------------------------------------------------------------------------ -- The Agda standard library -- -- Convenient syntax for reasoning with a setoid ------------------------------------------------------------------------ -- Example use: -- n*0≡0 : ∀ n → n * 0 ≡ 0 -- n*0≡0 zero = refl -- n*0≡0 (suc n) = begin -- suc n * 0 ≈⟨ refl ⟩ -- n * 0 + 0 ≈⟨ ... ⟩ -- n * 0 ≈⟨ n*0≡0 n ⟩ -- 0 ∎ -- Module `≡-Reasoning` in `Relation.Binary.PropositionalEquality` -- is recommended for equational reasoning when the underlying equality is -- `_≡_`. {-# OPTIONS --without-K --safe #-} open import Relation.Binary module Relation.Binary.Reasoning.Setoid {s₁ s₂} (S : Setoid s₁ s₂) where open Setoid S ------------------------------------------------------------------------ -- Reasoning combinators -- open import Relation.Binary.Reasoning.PartialSetoid partialSetoid public open import Relation.Binary.Reasoning.Base.Single _≈_ refl trans as Base public hiding (step-∼) infixr 2 step-≈ step-≈˘ -- A step using an equality step-≈ = Base.step-∼ syntax step-≈ x y≈z x≈y = x ≈⟨ x≈y ⟩ y≈z -- A step using a symmetric equality step-≈˘ : ∀ x {y z} → y IsRelatedTo z → y ≈ x → x IsRelatedTo z step-≈˘ x y∼z y≈x = x ≈⟨ sym y≈x ⟩ y∼z syntax step-≈˘ x y≈z y≈x = x ≈˘⟨ y≈x ⟩ y≈z
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