{-# OPTIONS --safe #-}
module Cubical.Relation.Binary.Order.Poset.Properties where

open import Cubical.Foundations.Prelude
open import Cubical.Foundations.HLevels

open import Cubical.Functions.Embedding

open import Cubical.HITs.PropositionalTruncation as ∥₁

open import Cubical.Relation.Binary.Base
open import Cubical.Relation.Binary.Order.Poset.Base
open import Cubical.Relation.Binary.Order.Preorder.Base
open import Cubical.Relation.Binary.Order.StrictPoset.Base

open import Cubical.Relation.Nullary

private
  variable
     ℓ' ℓ'' : Level

module _
  {A : Type }
  {R : Rel A A ℓ'}
  where

  open BinaryRelation

  isPoset→isPreorder : IsPoset R  IsPreorder R
  isPoset→isPreorder poset = ispreorder
                             (IsPoset.is-set poset)
                             (IsPoset.is-prop-valued poset)
                             (IsPoset.is-refl poset)
                             (IsPoset.is-trans poset)

  private
    transirrefl : isTrans R  isAntisym R  isTrans (IrreflKernel R)
    transirrefl trans anti a b c (Rab , ¬a≡b) (Rbc , ¬b≡c)
      = trans a b c Rab Rbc
      , λ a≡c  ¬a≡b (anti a b Rab (subst (R b) (sym a≡c) Rbc))

  isPoset→isStrictPosetIrreflKernel : IsPoset R  IsStrictPoset (IrreflKernel R)
  isPoset→isStrictPosetIrreflKernel poset
    = isstrictposet (IsPoset.is-set poset)
                     a b  isProp× (IsPoset.is-prop-valued poset a b)
                                     (isProp¬ (a  b)))
                    (isIrreflIrreflKernel R)
                    (transirrefl (IsPoset.is-trans poset)
                                 (IsPoset.is-antisym poset))
                    (isIrrefl×isTrans→isAsym (IrreflKernel R)
                                             (isIrreflIrreflKernel R
                                             , transirrefl (IsPoset.is-trans poset)
                                                           (IsPoset.is-antisym poset)))

  isPosetInduced : IsPoset R  (B : Type ℓ'')  (f : B  A)  IsPoset (InducedRelation R (B , f))
  isPosetInduced pos B (f , emb)
    = isposet (Embedding-into-isSet→isSet (f , emb) (IsPoset.is-set pos))
               a b  IsPoset.is-prop-valued pos (f a) (f b))
               a  IsPoset.is-refl pos (f a))
               a b c  IsPoset.is-trans pos (f a) (f b) (f c))
              λ a b a≤b b≤a  isEmbedding→Inj emb a b
                (IsPoset.is-antisym pos (f a) (f b) a≤b b≤a)

Poset→Preorder : Poset  ℓ'  Preorder  ℓ'
Poset→Preorder (_ , pos) = _ , preorderstr (PosetStr._≤_ pos)
                                           (isPoset→isPreorder (PosetStr.isPoset pos))

Poset→StrictPoset : Poset  ℓ'  StrictPoset  (ℓ-max  ℓ')
Poset→StrictPoset (_ , pos)
  = _ , strictposetstr (BinaryRelation.IrreflKernel (PosetStr._≤_ pos))
                       (isPoset→isStrictPosetIrreflKernel (PosetStr.isPoset pos))