include "ground_2/relocation/nstream_after.ma".
include "basic_2/notation/relations/rliftstar_3.ma".
-include "basic_2/grammar/term.ma".
+include "basic_2/syntax/term.ma".
(* GENERIC RELOCATION FOR TERMS *********************************************)
*)
inductive lifts: rtmap → relation term ≝
| lifts_sort: ∀f,s. lifts f (⋆s) (⋆s)
-| lifts_lref: â\88\80f,i1,i2. @â¦\83i1, fâ¦\84 â\89¡ i2 → lifts f (#i1) (#i2)
+| lifts_lref: â\88\80f,i1,i2. @â¦\83i1, fâ¦\84 â\89\98 i2 → lifts f (#i1) (#i2)
| lifts_gref: ∀f,l. lifts f (§l) (§l)
| lifts_bind: ∀f,p,I,V1,V2,T1,T2.
- lifts f V1 V2 â\86\92 lifts (â\86\91f) T1 T2 →
+ lifts f V1 V2 â\86\92 lifts (⫯f) T1 T2 →
lifts f (ⓑ{p,I}V1.T1) (ⓑ{p,I}V2.T2)
| lifts_flat: ∀f,I,V1,V2,T1,T2.
lifts f V1 V2 → lifts f T1 T2 →
interpretation "generic relocation (term)"
'RLiftStar f T1 T2 = (lifts f T1 T2).
+definition liftable2_sn: predicate (relation term) ≝
+ λR. ∀T1,T2. R T1 T2 → ∀f,U1. ⬆*[f] T1 ≘ U1 →
+ ∃∃U2. ⬆*[f] T2 ≘ U2 & R U1 U2.
+
+definition deliftable2_sn: predicate (relation term) ≝
+ λR. ∀U1,U2. R U1 U2 → ∀f,T1. ⬆*[f] T1 ≘ U1 →
+ ∃∃T2. ⬆*[f] T2 ≘ U2 & R T1 T2.
+
+definition liftable2_bi: predicate (relation term) ≝
+ λR. ∀T1,T2. R T1 T2 → ∀f,U1. ⬆*[f] T1 ≘ U1 →
+ ∀U2. ⬆*[f] T2 ≘ U2 → R U1 U2.
+
+definition deliftable2_bi: predicate (relation term) ≝
+ λR. ∀U1,U2. R U1 U2 → ∀f,T1. ⬆*[f] T1 ≘ U1 →
+ ∀T2. ⬆*[f] T2 ≘ U2 → R T1 T2.
(* Basic inversion lemmas ***************************************************)
-fact lifts_inv_sort1_aux: â\88\80f,X,Y. â¬\86*[f] X â\89¡ Y → ∀s. X = ⋆s → Y = ⋆s.
+fact lifts_inv_sort1_aux: â\88\80f,X,Y. â¬\86*[f] X â\89\98 Y → ∀s. X = ⋆s → Y = ⋆s.
#f #X #Y * -f -X -Y //
[ #f #i1 #i2 #_ #x #H destruct
| #f #p #I #V1 #V2 #T1 #T2 #_ #_ #x #H destruct
(* Basic_1: was: lift1_sort *)
(* Basic_2A1: includes: lift_inv_sort1 *)
-lemma lifts_inv_sort1: â\88\80f,Y,s. â¬\86*[f] â\8b\86s â\89¡ Y → Y = ⋆s.
+lemma lifts_inv_sort1: â\88\80f,Y,s. â¬\86*[f] â\8b\86s â\89\98 Y → Y = ⋆s.
/2 width=4 by lifts_inv_sort1_aux/ qed-.
-fact lifts_inv_lref1_aux: â\88\80f,X,Y. â¬\86*[f] X â\89¡ Y → ∀i1. X = #i1 →
- â\88\83â\88\83i2. @â¦\83i1, fâ¦\84 â\89¡ i2 & Y = #i2.
+fact lifts_inv_lref1_aux: â\88\80f,X,Y. â¬\86*[f] X â\89\98 Y → ∀i1. X = #i1 →
+ â\88\83â\88\83i2. @â¦\83i1, fâ¦\84 â\89\98 i2 & Y = #i2.
#f #X #Y * -f -X -Y
[ #f #s #x #H destruct
| #f #i1 #i2 #Hi12 #x #H destruct /2 width=3 by ex2_intro/
(* Basic_1: was: lift1_lref *)
(* Basic_2A1: includes: lift_inv_lref1 lift_inv_lref1_lt lift_inv_lref1_ge *)
-lemma lifts_inv_lref1: â\88\80f,Y,i1. â¬\86*[f] #i1 â\89¡ Y →
- â\88\83â\88\83i2. @â¦\83i1, fâ¦\84 â\89¡ i2 & Y = #i2.
+lemma lifts_inv_lref1: â\88\80f,Y,i1. â¬\86*[f] #i1 â\89\98 Y →
+ â\88\83â\88\83i2. @â¦\83i1, fâ¦\84 â\89\98 i2 & Y = #i2.
/2 width=3 by lifts_inv_lref1_aux/ qed-.
-fact lifts_inv_gref1_aux: â\88\80f,X,Y. â¬\86*[f] X â\89¡ Y → ∀l. X = §l → Y = §l.
+fact lifts_inv_gref1_aux: â\88\80f,X,Y. â¬\86*[f] X â\89\98 Y → ∀l. X = §l → Y = §l.
#f #X #Y * -f -X -Y //
[ #f #i1 #i2 #_ #x #H destruct
| #f #p #I #V1 #V2 #T1 #T2 #_ #_ #x #H destruct
qed-.
(* Basic_2A1: includes: lift_inv_gref1 *)
-lemma lifts_inv_gref1: â\88\80f,Y,l. â¬\86*[f] §l â\89¡ Y → Y = §l.
+lemma lifts_inv_gref1: â\88\80f,Y,l. â¬\86*[f] §l â\89\98 Y → Y = §l.
/2 width=4 by lifts_inv_gref1_aux/ qed-.
-fact lifts_inv_bind1_aux: â\88\80f,X,Y. â¬\86*[f] X â\89¡ Y →
+fact lifts_inv_bind1_aux: â\88\80f,X,Y. â¬\86*[f] X â\89\98 Y →
∀p,I,V1,T1. X = ⓑ{p,I}V1.T1 →
- â\88\83â\88\83V2,T2. â¬\86*[f] V1 â\89¡ V2 & â¬\86*[â\86\91f] T1 â\89¡ T2 &
+ â\88\83â\88\83V2,T2. â¬\86*[f] V1 â\89\98 V2 & â¬\86*[⫯f] T1 â\89\98 T2 &
Y = ⓑ{p,I}V2.T2.
#f #X #Y * -f -X -Y
[ #f #s #q #J #W1 #U1 #H destruct
(* Basic_1: was: lift1_bind *)
(* Basic_2A1: includes: lift_inv_bind1 *)
-lemma lifts_inv_bind1: â\88\80f,p,I,V1,T1,Y. â¬\86*[f] â\93\91{p,I}V1.T1 â\89¡ Y →
- â\88\83â\88\83V2,T2. â¬\86*[f] V1 â\89¡ V2 & â¬\86*[â\86\91f] T1 â\89¡ T2 &
+lemma lifts_inv_bind1: â\88\80f,p,I,V1,T1,Y. â¬\86*[f] â\93\91{p,I}V1.T1 â\89\98 Y →
+ â\88\83â\88\83V2,T2. â¬\86*[f] V1 â\89\98 V2 & â¬\86*[⫯f] T1 â\89\98 T2 &
Y = ⓑ{p,I}V2.T2.
/2 width=3 by lifts_inv_bind1_aux/ qed-.
-fact lifts_inv_flat1_aux: â\88\80f:rtmap. â\88\80X,Y. â¬\86*[f] X â\89¡ Y →
+fact lifts_inv_flat1_aux: â\88\80f:rtmap. â\88\80X,Y. â¬\86*[f] X â\89\98 Y →
∀I,V1,T1. X = ⓕ{I}V1.T1 →
- â\88\83â\88\83V2,T2. â¬\86*[f] V1 â\89¡ V2 & â¬\86*[f] T1 â\89¡ T2 &
+ â\88\83â\88\83V2,T2. â¬\86*[f] V1 â\89\98 V2 & â¬\86*[f] T1 â\89\98 T2 &
Y = ⓕ{I}V2.T2.
#f #X #Y * -f -X -Y
[ #f #s #J #W1 #U1 #H destruct
(* Basic_1: was: lift1_flat *)
(* Basic_2A1: includes: lift_inv_flat1 *)
-lemma lifts_inv_flat1: â\88\80f:rtmap. â\88\80I,V1,T1,Y. â¬\86*[f] â\93\95{I}V1.T1 â\89¡ Y →
- â\88\83â\88\83V2,T2. â¬\86*[f] V1 â\89¡ V2 & â¬\86*[f] T1 â\89¡ T2 &
+lemma lifts_inv_flat1: â\88\80f:rtmap. â\88\80I,V1,T1,Y. â¬\86*[f] â\93\95{I}V1.T1 â\89\98 Y →
+ â\88\83â\88\83V2,T2. â¬\86*[f] V1 â\89\98 V2 & â¬\86*[f] T1 â\89\98 T2 &
Y = ⓕ{I}V2.T2.
/2 width=3 by lifts_inv_flat1_aux/ qed-.
-fact lifts_inv_sort2_aux: â\88\80f,X,Y. â¬\86*[f] X â\89¡ Y → ∀s. Y = ⋆s → X = ⋆s.
+fact lifts_inv_sort2_aux: â\88\80f,X,Y. â¬\86*[f] X â\89\98 Y → ∀s. Y = ⋆s → X = ⋆s.
#f #X #Y * -f -X -Y //
[ #f #i1 #i2 #_ #x #H destruct
| #f #p #I #V1 #V2 #T1 #T2 #_ #_ #x #H destruct
(* Basic_1: includes: lift_gen_sort *)
(* Basic_2A1: includes: lift_inv_sort2 *)
-lemma lifts_inv_sort2: â\88\80f,X,s. â¬\86*[f] X â\89¡ ⋆s → X = ⋆s.
+lemma lifts_inv_sort2: â\88\80f,X,s. â¬\86*[f] X â\89\98 ⋆s → X = ⋆s.
/2 width=4 by lifts_inv_sort2_aux/ qed-.
-fact lifts_inv_lref2_aux: â\88\80f,X,Y. â¬\86*[f] X â\89¡ Y → ∀i2. Y = #i2 →
- â\88\83â\88\83i1. @â¦\83i1, fâ¦\84 â\89¡ i2 & X = #i1.
+fact lifts_inv_lref2_aux: â\88\80f,X,Y. â¬\86*[f] X â\89\98 Y → ∀i2. Y = #i2 →
+ â\88\83â\88\83i1. @â¦\83i1, fâ¦\84 â\89\98 i2 & X = #i1.
#f #X #Y * -f -X -Y
[ #f #s #x #H destruct
| #f #i1 #i2 #Hi12 #x #H destruct /2 width=3 by ex2_intro/
(* Basic_1: includes: lift_gen_lref lift_gen_lref_lt lift_gen_lref_false lift_gen_lref_ge *)
(* Basic_2A1: includes: lift_inv_lref2 lift_inv_lref2_lt lift_inv_lref2_be lift_inv_lref2_ge lift_inv_lref2_plus *)
-lemma lifts_inv_lref2: â\88\80f,X,i2. â¬\86*[f] X â\89¡ #i2 →
- â\88\83â\88\83i1. @â¦\83i1, fâ¦\84 â\89¡ i2 & X = #i1.
+lemma lifts_inv_lref2: â\88\80f,X,i2. â¬\86*[f] X â\89\98 #i2 →
+ â\88\83â\88\83i1. @â¦\83i1, fâ¦\84 â\89\98 i2 & X = #i1.
/2 width=3 by lifts_inv_lref2_aux/ qed-.
-fact lifts_inv_gref2_aux: â\88\80f,X,Y. â¬\86*[f] X â\89¡ Y → ∀l. Y = §l → X = §l.
+fact lifts_inv_gref2_aux: â\88\80f,X,Y. â¬\86*[f] X â\89\98 Y → ∀l. Y = §l → X = §l.
#f #X #Y * -f -X -Y //
[ #f #i1 #i2 #_ #x #H destruct
| #f #p #I #V1 #V2 #T1 #T2 #_ #_ #x #H destruct
qed-.
(* Basic_2A1: includes: lift_inv_gref1 *)
-lemma lifts_inv_gref2: â\88\80f,X,l. â¬\86*[f] X â\89¡ §l → X = §l.
+lemma lifts_inv_gref2: â\88\80f,X,l. â¬\86*[f] X â\89\98 §l → X = §l.
/2 width=4 by lifts_inv_gref2_aux/ qed-.
-fact lifts_inv_bind2_aux: â\88\80f,X,Y. â¬\86*[f] X â\89¡ Y →
+fact lifts_inv_bind2_aux: â\88\80f,X,Y. â¬\86*[f] X â\89\98 Y →
∀p,I,V2,T2. Y = ⓑ{p,I}V2.T2 →
- â\88\83â\88\83V1,T1. â¬\86*[f] V1 â\89¡ V2 & â¬\86*[â\86\91f] T1 â\89¡ T2 &
+ â\88\83â\88\83V1,T1. â¬\86*[f] V1 â\89\98 V2 & â¬\86*[⫯f] T1 â\89\98 T2 &
X = ⓑ{p,I}V1.T1.
#f #X #Y * -f -X -Y
[ #f #s #q #J #W2 #U2 #H destruct
(* Basic_1: includes: lift_gen_bind *)
(* Basic_2A1: includes: lift_inv_bind2 *)
-lemma lifts_inv_bind2: â\88\80f,p,I,V2,T2,X. â¬\86*[f] X â\89¡ ⓑ{p,I}V2.T2 →
- â\88\83â\88\83V1,T1. â¬\86*[f] V1 â\89¡ V2 & â¬\86*[â\86\91f] T1 â\89¡ T2 &
+lemma lifts_inv_bind2: â\88\80f,p,I,V2,T2,X. â¬\86*[f] X â\89\98 ⓑ{p,I}V2.T2 →
+ â\88\83â\88\83V1,T1. â¬\86*[f] V1 â\89\98 V2 & â¬\86*[⫯f] T1 â\89\98 T2 &
X = ⓑ{p,I}V1.T1.
/2 width=3 by lifts_inv_bind2_aux/ qed-.
-fact lifts_inv_flat2_aux: â\88\80f:rtmap. â\88\80X,Y. â¬\86*[f] X â\89¡ Y →
+fact lifts_inv_flat2_aux: â\88\80f:rtmap. â\88\80X,Y. â¬\86*[f] X â\89\98 Y →
∀I,V2,T2. Y = ⓕ{I}V2.T2 →
- â\88\83â\88\83V1,T1. â¬\86*[f] V1 â\89¡ V2 & â¬\86*[f] T1 â\89¡ T2 &
+ â\88\83â\88\83V1,T1. â¬\86*[f] V1 â\89\98 V2 & â¬\86*[f] T1 â\89\98 T2 &
X = ⓕ{I}V1.T1.
#f #X #Y * -f -X -Y
[ #f #s #J #W2 #U2 #H destruct
(* Basic_1: includes: lift_gen_flat *)
(* Basic_2A1: includes: lift_inv_flat2 *)
-lemma lifts_inv_flat2: â\88\80f:rtmap. â\88\80I,V2,T2,X. â¬\86*[f] X â\89¡ ⓕ{I}V2.T2 →
- â\88\83â\88\83V1,T1. â¬\86*[f] V1 â\89¡ V2 & â¬\86*[f] T1 â\89¡ T2 &
+lemma lifts_inv_flat2: â\88\80f:rtmap. â\88\80I,V2,T2,X. â¬\86*[f] X â\89\98 ⓕ{I}V2.T2 →
+ â\88\83â\88\83V1,T1. â¬\86*[f] V1 â\89\98 V2 & â¬\86*[f] T1 â\89\98 T2 &
X = ⓕ{I}V1.T1.
/2 width=3 by lifts_inv_flat2_aux/ qed-.
(* Advanced inversion lemmas ************************************************)
+lemma lifts_inv_atom1: ∀f,I,Y. ⬆*[f] ⓪{I} ≘ Y →
+ ∨∨ ∃∃s. I = Sort s & Y = ⋆s
+ | ∃∃i,j. @⦃i, f⦄ ≘ j & I = LRef i & Y = #j
+ | ∃∃l. I = GRef l & Y = §l.
+#f * #n #Y #H
+[ lapply (lifts_inv_sort1 … H)
+| elim (lifts_inv_lref1 … H)
+| lapply (lifts_inv_gref1 … H)
+] -H /3 width=5 by or3_intro0, or3_intro1, or3_intro2, ex3_2_intro, ex2_intro/
+qed-.
+
+lemma lifts_inv_atom2: ∀f,I,X. ⬆*[f] X ≘ ⓪{I} →
+ ∨∨ ∃∃s. X = ⋆s & I = Sort s
+ | ∃∃i,j. @⦃i, f⦄ ≘ j & X = #i & I = LRef j
+ | ∃∃l. X = §l & I = GRef l.
+#f * #n #X #H
+[ lapply (lifts_inv_sort2 … H)
+| elim (lifts_inv_lref2 … H)
+| lapply (lifts_inv_gref2 … H)
+] -H /3 width=5 by or3_intro0, or3_intro1, or3_intro2, ex3_2_intro, ex2_intro/
+qed-.
+
(* Basic_2A1: includes: lift_inv_pair_xy_x *)
-lemma lifts_inv_pair_xy_x: â\88\80f,I,V,T. â¬\86*[f] â\91¡{I}V.T â\89¡ V → ⊥.
+lemma lifts_inv_pair_xy_x: â\88\80f,I,V,T. â¬\86*[f] â\91¡{I}V.T â\89\98 V → ⊥.
#f #J #V elim V -V
[ * #i #U #H
[ lapply (lifts_inv_sort2 … H) -H #H destruct
(* Basic_1: includes: thead_x_lift_y_y *)
(* Basic_2A1: includes: lift_inv_pair_xy_y *)
-lemma lifts_inv_pair_xy_y: â\88\80I,T,V,f. â¬\86*[f] â\91¡{I}V.T â\89¡ T → ⊥.
+lemma lifts_inv_pair_xy_y: â\88\80I,T,V,f. â¬\86*[f] â\91¡{I}V.T â\89\98 T → ⊥.
#J #T elim T -T
[ * #i #W #f #H
[ lapply (lifts_inv_sort2 … H) -H #H destruct
]
qed-.
-lemma lifts_inv_lref1_uni: ∀l,Y,i. ⬆*[l] #i ≡ Y → Y = #(l+i).
+(* Inversion lemmas with uniform relocations ********************************)
+
+lemma lifts_inv_lref1_uni: ∀l,Y,i. ⬆*[l] #i ≘ Y → Y = #(l+i).
#l #Y #i1 #H elim (lifts_inv_lref1 … H) -H /4 width=4 by at_mono, eq_f/
qed-.
+lemma lifts_inv_lref2_uni: ∀l,X,i2. ⬆*[l] X ≘ #i2 →
+ ∃∃i1. X = #i1 & i2 = l + i1.
+#l #X #i2 #H elim (lifts_inv_lref2 … H) -H
+/3 width=3 by at_inv_uni, ex2_intro/
+qed-.
+
+lemma lifts_inv_lref2_uni_ge: ∀l,X,i. ⬆*[l] X ≘ #(l + i) → X = #i.
+#l #X #i2 #H elim (lifts_inv_lref2_uni … H) -H
+#i1 #H1 #H2 destruct /4 width=2 by injective_plus_r, eq_f, sym_eq/
+qed-.
+
+lemma lifts_inv_lref2_uni_lt: ∀l,X,i. ⬆*[l] X ≘ #i → i < l → ⊥.
+#l #X #i2 #H elim (lifts_inv_lref2_uni … H) -H
+#i1 #_ #H1 #H2 destruct /2 width=4 by lt_le_false/
+qed-.
+
(* Basic forward lemmas *****************************************************)
(* Basic_2A1: includes: lift_inv_O2 *)
-lemma lifts_fwd_isid: â\88\80f,T1,T2. â¬\86*[f] T1 â\89¡ T2 → 𝐈⦃f⦄ → T1 = T2.
+lemma lifts_fwd_isid: â\88\80f,T1,T2. â¬\86*[f] T1 â\89\98 T2 → 𝐈⦃f⦄ → T1 = T2.
#f #T1 #T2 #H elim H -f -T1 -T2
/4 width=3 by isid_inv_at_mono, isid_push, eq_f2, eq_f/
qed-.
(* Basic_2A1: includes: lift_fwd_pair1 *)
-lemma lifts_fwd_pair1: â\88\80f:rtmap. â\88\80I,V1,T1,Y. â¬\86*[f] â\91¡{I}V1.T1 â\89¡ Y →
- â\88\83â\88\83V2,T2. â¬\86*[f] V1 â\89¡ V2 & Y = ②{I}V2.T2.
+lemma lifts_fwd_pair1: â\88\80f:rtmap. â\88\80I,V1,T1,Y. â¬\86*[f] â\91¡{I}V1.T1 â\89\98 Y →
+ â\88\83â\88\83V2,T2. â¬\86*[f] V1 â\89\98 V2 & Y = ②{I}V2.T2.
#f * [ #p ] #I #V1 #T1 #Y #H
[ elim (lifts_inv_bind1 … H) -H /2 width=4 by ex2_2_intro/
| elim (lifts_inv_flat1 … H) -H /2 width=4 by ex2_2_intro/
qed-.
(* Basic_2A1: includes: lift_fwd_pair2 *)
-lemma lifts_fwd_pair2: â\88\80f:rtmap. â\88\80I,V2,T2,X. â¬\86*[f] X â\89¡ ②{I}V2.T2 →
- â\88\83â\88\83V1,T1. â¬\86*[f] V1 â\89¡ V2 & X = ②{I}V1.T1.
+lemma lifts_fwd_pair2: â\88\80f:rtmap. â\88\80I,V2,T2,X. â¬\86*[f] X â\89\98 ②{I}V2.T2 →
+ â\88\83â\88\83V1,T1. â¬\86*[f] V1 â\89\98 V2 & X = ②{I}V1.T1.
#f * [ #p ] #I #V2 #T2 #X #H
[ elim (lifts_inv_bind2 … H) -H /2 width=4 by ex2_2_intro/
| elim (lifts_inv_flat2 … H) -H /2 width=4 by ex2_2_intro/
(* Basic properties *********************************************************)
-lemma lifts_eq_repl_back: â\88\80T1,T2. eq_repl_back â\80¦ (λf. â¬\86*[f] T1 â\89¡ T2).
+lemma lifts_eq_repl_back: â\88\80T1,T2. eq_repl_back â\80¦ (λf. â¬\86*[f] T1 â\89\98 T2).
#T1 #T2 #f1 #H elim H -T1 -T2 -f1
/4 width=5 by lifts_flat, lifts_bind, lifts_lref, at_eq_repl_back, eq_push/
qed-.
-lemma lifts_eq_repl_fwd: â\88\80T1,T2. eq_repl_fwd â\80¦ (λf. â¬\86*[f] T1 â\89¡ T2).
+lemma lifts_eq_repl_fwd: â\88\80T1,T2. eq_repl_fwd â\80¦ (λf. â¬\86*[f] T1 â\89\98 T2).
#T1 #T2 @eq_repl_sym /2 width=3 by lifts_eq_repl_back/ (**) (* full auto fails *)
qed-.
(* Basic_1: includes: lift_r *)
(* Basic_2A1: includes: lift_refl *)
-lemma lifts_refl: â\88\80T,f. ð\9d\90\88â¦\83fâ¦\84 â\86\92 â¬\86*[f] T â\89¡ T.
+lemma lifts_refl: â\88\80T,f. ð\9d\90\88â¦\83fâ¦\84 â\86\92 â¬\86*[f] T â\89\98 T.
#T elim T -T *
/4 width=3 by lifts_flat, lifts_bind, lifts_lref, isid_inv_at, isid_push/
qed.
(* Basic_2A1: includes: lift_total *)
-lemma lifts_total: â\88\80T1,f. â\88\83T2. â¬\86*[f] T1 â\89¡ T2.
+lemma lifts_total: â\88\80T1,f. â\88\83T2. â¬\86*[f] T1 â\89\98 T2.
#T1 elim T1 -T1 *
/3 width=2 by lifts_lref, lifts_sort, lifts_gref, ex_intro/
[ #p ] #I #V1 #T1 #IHV1 #IHT1 #f
elim (IHV1 f) -IHV1 #V2 #HV12
-[ elim (IHT1 (â\86\91f)) -IHT1 /3 width=2 by lifts_bind, ex_intro/
+[ elim (IHT1 (⫯f)) -IHT1 /3 width=2 by lifts_bind, ex_intro/
| elim (IHT1 f) -IHT1 /3 width=2 by lifts_flat, ex_intro/
]
qed-.
-lemma lift_lref_uni: â\88\80l,i. â¬\86*[l] #i â\89¡ #(l+i).
+lemma lift_lref_uni: â\88\80l,i. â¬\86*[l] #i â\89\98 #(l+i).
#l elim l -l /2 width=1 by lifts_lref/
qed.
(* Basic_1: includes: lift_free (right to left) *)
(* Basic_2A1: includes: lift_split *)
-lemma lifts_split_trans: â\88\80f,T1,T2. â¬\86*[f] T1 â\89¡ T2 →
- â\88\80f1,f2. f2 â\8a\9a f1 â\89¡ f →
- â\88\83â\88\83T. â¬\86*[f1] T1 â\89¡ T & â¬\86*[f2] T â\89¡ T2.
+lemma lifts_split_trans: â\88\80f,T1,T2. â¬\86*[f] T1 â\89\98 T2 →
+ â\88\80f1,f2. f2 â\8a\9a f1 â\89\98 f →
+ â\88\83â\88\83T. â¬\86*[f1] T1 â\89\98 T & â¬\86*[f2] T â\89\98 T2.
#f #T1 #T2 #H elim H -f -T1 -T2
[ /3 width=3 by lifts_sort, ex2_intro/
| #f #i1 #i2 #Hi #f1 #f2 #Ht elim (after_at_fwd … Hi … Ht) -Hi -Ht
/3 width=3 by lifts_lref, ex2_intro/
| /3 width=3 by lifts_gref, ex2_intro/
| #f #p #I #V1 #V2 #T1 #T2 #_ #_ #IHV #IHT #f1 #f2 #Ht
- elim (IHV â\80¦ Ht) elim (IHT (â\86\91f1) (â\86\91f2)) -IHV -IHT
+ elim (IHV â\80¦ Ht) elim (IHT (⫯f1) (⫯f2)) -IHV -IHT
/3 width=5 by lifts_bind, after_O2, ex2_intro/
| #f #I #V1 #V2 #T1 #T2 #_ #_ #IHV #IHT #f1 #f2 #Ht
elim (IHV … Ht) elim (IHT … Ht) -IHV -IHT -Ht
qed-.
(* Note: apparently, this was missing in Basic_2A1 *)
-lemma lifts_split_div: â\88\80f1,T1,T2. â¬\86*[f1] T1 â\89¡ T2 →
- â\88\80f2,f. f2 â\8a\9a f1 â\89¡ f →
- â\88\83â\88\83T. â¬\86*[f2] T2 â\89¡ T & â¬\86*[f] T1 â\89¡ T.
+lemma lifts_split_div: â\88\80f1,T1,T2. â¬\86*[f1] T1 â\89\98 T2 →
+ â\88\80f2,f. f2 â\8a\9a f1 â\89\98 f →
+ â\88\83â\88\83T. â¬\86*[f2] T2 â\89\98 T & â¬\86*[f] T1 â\89\98 T.
#f1 #T1 #T2 #H elim H -f1 -T1 -T2
[ /3 width=3 by lifts_sort, ex2_intro/
| #f1 #i1 #i2 #Hi #f2 #f #Ht elim (after_at1_fwd … Hi … Ht) -Hi -Ht
/3 width=3 by lifts_lref, ex2_intro/
| /3 width=3 by lifts_gref, ex2_intro/
| #f1 #p #I #V1 #V2 #T1 #T2 #_ #_ #IHV #IHT #f2 #f #Ht
- elim (IHV â\80¦ Ht) elim (IHT (â\86\91f2) (â\86\91f)) -IHV -IHT
+ elim (IHV â\80¦ Ht) elim (IHT (⫯f2) (⫯f)) -IHV -IHT
/3 width=5 by lifts_bind, after_O2, ex2_intro/
| #f1 #I #V1 #V2 #T1 #T2 #_ #_ #IHV #IHT #f2 #f #Ht
elim (IHV … Ht) elim (IHT … Ht) -IHV -IHT -Ht
(* Basic_1: includes: dnf_dec2 dnf_dec *)
(* Basic_2A1: includes: is_lift_dec *)
-lemma is_lifts_dec: â\88\80T2,f. Decidable (â\88\83T1. â¬\86*[f] T1 â\89¡ T2).
+lemma is_lifts_dec: â\88\80T2,f. Decidable (â\88\83T1. â¬\86*[f] T1 â\89\98 T2).
#T1 elim T1 -T1
[ * [1,3: /3 width=2 by lifts_sort, lifts_gref, ex_intro, or_introl/ ]
#i2 #f elim (is_at_dec f i2) //
]
| * [ #p ] #I #V2 #T2 #IHV2 #IHT2 #f
[ elim (IHV2 f) -IHV2
- [ * #V1 #HV12 elim (IHT2 (â\86\91f)) -IHT2
+ [ * #V1 #HV12 elim (IHT2 (⫯f)) -IHT2
[ * #T1 #HT12 @or_introl /3 width=2 by lifts_bind, ex_intro/
| -V1 #HT2 @or_intror * #X #H
elim (lifts_inv_bind2 … H) -H /3 width=2 by ex_intro/
(* Properties with uniform relocation ***************************************)
-lemma lifts_uni: â\88\80n1,n2,T,U. â¬\86*[ð\9d\90\94â\9d´n1â\9dµâ\88\98ð\9d\90\94â\9d´n2â\9dµ] T â\89¡ U â\86\92 â¬\86*[n1+n2] T â\89¡ U.
+lemma lifts_uni: â\88\80n1,n2,T,U. â¬\86*[ð\9d\90\94â\9d´n1â\9dµâ\88\98ð\9d\90\94â\9d´n2â\9dµ] T â\89\98 U â\86\92 â¬\86*[n1+n2] T â\89\98 U.
/3 width=4 by lifts_eq_repl_back, after_inv_total/ qed.
(* Basic_2A1: removed theorems 14:
projects / helm.git / blobdiff