bat/tests/syntax-tests/highlighted/PureScript/test.purs
2020-10-14 08:43:11 +02:00

89 lines
12 KiB
Text
Vendored
Raw Blame History

This file contains invisible Unicode characters

This file contains invisible Unicode characters that are indistinguishable to humans but may be processed differently by a computer. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

-- | This module defines a datatype `Pair` together with a few useful instances
-- | and helper functions. Note that this is not just `Tuple a a` but rather a
-- | list with exactly two elements. Specifically, the `Functor` instance maps
-- | over both values (in contrast to the `Functor` instance for `Tuple a`).
module Data.Pair
 ( Pair(..)
 , (~)
 , fst
 , snd
 , curry
 , uncurry
 , swap
 ) where
import Prelude
import Data.Foldable (class Foldable)
import Data.Traversable (class Traversable)
import Data.Distributive (class Distributive)
import Test.QuickCheck.Arbitrary (class Arbitrary, arbitrary)
-- | A pair simply consists of two values of the same type.
data Pair a = Pair a a
infixl 6 Pair as ~
-- | Returns the first component of a pair.
fst ∷ ∀ a. Pair a → a
fst (x ~ _) = x
-- | Returns the second component of a pair.
snd ∷ ∀ a. Pair a → a
snd (_ ~ y) = y
-- | Turn a function that expects a pair into a function of two arguments.
curry ∷ ∀ a b. (Pair a → b) → a → a → b
curry f x y = f (x ~ y)
-- | Turn a function of two arguments into a function that expects a pair.
uncurry ∷ ∀ a b. (a → a → b) → Pair a → b
uncurry f (x ~ y) = f x y
-- | Exchange the two components of the pair
swap ∷ ∀ a. Pair a → Pair a
swap (x ~ y) = y ~ x
derive instance eqPair ∷ Eq a ⇒ Eq (Pair a)
derive instance ordPair ∷ Ord a ⇒ Ord (Pair a)
instance showPair ∷ Show a ⇒ Show (Pair a) where
 show (x ~ y) = "(" <> show x <> " ~ " <> show y <> ")"
instance functorPair ∷ Functor Pair where
 map f (x ~ y) = f x ~ f y
instance applyPair ∷ Apply Pair where
 apply (f ~ g) (x ~ y) = f x ~ g y
instance applicativePair ∷ Applicative Pair where
 pure x = x ~ x
instance bindPair ∷ Bind Pair where
 bind (x ~ y) f = fst (f x) ~ snd (f y)
instance monadPair ∷ Monad Pair
instance semigroupPair ∷ Semigroup a ⇒ Semigroup (Pair a) where
 append (x1 ~ y1) (x2 ~ y2) = (x1 <> x2) ~ (y1 <> y2)
instance monoidPair ∷ Monoid a ⇒ Monoid (Pair a) where
 mempty = mempty ~ mempty
instance foldablePair ∷ Foldable Pair where
 foldr f z (Pair x y) = x `f` (y `f` z)
 foldl f z (Pair x y) = (z `f` x) `f` y
 foldMap f (Pair x y) = f x <> f y
instance traversablePair ∷ Traversable Pair where
 traverse f (Pair x y) = Pair <$> f x <*> f y
 sequence (Pair mx my) = Pair <$> mx <*> my
instance distributivePair ∷ Distributive Pair where
 distribute xs = map fst xs ~ map snd xs
 collect f xs = map (fst <<< f) xs ~ map (snd <<< f) xs
instance arbitraryPair ∷ Arbitrary a ⇒ Arbitrary (Pair a) where
 arbitrary = Pair <$> arbitrary <*> arbitrary