{-# OPTIONS --cubical-compatible --safe #-}
open import Relation.Binary.Bundles using (StrictTotalOrder)
module Data.Tree.AVL.Sets
{a ℓ₁ ℓ₂} (strictTotalOrder : StrictTotalOrder a ℓ₁ ℓ₂)
where
open import Data.Bool.Base using (Bool)
open import Data.List.Base as List using (List)
open import Data.Maybe.Base as Maybe
open import Data.Nat.Base using (ℕ)
open import Data.Product.Base as Prod using (_×_; _,_; proj₁)
open import Data.Unit.Base
open import Function.Base
open import Level using (Level; _⊔_)
private
variable
b : Level
B : Set b
import Data.Tree.AVL.Map strictTotalOrder as AVL
open StrictTotalOrder strictTotalOrder renaming (Carrier to A)
⟨Set⟩ : Set (a ⊔ ℓ₂)
⟨Set⟩ = AVL.Map ⊤
empty : ⟨Set⟩
empty = AVL.empty
singleton : A → ⟨Set⟩
singleton k = AVL.singleton k _
insert : A → ⟨Set⟩ → ⟨Set⟩
insert k = AVL.insert k _
delete : A → ⟨Set⟩ → ⟨Set⟩
delete = AVL.delete
member : A → ⟨Set⟩ → Bool
member = AVL.member
headTail : ⟨Set⟩ → Maybe (A × ⟨Set⟩)
headTail s = Maybe.map (Prod.map₁ proj₁) (AVL.headTail s)
initLast : ⟨Set⟩ → Maybe (⟨Set⟩ × A)
initLast s = Maybe.map (Prod.map₂ proj₁) (AVL.initLast s)
fromList : List A → ⟨Set⟩
fromList = AVL.fromList ∘ List.map (_, _)
toList : ⟨Set⟩ → List A
toList = List.map proj₁ ∘ AVL.toList
foldr : (A → B → B) → B → ⟨Set⟩ → B
foldr cons nil = AVL.foldr (const ∘′ cons) nil
size : ⟨Set⟩ → ℕ
size = AVL.size
union : ⟨Set⟩ → ⟨Set⟩ → ⟨Set⟩
union = AVL.union
unions : List ⟨Set⟩ → ⟨Set⟩
unions = AVL.unions
intersection : ⟨Set⟩ → ⟨Set⟩ → ⟨Set⟩
intersection = AVL.intersection
intersections : List ⟨Set⟩ → ⟨Set⟩
intersections = AVL.intersections
infixl 4 _∈?_
_∈?_ : A → ⟨Set⟩ → Bool
_∈?_ = member
{-# WARNING_ON_USAGE _∈?_
"Warning: _∈?_ was deprecated in v2.0.
Please use member instead."
#-}