{-# LANGUAGE CPP #-}
{-# LANGUAGE GADTs #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE TypeOperators #-}
{-# LANGUAGE MultiParamTypeClasses #-}
#if __GLASGOW_HASKELL__ >= 704 && __GLASGOW_HASKELL__ < 708
{-# LANGUAGE Trustworthy #-}
#endif
module Data.Profunctor.Closed
( Closed(..)
, Closure(..)
, close
, unclose
, Environment(..)
, curry'
) where
import Control.Applicative
import Control.Arrow
import Control.Category
import Control.Comonad
import Data.Bifunctor.Product (Product(..))
import Data.Bifunctor.Tannen (Tannen(..))
import Data.Distributive
import Data.Profunctor.Adjunction
import Data.Profunctor.Monad
import Data.Profunctor.Strong
import Data.Profunctor.Types
import Data.Profunctor.Unsafe
import Data.Semigroup hiding (Product)
import Data.Tagged
import Data.Tuple
import Prelude hiding ((.),id)
class Profunctor p => Closed p where
closed :: p a b -> p (x -> a) (x -> b)
instance Closed Tagged where
closed (Tagged b) = Tagged (const b)
instance Closed (->) where
closed = (.)
instance Functor f => Closed (Costar f) where
closed (Costar fab) = Costar $ \fxa x -> fab (fmap ($x) fxa)
instance Functor f => Closed (Cokleisli f) where
closed (Cokleisli fab) = Cokleisli $ \fxa x -> fab (fmap ($x) fxa)
instance Distributive f => Closed (Star f) where
closed (Star afb) = Star $ \xa -> distribute $ \x -> afb (xa x)
instance (Distributive f, Monad f) => Closed (Kleisli f) where
closed (Kleisli afb) = Kleisli $ \xa -> distribute $ \x -> afb (xa x)
instance (Closed p, Closed q) => Closed (Product p q) where
closed (Pair p q) = Pair (closed p) (closed q)
instance (Functor f, Closed p) => Closed (Tannen f p) where
closed (Tannen fp) = Tannen (fmap closed fp)
curry' :: Closed p => p (a, b) c -> p a (b -> c)
curry' = lmap (,) . closed
newtype Closure p a b = Closure { runClosure :: forall x. p (x -> a) (x -> b) }
instance Profunctor p => Profunctor (Closure p) where
dimap f g (Closure p) = Closure $ dimap (fmap f) (fmap g) p
lmap f (Closure p) = Closure $ lmap (fmap f) p
rmap f (Closure p) = Closure $ rmap (fmap f) p
w #. Closure p = Closure $ fmap w #. p
Closure p .# w = Closure $ p .# fmap w
instance ProfunctorFunctor Closure where
promap f (Closure p) = Closure (f p)
instance ProfunctorComonad Closure where
proextract = dimap const ($ ()) . runClosure
produplicate (Closure p) = Closure $ Closure $ dimap uncurry curry p
instance Profunctor p => Closed (Closure p) where
closed = runClosure . produplicate
instance Strong p => Strong (Closure p) where
first' (Closure p) = Closure $ dimap hither yon $ first' p
instance Category p => Category (Closure p) where
id = Closure id
Closure p . Closure q = Closure (p . q)
hither :: (s -> (a,b)) -> (s -> a, s -> b)
hither h = (fst . h, snd . h)
yon :: (s -> a, s -> b) -> s -> (a,b)
yon h s = (fst h s, snd h s)
instance Arrow p => Arrow (Closure p) where
arr f = Closure (arr (f .))
first (Closure f) = Closure $ arr yon . first f . arr hither
instance ArrowLoop p => ArrowLoop (Closure p) where
loop (Closure f) = Closure $ loop (arr hither . f . arr yon)
instance ArrowZero p => ArrowZero (Closure p) where
zeroArrow = Closure zeroArrow
instance ArrowPlus p => ArrowPlus (Closure p) where
Closure f <+> Closure g = Closure (f <+> g)
instance Profunctor p => Functor (Closure p a) where
fmap = rmap
instance (Profunctor p, Arrow p) => Applicative (Closure p a) where
pure x = arr (const x)
f <*> g = arr (uncurry id) . (f &&& g)
instance (Profunctor p, ArrowPlus p) => Alternative (Closure p a) where
empty = zeroArrow
f <|> g = f <+> g
instance (Profunctor p, Arrow p, Semigroup b) => Semigroup (Closure p a b) where
(<>) = liftA2 (<>)
instance (Profunctor p, Arrow p, Semigroup b, Monoid b) => Monoid (Closure p a b) where
mempty = pure mempty
#if !(MIN_VERSION_base(4,11,0))
mappend = (<>)
#endif
close :: Closed p => (p :-> q) -> p :-> Closure q
close f p = Closure $ f $ closed p
unclose :: Profunctor q => (p :-> Closure q) -> p :-> q
unclose f p = dimap const ($ ()) $ runClosure $ f p
data Environment p a b where
Environment :: ((z -> y) -> b) -> p x y -> (a -> z -> x) -> Environment p a b
instance Profunctor (Environment p) where
dimap f g (Environment l m r) = Environment (g . l) m (r . f)
lmap f (Environment l m r) = Environment l m (r . f)
rmap g (Environment l m r) = Environment (g . l) m r
w #. Environment l m r = Environment (w #. l) m r
Environment l m r .# w = Environment l m (r .# w)
instance ProfunctorFunctor Environment where
promap f (Environment l m r) = Environment l (f m) r
instance ProfunctorMonad Environment where
proreturn p = Environment ($ ()) p const
projoin (Environment l (Environment m n o) p) = Environment (lm . curry) n op where
op a (b, c) = o (p a b) c
lm zr = l (m.zr)
instance ProfunctorAdjunction Environment Closure where
counit (Environment g (Closure p) f) = dimap f g p
unit p = Closure (Environment id p id)
instance Closed (Environment p) where
closed (Environment l m r) = Environment l' m r' where
r' wa (z,w) = r (wa w) z
l' zx2y x = l (\z -> zx2y (z,x))