{-# OPTIONS --without-K --safe #-}
open import Data.Product as Prod
open import Relation.Binary
module Relation.Binary.Construct.Subst.Equality
{a ℓ₁ ℓ₂} {A : Set a} {≈₁ : Rel A ℓ₁} {≈₂ : Rel A ℓ₂}
(equiv@(to , from) : ≈₁ ⇔ ≈₂)
where
open import Function.Base
refl : Reflexive ≈₁ → Reflexive ≈₂
refl refl = to refl
sym : Symmetric ≈₁ → Symmetric ≈₂
sym sym = to ∘′ sym ∘′ from
trans : Transitive ≈₁ → Transitive ≈₂
trans trans x≈y y≈z = to (trans (from x≈y) (from y≈z))
isEquivalence : IsEquivalence ≈₁ → IsEquivalence ≈₂
isEquivalence E = record
{ refl = refl E.refl
; sym = sym E.sym
; trans = trans E.trans
} where module E = IsEquivalence E