_props.ma

(**************************************************************************)
(*       ___                                                              *)
(*      ||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                  *)
(*                                                                        *)
(**************************************************************************)

include "apps_2/models/model_vpush.ma".

(* MODEL ********************************************************************)

record is_model (M): Prop ≝ {
(* Note: equivalence: reflexivity *)
   mr: reflexive … (sq M);
(* Note: equivalence: compatibility *)
   mq: replace_2 … (sq M) (sq M) (sq M);
(* Note: conjunction: compatibility *)
   mc: ∀p. compatible_3 … (co M p) (sq M) (sq M) (sq M);
(* Note: application: compatibility *)
   mp: compatible_3 … (ap M) (sq M) (sq M) (sq M);
(* Note: interpretation: sort *)
   ms: ∀gv,lv,s. ⟦⋆s⟧{M}[gv,lv] ≗ sv M s;
(* Note: interpretation: local reference *)
   ml: ∀gv,lv,i. ⟦#i⟧{M}[gv,lv] ≗ lv i;
(* Note: interpretation: global reference *)
   mg: ∀gv,lv,l. ⟦§l⟧{M}[gv,lv] ≗ gv l;
(* Note: interpretation: intensional binder *)
   mi: ∀p,gv1,gv2,lv1,lv2,W,T. ⟦W⟧{M}[gv1,lv1] ≗ ⟦W⟧{M}[gv2,lv2] →
       (∀d. ⟦T⟧{M}[gv1,⫯[0←d]lv1] ≗ ⟦T⟧{M}[gv2,⫯[0←d]lv2]) →
       ⟦ⓛ[p]W.T⟧[gv1,lv1] ≗ ⟦ⓛ[p]W.T⟧[gv2,lv2];
(* Note: interpretation: abbreviation *)
   md: ∀p,gv,lv,V,T. ⟦ⓓ[p]V.T⟧{M}[gv,lv] ≗ ⟦V⟧[gv,lv] ⊕[p] ⟦T⟧[gv,⫯[0←⟦V⟧[gv,lv]]lv];
(* Note: interpretation: application *)
   ma: ∀gv,lv,V,T. ⟦ⓐV.T⟧{M}[gv,lv] ≗ ⟦V⟧[gv,lv] @ ⟦T⟧[gv,lv];
(* Note: interpretation: ζ-equivalence *)
   mz: ∀d1,d2. d1 ⊕{M}[Ⓣ] d2 ≗ d2;
(* Note: interpretation: ϵ-equivalence *)
   me: ∀gv,lv,W,T. ⟦ⓝW.T⟧{M}[gv,lv] ≗ ⟦T⟧[gv,lv];
(* Note: interpretation: β-requivalence *)
   mb: ∀p,gv,lv,d,W,T. d @ ⟦ⓛ[p]W.T⟧{M}[gv,lv] ≗ d ⊕[p] ⟦T⟧[gv,⫯[0←d]lv];
(* Note: interpretation: θ-requivalence *)
   mh: ∀p,d1,d2,d3. d1 @ (d2 ⊕{M}[p] d3) ≗ d2 ⊕[p] (d1 @ d3)
}.

record is_extensional (M): Prop ≝ {
(* Note: interpretation: extensional abstraction *)
   mx: ∀p,gv1,gv2,lv1,lv2,W1,W2,T1,T2. ⟦W1⟧{M}[gv1,lv1] ≗ ⟦W2⟧{M}[gv2,lv2] →
       (∀d. ⟦T1⟧{M}[gv1,⫯[0←d]lv1] ≗ ⟦T2⟧{M}[gv2,⫯[0←d]lv2]) →
       ⟦ⓛ[p]W1.T1⟧[gv1,lv1] ≗ ⟦ⓛ[p]W2.T2⟧[gv2,lv2]
}.

record is_injective (M): Prop ≝ {
(* Note: conjunction: injectivity *)
   mj: ∀d1,d3,d2,d4. d1 ⊕[Ⓕ] d2 ≗{M} d3 ⊕[Ⓕ] d4 → d2 ≗ d4
}.

(* Basic properties *********************************************************)

lemma seq_sym (M): is_model M → symmetric … (sq M).
/3 width=5 by mq, mr/ qed-.

lemma seq_trans (M): is_model M → Transitive … (sq M).
/3 width=5 by mq, mr/ qed-.

lemma seq_canc_sn (M): is_model M → left_cancellable … (sq M).
/3 width=3 by seq_trans, seq_sym/ qed-.

lemma seq_canc_dx (M): is_model M → right_cancellable … (sq M).
/3 width=3 by seq_trans, seq_sym/ qed-.

lemma co_inv_dx (M): is_model M → is_injective M →
                     ∀p,d1,d3,d2,d4. d1⊕[p]d2 ≗{M} d3⊕[p]d4 → d2 ≗ d4.
#M #H1M #H2M * #d1 #d3 #d2 #d4 #Hd
/3 width=5 by mj, mz, mq/
qed-.

lemma ti_lref_vpush_eq (M): is_model M →
                            ∀gv,lv,d,i. ⟦#i⟧[gv,⫯[i←d]lv] ≗{M} d.
#M #HM #gv #lv #d #i
@(seq_trans … HM) [2: @ml // | skip ]
>vpush_eq /2 width=1 by mr/
qed.

lemma ti_lref_vpush_gt (M): is_model M →
                            ∀gv,lv,d,i. ⟦#(↑i)⟧[gv,⫯[0←d]lv] ≗{M} ⟦#i⟧[gv,lv].
#M #HM #gv #lv #d #i
@(mq … HM) [4,5: @(seq_sym … HM) /2 width=2 by ml/ |1,2: skip ]
>vpush_gt /2 width=1 by mr/
qed.

(* Basic Forward lemmas *****************************************************)

lemma ti_fwd_mx_dx (M): is_model M → is_injective M →
                        ∀p,gv1,gv2,lv1,lv2,W1,W2,T1,T2.
                        ⟦ⓛ[p]W1.T1⟧[gv1,lv1] ≗ ⟦ⓛ[p]W2.T2⟧[gv2,lv2] →
                        ∀d. ⟦T1⟧{M}[gv1,⫯[0←d]lv1] ≗ ⟦T2⟧{M}[gv2,⫯[0←d]lv2].
#M #H1M #H2M #p #gv1 #gv2 #lv1 #lv2 #W1 #W2 #T1 #T2 #H12 #d
@(co_inv_dx … p d d)
/4 width=5 by mb, mp, mq, mr/
qed-.

lemma ti_fwd_abbr_dx (M): is_model M → is_injective M →
                          ∀p,gv1,gv2,lv1,lv2,V1,V2,T1,T2.
                          ⟦ⓓ[p]V1.T1⟧[gv1,lv1] ≗ ⟦ⓓ[p]V2.T2⟧[gv2,lv2] →
                          ⟦T1⟧{M}[gv1,⫯[0←⟦V1⟧[gv1,lv1]]lv1] ≗ ⟦T2⟧{M}[gv2,⫯[0←⟦V2⟧[gv2,lv2]]lv2].
#M #H1M #H2M #p #gv1 #gv2 #lv1 #lv2 #V1 #V2 #T1 #T2 #H12
@(co_inv_dx … p (⟦V1⟧[gv1,lv1]) (⟦V2⟧[gv2,lv2]))
/3 width=5 by md, mq/
qed-.