{-# OPTIONS --universe-polymorphism #-}
open import Relation.Binary
module Relation.Binary.InducedPreorders
{s₁ s₂}
(S : Setoid s₁ s₂)
where
open import Function
open import Data.Product
open Setoid S
InducedPreorder₁ : ∀ {p} (P : Carrier → Set p) →
P Respects _≈_ → Preorder _ _ _
InducedPreorder₁ P resp = record
{ _≈_ = _≈_
; _∼_ = λ c₁ c₂ → P c₁ → P c₂
; isPreorder = record
{ isEquivalence = isEquivalence
; reflexive = resp
; trans = flip _∘′_
}
}
InducedPreorder₂ : ∀ {a r} {A : Set a} →
(_R_ : A → Carrier → Set r) →
(∀ {x} → _R_ x Respects _≈_) → Preorder _ _ _
InducedPreorder₂ _R_ resp = record
{ _≈_ = _≈_
; _∼_ = λ c₁ c₂ → ∀ {a} → a R c₁ → a R c₂
; isPreorder = record
{ isEquivalence = isEquivalence
; reflexive = λ c₁≈c₂ → resp c₁≈c₂
; trans = λ c₁∼c₂ c₂∼c₃ → c₂∼c₃ ∘ c₁∼c₂
}
}