{-# OPTIONS --universe-polymorphism #-}
module Data.Product where
open import Function
open import Level
open import Relation.Nullary
infixr 4 _,_ _,′_
infix 4 ,_
infixr 2 _×_ _-×-_ _-,-_
record ∃ {a b} {A : Set a} (B : A → Set b) : Set (a ⊔ b) where
constructor _,_
field
proj₁ : A
proj₂ : B proj₁
open ∃ public
Σ : ∀ {a b} (A : Set a) → (A → Set b) → Set (a ⊔ b)
Σ _ = ∃
∄ : ∀ {a b} {A : Set a} → (A → Set b) → Set (a ⊔ b)
∄ P = ¬ ∃ P
∃₂ : ∀ {a b c} {A : Set a} {B : A → Set b}
(C : (x : A) → B x → Set c) → Set (a ⊔ b ⊔ c)
∃₂ C = ∃ λ a → ∃ λ b → C a b
_×_ : ∀ {a b} (A : Set a) (B : Set b) → Set (a ⊔ b)
A × B = Σ A (λ _ → B)
_,′_ : ∀ {a b} {A : Set a} {B : Set b} → A → B → A × B
_,′_ = _,_
∃! : ∀ {a b ℓ} {A : Set a} →
(A → A → Set ℓ) → (A → Set b) → Set (a ⊔ b ⊔ ℓ)
∃! _≈_ B = ∃ λ x → B x × (∀ {y} → B y → x ≈ y)
,_ : ∀ {a b} {A : Set a} {B : A → Set b} {x} → B x → ∃ B
, y = _ , y
<_,_> : ∀ {a b c} {A : Set a} {B : A → Set b} {C : ∀ {x} → B x → Set c}
(f : (x : A) → B x) → ((x : A) → C (f x)) →
((x : A) → Σ (B x) C)
< f , g > x = (f x , g x)
map : ∀ {a b p q}
{A : Set a} {B : Set b} {P : A → Set p} {Q : B → Set q} →
(f : A → B) → (∀ {x} → P x → Q (f x)) →
Σ A P → Σ B Q
map f g = < f ∘ proj₁ , g ∘ proj₂ >
zip : ∀ {a b c p q r}
{A : Set a} {B : Set b} {C : Set c}
{P : A → Set p} {Q : B → Set q} {R : C → Set r} →
(_∙_ : A → B → C) →
(∀ {x y} → P x → Q y → R (x ∙ y)) →
Σ A P → Σ B Q → Σ C R
zip _∙_ _∘_ p₁ p₂ = (proj₁ p₁ ∙ proj₁ p₂ , proj₂ p₁ ∘ proj₂ p₂)
swap : ∀ {a b} {A : Set a} {B : Set b} → A × B → B × A
swap = < proj₂ , proj₁ >
_-×-_ : ∀ {a b i j} {A : Set a} {B : Set b} →
(A → B → Set i) → (A → B → Set j) → (A → B → Set _)
f -×- g = f -[ _×_ ]- g
_-,-_ : ∀ {a b c d} {A : Set a} {B : Set b} {C : Set c} {D : Set d} →
(A → B → C) → (A → B → D) → (A → B → C × D)
f -,- g = f -[ _,_ ]- g
curry : ∀ {a b c} {A : Set a} {B : A → Set b} {C : Σ A B → Set c} →
((p : Σ A B) → C p) →
((x : A) → (y : B x) → C (x , y))
curry f x y = f (x , y)
uncurry : ∀ {a b c} {A : Set a} {B : A → Set b} {C : Σ A B → Set c} →
((x : A) → (y : B x) → C (x , y)) →
((p : Σ A B) → C p)
uncurry f p = f (proj₁ p) (proj₂ p)
uncurry′ : ∀ {a b c} {A : Set a} {B : Set b} {C : Set c} →
(A → B → C) → (A × B → C)
uncurry′ = uncurry