X-Git-Url: http://git.megacz.com/?p=coq-hetmet.git;a=blobdiff_plain;f=src%2FGeneralizedArrowCategory.v;h=7d8b20be4c7bb9db1ce5ff375a958fb0487f825e;hp=d98f85ace1934d03df00424a4ef1a154edc8e0b3;hb=ec8ee5cde986e5b38bcae38cda9e63eba94f1d9f;hpb=992203bb4a221ea2f415c0d14bb34d35af2ee637 diff --git a/src/GeneralizedArrowCategory.v b/src/GeneralizedArrowCategory.v index d98f85a..7d8b20b 100644 --- a/src/GeneralizedArrowCategory.v +++ b/src/GeneralizedArrowCategory.v @@ -23,7 +23,81 @@ Require Import Coherence_ch7_8. Require Import Enrichment_ch2_8. Require Import RepresentableStructure_ch7_2. Require Import GeneralizedArrow. +Require Import WeakFunctorCategory. +Require Import SmallSMMEs. -Instance CategoryOfGeneralizedArrows : Category SMME GeneralizedArrow. - admit. - Qed. +(* + * Technically reifications form merely a *semicategory* (no identity + * maps), but one can always freely adjoin identity maps (and nothing + * else) to a semicategory to get a category whose non-identity-map + * portion is identical to the original semicategory + * + * Also, technically this category has ALL enrichments (not just the + * surjective monic monoidal ones), though there maps OUT OF only the + * surjective enrichments and INTO only the monic monoidal + * enrichments. It's a big pain to do this in Coq, but sort of might + * matter in real life: a language with really severe substructural + * restrictions might fail to be monoidally enriched, meaning we can't + * use it as a host language. But that's for the next paper... + *) +Inductive GeneralizedArrowOrIdentity : SMMEs -> SMMEs -> Type := + | gaoi_id : forall smme:SMMEs, GeneralizedArrowOrIdentity smme smme + | gaoi_ga : forall s1 s2:SMMEs, GeneralizedArrow s1 s2 -> GeneralizedArrowOrIdentity s1 s2. + +Definition generalizedArrowOrIdentityFobj (s1 s2:SMMEs) (f:GeneralizedArrowOrIdentity s1 s2) : s1 -> s2 := + match f in GeneralizedArrowOrIdentity S1 S2 return S1 -> S2 with + | gaoi_id s => fun x => x + | gaoi_ga s1 s2 f => fun a => ehom(ECategory:=s2) (mon_i (smme_mon s2)) (ga_functor_obj f a) + end. + +Definition generalizedArrowOrIdentityFunc s1 s2 (f:GeneralizedArrowOrIdentity s1 s2) + : Functor s1 s2 (generalizedArrowOrIdentityFobj _ _ f) := + match f with + | gaoi_id s => functor_id _ + | gaoi_ga s1 s2 f => ga_functor f >>>> HomFunctor s2 (mon_i s2) + end. + +Definition compose_generalizedArrows (s0 s1 s2:SMMEs) : + GeneralizedArrow s0 s1 -> GeneralizedArrow s1 s2 -> GeneralizedArrow s0 s2. + intro g01. + intro g12. + refine + {| ga_functor := g01 >>>> HomFunctor s1 (mon_i s1) >>>> g12 |}. + apply MonoidalFunctorsCompose. + apply MonoidalFunctorsCompose. + apply (ga_functor_monoidal g01). + apply (me_mf s1). + apply (ga_functor_monoidal g12). + Defined. + +Definition generalizedArrowOrIdentityComp + : forall s1 s2 s3, GeneralizedArrowOrIdentity s1 s2 -> GeneralizedArrowOrIdentity s2 s3 -> GeneralizedArrowOrIdentity s1 s3. + intros. + destruct X. + apply X0. + destruct X0. + apply (gaoi_ga _ _ g). + apply (gaoi_ga _ _ (compose_generalizedArrows _ _ _ g g0)). + Defined. + +Definition MorphismsOfCategoryOfGeneralizedArrows : @SmallFunctors SMMEs. + refine {| small_func := GeneralizedArrowOrIdentity + ; small_func_id := fun s => gaoi_id s + ; small_func_func := fun smme1 smme2 f => generalizedArrowOrIdentityFunc _ _ f + ; small_func_comp := generalizedArrowOrIdentityComp + |}; intros; simpl. + apply if_id. + destruct f as [|fobj f]; simpl in *. + apply if_inv. + apply if_left_identity. + destruct g as [|gobj g]; simpl in *. + apply if_inv. + apply if_right_identity. + unfold mf_F. + idtac. + unfold mf_f. + apply if_associativity. + Defined. + +Definition CategoryOfGeneralizedArrows := + WeakFunctorCategory MorphismsOfCategoryOfGeneralizedArrows.