module Data.Functor.KanExtension where
import Data.Functor.Identity
import Data.Functor.Adjunction
import Data.Functor.Composition
newtype Ran g h a = Ran { runRan :: forall b. (a -> g b) -> h b }
instance Functor (Ran g h) where
fmap f m = Ran (\k -> runRan m (k . f))
toRan :: (Composition compose, Functor k) => (forall a. compose k g a -> h a) -> k b -> Ran g h b
toRan s t = Ran (s . compose . flip fmap t)
fromRan :: Composition compose => (forall a. k a -> Ran g h a) -> compose k g b -> h b
fromRan s = flip runRan id . s . decompose
composeRan :: Composition compose => Ran f (Ran g h) a -> Ran (compose f g) h a
composeRan r = Ran (\f -> runRan (runRan r (decompose . f)) id)
decomposeRan :: (Composition compose, Functor f) => Ran (compose f g) h a -> Ran f (Ran g h) a
decomposeRan r = Ran (\f -> Ran (\g -> runRan r (compose . fmap g . f)))
adjointToRan :: Adjunction f g => f a -> Ran g Identity a
adjointToRan f = Ran (\a -> Identity $ rightAdjunct a f)
ranToAdjoint :: Adjunction f g => Ran g Identity a -> f a
ranToAdjoint r = runIdentity (runRan r unit)
ranToComposedAdjoint :: (Composition compose, Adjunction f g) => Ran g h a -> compose h f a
ranToComposedAdjoint r = compose (runRan r unit)
composedAdjointToRan :: (Composition compose, Adjunction f g, Functor h) => compose h f a -> Ran g h a
composedAdjointToRan f = Ran (\a -> fmap (rightAdjunct a) (decompose f))
data Lan g h a where
Lan :: (g b -> a) -> h b -> Lan g h a
toLan :: (Composition compose, Functor f) => (forall a. h a -> compose f g a) -> Lan g h b -> f b
toLan s (Lan f v) = fmap f . decompose $ s v
fromLan :: (Composition compose) => (forall a. Lan g h a -> f a) -> h b -> compose f g b
fromLan s = compose . s . Lan id
instance Functor (Lan f g) where
fmap f (Lan g h) = Lan (f . g) h
adjointToLan :: Adjunction f g => g a -> Lan f Identity a
adjointToLan = Lan counit . Identity
lanToAdjoint :: Adjunction f g => Lan f Identity a -> g a
lanToAdjoint (Lan f v) = leftAdjunct f (runIdentity v)
lanToComposedAdjoint :: (Composition compose, Functor h, Adjunction f g) => Lan f h a -> compose h g a
lanToComposedAdjoint (Lan f v) = compose (fmap (leftAdjunct f) v)
composedAdjointToLan :: Composition compose => Adjunction f g => compose h g a -> Lan f h a
composedAdjointToLan = Lan counit . decompose
composeLan :: (Composition compose, Functor f) => Lan f (Lan g h) a -> Lan (compose f g) h a
composeLan (Lan f (Lan g h)) = Lan (f . fmap g . decompose) h
decomposeLan :: Composition compose => Lan (compose f g) h a -> Lan f (Lan g h) a
decomposeLan (Lan f h) = Lan (f . compose) (Lan id h)