{-# LANGUAGE CPP #-}
{-# LANGUAGE DataKinds #-}
{-# LANGUAGE UndecidableInstances #-}
{-# OPTIONS_HADDOCK not-home #-}
module Optics.Internal.Indexed where
import Control.Applicative
import Control.Applicative.Backwards
import Control.Monad.Trans.Identity
import Control.Monad.Trans.Reader
import Data.Functor.Compose
import Data.Functor.Identity
import Data.Functor.Product
import Data.Functor.Reverse
import Data.Functor.Sum
import Data.Ix
import Data.List.NonEmpty
import Data.Monoid hiding (Product, Sum)
import Data.Proxy
import Data.Tree
import Data.Void
import GHC.Generics
import GHC.TypeLits
import qualified Data.Array as Array
import qualified Data.IntMap as IntMap
import qualified Data.Map as Map
import qualified Data.Sequence as Seq
import Optics.Internal.Optic
import Optics.Internal.Profunctor
import Optics.Internal.Utils
class is ~ NoIx => AcceptsEmptyIndices (f :: Symbol) (is :: [*])
instance
( TypeError
('Text "‘" ':<>: 'Text f ':<>: 'Text "’ accepts only optics with no indices")
, (x ': xs) ~ NoIx
) => AcceptsEmptyIndices f (x ': xs)
instance AcceptsEmptyIndices f '[]
class NonEmptyIndices (is :: [*])
instance
( TypeError
('Text "Indexed optic is expected")
) => NonEmptyIndices '[]
instance NonEmptyIndices (x ': xs)
class is ~ '[i] => HasSingleIndex (is :: [*]) (i :: *)
instance HasSingleIndex '[i] i
instance
( TypeError
('Text "Indexed optic is expected")
, '[] ~ '[i]
) => HasSingleIndex '[] i
instance
( TypeError
('Text "Use (<%>) or icompose to combine indices of type "
':<>: ShowTypes is)
, is ~ '[i1, i2]
, is ~ '[i]
) => HasSingleIndex '[i1, i2] i
instance
( TypeError
('Text "Use icompose3 to combine indices of type "
':<>: ShowTypes is)
, is ~ '[i1, i2, i3]
, is ~ '[i]
) => HasSingleIndex [i1, i2, i3] i
instance
( TypeError
('Text "Use icompose4 to combine indices of type "
':<>: ShowTypes is)
, is ~ '[i1, i2, i3, i4]
, is ~ '[i]
) => HasSingleIndex '[i1, i2, i3, i4] i
instance
( TypeError
('Text "Use icompose5 to flatten indices of type "
':<>: ShowTypes is)
, is ~ '[i1, i2, i3, i4, i5]
, is ~ '[i]
) => HasSingleIndex '[i1, i2, i3, i4, i5] i
instance
( TypeError
('Text "Use icomposeN to flatten indices of type "
':<>: ShowTypes is)
, is ~ (i1 ': i2 ': i3 ': i4 ': i5 ': i6 : is')
, is ~ '[i]
) => HasSingleIndex (i1 ': i2 ': i3 ': i4 ': i5 ': i6 ': is') i
type family ShowTypes (types :: [*]) :: ErrorMessage where
ShowTypes '[i] = QuoteType i
ShowTypes '[i, j] = QuoteType i ':<>: 'Text " and " ':<>: QuoteType j
ShowTypes (i ': is) = QuoteType i ':<>: 'Text ", " ':<>: ShowTypes is
data IntT f a = IntT {-# UNPACK #-} !Int (f a)
unIntT :: IntT f a -> f a
unIntT (IntT _ fa) = fa
newtype Indexing f a = Indexing { runIndexing :: Int -> IntT f a }
instance Functor f => Functor (Indexing f) where
fmap f (Indexing m) = Indexing $ \i -> case m i of
IntT j x -> IntT j (fmap f x)
{-# INLINE fmap #-}
instance Applicative f => Applicative (Indexing f) where
pure x = Indexing $ \i -> IntT i (pure x)
{-# INLINE pure #-}
Indexing mf <*> Indexing ma = Indexing $ \i -> case mf i of
IntT j ff -> case ma j of
IntT k fa -> IntT k (ff <*> fa)
{-# INLINE (<*>) #-}
indexing
:: ((a -> Indexing f b) -> s -> Indexing f t)
-> ((Int -> a -> f b) -> s -> f t)
indexing l iafb s =
unIntT $ runIndexing (l (\a -> Indexing (\i -> IntT (i + 1) (iafb i a))) s) 0
{-# INLINE indexing #-}
conjoined
:: is `HasSingleIndex` i
=> Optic k NoIx s t a b
-> Optic k is s t a b
-> Optic k is s t a b
conjoined (Optic f) (Optic g) = Optic (conjoined__ f g)
{-# INLINE conjoined #-}
class Functor f => FunctorWithIndex i f | f -> i where
imap :: (i -> a -> b) -> f a -> f b
default imap
:: TraversableWithIndex i f => (i -> a -> b) -> f a -> f b
imap f = runIxFunArrow (iwander itraverse (IxFunArrow f)) id
{-# INLINE imap #-}
class (FunctorWithIndex i f, Foldable f
) => FoldableWithIndex i f | f -> i where
ifoldMap :: Monoid m => (i -> a -> m) -> f a -> m
default ifoldMap
:: (TraversableWithIndex i f, Monoid m) => (i -> a -> m) -> f a -> m
ifoldMap f = runIxForget (iwander itraverse (IxForget f)) id
{-# INLINE ifoldMap #-}
ifoldr :: (i -> a -> b -> b) -> b -> f a -> b
ifoldr iabb b0 = (\e -> appEndo e b0) . ifoldMap (\i -> Endo #. iabb i)
{-# INLINE ifoldr #-}
ifoldl' :: (i -> b -> a -> b) -> b -> f a -> b
ifoldl' ibab b0 s = ifoldr (\i a bb b -> bb $! ibab i b a) id s b0
{-# INLINE ifoldl' #-}
itraverse_ :: (FoldableWithIndex i t, Applicative f) => (i -> a -> f b) -> t a -> f ()
itraverse_ f = runTraversed . ifoldMap (\i -> Traversed #. f i)
{-# INLINE itraverse_ #-}
ifor_ :: (FoldableWithIndex i t, Applicative f) => t a -> (i -> a -> f b) -> f ()
ifor_ = flip itraverse_
{-# INLINE ifor_ #-}
class (FoldableWithIndex i t, Traversable t
) => TraversableWithIndex i t | t -> i where
itraverse :: Applicative f => (i -> a -> f b) -> t a -> f (t b)
ifor :: (TraversableWithIndex i t, Applicative f) => t a -> (i -> a -> f b) -> f (t b)
ifor = flip itraverse
{-# INLINE ifor #-}
instance FunctorWithIndex () Identity where
imap f (Identity a) = Identity (f () a)
{-# INLINE imap #-}
instance FoldableWithIndex () Identity where
ifoldMap f (Identity a) = f () a
{-# INLINE ifoldMap #-}
instance TraversableWithIndex () Identity where
itraverse f (Identity a) = Identity <$> f () a
{-# INLINE itraverse #-}
instance FunctorWithIndex k ((,) k) where
imap f (k, a) = (k, f k a)
{-# INLINE imap #-}
instance FoldableWithIndex k ((,) k) where
ifoldMap = uncurry
{-# INLINE ifoldMap #-}
instance TraversableWithIndex k ((,) k) where
itraverse f (k, a) = (,) k <$> f k a
{-# INLINE itraverse #-}
instance FunctorWithIndex r ((->) r) where
imap f g x = f x (g x)
{-# INLINE imap #-}
instance FunctorWithIndex Int []
instance FoldableWithIndex Int []
instance TraversableWithIndex Int [] where
itraverse f = traverse (uncurry f) . Prelude.zip [0..]
{-# INLINE itraverse #-}
instance FunctorWithIndex Int ZipList
instance FoldableWithIndex Int ZipList
instance TraversableWithIndex Int ZipList where
itraverse f (ZipList xs) = ZipList <$> itraverse f xs
{-# INLINE itraverse #-}
instance FunctorWithIndex Int NonEmpty
instance FoldableWithIndex Int NonEmpty
instance TraversableWithIndex Int NonEmpty where
itraverse f ~(a :| as) =
(:|) <$> f 0 a <*> traverse (uncurry f) (Prelude.zip [1..] as)
{-# INLINE itraverse #-}
instance FunctorWithIndex () Maybe where
imap f = fmap (f ())
{-# INLINE imap #-}
instance FoldableWithIndex () Maybe where
ifoldMap f = foldMap (f ())
{-# INLINE ifoldMap #-}
instance TraversableWithIndex () Maybe where
itraverse f = traverse (f ())
{-# INLINE itraverse #-}
instance FunctorWithIndex Int Seq.Seq where
imap = Seq.mapWithIndex
{-# INLINE imap #-}
instance FoldableWithIndex Int Seq.Seq where
#if MIN_VERSION_containers(0,5,8)
ifoldMap = Seq.foldMapWithIndex
#else
ifoldMap f = ifoldr (\i -> mappend . f i) mempty
#endif
{-# INLINE ifoldMap #-}
ifoldr = Seq.foldrWithIndex
{-# INLINE ifoldr #-}
instance TraversableWithIndex Int Seq.Seq where
itraverse f = sequenceA . Seq.mapWithIndex f
{-# INLINE itraverse #-}
instance FunctorWithIndex Int IntMap.IntMap where
imap = IntMap.mapWithKey
{-# INLINE imap #-}
instance FoldableWithIndex Int IntMap.IntMap where
ifoldMap = IntMap.foldMapWithKey
ifoldr = IntMap.foldrWithKey
ifoldl' = IntMap.foldlWithKey' . flip
{-# INLINE ifoldMap #-}
{-# INLINE ifoldr #-}
{-# INLINE ifoldl' #-}
instance TraversableWithIndex Int IntMap.IntMap where
itraverse = IntMap.traverseWithKey
{-# INLINE itraverse #-}
instance FunctorWithIndex k (Map.Map k) where
imap = Map.mapWithKey
{-# INLINE imap #-}
instance FoldableWithIndex k (Map.Map k) where
ifoldMap = Map.foldMapWithKey
ifoldr = Map.foldrWithKey
ifoldl' = Map.foldlWithKey' . flip
{-# INLINE ifoldMap #-}
{-# INLINE ifoldr #-}
{-# INLINE ifoldl' #-}
instance TraversableWithIndex k (Map.Map k) where
itraverse = Map.traverseWithKey
{-# INLINE itraverse #-}
instance Ix i => FunctorWithIndex i (Array.Array i) where
imap f arr = Array.listArray (Array.bounds arr)
. fmap (uncurry f) $ Array.assocs arr
{-# INLINE imap #-}
instance Ix i => FoldableWithIndex i (Array.Array i) where
ifoldMap f = foldMap (uncurry f) . Array.assocs
{-# INLINE ifoldMap #-}
instance Ix i => TraversableWithIndex i (Array.Array i) where
itraverse f arr = Array.listArray (Array.bounds arr)
<$> traverse (uncurry f) (Array.assocs arr)
{-# INLINE itraverse #-}
instance (FunctorWithIndex i f, FunctorWithIndex j g
) => FunctorWithIndex (i, j) (Compose f g) where
imap f (Compose fg) = Compose $ imap (\k -> imap (f . (,) k)) fg
{-# INLINE imap #-}
instance (FoldableWithIndex i f, FoldableWithIndex j g
) => FoldableWithIndex (i, j) (Compose f g) where
ifoldMap f (Compose fg) = ifoldMap (\k -> ifoldMap (f . (,) k)) fg
{-# INLINE ifoldMap #-}
instance (TraversableWithIndex i f, TraversableWithIndex j g
) => TraversableWithIndex (i, j) (Compose f g) where
itraverse f (Compose fg) =
Compose <$> itraverse (\k -> itraverse (f . (,) k)) fg
{-# INLINE itraverse #-}
instance (FunctorWithIndex i f, FunctorWithIndex j g
) => FunctorWithIndex (Either i j) (Sum f g) where
imap q (InL fa) = InL (imap (q . Left) fa)
imap q (InR ga) = InR (imap (q . Right) ga)
{-# INLINE imap #-}
instance (FoldableWithIndex i f, FoldableWithIndex j g
) => FoldableWithIndex (Either i j) (Sum f g) where
ifoldMap q (InL fa) = ifoldMap (q . Left) fa
ifoldMap q (InR ga) = ifoldMap (q . Right) ga
{-# INLINE ifoldMap #-}
instance (TraversableWithIndex i f, TraversableWithIndex j g
) => TraversableWithIndex (Either i j) (Sum f g) where
itraverse q (InL fa) = InL <$> itraverse (q . Left) fa
itraverse q (InR ga) = InR <$> itraverse (q . Right) ga
{-# INLINE itraverse #-}
instance (FunctorWithIndex i f, FunctorWithIndex j g
) => FunctorWithIndex (Either i j) (Product f g) where
imap f (Pair a b) = Pair (imap (f . Left) a) (imap (f . Right) b)
{-# INLINE imap #-}
instance (FoldableWithIndex i f, FoldableWithIndex j g
) => FoldableWithIndex (Either i j) (Product f g) where
ifoldMap f (Pair a b) =
ifoldMap (f . Left) a `mappend` ifoldMap (f . Right) b
{-# INLINE ifoldMap #-}
instance (TraversableWithIndex i f, TraversableWithIndex j g
) => TraversableWithIndex (Either i j) (Product f g) where
itraverse f (Pair a b) =
Pair <$> itraverse (f . Left) a <*> itraverse (f . Right) b
{-# INLINE itraverse #-}
instance FunctorWithIndex [Int] Tree where
imap f (Node a as) = Node (f [] a) $ imap (\i -> imap (f . (:) i)) as
{-# INLINE imap #-}
instance FoldableWithIndex [Int] Tree where
ifoldMap f (Node a as) =
f [] a `mappend` ifoldMap (\i -> ifoldMap (f . (:) i)) as
{-# INLINE ifoldMap #-}
instance TraversableWithIndex [Int] Tree where
itraverse f (Node a as) =
Node <$> f [] a <*> itraverse (\i -> itraverse (f . (:) i)) as
{-# INLINE itraverse #-}
instance FunctorWithIndex Void Proxy where
imap _ Proxy = Proxy
{-# INLINE imap #-}
instance FoldableWithIndex Void Proxy where
ifoldMap _ _ = mempty
{-# INLINE ifoldMap #-}
instance TraversableWithIndex Void Proxy where
itraverse _ _ = pure Proxy
{-# INLINE itraverse #-}
instance FunctorWithIndex i f => FunctorWithIndex i (Backwards f) where
imap f = Backwards . imap f . forwards
{-# INLINE imap #-}
instance FoldableWithIndex i f => FoldableWithIndex i (Backwards f) where
ifoldMap f = ifoldMap f . forwards
{-# INLINE ifoldMap #-}
instance TraversableWithIndex i f => TraversableWithIndex i (Backwards f) where
itraverse f = fmap Backwards . itraverse f . forwards
{-# INLINE itraverse #-}
instance FunctorWithIndex i f => FunctorWithIndex i (Reverse f) where
imap f = Reverse . imap f . getReverse
{-# INLINE imap #-}
instance FoldableWithIndex i f => FoldableWithIndex i (Reverse f) where
ifoldMap f = getDual . ifoldMap (\i -> Dual #. f i) . getReverse
{-# INLINE ifoldMap #-}
instance TraversableWithIndex i f => TraversableWithIndex i (Reverse f) where
itraverse f =
fmap Reverse . forwards . itraverse (\i -> Backwards . f i) . getReverse
{-# INLINE itraverse #-}
instance FunctorWithIndex i m => FunctorWithIndex i (IdentityT m) where
imap f (IdentityT m) = IdentityT $ imap f m
{-# INLINE imap #-}
instance FoldableWithIndex i m => FoldableWithIndex i (IdentityT m) where
ifoldMap f (IdentityT m) = ifoldMap f m
{-# INLINE ifoldMap #-}
instance TraversableWithIndex i m => TraversableWithIndex i (IdentityT m) where
itraverse f (IdentityT m) = IdentityT <$> itraverse f m
{-# INLINE itraverse #-}
instance FunctorWithIndex i m => FunctorWithIndex (e, i) (ReaderT e m) where
imap f (ReaderT m) = ReaderT $ \k -> imap (f . (,) k) (m k)
{-# INLINE imap #-}
instance FunctorWithIndex Void V1 where
imap _ v = v `seq` undefined
{-# INLINE imap #-}
instance FoldableWithIndex Void V1 where
ifoldMap _ v = v `seq` undefined
instance TraversableWithIndex Void V1 where
itraverse _ v = v `seq` undefined
instance FunctorWithIndex Void U1 where
imap _ U1 = U1
{-# INLINE imap #-}
instance FoldableWithIndex Void U1 where
ifoldMap _ _ = mempty
{-# INLINE ifoldMap #-}
instance TraversableWithIndex Void U1 where
itraverse _ U1 = pure U1
{-# INLINE itraverse #-}
instance FunctorWithIndex () Par1 where
imap f = fmap (f ())
{-# INLINE imap #-}
instance FoldableWithIndex () Par1 where
ifoldMap f (Par1 a) = f () a
{-# INLINE ifoldMap #-}
instance TraversableWithIndex () Par1 where
itraverse f (Par1 a) = Par1 <$> f () a
{-# INLINE itraverse #-}
instance (FunctorWithIndex i f, FunctorWithIndex j g
) => FunctorWithIndex (i, j) (f :.: g) where
imap q (Comp1 fga) = Comp1 (imap (\k -> imap (q . (,) k)) fga)
{-# INLINE imap #-}
instance (FoldableWithIndex i f, FoldableWithIndex j g
) => FoldableWithIndex (i, j) (f :.: g) where
ifoldMap q (Comp1 fga) = ifoldMap (\k -> ifoldMap (q . (,) k)) fga
{-# INLINE ifoldMap #-}
instance (TraversableWithIndex i f, TraversableWithIndex j g
) => TraversableWithIndex (i, j) (f :.: g) where
itraverse q (Comp1 fga) =
Comp1 <$> itraverse (\k -> itraverse (q . (,) k)) fga
{-# INLINE itraverse #-}
instance (FunctorWithIndex i f, FunctorWithIndex j g
) => FunctorWithIndex (Either i j) (f :*: g) where
imap q (fa :*: ga) = imap (q . Left) fa :*: imap (q . Right) ga
{-# INLINE imap #-}
instance (FoldableWithIndex i f, FoldableWithIndex j g
) => FoldableWithIndex (Either i j) (f :*: g) where
ifoldMap q (fa :*: ga) =
ifoldMap (q . Left) fa `mappend` ifoldMap (q . Right) ga
{-# INLINE ifoldMap #-}
instance (TraversableWithIndex i f, TraversableWithIndex j g
) => TraversableWithIndex (Either i j) (f :*: g) where
itraverse q (fa :*: ga) =
(:*:) <$> itraverse (q . Left) fa <*> itraverse (q . Right) ga
{-# INLINE itraverse #-}
instance (FunctorWithIndex i f, FunctorWithIndex j g
) => FunctorWithIndex (Either i j) (f :+: g) where
imap q (L1 fa) = L1 (imap (q . Left) fa)
imap q (R1 ga) = R1 (imap (q . Right) ga)
{-# INLINE imap #-}
instance (FoldableWithIndex i f, FoldableWithIndex j g
) => FoldableWithIndex (Either i j) (f :+: g) where
ifoldMap q (L1 fa) = ifoldMap (q . Left) fa
ifoldMap q (R1 ga) = ifoldMap (q . Right) ga
{-# INLINE ifoldMap #-}
instance (TraversableWithIndex i f, TraversableWithIndex j g
) => TraversableWithIndex (Either i j) (f :+: g) where
itraverse q (L1 fa) = L1 <$> itraverse (q . Left) fa
itraverse q (R1 ga) = R1 <$> itraverse (q . Right) ga
{-# INLINE itraverse #-}
instance FunctorWithIndex i f => FunctorWithIndex i (Rec1 f) where
imap q (Rec1 f) = Rec1 (imap q f)
{-# INLINE imap #-}
instance FoldableWithIndex i f => FoldableWithIndex i (Rec1 f) where
ifoldMap q (Rec1 f) = ifoldMap q f
{-# INLINE ifoldMap #-}
instance TraversableWithIndex i f => TraversableWithIndex i (Rec1 f) where
itraverse q (Rec1 f) = Rec1 <$> itraverse q f
{-# INLINE itraverse #-}
instance FunctorWithIndex Void (K1 i c) where
imap _ (K1 c) = K1 c
{-# INLINE imap #-}
instance FoldableWithIndex Void (K1 i c) where
ifoldMap _ _ = mempty
{-# INLINE ifoldMap #-}
instance TraversableWithIndex Void (K1 i c) where
itraverse _ (K1 a) = pure (K1 a)
{-# INLINE itraverse #-}