------------------------------------------------------------------------ -- The Agda standard library -- -- Properties satisfied by posets ------------------------------------------------------------------------ {-# OPTIONS --without-K --safe #-} open import Function.Base using (flip; _∘_) open import Relation.Binary import Relation.Binary.Consequences as Consequences open import Relation.Nullary using (¬_) module Relation.Binary.Properties.Poset {p₁ p₂ p₃} (P : Poset p₁ p₂ p₃) where open Poset P renaming (Carrier to A) import Relation.Binary.Construct.NonStrictToStrict _≈_ _≤_ as ToStrict import Relation.Binary.Properties.Preorder preorder as PreorderProperties open Eq using (_≉_) ------------------------------------------------------------------------ -- The _≥_ relation is also a poset. infix 4 _≥_ _≥_ : Rel A p₃ x ≥ y = y ≤ x open PreorderProperties public using () renaming ( invIsPreorder to ≥-isPreorder ; invPreorder to ≥-preorder ) ≥-isPartialOrder : IsPartialOrder _≈_ _≥_ ≥-isPartialOrder = record { isPreorder = PreorderProperties.invIsPreorder ; antisym = flip antisym } ≥-poset : Poset p₁ p₂ p₃ ≥-poset = record { isPartialOrder = ≥-isPartialOrder } open Poset ≥-poset public using () renaming ( refl to ≥-refl ; reflexive to ≥-reflexive ; trans to ≥-trans ; antisym to ≥-antisym ) ------------------------------------------------------------------------ -- Negated order infix 4 _≰_ _≰_ : Rel A p₃ x ≰ y = ¬ (x ≤ y) ≰-respˡ-≈ : _≰_ Respectsˡ _≈_ ≰-respˡ-≈ x≈y = _∘ ≤-respˡ-≈ (Eq.sym x≈y) ≰-respʳ-≈ : _≰_ Respectsʳ _≈_ ≰-respʳ-≈ x≈y = _∘ ≤-respʳ-≈ (Eq.sym x≈y) ------------------------------------------------------------------------ -- Partial orders can be turned into strict partial orders infix 4 _<_ _<_ : Rel A _ _<_ = ToStrict._<_ <-isStrictPartialOrder : IsStrictPartialOrder _≈_ _<_ <-isStrictPartialOrder = ToStrict.<-isStrictPartialOrder isPartialOrder <-strictPartialOrder : StrictPartialOrder _ _ _ <-strictPartialOrder = record { isStrictPartialOrder = <-isStrictPartialOrder } open StrictPartialOrder <-strictPartialOrder public using ( <-resp-≈; <-respʳ-≈; <-respˡ-≈) renaming ( irrefl to <-irrefl ; asym to <-asym ; trans to <-trans ) <⇒≉ : ∀ {x y} → x < y → x ≉ y <⇒≉ = ToStrict.<⇒≉ ≤∧≉⇒< : ∀ {x y} → x ≤ y → x ≉ y → x < y ≤∧≉⇒< = ToStrict.≤∧≉⇒< <⇒≱ : ∀ {x y} → x < y → ¬ (y ≤ x) <⇒≱ = ToStrict.<⇒≱ antisym ≤⇒≯ : ∀ {x y} → x ≤ y → ¬ (y < x) ≤⇒≯ = ToStrict.≤⇒≯ antisym ------------------------------------------------------------------------ -- Other properties mono⇒cong : ∀ {f} → f Preserves _≤_ ⟶ _≤_ → f Preserves _≈_ ⟶ _≈_ mono⇒cong = Consequences.mono⇒cong _≈_ _≈_ Eq.sym reflexive antisym antimono⇒cong : ∀ {f} → f Preserves _≤_ ⟶ _≥_ → f Preserves _≈_ ⟶ _≈_ antimono⇒cong = Consequences.antimono⇒cong _≈_ _≈_ Eq.sym reflexive antisym ------------------------------------------------------------------------ -- DEPRECATED NAMES ------------------------------------------------------------------------ -- Please use the new names as continuing support for the old names is -- not guaranteed. -- Version 1.2 invIsPartialOrder = ≥-isPartialOrder {-# WARNING_ON_USAGE invIsPartialOrder "Warning: invIsPartialOrder was deprecated in v1.2. Please use ≥-isPartialOrder instead." #-} invPoset = ≥-poset {-# WARNING_ON_USAGE invPoset "Warning: invPoset was deprecated in v1.2. Please use ≥-poset instead." #-} strictPartialOrder = <-strictPartialOrder {-# WARNING_ON_USAGE strictPartialOrder "Warning: strictPartialOrder was deprecated in v1.2. Please use <-strictPartialOrder instead." #-}