173 lines
5.7 KiB
Text
173 lines
5.7 KiB
Text
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-- Copyright (c) 2014 Microsoft Corporation. All rights reserved.
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-- Released under Apache 2.0 license as described in the file LICENSE.
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-- Author: Jeremy Avigad
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----------------------------------------------------------------------------------------------------
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import logic.connectives.prop
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-- General properties of relations
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-- -------------------------------
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namespace relation
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abbreviation reflexive {T : Type} (R : T → T → Type) : Type := ∀x, R x x
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abbreviation symmetric {T : Type} (R : T → T → Type) : Type := ∀x y, R x y → R y x
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abbreviation transitive {T : Type} (R : T → T → Type) : Type := ∀x y z, R x y → R y z → R x z
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namespace is_reflexive
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inductive class {T : Type} (R : T → T → Type) : Prop :=
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| mk : reflexive R → class R
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abbreviation app ⦃T : Type⦄ {R : T → T → Type} (C : class R) : reflexive R
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:= class_rec (λu, u) C
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abbreviation infer ⦃T : Type⦄ {R : T → T → Type} {C : class R} : reflexive R
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:= class_rec (λu, u) C
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end -- is_reflexive
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namespace is_symmetric
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inductive class {T : Type} (R : T → T → Type) : Prop :=
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| mk : symmetric R → class R
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abbreviation app ⦃T : Type⦄ {R : T → T → Type} (C : class R) ⦃x y : T⦄ (H : R x y) : R y x
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:= class_rec (λu, u) C x y H
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abbreviation infer ⦃T : Type⦄ {R : T → T → Type} {C : class R} ⦃x y : T⦄ (H : R x y) : R y x
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:= class_rec (λu, u) C x y H
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end -- is_symmetric
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namespace is_transitive
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inductive class {T : Type} (R : T → T → Type) : Prop :=
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| mk : transitive R → class R
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abbreviation app ⦃T : Type⦄ {R : T → T → Type} (C : class R) ⦃x y z : T⦄ (H1 : R x y)
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(H2 : R y z) : R x z
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:= class_rec (λu, u) C x y z H1 H2
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abbreviation infer ⦃T : Type⦄ {R : T → T → Type} {C : class R} ⦃x y z : T⦄ (H1 : R x y)
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(H2 : R y z) : R x z
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:= class_rec (λu, u) C x y z H1 H2
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end -- is_transitive
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-- Congruence for unary and binary functions
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-- -----------------------------------------
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namespace congr
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inductive class {T1 : Type} (R1 : T1 → T1 → Prop) {T2 : Type} (R2 : T2 → T2 → Prop)
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(f : T1 → T2) : Prop :=
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| mk : (∀x y, R1 x y → R2 (f x) (f y)) → class R1 R2 f
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abbreviation app {T1 : Type} {R1 : T1 → T1 → Prop} {T2 : Type} {R2 : T2 → T2 → Prop}
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{f : T1 → T2} (C : class R1 R2 f) ⦃x y : T1⦄ : R1 x y → R2 (f x) (f y) :=
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class_rec (λu, u) C x y
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theorem infer {T1 : Type} (R1 : T1 → T1 → Prop) {T2 : Type} (R2 : T2 → T2 → Prop)
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(f : T1 → T2) {C : class R1 R2 f} ⦃x y : T1⦄ : R1 x y → R2 (f x) (f y) :=
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class_rec (λu, u) C x y
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-- for binary functions
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inductive class2 {T1 : Type} (R1 : T1 → T1 → Prop) {T2 : Type} (R2 : T2 → T2 → Prop)
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{T3 : Type} (R3 : T3 → T3 → Prop) (f : T1 → T2 → T3) : Prop :=
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| mk2 : (∀(x1 y1 : T1) (x2 y2 : T2), R1 x1 y1 → R2 x2 y2 → R3 (f x1 x2) (f y1 y2)) →
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class2 R1 R2 R3 f
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abbreviation app2 {T1 : Type} {R1 : T1 → T1 → Prop} {T2 : Type} {R2 : T2 → T2 → Prop}
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{T3 : Type} {R3 : T3 → T3 → Prop}
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{f : T1 → T2 → T3} (C : class2 R1 R2 R3 f) ⦃x1 y1 : T1⦄ ⦃x2 y2 : T2⦄
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: R1 x1 y1 → R2 x2 y2 → R3 (f x1 x2) (f y1 y2) :=
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class2_rec (λu, u) C x1 y1 x2 y2
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-- ### general tools to build instances
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theorem compose
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{T2 : Type} {R2 : T2 → T2 → Prop}
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{T3 : Type} {R3 : T3 → T3 → Prop}
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{g : T2 → T3} (C2 : congr.class R2 R3 g)
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{{T1 : Type}} {R1 : T1 → T1 → Prop}
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{f : T1 → T2} (C1 : congr.class R1 R2 f) :
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congr.class R1 R3 (λx, g (f x)) :=
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mk (λx1 x2 H, app C2 (app C1 H))
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theorem compose21
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{T2 : Type} {R2 : T2 → T2 → Prop}
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{T3 : Type} {R3 : T3 → T3 → Prop}
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{T4 : Type} {R4 : T4 → T4 → Prop}
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{g : T2 → T3 → T4} (C3 : congr.class2 R2 R3 R4 g)
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⦃T1 : Type⦄ {R1 : T1 → T1 → Prop}
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{f1 : T1 → T2} (C1 : congr.class R1 R2 f1)
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{f2 : T1 → T3} (C2 : congr.class R1 R3 f2) :
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congr.class R1 R4 (λx, g (f1 x) (f2 x)) :=
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mk (λx1 x2 H, app2 C3 (app C1 H) (app C2 H))
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theorem const {T2 : Type} (R2 : T2 → T2 → Prop) (H : relation.reflexive R2)
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⦃T1 : Type⦄ (R1 : T1 → T1 → Prop) (c : T2) :
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class R1 R2 (λu : T1, c) :=
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mk (λx y H1, H c)
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end -- namespace congr
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end -- namespace relation
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-- TODO: notice these can't be in the congr namespace, if we want it visible without
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-- using congr.
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theorem congr_const [instance] {T2 : Type} (R2 : T2 → T2 → Prop)
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{C : relation.is_reflexive.class R2} ⦃T1 : Type⦄ (R1 : T1 → T1 → Prop) (c : T2) :
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relation.congr.class R1 R2 (λu : T1, c) :=
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relation.congr.const R2 (relation.is_reflexive.app C) R1 c
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theorem congr_trivial [instance] {T : Type} (R : T → T → Prop) :
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relation.congr.class R R (λu, u) :=
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relation.congr.mk (λx y H, H)
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-- Relations that can be coerced to functions / implications
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-- ---------------------------------------------------------
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namespace relation
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namespace mp_like
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inductive class {R : Type → Type → Prop} {a b : Type} (H : R a b) : Prop :=
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| mk {} : (a → b) → @class R a b H
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definition app {R : Type → Type → Prop} {a : Type} {b : Type} {H : R a b}
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(C : class H) : a → b := class_rec (λx, x) C
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definition infer ⦃R : Type → Type → Prop⦄ {a : Type} {b : Type} (H : R a b)
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{C : class H} : a → b := class_rec (λx, x) C
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end -- namespace mp_like
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-- Notation for operations on general symbols
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-- ------------------------------------------
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namespace operations
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definition refl := is_reflexive.infer
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definition symm := is_symmetric.infer
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definition trans := is_transitive.infer
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definition mp := mp_like.infer
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end -- namespace operations
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namespace symbols
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postfix `⁻¹`:100 := operations.symm
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infixr `⬝`:75 := operations.trans
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end -- namespace symbols
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end -- namespace relation
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