{-# OPTIONS --without-K --safe #-}
open import Relation.Binary
module Relation.Binary.Properties.Setoid {a ℓ} (S : Setoid a ℓ) where
open Setoid S
open import Data.Product using (_,_)
open import Function using (_∘_; _$_)
open import Relation.Nullary using (¬_)
open import Relation.Binary.PropositionalEquality as P using (_≡_)
isPreorder : IsPreorder _≡_ _≈_
isPreorder = record
{ isEquivalence = P.isEquivalence
; reflexive = reflexive
; trans = trans
}
preorder : Preorder a a ℓ
preorder = record
{ isPreorder = isPreorder
}
≉-sym : Symmetric _≉_
≉-sym x≉y = x≉y ∘ sym
≉-respˡ : _≉_ Respectsˡ _≈_
≉-respˡ x≈x' x≉y = x≉y ∘ trans x≈x'
≉-respʳ : _≉_ Respectsʳ _≈_
≉-respʳ y≈y' x≉y x≈y' = x≉y $ trans x≈y' (sym y≈y')
≉-resp₂ : _≉_ Respects₂ _≈_
≉-resp₂ = ≉-respʳ , ≉-respˡ