module Optics.Arrow
( ArrowOptic(..)
, assignA
) where
import Control.Arrow
import Data.Coerce
import qualified Control.Category as C
import Optics.AffineTraversal
import Optics.Prism
import Optics.Setter
import Optics.Internal.Optic
import Optics.Internal.Profunctor
import Optics.Internal.Utils
newtype WrappedArrow p i a b = WrapArrow { unwrapArrow :: p a b }
instance C.Category p => C.Category (WrappedArrow p i) where
WrapArrow f . WrapArrow g = WrapArrow (f C.. g)
id = WrapArrow C.id
{-# INLINE (.) #-}
{-# INLINE id #-}
instance Arrow p => Arrow (WrappedArrow p i) where
arr = WrapArrow #. arr
first = WrapArrow #. first .# unwrapArrow
second = WrapArrow #. second .# unwrapArrow
WrapArrow a *** WrapArrow b = WrapArrow (a *** b)
WrapArrow a &&& WrapArrow b = WrapArrow (a &&& b)
{-# INLINE arr #-}
{-# INLINE first #-}
{-# INLINE second #-}
{-# INLINE (***) #-}
{-# INLINE (&&&) #-}
instance Arrow p => Profunctor (WrappedArrow p) where
dimap f g k = arr f >>> k >>> arr g
lmap f k = arr f >>> k
rmap g k = k >>> arr g
{-# INLINE dimap #-}
{-# INLINE lmap #-}
{-# INLINE rmap #-}
lcoerce' = lmap coerce
rcoerce' = rmap coerce
{-# INLINE lcoerce' #-}
{-# INLINE rcoerce' #-}
instance Arrow p => Strong (WrappedArrow p) where
first' (WrapArrow k) = WrapArrow (first k)
second' (WrapArrow k) = WrapArrow (second k)
{-# INLINE first' #-}
{-# INLINE second' #-}
instance ArrowChoice p => Choice (WrappedArrow p) where
left' (WrapArrow k) = WrapArrow (left k)
right' (WrapArrow k) = WrapArrow (right k)
{-# INLINE left' #-}
{-# INLINE right' #-}
instance ArrowChoice p => Visiting (WrappedArrow p)
class Arrow arr => ArrowOptic k arr where
overA :: Optic k is s t a b -> arr a b -> arr s t
instance Arrow arr => ArrowOptic An_Iso arr where
overA = overA__
{-# INLINE overA #-}
instance Arrow arr => ArrowOptic A_Lens arr where
overA = overA__
{-# INLINE overA #-}
instance ArrowChoice arr => ArrowOptic A_Prism arr where
overA = overA__
{-# INLINE overA #-}
instance ArrowChoice arr => ArrowOptic An_AffineTraversal arr where
overA = overA__
{-# INLINE overA #-}
assignA
:: (Is k A_Setter, Arrow arr)
=> Optic k is s t a b
-> arr s b -> arr s t
assignA o p = arr (flip $ set o) &&& p >>> arr (uncurry id)
{-# INLINE assignA #-}
overA__
:: (p ~ WrappedArrow arr, Profunctor p, Constraints k p)
=> Optic k is s t a b
-> arr a b -> arr s t
overA__ o = unwrapArrow #. getOptic o .# WrapArrow
{-# INLINE overA__ #-}