------------------------------------------------------------------------
-- Induced preorders
------------------------------------------------------------------------

{-# OPTIONS --universe-polymorphism #-}

open import Relation.Binary

module Relation.Binary.InducedPreorders
         {s₁ s₂}
         (S : Setoid s₁ s₂)  -- The underlying equality.
         where

open import Function
open import Data.Product

open Setoid S

-- Every respectful unary relation induces a preorder. (No claim is
-- made that this preorder is unique.)

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 _∘′_
    }
  }

-- Every respectful binary relation induces a preorder. (No claim is
-- made that this preorder is unique.)

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
    }
  }