------------------------------------------------------------------------
-- The Agda standard library
--
-- Propositional equality
--
-- This file contains some core properies of propositional equality which
-- are re-exported by Relation.Binary.PropositionalEquality. They are
-- ``equality rearrangement'' lemmas.
------------------------------------------------------------------------

{-# OPTIONS --without-K --safe #-}

module Relation.Binary.PropositionalEquality.Properties where

open import Function.Base using (id; _∘_)
open import Level
open import Relation.Binary
open import Relation.Binary.PropositionalEquality.Core
open import Relation.Unary using (Pred)

private
  variable
    a p : Level
    A B C : Set a

------------------------------------------------------------------------
-- Various equality rearrangement lemmas

trans-reflʳ :  {x y : A} (p : x  y)  trans p refl  p
trans-reflʳ refl = refl

trans-assoc :  {x y z u : A} (p : x  y) {q : y  z} {r : z  u} 
  trans (trans p q) r  trans p (trans q r)
trans-assoc refl = refl

trans-symˡ :  {x y : A} (p : x  y)  trans (sym p) p  refl
trans-symˡ refl = refl

trans-symʳ :  {x y : A} (p : x  y)  trans p (sym p)  refl
trans-symʳ refl = refl

trans-injectiveˡ :  {x y z : A} {p₁ p₂ : x  y} (q : y  z) 
                   trans p₁ q  trans p₂ q  p₁  p₂
trans-injectiveˡ refl = subst₂ _≡_ (trans-reflʳ _) (trans-reflʳ _)

trans-injectiveʳ :  {x y z : A} (p : x  y) {q₁ q₂ : y  z} 
                   trans p q₁  trans p q₂  q₁  q₂
trans-injectiveʳ refl eq = eq

cong-id :  {x y : A} (p : x  y)  cong id p  p
cong-id refl = refl

cong-∘ :  {x y : A} {f : B  C} {g : A  B} (p : x  y) 
         cong (f  g) p  cong f (cong g p)
cong-∘ refl = refl

trans-cong :  {x y z : A} {f : A  B} (p : x  y) {q : y  z} 
             trans (cong f p) (cong f q)  cong f (trans p q)
trans-cong refl = refl

cong₂-reflˡ :  {_∙_ : A  B  C} {x u v}  (p : u  v) 
              cong₂ _∙_ refl p  cong (x ∙_) p
cong₂-reflˡ refl = refl

cong₂-reflʳ :  {_∙_ : A  B  C} {x y u}  (p : x  y) 
              cong₂ _∙_ p refl  cong (_∙ u) p
cong₂-reflʳ refl = refl

module _ {P : Pred A p} {x y : A} where

  subst-injective :  (x≡y : x  y) {p q : P x} 
                    subst P x≡y p  subst P x≡y q  p  q
  subst-injective refl p≡q = p≡q

  subst-subst :  {z} (x≡y : x  y) {y≡z : y  z} {p : P x} 
                subst P y≡z (subst P x≡y p)  subst P (trans x≡y y≡z) p
  subst-subst refl = refl

  subst-subst-sym : (x≡y : x  y) {p : P y} 
                    subst P x≡y (subst P (sym x≡y) p)  p
  subst-subst-sym refl = refl

  subst-sym-subst : (x≡y : x  y) {p : P x} 
                    subst P (sym x≡y) (subst P x≡y p)  p
  subst-sym-subst refl = refl

subst-∘ :  {x y : A} {P : Pred B p} {f : A  B}
          (x≡y : x  y) {p : P (f x)} 
          subst (P  f) x≡y p  subst P (cong f x≡y) p
subst-∘ refl = refl

subst-application :  {a₁ a₂ b₁ b₂} {A₁ : Set a₁} {A₂ : Set a₂}
                    (B₁ : A₁  Set b₁) {B₂ : A₂  Set b₂}
                    {f : A₂  A₁} {x₁ x₂ : A₂} {y : B₁ (f x₁)}
                    (g :  x  B₁ (f x)  B₂ x) (eq : x₁  x₂) 
                    subst B₂ eq (g x₁ y)  g x₂ (subst B₁ (cong f eq) y)
subst-application _ _ refl = refl

------------------------------------------------------------------------
-- Structure of equality as a binary relation

isEquivalence : IsEquivalence {A = A} _≡_
isEquivalence = record
  { refl  = refl
  ; sym   = sym
  ; trans = trans
  }

isDecEquivalence : Decidable _≡_  IsDecEquivalence {A = A} _≡_
isDecEquivalence _≟_ = record
  { isEquivalence = isEquivalence
  ; _≟_           = _≟_
  }

isPreorder : IsPreorder {A = A} _≡_ _≡_
isPreorder = record
  { isEquivalence = isEquivalence
  ; reflexive     = id
  ; trans         = trans
  }

------------------------------------------------------------------------
-- Bundles for equality as a binary relation

setoid : Set a  Setoid _ _
setoid A = record
  { Carrier       = A
  ; _≈_           = _≡_
  ; isEquivalence = isEquivalence
  }

decSetoid : Decidable {A = A} _≡_  DecSetoid _ _
decSetoid _≟_ = record
  { _≈_              = _≡_
  ; isDecEquivalence = isDecEquivalence _≟_
  }

preorder : Set a  Preorder _ _ _
preorder A = record
  { Carrier    = A
  ; _≈_        = _≡_
  ; _∼_        = _≡_
  ; isPreorder = isPreorder
  }

Generated from commit 2fd14c996b195ef101dff8919e837907ca0a08aa.