{-# LANGUAGE CPP, TypeOperators #-}
#if __GLASGOW_HASKELL__ >= 702
{-# LANGUAGE Trustworthy #-}
#endif
module Data.Semigroup.Traversable.Class
( Bitraversable1(..)
, Traversable1(..)
) where
import Control.Applicative
import Control.Applicative.Backwards
import Control.Applicative.Lift
import Control.Monad.Trans.Identity
import Data.Bitraversable
import Data.Bifunctor
import Data.Bifunctor.Biff
import Data.Bifunctor.Clown
import Data.Bifunctor.Flip
import Data.Bifunctor.Joker
import Data.Bifunctor.Join
import Data.Bifunctor.Product as Bifunctor
import Data.Bifunctor.Tannen
import Data.Bifunctor.Wrapped
import Data.Functor.Apply
import Data.Functor.Compose
import Data.Functor.Identity
import Data.Functor.Product as Functor
import Data.Functor.Reverse
import Data.Functor.Sum as Functor
import Data.List.NonEmpty (NonEmpty(..))
import Data.Monoid as Monoid hiding ((<>))
import Data.Orphans ()
import Data.Semigroup as Semigroup
import Data.Semigroup.Foldable
import Data.Semigroup.Bifoldable
#ifdef MIN_VERSION_tagged
import Data.Tagged
#endif
#if __GLASGOW_HASKELL__ < 710
import Data.Traversable
#endif
import Data.Traversable.Instances ()
#if MIN_VERSION_base(4,4,0)
import Data.Complex
#endif
#ifdef MIN_VERSION_containers
import Data.Tree
#endif
#ifdef MIN_VERSION_generic_deriving
import Generics.Deriving.Base
#else
import GHC.Generics
#endif
class (Bifoldable1 t, Bitraversable t) => Bitraversable1 t where
bitraverse1 :: Apply f => (a -> f b) -> (c -> f d) -> t a c -> f (t b d)
bitraverse1 f g = bisequence1 . bimap f g
{-# INLINE bitraverse1 #-}
bisequence1 :: Apply f => t (f a) (f b) -> f (t a b)
bisequence1 = bitraverse1 id id
{-# INLINE bisequence1 #-}
#if defined(__GLASGOW_HASKELL__) && __GLASGOW_HASKELL__ >= 708
{-# MINIMAL bitraverse1 | bisequence1 #-}
#endif
#if MIN_VERSION_semigroups(0,16,2)
instance Bitraversable1 Arg where
bitraverse1 f g (Arg a b) = Arg <$> f a <.> g b
#endif
instance Bitraversable1 Either where
bitraverse1 f _ (Left a) = Left <$> f a
bitraverse1 _ g (Right b) = Right <$> g b
{-# INLINE bitraverse1 #-}
instance Bitraversable1 (,) where
bitraverse1 f g (a, b) = (,) <$> f a <.> g b
{-# INLINE bitraverse1 #-}
instance Bitraversable1 ((,,) x) where
bitraverse1 f g (x, a, b) = (,,) x <$> f a <.> g b
{-# INLINE bitraverse1 #-}
instance Bitraversable1 ((,,,) x y) where
bitraverse1 f g (x, y, a, b) = (,,,) x y <$> f a <.> g b
{-# INLINE bitraverse1 #-}
instance Bitraversable1 ((,,,,) x y z) where
bitraverse1 f g (x, y, z, a, b) = (,,,,) x y z <$> f a <.> g b
{-# INLINE bitraverse1 #-}
instance Bitraversable1 Const where
bitraverse1 f _ (Const a) = Const <$> f a
{-# INLINE bitraverse1 #-}
#ifdef MIN_VERSION_tagged
instance Bitraversable1 Tagged where
bitraverse1 _ g (Tagged b) = Tagged <$> g b
{-# INLINE bitraverse1 #-}
#endif
instance (Bitraversable1 p, Traversable1 f, Traversable1 g) => Bitraversable1 (Biff p f g) where
bitraverse1 f g = fmap Biff . bitraverse1 (traverse1 f) (traverse1 g) . runBiff
{-# INLINE bitraverse1 #-}
instance Traversable1 f => Bitraversable1 (Clown f) where
bitraverse1 f _ = fmap Clown . traverse1 f . runClown
{-# INLINE bitraverse1 #-}
instance Bitraversable1 p => Bitraversable1 (Flip p) where
bitraverse1 f g = fmap Flip . bitraverse1 g f . runFlip
{-# INLINE bitraverse1 #-}
instance Bitraversable1 p => Traversable1 (Join p) where
traverse1 f (Join a) = fmap Join (bitraverse1 f f a)
{-# INLINE traverse1 #-}
sequence1 (Join a) = fmap Join (bisequence1 a)
{-# INLINE sequence1 #-}
instance Traversable1 g => Bitraversable1 (Joker g) where
bitraverse1 _ g = fmap Joker . traverse1 g . runJoker
{-# INLINE bitraverse1 #-}
instance (Bitraversable1 f, Bitraversable1 g) => Bitraversable1 (Bifunctor.Product f g) where
bitraverse1 f g (Bifunctor.Pair x y) = Bifunctor.Pair <$> bitraverse1 f g x <.> bitraverse1 f g y
{-# INLINE bitraverse1 #-}
instance (Traversable1 f, Bitraversable1 p) => Bitraversable1 (Tannen f p) where
bitraverse1 f g = fmap Tannen . traverse1 (bitraverse1 f g) . runTannen
{-# INLINE bitraverse1 #-}
instance Bitraversable1 p => Bitraversable1 (WrappedBifunctor p) where
bitraverse1 f g = fmap WrapBifunctor . bitraverse1 f g . unwrapBifunctor
{-# INLINE bitraverse1 #-}
class (Foldable1 t, Traversable t) => Traversable1 t where
traverse1 :: Apply f => (a -> f b) -> t a -> f (t b)
sequence1 :: Apply f => t (f b) -> f (t b)
sequence1 = traverse1 id
traverse1 f = sequence1 . fmap f
#if __GLASGOW_HASKELL__ >= 708
{-# MINIMAL traverse1 | sequence1 #-}
#endif
instance Traversable1 f => Traversable1 (Rec1 f) where
traverse1 f (Rec1 as) = Rec1 <$> traverse1 f as
instance Traversable1 f => Traversable1 (M1 i c f) where
traverse1 f (M1 as) = M1 <$> traverse1 f as
instance Traversable1 Par1 where
traverse1 f (Par1 a) = Par1 <$> f a
instance Traversable1 V1 where
traverse1 _ v = v `seq` undefined
instance (Traversable1 f, Traversable1 g) => Traversable1 (f :*: g) where
traverse1 f (as :*: bs) = (:*:) <$> traverse1 f as <.> traverse1 f bs
instance (Traversable1 f, Traversable1 g) => Traversable1 (f :+: g) where
traverse1 f (L1 as) = L1 <$> traverse1 f as
traverse1 f (R1 bs) = R1 <$> traverse1 f bs
instance (Traversable1 f, Traversable1 g) => Traversable1 (f :.: g) where
traverse1 f (Comp1 m) = Comp1 <$> traverse1 (traverse1 f) m
instance Traversable1 Identity where
traverse1 f = fmap Identity . f . runIdentity
instance Traversable1 f => Traversable1 (IdentityT f) where
traverse1 f = fmap IdentityT . traverse1 f . runIdentityT
instance Traversable1 f => Traversable1 (Backwards f) where
traverse1 f = fmap Backwards . traverse1 f . forwards
instance (Traversable1 f, Traversable1 g) => Traversable1 (Compose f g) where
traverse1 f = fmap Compose . traverse1 (traverse1 f) . getCompose
instance Traversable1 f => Traversable1 (Lift f) where
traverse1 f (Pure x) = Pure <$> f x
traverse1 f (Other y) = Other <$> traverse1 f y
instance (Traversable1 f, Traversable1 g) => Traversable1 (Functor.Product f g) where
traverse1 f (Functor.Pair a b) = Functor.Pair <$> traverse1 f a <.> traverse1 f b
instance Traversable1 f => Traversable1 (Reverse f) where
traverse1 f = fmap Reverse . forwards . traverse1 (Backwards . f) . getReverse
instance (Traversable1 f, Traversable1 g) => Traversable1 (Functor.Sum f g) where
traverse1 f (Functor.InL x) = Functor.InL <$> traverse1 f x
traverse1 f (Functor.InR y) = Functor.InR <$> traverse1 f y
#if MIN_VERSION_base(4,4,0)
instance Traversable1 Complex where
traverse1 f (a :+ b) = (:+) <$> f a <.> f b
{-# INLINE traverse1 #-}
#endif
#ifdef MIN_VERSION_tagged
instance Traversable1 (Tagged a) where
traverse1 f (Tagged a) = Tagged <$> f a
#endif
#ifdef MIN_VERSION_containers
instance Traversable1 Tree where
traverse1 f (Node a []) = (`Node`[]) <$> f a
traverse1 f (Node a (x:xs)) = (\b (y:|ys) -> Node b (y:ys)) <$> f a <.> traverse1 (traverse1 f) (x :| xs)
#endif
instance Traversable1 NonEmpty where
traverse1 f (a :| []) = (:|[]) <$> f a
traverse1 f (a :| (b: bs)) = (\a' (b':| bs') -> a' :| b': bs') <$> f a <.> traverse1 f (b :| bs)
instance Traversable1 ((,) a) where
traverse1 f (a, b) = (,) a <$> f b
instance Traversable1 g => Traversable1 (Joker g a) where
traverse1 g = fmap Joker . traverse1 g . runJoker
{-# INLINE traverse1 #-}
instance Traversable1 Monoid.Sum where
traverse1 g (Monoid.Sum a) = Monoid.Sum <$> g a
instance Traversable1 Monoid.Product where
traverse1 g (Monoid.Product a) = Monoid.Product <$> g a
instance Traversable1 Monoid.Dual where
traverse1 g (Monoid.Dual a) = Monoid.Dual <$> g a
#if MIN_VERSION_base(4,8,0)
instance Traversable1 f => Traversable1 (Monoid.Alt f) where
traverse1 g (Alt m) = Alt <$> traverse1 g m
#endif
instance Traversable1 Semigroup.First where
traverse1 g (Semigroup.First a) = Semigroup.First <$> g a
instance Traversable1 Semigroup.Last where
traverse1 g (Semigroup.Last a) = Semigroup.Last <$> g a
instance Traversable1 Semigroup.Min where
traverse1 g (Semigroup.Min a) = Semigroup.Min <$> g a
instance Traversable1 Semigroup.Max where
traverse1 g (Semigroup.Max a) = Semigroup.Max <$> g a