lean2/hott/algebra/precategory/basic.hlean

-- Copyright (c) 2014 Floris van Doorn. All rights reserved.
-- Released under Apache 2.0 license as described in the file LICENSE.
-- Author: Floris van Doorn

open eq truncation

structure precategory [class] (ob : Type) : Type :=
  (hom : ob → ob → Type)
  (homH : Π {a b : ob}, is_hset (hom a b))
  (comp : Π⦃a b c : ob⦄, hom b c → hom a b → hom a c)
  (ID : Π (a : ob), hom a a)
  (assoc : Π ⦃a b c d : ob⦄ (h : hom c d) (g : hom b c) (f : hom a b),
     comp h (comp g f) = comp (comp h g) f)
  (id_left : Π ⦃a b : ob⦄ (f : hom a b), comp !ID f = f)
  (id_right : Π ⦃a b : ob⦄ (f : hom a b), comp f !ID = f)

persistent attribute precategory [multiple-instances]

namespace precategory
  variables {ob : Type} [C : precategory ob]
  variables {a b c d : ob}
  include C
  persistent attribute homH [instance]

  definition compose := comp

  definition id [reducible] {a : ob} : hom a a := ID a

  infixr `∘` := compose
  infixl `⟶`:25 := hom -- input ⟶ using \--> (this is a different arrow than \-> (→))

  variables {h : hom c d} {g : hom b c} {f : hom a b} {i : hom a a}


  --the following is the only theorem for which "include C" is necessary if C is a variable (why?)
  theorem id_compose (a : ob) : (ID a) ∘ id = id := !id_left

  theorem left_id_unique (H : Π{b} {f : hom b a}, i ∘ f = f) : i = id :=
  calc i = i ∘ id : id_right
     ... = id     : H

  theorem right_id_unique (H : Π{b} {f : hom a b}, f ∘ i = f) : i = id :=
  calc i = id ∘ i : id_left
     ... = id     : H
end precategory

inductive Precategory : Type := mk : Π (ob : Type), precategory ob → Precategory

namespace precategory
  definition Mk {ob} (C) : Precategory := Precategory.mk ob C
  definition MK (a b c d e f g h) : Precategory := Precategory.mk a (precategory.mk b c d e f g h)

  definition objects [coercion] [reducible] (C : Precategory) : Type
  := Precategory.rec (fun c s, c) C

  definition category_instance [instance] [coercion] [reducible] (C : Precategory) : precategory (objects C)
  := Precategory.rec (fun c s, s) C

end precategory

open precategory

theorem Precategory.equal (C : Precategory) : Precategory.mk C C = C :=
  Precategory.rec (λ ob c, idp) C
chore(hott) try to move library 2014-12-12 04:14:53 +00:00			`-- Copyright (c) 2014 Floris van Doorn. All rights reserved.`
			`-- Released under Apache 2.0 license as described in the file LICENSE.`
			`-- Author: Floris van Doorn`

chore(hott) fix the types and algebra 2014-12-12 19:19:06 +00:00			`open eq truncation`
chore(hott) try to move library 2014-12-12 04:14:53 +00:00
			`structure precategory [class] (ob : Type) : Type :=`
			`(hom : ob → ob → Type)`
			`(homH : Π {a b : ob}, is_hset (hom a b))`
			`(comp : Π⦃a b c : ob⦄, hom b c → hom a b → hom a c)`
			`(ID : Π (a : ob), hom a a)`
			`(assoc : Π ⦃a b c d : ob⦄ (h : hom c d) (g : hom b c) (f : hom a b),`
chore(hott) fix the types and algebra 2014-12-12 19:19:06 +00:00			`comp h (comp g f) = comp (comp h g) f)`
			`(id_left : Π ⦃a b : ob⦄ (f : hom a b), comp !ID f = f)`
			`(id_right : Π ⦃a b : ob⦄ (f : hom a b), comp f !ID = f)`
chore(hott) try to move library 2014-12-12 04:14:53 +00:00
refactor(frontends/lean): add 'attribute' command The new command provides a uniform way to set declaration attributes. It replaces the commands: class, instance, coercion, multiple_instances, reducible, irreducible 2015-01-25 04:23:21 +00:00			`persistent attribute precategory [multiple-instances]`
feat(frontends/lean): add multiple_instances command After this commit, Lean "cuts" the search after the first instance is computed. To obtain the previous behavior, we must use the new command multiple_instances <class-name> closes #370 2014-12-22 01:18:38 +00:00
chore(hott) try to move library 2014-12-12 04:14:53 +00:00			`namespace precategory`
			`variables {ob : Type} [C : precategory ob]`
			`variables {a b c d : ob}`
			`include C`
refactor(frontends/lean): add 'attribute' command The new command provides a uniform way to set declaration attributes. It replaces the commands: class, instance, coercion, multiple_instances, reducible, irreducible 2015-01-25 04:23:21 +00:00			`persistent attribute homH [instance]`
chore(hott) try to move library 2014-12-12 04:14:53 +00:00
			`definition compose := comp`

			`definition id [reducible] {a : ob} : hom a a := ID a`

			infixr `∘` := compose
			infixl `⟶`:25 := hom -- input ⟶ using \--> (this is a different arrow than \-> (→))

			`variables {h : hom c d} {g : hom b c} {f : hom a b} {i : hom a a}`


			`--the following is the only theorem for which "include C" is necessary if C is a variable (why?)`
chore(hott) fix the types and algebra 2014-12-12 19:19:06 +00:00			`theorem id_compose (a : ob) : (ID a) ∘ id = id := !id_left`
chore(hott) try to move library 2014-12-12 04:14:53 +00:00
chore(hott) fix the types and algebra 2014-12-12 19:19:06 +00:00			`theorem left_id_unique (H : Π{b} {f : hom b a}, i ∘ f = f) : i = id :=`
			`calc i = i ∘ id : id_right`
			`... = id : H`
chore(hott) try to move library 2014-12-12 04:14:53 +00:00
chore(hott) fix the types and algebra 2014-12-12 19:19:06 +00:00			`theorem right_id_unique (H : Π{b} {f : hom a b}, f ∘ i = f) : i = id :=`
			`calc i = id ∘ i : id_left`
			`... = id : H`
chore(hott) try to move library 2014-12-12 04:14:53 +00:00			`end precategory`

			`inductive Precategory : Type := mk : Π (ob : Type), precategory ob → Precategory`

			`namespace precategory`
			`definition Mk {ob} (C) : Precategory := Precategory.mk ob C`
			`definition MK (a b c d e f g h) : Precategory := Precategory.mk a (precategory.mk b c d e f g h)`

			`definition objects [coercion] [reducible] (C : Precategory) : Type`
			`:= Precategory.rec (fun c s, c) C`

			`definition category_instance [instance] [coercion] [reducible] (C : Precategory) : precategory (objects C)`
			`:= Precategory.rec (fun c s, s) C`

			`end precategory`

			`open precategory`

chore(hott) fix the types and algebra 2014-12-12 19:19:06 +00:00			`theorem Precategory.equal (C : Precategory) : Precategory.mk C C = C :=`
chore(hott) try to move library 2014-12-12 04:14:53 +00:00			`Precategory.rec (λ ob c, idp) C`