X-Git-Url: http://matita.cs.unibo.it/gitweb/?a=blobdiff_plain;f=helm%2Fsoftware%2Fmatita%2Flibrary%2Fformal_topology%2Fbasic_pairs.ma;h=0d51724de7114ad3eb7c2d3936856a13933ed313;hb=430d6307ae5776ed000a78358a2881cb88936c37;hp=f19e39d2a4b0cfd9cfd6de7ef7692fefce1e05f6;hpb=dd7f52dfd7f80b80368661fce5b58b644c102d7b;p=helm.git diff --git a/helm/software/matita/library/formal_topology/basic_pairs.ma b/helm/software/matita/library/formal_topology/basic_pairs.ma index f19e39d2a..0d51724de 100644 --- a/helm/software/matita/library/formal_topology/basic_pairs.ma +++ b/helm/software/matita/library/formal_topology/basic_pairs.ma @@ -30,7 +30,7 @@ interpretation "basic pair relation (non applied)" 'Vdash = (rel _). record relation_pair (BP1,BP2: basic_pair): Type ≝ { concr_rel: arrows1 ? (concr BP1) (concr BP2); form_rel: arrows1 ? (form BP1) (form BP2); - commute: concr_rel ∘ ⊩ = ⊩ ∘ form_rel + commute: ⊩ ∘ concr_rel = form_rel ∘ ⊩ }. notation "hvbox (r \sub \c)" with precedence 90 for @{'concr_rel $r}. @@ -43,7 +43,7 @@ definition relation_pair_equality: ∀o1,o2. equivalence_relation1 (relation_pair o1 o2). intros; constructor 1; - [ apply (λr,r'. r \sub\c ∘ ⊩ = r' \sub\c ∘ ⊩); + [ apply (λr,r'. ⊩ ∘ r \sub\c = ⊩ ∘ r' \sub\c); | simplify; intros; apply refl1; @@ -64,7 +64,7 @@ definition relation_pair_setoid: basic_pair → basic_pair → setoid1. ] qed. -lemma eq_to_eq': ∀o1,o2.∀r,r': relation_pair_setoid o1 o2. r=r' → ⊩ \circ r \sub\f = ⊩ \circ r'\sub\f. +lemma eq_to_eq': ∀o1,o2.∀r,r': relation_pair_setoid o1 o2. r=r' → r \sub\f ∘ ⊩ = r'\sub\f ∘ ⊩. intros 7 (o1 o2 r r' H c1 f2); split; intro H1; [ lapply (fi ?? (commute ?? r c1 f2) H1) as H2; @@ -80,8 +80,8 @@ definition id_relation_pair: ∀o:basic_pair. relation_pair o o. intro; constructor 1; [1,2: apply id1; - | lapply (id_neutral_left1 ? (concr o) ? (⊩)) as H; - lapply (id_neutral_right1 ?? (form o) (⊩)) as H1; + | lapply (id_neutral_right1 ? (concr o) ? (⊩)) as H; + lapply (id_neutral_left1 ?? (form o) (⊩)) as H1; apply (.= H); apply (H1 \sup -1);] qed. @@ -92,8 +92,8 @@ definition relation_pair_composition: constructor 1; [ intros (r r1); constructor 1; - [ apply (r \sub\c ∘ r1 \sub\c) - | apply (r \sub\f ∘ r1 \sub\f) + [ apply (r1 \sub\c ∘ r \sub\c) + | apply (r1 \sub\f ∘ r \sub\f) | lapply (commute ?? r) as H; lapply (commute ?? r1) as H1; apply (.= ASSOC1); @@ -102,9 +102,9 @@ definition relation_pair_composition: apply (.= H‡#); apply ASSOC1] | intros; - change with (a\sub\c ∘ b\sub\c ∘ ⊩ = a'\sub\c ∘ b'\sub\c ∘ ⊩); - change in H with (a \sub\c ∘ ⊩ = a' \sub\c ∘ ⊩); - change in H1 with (b \sub\c ∘ ⊩ = b' \sub\c ∘ ⊩); + change with (⊩ ∘ (b\sub\c ∘ a\sub\c) = ⊩ ∘ (b'\sub\c ∘ a'\sub\c)); + change in H with (⊩ ∘ a \sub\c = ⊩ ∘ a' \sub\c); + change in H1 with (⊩ ∘ b \sub\c = ⊩ ∘ b' \sub\c); apply (.= ASSOC1); apply (.= #‡H1); apply (.= #‡(commute ?? b')); @@ -122,19 +122,24 @@ definition BP: category1. | apply id_relation_pair | apply relation_pair_composition | intros; - change with (a12\sub\c ∘ a23\sub\c ∘ a34\sub\c ∘ ⊩ = - (a12\sub\c ∘ (a23\sub\c ∘ a34\sub\c) ∘ ⊩)); + change with (⊩ ∘ (a34\sub\c ∘ (a23\sub\c ∘ a12\sub\c)) = + ⊩ ∘ ((a34\sub\c ∘ a23\sub\c) ∘ a12\sub\c)); apply (ASSOC1‡#); | intros; - change with ((id_relation_pair o1)\sub\c ∘ a\sub\c ∘ ⊩ = a\sub\c ∘ ⊩); - apply ((id_neutral_left1 ????)‡#); - | intros; - change with (a\sub\c ∘ (id_relation_pair o2)\sub\c ∘ ⊩ = a\sub\c ∘ ⊩); + change with (⊩ ∘ (a\sub\c ∘ (id_relation_pair o1)\sub\c) = ⊩ ∘ a\sub\c); apply ((id_neutral_right1 ????)‡#); - ] + | intros; + change with (⊩ ∘ ((id_relation_pair o2)\sub\c ∘ a\sub\c) = ⊩ ∘ a\sub\c); + apply ((id_neutral_left1 ????)‡#);] qed. -definition BPext: ∀o: BP. form o ⇒ Ω \sup (concr o) ≝ λo.ext ? ? (rel o). +definition BPext: ∀o: BP. form o ⇒ Ω \sup (concr o). + intros; constructor 1; + [ apply (ext ? ? (rel o)); + | intros; + apply (.= #‡H); + apply refl1] +qed. definition BPextS: ∀o: BP. Ω \sup (form o) ⇒ Ω \sup (concr o) ≝ λo.extS ?? (rel o).