X-Git-Url: http://git.megacz.com/?p=coq-hetmet.git;a=blobdiff_plain;f=src%2FReificationsIsomorphicToGeneralizedArrows.v;h=1542b462b3389d32504996d544aa38cff958da07;hp=5163c2680917a385dd58789c3ac01b8adbb603f7;hb=ec8ee5cde986e5b38bcae38cda9e63eba94f1d9f;hpb=d2526b193694dd7a5c7ab9d80d6b6656a7459bb9 diff --git a/src/ReificationsIsomorphicToGeneralizedArrows.v b/src/ReificationsIsomorphicToGeneralizedArrows.v index 5163c26..1542b46 100644 --- a/src/ReificationsIsomorphicToGeneralizedArrows.v +++ b/src/ReificationsIsomorphicToGeneralizedArrows.v @@ -1,7 +1,7 @@ (*********************************************************************************************************************************) -(* ReificationsEquivalentToGeneralizedArrows: *) +(* ReificationsIsomorphicToGeneralizedArrows: *) (* *) -(* The category of generalized arrows and the category of reifications are equivalent categories. *) +(* The category of generalized arrows and the category of reifications are isomorphic categories. *) (* *) (*********************************************************************************************************************************) @@ -27,11 +27,19 @@ Require Import GeneralizedArrowFromReification. Require Import ReificationFromGeneralizedArrow. Require Import ReificationCategory. Require Import GeneralizedArrowCategory. -Require Import ReificationsEquivalentToGeneralizedArrows. +Require Import ReificationCategory. +Require Import ReificationsAndGeneralizedArrows. Require Import WeakFunctorCategory. Section ReificationsIsomorphicToGeneralizedArrows. + Lemma step1_lemma (s0 s1 s2:SmallSMMEs.SMMEs)(r01:Reification s0 s1 (me_i s1))(r12:Reification s1 s2 (me_i s2)) : + (step1_functor s0 s1 r01 >>>> + InclusionFunctor (enr_v s1) (FullImage (HomFunctor s1 (me_i s1)))) >>>> step1_functor s1 s2 r12 + ≃ step1_functor s0 s2 (compose_reifications s0 s1 s2 r01 r12). + admit. + Defined. + Definition M1 {c1 c2 : SmallSMMEs.SMMEs} : (c1 ~~{ MorphismsOfCategoryOfGeneralizedArrows }~~> c2) -> (c1 ~~{ MorphismsOfCategoryOfReifications }~~> c2). @@ -42,16 +50,72 @@ Section ReificationsIsomorphicToGeneralizedArrows. apply g. Defined. + (* I tried really hard to avoid this *) + Require Import Coq.Logic.Eqdep. + + Inductive Heq : forall {A}{B}, A -> B -> Prop := + heq : forall {A} (a:A), Heq a a. + + Lemma invert_ga' : forall (a b: SMME) + (f:a~~{MorphismsOfCategoryOfGeneralizedArrows}~~>b), a=b -> + (Heq f (gaoi_id a)) \/ (exists f', Heq f (gaoi_ga a b f')). + intros. + destruct f. + left; apply heq. + subst; right. + exists g. + apply heq. + Defined. + Lemma invert_ga : forall (a: SMME) (f:a~~{MorphismsOfCategoryOfGeneralizedArrows}~~>a), (f = gaoi_id _) \/ (exists f', f = gaoi_ga _ _ f'). - admit. + intros. + set (invert_ga' a a f (refl_equal a)) as q. + destruct q. + left. + inversion H. + apply inj_pairT2 in H2. + apply inj_pairT2 in H1. + subst; auto. + right. + destruct H. + exists x. + inversion H. + apply inj_pairT2 in H2. + apply inj_pairT2 in H1. + subst; auto. Qed. + Lemma invert_reif' : forall (a b: SMME) + (f:a~~{MorphismsOfCategoryOfReifications}~~>b), a=b -> + (Heq f (roi_id a)) \/ (exists f', Heq f (roi_reif a b f')). + intros. + destruct f. + left; apply heq. + subst; right. + exists r. + apply heq. + Defined. + Lemma invert_reif : forall (a: SMME) (f:a~~{MorphismsOfCategoryOfReifications}~~>a), (f = roi_id _) \/ (exists f', f = roi_reif _ _ f'). - admit. + intros. + set (invert_reif' a a f (refl_equal a)) as q. + destruct q. + left. + inversion H. + apply inj_pairT2 in H2. + apply inj_pairT2 in H1. + subst; auto. + right. + destruct H. + exists x. + inversion H. + apply inj_pairT2 in H2. + apply inj_pairT2 in H1. + subst; auto. Qed. Definition M1_Functor : Functor MorphismsOfCategoryOfGeneralizedArrows MorphismsOfCategoryOfReifications (fun x => x). @@ -81,7 +145,7 @@ Section ReificationsIsomorphicToGeneralizedArrows. apply if_id. unfold mf_f; simpl. apply (if_associativity - ((ga_functor g0 >>>> RepresentableFunctor s0 (mon_i s0))) (ga_functor g) (RepresentableFunctor s2 (me_i s2))). + ((ga_functor g0 >>>> HomFunctor s0 (mon_i s0))) (ga_functor g) (HomFunctor s2 (me_i s2))). Defined. Definition M2 (c1 c2 : SmallSMMEs.SMMEs) : @@ -150,12 +214,37 @@ Section ReificationsIsomorphicToGeneralizedArrows. apply if_id. unfold mf_f; simpl. apply (if_respects - (F0:=((garrow_functor s1 s0 r >>>> RepresentableFunctor s0 (mon_i s0)) >>>> garrow_functor s0 s2 r0)) + (F0:=((garrow_functor s1 s0 r >>>> HomFunctor s0 (mon_i s0)) >>>> garrow_functor s0 s2 r0)) (F1:=(garrow_functor s1 s2 (compose_reifications s1 s0 s2 r r0))) - (G0:=(RepresentableFunctor s2 (mon_i s2))) - (G1:=(RepresentableFunctor s2 (mon_i s2)))); + (G0:=(HomFunctor s2 (mon_i s2))) + (G1:=(HomFunctor s2 (mon_i s2)))); [ idtac | apply if_id ]. - admit. + eapply if_comp. + idtac. + apply (if_associativity (garrow_functor s1 s0 r) (HomFunctor s0 (mon_i s0)) (garrow_functor s0 s2 r0)). + idtac. + unfold garrow_functor at 1. + unfold step2_functor at 1. + set (roundtrip_lemma' + (HomFunctor (enr_c (smme_e s0)) (me_i (smme_mon s0))) + (ffme_mf_full (smme_mee s0)) (ffme_mf_faithful (smme_mee s0)) + (step1_functor (smme_see s1) (smme_mee s0) r) + ) as q. + set (if_respects + (G0:=garrow_functor (smme_see s0) (smme_mee s2) r0) + (G1:=garrow_functor (smme_see s0) (smme_mee s2) r0) + q (if_id _)) as q'. + apply (if_comp q'). + clear q' q. + unfold garrow_functor at 2. + unfold garrow_functor at 1. + eapply if_comp. + eapply if_inv. + apply (if_associativity _ (step1_functor s0 s2 r0) (step2_functor s2)). + apply (if_respects + (G0:=step2_functor s2) + (G1:=step2_functor s2)); [ idtac | apply if_id ]. + apply step1_lemma. Defined. Theorem ReificationsAreGArrows : IsomorphicCategories CategoryOfGeneralizedArrows CategoryOfReifications. @@ -170,7 +259,7 @@ Section ReificationsIsomorphicToGeneralizedArrows. clear H. unfold mf_f in q. apply (if_respects(F0:=ga_functor g)(F1:=garrow_functor s1 s2 (reification_from_garrow s1 s2 g)) - (G0:=RepresentableFunctor s2 (mon_i s2))(G1:=RepresentableFunctor s2 (mon_i s2))). + (G0:=HomFunctor s2 (mon_i s2))(G1:=HomFunctor s2 (mon_i s2))). apply q. apply if_id.