lean2/hott/algebra/groupoid.hlean

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-- Copyright (c) 2014 Jakob von Raumer. All rights reserved.
-- Released under Apache 2.0 license as described in the file LICENSE.
-- Author: Jakob von Raumer
-- Ported from Coq HoTT
import .precategory.basic .precategory.morphism .group
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open eq function prod sigma truncation morphism nat path_algebra unit
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structure foo (A : Type) := (bsp : A)
structure groupoid [class] (ob : Type) extends precategory ob :=
(all_iso : Π ⦃a b : ob⦄ (f : hom a b),
@is_iso ob (precategory.mk hom _ _ _ assoc id_left id_right) a b f)
namespace groupoid
persistent attribute all_iso [instance]
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--set_option pp.universes true
--set_option pp.implicit true
universe variable l
open precategory
definition path_groupoid (A : Type.{l})
(H : is_trunc (nat.zero .+1) A) : groupoid.{l l} A :=
groupoid.mk
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(λ (a b : A), a = b)
(λ (a b : A), have ish : is_hset (a = b), from succ_is_trunc nat.zero a b, ish)
(λ (a b c : A) (p : b = c) (q : a = b), q ⬝ p)
(λ (a : A), refl a)
(λ (a b c d : A) (p : c = d) (q : b = c) (r : a = b), concat_pp_p r q p)
(λ (a b : A) (p : a = b), concat_p1 p)
(λ (a b : A) (p : a = b), concat_1p p)
(λ (a b : A) (p : a = b), @is_iso.mk A _ a b p (p⁻¹)
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!concat_pV !concat_Vp)
-- A groupoid with a contractible carrier is a group
definition group_of_contr {ob : Type} (H : is_contr ob)
(G : groupoid ob) : group (hom (center ob) (center ob)) :=
begin
fapply group.mk,
intros (f, g), apply (comp f g),
apply homH,
intros (f, g, h), apply ((assoc f g h)⁻¹),
apply (ID (center ob)),
intro f, apply id_left,
intro f, apply id_right,
intro f, exact (morphism.inverse f),
intro f, exact (morphism.inverse_compose f),
end
definition group_of_unit (G : groupoid unit) : group (hom ⋆ ⋆) :=
begin
fapply group.mk,
intros (f, g), apply (comp f g),
apply homH,
intros (f, g, h), apply ((assoc f g h)⁻¹),
apply (ID ⋆),
intro f, apply id_left,
intro f, apply id_right,
intro f, exact (morphism.inverse f),
intro f, exact (morphism.inverse_compose f),
end
-- Conversely we can turn each group into a groupoid on the unit type
definition of_group (A : Type.{l}) [G : group A] : groupoid.{l l} unit :=
begin
fapply groupoid.mk,
intros, exact A,
intros, apply (@group.carrier_hset A G),
intros (a, b, c, g, h), exact (@group.mul A G g h),
intro a, exact (@group.one A G),
intros, exact ((@group.mul_assoc A G h g f)⁻¹),
intros, exact (@group.mul_left_id A G f),
intros, exact (@group.mul_right_id A G f),
intros, apply is_iso.mk,
apply mul_left_inv,
apply mul_right_inv,
end
-- TODO: This is probably wrong
open equiv is_equiv
definition group_equiv {A : Type.{l}} [fx : funext]
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: group A ≃ Σ (G : groupoid.{l l} unit), @hom unit G ⋆ ⋆ = A :=
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sorry
end groupoid