module Algebra.Arrow (
module Algebra.Monad,
Arrow(..),
(>>^),(^>>),
Apply(..),comapA,app,dup,
Kleisli(..),
ListA(..)
) where
import Algebra.Core hiding (flip)
import Algebra.Classes
import Algebra.Monad
comapA :: Arrow arr => (a -> b) -> Flip arr c b -> Flip arr c a
app :: Apply k => k a b -> k a b
(^>>) :: Cofunctor (Flip f c) => (a -> b) -> f b c -> f a c
(>>^) :: Functor f => f a -> (a -> b) -> f b
dup :: Arrow arr => arr a (a, a)
class (Split k,Choice k) => Arrow k where
arr :: (a -> b) -> k a b
instance Arrow (->) where arr = id
instance Monad m => Arrow (StateA m) where
arr f = StateA (f<$>get)
class Arrow k => Apply k where
apply :: k (k a b,a) b
instance Apply (->) where apply (f,x) = f x
instance Monad m => Apply (Kleisli m) where
apply = Kleisli (\(Kleisli f,a) -> f a)
instance Monad m => Arrow (Kleisli m) where
arr a = Kleisli (pure . a)
newtype ListA k a b = ListA { runListA :: k [a] [b] }
instance Category k => Category (ListA k) where
id = ListA id
ListA a . ListA b = ListA (a . b)
instance Arrow k => Choice (ListA k) where
ListA f <|> ListA g = ListA (arr partitionEithers >>> (f<#>g) >>> arr (uncurry (+)))
instance Arrow k => Split (ListA k) where
ListA f <#> ListA g = ListA (arr (\l -> (fst<$>l,snd<$>l)) >>> (f<#>g)
>>> arr (\(c,d) -> (,)<$>c<*>d))
instance Arrow k => Arrow (ListA k) where
arr f = ListA (arr (map f))
(^>>) = promap
(>>^) = (<&>)
infixr 4 ^>>,>>^
dup = arr (\a -> (a,a))
comapA f (Flip g) = Flip (arr f >>> g)
app f = arr (f,) >>> apply