X-Git-Url: http://matita.cs.unibo.it/gitweb/?a=blobdiff_plain;f=matita%2Fmatita%2Fcontribs%2Flambdadelta%2Fapps_2%2Fmodels%2Fveq.ma;h=3d9e440a7f42980bf63ca0bd8e7aafae74927249;hb=f308429a0fde273605a2330efc63268b4ac36c99;hp=11f07c404293f8df145f2828635c0885659af203;hpb=c52e807a10cac88866b61fa458936dc5c0f5ee70;p=helm.git diff --git a/matita/matita/contribs/lambdadelta/apps_2/models/veq.ma b/matita/matita/contribs/lambdadelta/apps_2/models/veq.ma index 11f07c404..3d9e440a7 100644 --- a/matita/matita/contribs/lambdadelta/apps_2/models/veq.ma +++ b/matita/matita/contribs/lambdadelta/apps_2/models/veq.ma @@ -1,3 +1,4 @@ + (**************************************************************************) (* ___ *) (* ||M|| *) @@ -14,7 +15,7 @@ include "apps_2/models/model_props.ma". -(* EVALUATION EQUIVALENCE **************************************************) +(* EVALUATION EQUIVALENCE ***************************************************) definition veq (M): relation (evaluation M) ≝ λv1,v2. ∀d. v1 d ≗ v2 d. @@ -26,42 +27,70 @@ interpretation "evaluation equivalence (model)" lemma veq_refl (M): is_model M → reflexive … (veq M). -/2 width=1 by mq/ qed. +/2 width=1 by mr/ qed. lemma veq_repl (M): is_model M → replace_2 … (veq M) (veq M) (veq M). -/2 width=5 by mr/ qed-. +/2 width=5 by mq/ qed-. + +lemma veq_sym (M): is_model M → symmetric … (veq M). +/3 width=5 by veq_repl, veq_refl/ qed-. + +lemma veq_trans (M): is_model M → Transitive … (veq M). +/3 width=5 by veq_repl, veq_refl/ qed-. + +lemma veq_canc_sn (M): is_model M → left_cancellable … (veq M). +/3 width=3 by veq_trans, veq_sym/ qed-. + +lemma veq_canc_dx (M): is_model M → right_cancellable … (veq M). +/3 width=3 by veq_trans, veq_sym/ qed-. (* Properties with evaluation push ******************************************) -lemma push_comp (M): ∀i. compatible_3 … (push M i) (sq M) (veq M) (veq M). -#m #i #d1 #d2 #Hd12 #lv1 #lv2 #HLv12 #j -elim (lt_or_eq_or_gt j i) #Hij destruct -[ >(push_lt … Hij) >(push_lt … Hij) // -| >(push_eq …) >(push_eq …) // -| >(push_gt … Hij) >(push_gt … Hij) // +theorem vpush_swap (M): is_model M → + ∀i1,i2. i1 ≤ i2 → + ∀lv,d1,d2. ⫯[i1←d1] ⫯[i2←d2] lv ≗{M} ⫯[↑i2←d2] ⫯[i1←d1] lv. +#M #HM #i1 #i2 #Hi12 #lv #d1 #d2 #j +elim (lt_or_eq_or_gt j i1) #Hji1 destruct +[ lapply (lt_to_le_to_lt … Hji1 Hi12) #Hji2 + >vpush_lt // >vpush_lt // >vpush_lt /2 width=1 by lt_S/ >vpush_lt // + /2 width=1 by veq_refl/ +| >vpush_eq >vpush_lt /2 width=1 by monotonic_le_plus_l/ >vpush_eq + /2 width=1 by mr/ +| >vpush_gt // elim (lt_or_eq_or_gt (↓j) i2) #Hji2 destruct + [ >vpush_lt // >vpush_lt /2 width=1 by lt_minus_to_plus/ >vpush_gt // + /2 width=1 by veq_refl/ + | >vpush_eq <(lt_succ_pred … Hji1) >vpush_eq + /2 width=1 by mr/ + | lapply (le_to_lt_to_lt … Hi12 Hji2) #Hi1j + >vpush_gt // >vpush_gt /2 width=1 by lt_minus_to_plus_r/ >vpush_gt // + /2 width=1 by veq_refl/ + ] ] qed. -(* Inversion lemmas with evaluation push *************************************) +lemma vpush_comp (M): is_model M → + ∀i. compatible_3 … (vpush M i) (sq M) (veq M) (veq M). +#M #HM #i #d1 #d2 #Hd12 #lv1 #lv2 #HLv12 #j +elim (lt_or_eq_or_gt j i) #Hij destruct +[ >vpush_lt // >vpush_lt // +| >vpush_eq >vpush_eq // +| >vpush_gt // >vpush_gt // +] +qed-. -axiom veq_inv_push_sn: ∀M,lv1,y2,d1,i. ⫯[i←d1]lv1 ≗{M} y2 → - ∃∃lv2,d2. lv1 ≗ lv2 & d1 ≗ d2 & ⫯[i←d2]lv2 = y2. -(* -#M #lv1 #y2 #d1 #i #H -*) (* Properies with term interpretation ***************************************) -lemma ti_comp_l (M): is_model M → - ∀T,gv,lv1,lv2. lv1 ≗{M} lv2 → - ⟦T⟧[gv, lv1] ≗ ⟦T⟧[gv, lv2]. +lemma ti_comp (M): is_model M → + ∀T,gv1,gv2. gv1 ≗ gv2 → ∀lv1,lv2. lv1 ≗ lv2 → + ⟦T⟧[gv1,lv1] ≗{M} ⟦T⟧[gv2,lv2]. #M #HM #T elim T -T * [||| #p * | * ] -[ /4 width=3 by seq_trans, seq_sym, ms/ -| /4 width=5 by seq_sym, ml, mr/ +[ /4 width=5 by seq_trans, seq_sym, ms/ +| /4 width=5 by seq_sym, ml, mq/ | /4 width=3 by seq_trans, seq_sym, mg/ -| /5 width=5 by push_comp, seq_sym, md, mr/ -| /5 width=1 by push_comp, mi, mq/ -| /4 width=5 by seq_sym, ma, mc, mr/ -| /4 width=5 by seq_sym, me, mr/ +| /6 width=5 by vpush_comp, seq_sym, md, mc, mq/ +| /5 width=1 by vpush_comp, mi, mr/ +| /4 width=5 by seq_sym, ma, mp, mq/ +| /4 width=5 by seq_sym, me, mq/ ] qed.