2015-03-13 22:28:19 +00:00
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/-
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2015-03-17 00:08:45 +00:00
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Copyright (c) 2015 Floris van Doorn. All rights reserved.
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2015-03-13 22:28:19 +00:00
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Released under Apache 2.0 license as described in the file LICENSE.
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Authors: Floris van Doorn
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-/
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2015-08-31 16:23:34 +00:00
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import algebra.category.constructions function arity
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2015-03-13 22:28:19 +00:00
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2015-08-31 16:23:34 +00:00
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open category functor nat_trans eq is_trunc iso equiv prod trunc function pi is_equiv
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2015-03-13 22:28:19 +00:00
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2015-04-29 00:48:39 +00:00
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namespace category
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variables {C D : Precategory} {F : C ⇒ D} {G : D ⇒ C}
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2015-09-01 22:00:11 +00:00
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-- TODO: define a structure "adjoint" and then define
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-- structure is_left_adjoint (F : C ⇒ D) :=
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-- (G : D ⇒ C) -- G
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-- (is_adjoint : adjoint F G)
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structure is_left_adjoint [class] (F : C ⇒ D) :=
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(G : D ⇒ C)
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(η : 1 ⟹ G ∘f F)
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(ε : F ∘f G ⟹ 1)
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(H : Π(c : C), (ε (F c)) ∘ (F (η c)) = ID (F c))
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(K : Π(d : D), (G (ε d)) ∘ (η (G d)) = ID (G d))
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abbreviation right_adjoint := @is_left_adjoint.G
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abbreviation unit := @is_left_adjoint.η
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abbreviation counit := @is_left_adjoint.ε
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2015-04-29 00:48:39 +00:00
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structure is_equivalence [class] (F : C ⇒ D) extends is_left_adjoint F :=
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mk' ::
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(is_iso_unit : is_iso η)
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(is_iso_counit : is_iso ε)
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abbreviation inverse := @is_equivalence.G
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postfix `⁻¹` := inverse
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--a second notation for the inverse, which is not overloaded
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postfix [parsing-only] `⁻¹F`:std.prec.max_plus := inverse
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--TODO: review and change
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definition faithful [class] (F : C ⇒ D) := Π⦃c c' : C⦄ ⦃f f' : c ⟶ c'⦄, F f = F f' → f = f'
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definition full [class] (F : C ⇒ D) := Π⦃c c' : C⦄, is_surjective (@(to_fun_hom F) c c')
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definition fully_faithful [class] (F : C ⇒ D) := Π(c c' : C), is_equiv (@(to_fun_hom F) c c')
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definition split_essentially_surjective [class] (F : C ⇒ D) := Π(d : D), Σ(c : C), F c ≅ d
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definition essentially_surjective [class] (F : C ⇒ D) := Π(d : D), ∃(c : C), F c ≅ d
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definition is_weak_equivalence [class] (F : C ⇒ D) := fully_faithful F × essentially_surjective F
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definition is_isomorphism [class] (F : C ⇒ D) := fully_faithful F × is_equiv (to_fun_ob F)
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structure equivalence (C D : Precategory) :=
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(to_functor : C ⇒ D)
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(struct : is_equivalence to_functor)
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structure isomorphism (C D : Precategory) :=
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(to_functor : C ⇒ D)
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(struct : is_isomorphism to_functor)
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-- infix `⊣`:55 := adjoint
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infix `⋍`:25 := equivalence -- \backsimeq or \equiv
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infix `≌`:25 := isomorphism -- \backcong or \iso
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definition is_equiv_of_fully_faithful [instance] (F : C ⇒ D) [H : fully_faithful F] (c c' : C)
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: is_equiv (@(to_fun_hom F) c c') :=
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!H
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definition is_iso_unit [instance] (F : C ⇒ D) [H : is_equivalence F] : is_iso (unit F) :=
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!is_equivalence.is_iso_unit
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definition is_iso_counit [instance] (F : C ⇒ D) [H : is_equivalence F] : is_iso (counit F) :=
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!is_equivalence.is_iso_counit
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2015-09-01 23:57:49 +00:00
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theorem is_hprop_is_left_adjoint {C : Category} {D : Precategory} (F : C ⇒ D)
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: is_hprop (is_left_adjoint F) :=
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begin
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apply is_hprop.mk,
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intro G G', cases G with G η ε H K, cases G' with G' η' ε' H' K',
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assert lem₁ : Π(p : G = G'), p ▸ η = η' → p ▸ ε = ε'
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→ is_left_adjoint.mk G η ε H K = is_left_adjoint.mk G' η' ε' H' K',
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{ intros p q r, induction p, induction q, induction r, esimp,
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apply apd011 (is_left_adjoint.mk G η ε) !is_hprop.elim !is_hprop.elim},
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assert lem₂ : Π (d : carrier D),
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(to_fun_hom G (natural_map ε' d) ∘
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natural_map η (to_fun_ob G' d)) ∘
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to_fun_hom G' (natural_map ε d) ∘
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natural_map η' (to_fun_ob G d) = id,
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{ intro d, esimp,
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rewrite [assoc],
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rewrite [-assoc (G (ε' d))],
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esimp, rewrite [nf_fn_eq_fn_nf_pt' G' ε η d],
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esimp, rewrite [assoc],
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esimp, rewrite [-assoc],
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rewrite [↑functor.compose, -respect_comp G],
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rewrite [nf_fn_eq_fn_nf_pt ε ε' d,nf_fn_eq_fn_nf_pt η' η (G d),▸*],
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rewrite [respect_comp G],
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rewrite [assoc,-assoc (G (ε d))],
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rewrite [↑functor.compose, -respect_comp G],
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rewrite [H' (G d)],
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rewrite [respect_id,id_right],
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apply K},
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assert lem₃ : Π (d : carrier D),
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(to_fun_hom G' (natural_map ε d) ∘
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natural_map η' (to_fun_ob G d)) ∘
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to_fun_hom G (natural_map ε' d) ∘
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natural_map η (to_fun_ob G' d) = id,
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{ intro d, esimp,
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rewrite [assoc, -assoc (G' (ε d))],
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esimp, rewrite [nf_fn_eq_fn_nf_pt' G ε' η' d],
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esimp, rewrite [assoc], esimp, rewrite [-assoc],
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rewrite [↑functor.compose, -respect_comp G'],
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rewrite [nf_fn_eq_fn_nf_pt ε' ε d,nf_fn_eq_fn_nf_pt η η' (G' d)],
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esimp,
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rewrite [respect_comp G'],
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rewrite [assoc,-assoc (G' (ε' d))],
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rewrite [↑functor.compose, -respect_comp G'],
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rewrite [H (G' d)],
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rewrite [respect_id,id_right],
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apply K'},
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fapply lem₁,
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{ fapply functor.eq_of_pointwise_iso,
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{ fapply change_natural_map,
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{ exact (G' ∘fn1 ε) ∘n !assoc_natural_rev ∘n (η' ∘1nf G)},
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{ intro d, exact (G' (ε d) ∘ η' (G d))},
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{ intro d, exact ap (λx, _ ∘ x) !id_left}},
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{ intro d, fconstructor,
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{ exact (G (ε' d) ∘ η (G' d))},
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{ exact lem₂ d },
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{ exact lem₃ d }}},
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{ clear lem₁, refine transport_hom_of_eq_right _ η ⬝ _,
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krewrite hom_of_eq_compose_right,
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rewrite functor.hom_of_eq_eq_of_pointwise_iso,
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apply nat_trans_eq, intro c, esimp,
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refine !assoc⁻¹ ⬝ ap (λx, _ ∘ x) (nf_fn_eq_fn_nf_pt η η' c) ⬝ !assoc ⬝ _,
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esimp, rewrite [-respect_comp G',H c,respect_id G',id_left]},
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{ clear lem₁, refine transport_hom_of_eq_left _ ε ⬝ _,
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krewrite inv_of_eq_compose_left,
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rewrite functor.inv_of_eq_eq_of_pointwise_iso,
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apply nat_trans_eq, intro d, esimp,
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rewrite [respect_comp,assoc,nf_fn_eq_fn_nf_pt ε' ε d,-assoc,▸*,H (G' d),id_right]}
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end
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definition full_of_fully_faithful (H : fully_faithful F) : full F :=
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λc c', is_surjective.mk (λg, tr (fiber.mk ((@(to_fun_hom F) c c')⁻¹ᶠ g) !right_inv))
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definition faithful_of_fully_faithful (H : fully_faithful F) : faithful F :=
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λc c' f f' p, is_injective_of_is_embedding p
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definition fully_faithful_of_full_of_faithful (H : faithful F) (K : full F) : fully_faithful F :=
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begin
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intro c c',
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apply is_equiv_of_is_surjective_of_is_embedding,
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{ apply is_embedding_of_is_injective,
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intros f f' p, exact H p},
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{ apply K}
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end
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2015-09-01 22:00:11 +00:00
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definition split_essentially_surjective_of_is_equivalence (F : C ⇒ D) [H : is_equivalence F]
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: split_essentially_surjective F :=
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begin
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intro d, fconstructor,
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{ exact F⁻¹ d},
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{ exact componentwise_iso (@(iso.mk (counit F)) !is_iso_counit) d}
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end
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/-
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definition fully_faithful_of_is_equivalence (F : C ⇒ D) [H : is_equivalence F]
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: fully_faithful F :=
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begin
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intro c c',
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fapply adjointify,
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{ intro g, exact natural_map (@(iso.inverse (unit F)) !is_iso_unit) c' ∘ F⁻¹ g ∘ unit F c},
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{ intro g, rewrite [+respect_comp,▸*],
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krewrite [natural_map_inverse], xrewrite [respect_inv'],
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apply inverse_comp_eq_of_eq_comp,
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exact sorry /-this is basically the naturality of the counit-/ },
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{ exact sorry},
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end
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2015-09-01 22:00:11 +00:00
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section
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variables (F G)
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variables (η : G ∘f F ≅ 1) (ε : F ∘f G ≅ 1)
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include η ε
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--definition inverse_of_unit_counit
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definition is_equivalence.mk : is_equivalence F :=
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begin
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exact sorry
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end
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end
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definition fully_faithful_equiv (F : C ⇒ D) : fully_faithful F ≃ (faithful F × full F) :=
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sorry
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definition is_equivalence_equiv (F : C ⇒ D)
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: is_equivalence F ≃ (fully_faithful F × split_essentially_surjective F) :=
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sorry
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definition is_hprop_is_weak_equivalence (F : C ⇒ D) : is_hprop (is_weak_equivalence F) :=
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sorry
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definition is_hprop_is_equivalence {C D : Category} (F : C ⇒ D) : is_hprop (is_equivalence F) :=
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sorry
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definition is_equivalence_equiv_is_weak_equivalence {C D : Category} (F : C ⇒ D)
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: is_equivalence F ≃ is_weak_equivalence F :=
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sorry
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definition is_hprop_is_isomorphism (F : C ⇒ D) : is_hprop (is_isomorphism F) :=
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sorry
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definition is_isomorphism_equiv1 (F : C ⇒ D) : is_equivalence F
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≃ Σ(G : D ⇒ C) (η : 1 = G ∘f F) (ε : F ∘f G = 1),
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sorry ▸ ap (λ(H : C ⇒ C), F ∘f H) η = ap (λ(H : D ⇒ D), H ∘f F) ε⁻¹ :=
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sorry
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definition is_isomorphism_equiv2 (F : C ⇒ D) : is_equivalence F
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≃ ∃(G : D ⇒ C), 1 = G ∘f F × F ∘f G = 1 :=
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sorry
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definition is_equivalence_of_isomorphism (H : is_isomorphism F) : is_equivalence F :=
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sorry
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definition is_isomorphism_of_is_equivalence {C D : Category} {F : C ⇒ D} (H : is_equivalence F)
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: is_isomorphism F :=
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sorry
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definition isomorphism_of_eq {C D : Precategory} (p : C = D) : C ≌ D :=
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sorry
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definition is_equiv_isomorphism_of_eq (C D : Precategory) : is_equiv (@isomorphism_of_eq C D) :=
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sorry
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definition equivalence_of_eq {C D : Precategory} (p : C = D) : C ⋍ D :=
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sorry
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definition is_equiv_equivalence_of_eq (C D : Category) : is_equiv (@equivalence_of_eq C D) :=
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sorry
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2015-07-27 15:34:11 +00:00
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-/
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2015-03-13 22:28:19 +00:00
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end category
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