#if __GLASGOW_HASKELL__ >= 702 && __GLASGOW_HASKELL__ <= 708
#endif
module Data.Profunctor.Tambara
( Tambara(..)
, tambara, untambara
, Pastro(..)
, Cotambara(..)
, cotambara, uncotambara
, Copastro(..)
) where
import Control.Applicative
import Control.Arrow
import Control.Category
import Data.Monoid
import Data.Profunctor
import Data.Profunctor.Adjunction
import Data.Profunctor.Monad
import Data.Profunctor.Unsafe
import Prelude hiding (id,(.))
newtype Tambara p a b = Tambara { runTambara :: forall c. p (a, c) (b, c) }
instance Profunctor p => Profunctor (Tambara p) where
dimap f g (Tambara p) = Tambara $ dimap (first f) (first g) p
instance ProfunctorFunctor Tambara where
promap f (Tambara p) = Tambara (f p)
instance ProfunctorComonad Tambara where
proextract (Tambara p) = dimap (\a -> (a,())) fst p
produplicate (Tambara p) = Tambara (Tambara $ dimap hither yon p) where
hither ~(~(x,y),z) = (x,(y,z))
yon ~(x,~(y,z)) = ((x,y),z)
instance Profunctor p => Strong (Tambara p) where
first' = runTambara . produplicate
instance Choice p => Choice (Tambara p) where
left' (Tambara f) = Tambara $ dimap hither yon $ left' f where
hither (Left y, s) = Left (y, s)
hither (Right z, s) = Right (z, s)
yon (Left (y, s)) = (Left y, s)
yon (Right (z, s)) = (Right z, s)
instance Category p => Category (Tambara p) where
id = Tambara id
Tambara p . Tambara q = Tambara (p . q)
instance Arrow p => Arrow (Tambara p) where
arr f = Tambara $ arr $ first f
first (Tambara f) = Tambara (arr go . first f . arr go) where
go ~(~(x,y),z) = ((x,z),y)
instance ArrowChoice p => ArrowChoice (Tambara p) where
left (Tambara f) = Tambara (arr yon . left f . arr hither) where
hither (Left y, s) = Left (y, s)
hither (Right z, s) = Right (z, s)
yon (Left (y, s)) = (Left y, s)
yon (Right (z, s)) = (Right z, s)
instance ArrowApply p => ArrowApply (Tambara p) where
app = Tambara $ app . arr (\((Tambara f, x), s) -> (f, (x, s)))
instance ArrowLoop p => ArrowLoop (Tambara p) where
loop (Tambara f) = Tambara (loop (arr go . f . arr go)) where
go ~(~(x,y),z) = ((x,z),y)
instance ArrowZero p => ArrowZero (Tambara p) where
zeroArrow = Tambara zeroArrow
instance ArrowPlus p => ArrowPlus (Tambara p) where
Tambara f <+> Tambara g = Tambara (f <+> g)
instance Profunctor p => Functor (Tambara p a) where
fmap = rmap
instance (Profunctor p, Arrow p) => Applicative (Tambara p a) where
pure x = arr (const x)
f <*> g = arr (uncurry id) . (f &&& g)
instance (Profunctor p, ArrowPlus p) => Alternative (Tambara p a) where
empty = zeroArrow
f <|> g = f <+> g
instance (Profunctor p, ArrowPlus p) => Monoid (Tambara p a b) where
mempty = zeroArrow
mappend f g = f <+> g
tambara :: Strong p => (p :-> q) -> p :-> Tambara q
tambara f p = Tambara $ f $ first' p
untambara :: Profunctor q => (p :-> Tambara q) -> p :-> q
untambara f p = dimap (\a -> (a,())) fst $ runTambara $ f p
data Pastro p a b where
Pastro :: ((y, z) -> b) -> p x y -> (a -> (x, z)) -> Pastro p a b
instance Profunctor p => Profunctor (Pastro p) where
dimap f g (Pastro l m r) = Pastro (g . l) m (r . f)
lmap f (Pastro l m r) = Pastro l m (r . f)
rmap g (Pastro l m r) = Pastro (g . l) m r
w #. Pastro l m r = Pastro (w #. l) m r
Pastro l m r .# w = Pastro l m (r .# w)
instance ProfunctorFunctor Pastro where
promap f (Pastro l m r) = Pastro l (f m) r
instance ProfunctorMonad Pastro where
proreturn p = Pastro fst p $ \a -> (a,())
projoin (Pastro l (Pastro m n o) p) = Pastro lm n op where
op a = case p a of
(b, f) -> case o b of
(c, g) -> (c, (f, g))
lm (d, (f, g)) = l (m (d, g), f)
instance ProfunctorAdjunction Pastro Tambara where
counit (Pastro g (Tambara p) f) = dimap f g p
unit p = Tambara (Pastro id p id)
newtype Cotambara p a b = Cotambara { runCotambara :: forall c. p (Either a c) (Either b c) }
instance ProfunctorFunctor Cotambara where
promap f (Cotambara p) = Cotambara (f p)
instance ProfunctorComonad Cotambara where
proextract (Cotambara p) = dimap Left (\(Left a) -> a) p
produplicate (Cotambara p) = Cotambara (Cotambara $ dimap hither yon p) where
hither (Left (Left x)) = Left x
hither (Left (Right y)) = Right (Left y)
hither (Right z) = Right (Right z)
yon (Left x) = Left (Left x)
yon (Right (Left y)) = Left (Right y)
yon (Right (Right z)) = Right z
instance Profunctor p => Profunctor (Cotambara p) where
dimap f g (Cotambara p) = Cotambara $ dimap (left f) (left g) p
instance Profunctor p => Choice (Cotambara p) where
left' = runCotambara . produplicate
instance Category p => Category (Cotambara p) where
id = Cotambara id
Cotambara p . Cotambara q = Cotambara (p . q)
instance Profunctor p => Functor (Cotambara p a) where
fmap = rmap
cotambara :: Choice p => (p :-> q) -> p :-> Cotambara q
cotambara f p = Cotambara $ f $ left' p
uncotambara :: Profunctor q => (p :-> Cotambara q) -> p :-> q
uncotambara f p = dimap Left (\(Left a) -> a) $ runCotambara $ f p
data Copastro p a b where
Copastro :: (Either y z -> b) -> p x y -> (a -> Either x z) -> Copastro p a b
instance Profunctor p => Profunctor (Copastro p) where
dimap f g (Copastro l m r) = Copastro (g . l) m (r . f)
lmap f (Copastro l m r) = Copastro l m (r . f)
rmap g (Copastro l m r) = Copastro (g . l) m r
w #. Copastro l m r = Copastro (w #. l) m r
Copastro l m r .# w = Copastro l m (r .# w)
instance ProfunctorAdjunction Copastro Cotambara where
counit (Copastro f (Cotambara g) h) = dimap h f g
unit p = Cotambara $ Copastro id p id
instance ProfunctorFunctor Copastro where
promap f (Copastro l m r) = Copastro l (f m) r
instance ProfunctorMonad Copastro where
proreturn p = Copastro (\(Left a)-> a) p Left
projoin (Copastro l (Copastro m n o) q) = Copastro lm n oq where
oq a = case q a of
Left b -> case o b of
Left c -> Left c
Right z -> Right (Left z)
Right z -> Right (Right z)
lm (Left x) = l $ Left $ m $ Left x
lm (Right (Left y)) = l $ Left $ m $ Right y
lm (Right (Right z)) = l $ Right z