module Data.Profunctor.Mapping
( Mapping(..)
, CofreeMapping(..)
, FreeMapping(..)
, traverseMapping
, closedMapping
) where
import Control.Arrow (Kleisli(..))
import Data.Distributive
import Data.Functor.Compose
import Data.Functor.Identity
import Data.Profunctor.Choice
import Data.Profunctor.Closed
import Data.Profunctor.Monad
import Data.Profunctor.Strong
import Data.Profunctor.Traversing
import Data.Profunctor.Types
import Data.Profunctor.Unsafe
#if __GLASGOW_HASKELL__ < 710
import Control.Applicative
#endif
class (Traversing p, Closed p) => Mapping p where
map' :: Functor f => p a b -> p (f a) (f b)
instance Mapping (->) where
map' = fmap
instance (Monad m, Distributive m) => Mapping (Kleisli m) where
map' (Kleisli f) = Kleisli (collect f)
instance (Applicative m, Distributive m) => Mapping (Star m) where
map' (Star f) = Star (collect f)
traverseMapping :: (Mapping p, Functor f) => p a b -> p (f a) (f b)
traverseMapping = map'
closedMapping :: Mapping p => p a b -> p (x -> a) (x -> b)
closedMapping = map'
newtype CofreeMapping p a b = CofreeMapping { runCofreeMapping :: forall f. Functor f => p (f a) (f b) }
instance Profunctor p => Profunctor (CofreeMapping p) where
lmap f (CofreeMapping p) = CofreeMapping (lmap (fmap f) p)
rmap g (CofreeMapping p) = CofreeMapping (rmap (fmap g) p)
dimap f g (CofreeMapping p) = CofreeMapping (dimap (fmap f) (fmap g) p)
instance Profunctor p => Strong (CofreeMapping p) where
second' = map'
instance Profunctor p => Choice (CofreeMapping p) where
right' = map'
instance Profunctor p => Closed (CofreeMapping p) where
closed = map'
instance Profunctor p => Traversing (CofreeMapping p) where
traverse' = map'
instance Profunctor p => Mapping (CofreeMapping p) where
map' (CofreeMapping p) = CofreeMapping (dimap Compose getCompose p)
instance ProfunctorFunctor CofreeMapping where
promap f (CofreeMapping p) = CofreeMapping (f p)
instance ProfunctorComonad CofreeMapping where
proextract (CofreeMapping p) = runIdentity #. p .# Identity
produplicate (CofreeMapping p) = CofreeMapping (CofreeMapping (dimap Compose getCompose p))
data FreeMapping p a b where
FreeMapping :: Functor f => (f y -> b) -> p x y -> (a -> f x) -> FreeMapping p a b
instance Profunctor (FreeMapping p) where
lmap f (FreeMapping l m r) = FreeMapping l m (r . f)
rmap g (FreeMapping l m r) = FreeMapping (g . l) m r
dimap f g (FreeMapping l m r) = FreeMapping (g . l) m (r . f)
g #. FreeMapping l m r = FreeMapping (g #. l) m r
FreeMapping l m r .# f = FreeMapping l m (r .# f)
instance Strong (FreeMapping p) where
second' = map'
instance Choice (FreeMapping p) where
right' = map'
instance Closed (FreeMapping p) where
closed = map'
instance Traversing (FreeMapping p) where
traverse' = map'
instance Mapping (FreeMapping p) where
map' (FreeMapping l m r) = FreeMapping (fmap l .# getCompose) m (Compose #. fmap r)
instance ProfunctorFunctor FreeMapping where
promap f (FreeMapping l m r) = FreeMapping l (f m) r
instance ProfunctorMonad FreeMapping where
proreturn p = FreeMapping runIdentity p Identity
projoin (FreeMapping l (FreeMapping l' m r') r) = FreeMapping ((l . fmap l') .# getCompose) m (Compose #. (fmap r' . r))