------------------------------------------------------------------------
-- Products
------------------------------------------------------------------------

{-# OPTIONS --universe-polymorphism #-}

module Data.Product where

open import Function
open import Level
open import Relation.Nullary

infixr 4 _,_ _,′_
infix  4 ,_
infixr 2 _×_ _-×-_ _-,-_

------------------------------------------------------------------------
-- Definition

record Σ {a b} (A : Set a) (B : A  Set b) : Set (a  b) where
  constructor _,_
  field
    proj₁ : A
    proj₂ : B proj₁

open Σ public

 :  {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  _  B)

_,′_ :  {a b} {A : Set a} {B : Set b}  A  B  A × B
_,′_ = _,_

------------------------------------------------------------------------
-- Unique existence

-- Parametrised on the underlying equality.

∃! :  {a b } {A : Set a} 
     (A  A  Set )  (A  Set b)  Set (a  b  )
∃! _≈_ B =  λ x  B x × (∀ {y}  B y  x  y)

------------------------------------------------------------------------
-- Functions

-- Sometimes the first component can be inferred.

,_ :  {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