lean2/hott/algebra/category/constructions/cone.hlean
2015-09-28 09:09:22 -07:00

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/-
Copyright (c) 2015 Floris van Doorn. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Floris van Doorn
Cones
-/
import ..nat_trans
open functor nat_trans eq equiv is_trunc
namespace category
structure cone_obj {I C : Precategory} (F : I ⇒ C) :=
(c : C)
(η : constant_functor I c ⟹ F)
local attribute cone_obj.c [coercion]
variables {I C : Precategory} {F : I ⇒ C} {x y z : cone_obj F}
structure cone_hom (x y : cone_obj F) :=
(f : x ⟶ y)
(p : Πi, cone_obj.η y i ∘ f = cone_obj.η x i)
local attribute cone_hom.f [coercion]
definition cone_id [constructor] (x : cone_obj F) : cone_hom x x :=
cone_hom.mk id
(λi, !id_right)
definition cone_comp [constructor] (g : cone_hom y z) (f : cone_hom x y) : cone_hom x z :=
cone_hom.mk (cone_hom.f g ∘ cone_hom.f f)
abstract λi, by rewrite [assoc, +cone_hom.p] end
definition is_hprop_hom_eq [instance] [priority 1001] {ob : Type} [C : precategory ob] {x y : ob} (f g : x ⟶ y)
: is_hprop (f = g) :=
_
theorem cone_hom_eq (f f' : cone_hom x y) (q : cone_hom.f f = cone_hom.f f') : f = f' :=
begin
induction f, induction f', esimp at *, induction q, apply ap (cone_hom.mk f),
apply @is_hprop.elim, apply pi.is_trunc_pi, intro x, apply is_trunc_eq, -- type class fails
end
variable (F)
definition precategory_cone [instance] [constructor] : precategory (cone_obj F) :=
@precategory.mk _ cone_hom
abstract begin
intro x y,
assert H : cone_hom x y ≃ Σ(f : x ⟶ y), Πi, cone_obj.η y i ∘ f = cone_obj.η x i,
{ fapply equiv.MK,
{ intro f, induction f, constructor, assumption},
{ intro v, induction v, constructor, assumption},
{ intro v, induction v, reflexivity},
{ intro f, induction f, reflexivity}},
apply is_trunc.is_trunc_equiv_closed_rev, exact H,
fapply sigma.is_trunc_sigma, intros,
apply is_trunc_succ, apply pi.is_trunc_pi, intros, esimp,
/-exact _,-/ -- type class inference fails here
apply is_trunc_eq,
end end
(λx y z, cone_comp)
cone_id
abstract begin intros, apply cone_hom_eq, esimp, apply assoc end end
abstract begin intros, apply cone_hom_eq, esimp, apply id_left end end
abstract begin intros, apply cone_hom_eq, esimp, apply id_right end end
definition cone [constructor] : Precategory :=
precategory.Mk (precategory_cone F)
end category