{-# OPTIONS --cubical-compatible --safe #-}
module Data.List.Relation.Binary.Permutation.Homogeneous where
open import Data.List.Base using (List; _∷_)
open import Data.List.Relation.Binary.Pointwise as Pointwise
using (Pointwise)
open import Level using (Level; _⊔_)
open import Relation.Binary
private
variable
a r s : Level
A : Set a
data Permutation {A : Set a} (R : Rel A r) : Rel (List A) (a ⊔ r) where
refl : ∀ {xs ys} → Pointwise R xs ys → Permutation R xs ys
prep : ∀ {xs ys x y} (eq : R x y) → Permutation R xs ys → Permutation R (x ∷ xs) (y ∷ ys)
swap : ∀ {xs ys x y x′ y′} (eq₁ : R x x′) (eq₂ : R y y′) → Permutation R xs ys → Permutation R (x ∷ y ∷ xs) (y′ ∷ x′ ∷ ys)
trans : ∀ {xs ys zs} → Permutation R xs ys → Permutation R ys zs → Permutation R xs zs
module _ {R : Rel A r} where
sym : Symmetric R → Symmetric (Permutation R)
sym R-sym (refl xs∼ys) = refl (Pointwise.symmetric R-sym xs∼ys)
sym R-sym (prep x∼x′ xs↭ys) = prep (R-sym x∼x′) (sym R-sym xs↭ys)
sym R-sym (swap x∼x′ y∼y′ xs↭ys) = swap (R-sym y∼y′) (R-sym x∼x′) (sym R-sym xs↭ys)
sym R-sym (trans xs↭ys ys↭zs) = trans (sym R-sym ys↭zs) (sym R-sym xs↭ys)
isEquivalence : Reflexive R → Symmetric R → IsEquivalence (Permutation R)
isEquivalence R-refl R-sym = record
{ refl = refl (Pointwise.refl R-refl)
; sym = sym R-sym
; trans = trans
}
setoid : Reflexive R → Symmetric R → Setoid _ _
setoid R-refl R-sym = record
{ isEquivalence = isEquivalence R-refl R-sym
}
map : ∀ {R : Rel A r} {S : Rel A s} →
(R ⇒ S) → (Permutation R ⇒ Permutation S)
map R⇒S (refl xs∼ys) = refl (Pointwise.map R⇒S xs∼ys)
map R⇒S (prep e xs∼ys) = prep (R⇒S e) (map R⇒S xs∼ys)
map R⇒S (swap e₁ e₂ xs∼ys) = swap (R⇒S e₁) (R⇒S e₂) (map R⇒S xs∼ys)
map R⇒S (trans xs∼ys ys∼zs) = trans (map R⇒S xs∼ys) (map R⇒S ys∼zs)