{-# LANGUAGE DeriveDataTypeable #-}
{-# LANGUAGE DeriveGeneric #-}
{-# LANGUAGE OverloadedStrings #-}
module Data.These (
These(..)
, these
, fromThese
, mergeThese
, mergeTheseWith
, partitionThese
, partitionHereThere
) where
import Prelude ()
import Prelude.Compat
import Control.DeepSeq (NFData (..))
import Control.Lens (Swapped (..), iso)
import Data.Aeson (FromJSON (..), ToJSON (..), (.=))
import Data.Bifoldable (Bifoldable (..))
import Data.Bifunctor (Bifunctor (..))
import Data.Bifunctor.Assoc (Assoc (..))
import Data.Bifunctor.Swap (Swap (..))
import Data.Binary (Binary (..))
import Data.Bitraversable (Bitraversable (..))
import Data.Data (Data, Typeable)
import Data.Functor.Bind (Apply (..), Bind (..))
import Data.Hashable (Hashable (..))
import Data.Semigroup (Semigroup (..))
import Data.Semigroup.Bifoldable (Bifoldable1 (..))
import Data.Semigroup.Bitraversable (Bitraversable1 (..))
import GHC.Generics (Generic)
import Test.QuickCheck
(Arbitrary (..), Arbitrary1 (..), Arbitrary2 (..), CoArbitrary (..),
arbitrary1, oneof, shrink1)
import Test.QuickCheck.Function (Function (..), functionMap)
import qualified Data.Aeson as Aeson
import qualified Data.Aeson.Encoding as Aeson (pair)
import qualified Data.HashMap.Strict as HM
data These a b = This a | That b | These a b
deriving (Eq, Ord, Read, Show, Typeable, Data, Generic)
these :: (a -> c) -> (b -> c) -> (a -> b -> c) -> These a b -> c
these l _ _ (This a) = l a
these _ r _ (That x) = r x
these _ _ lr (These a x) = lr a x
fromThese :: a -> b -> These a b -> (a, b)
fromThese x y = these (`pair` y) (x `pair`) pair where
pair = (,)
mergeThese :: (a -> a -> a) -> These a a -> a
mergeThese = these id id
mergeTheseWith :: (a -> c) -> (b -> c) -> (c -> c -> c) -> These a b -> c
mergeTheseWith f g op t = mergeThese op $ bimap f g t
partitionThese :: [These a b] -> ([a], [b], [(a, b)])
partitionThese [] = ([], [], [])
partitionThese (t:ts) = case t of
This x -> (x : xs, ys, xys)
That y -> ( xs, y : ys, xys)
These x y -> ( xs, ys, (x,y) : xys)
where
~(xs,ys,xys) = partitionThese ts
partitionHereThere :: [These a b] -> ([a], [b])
partitionHereThere [] = ([], [])
partitionHereThere (t:ts) = case t of
This x -> (x : xs, ys)
That y -> ( xs, y : ys)
These x y -> (x : xs, y : ys)
where
~(xs,ys) = partitionHereThere ts
instance Swap These where
swap (This a) = That a
swap (That b) = This b
swap (These a b) = These b a
instance Assoc These where
assoc (This (This a)) = This a
assoc (This (That b)) = That (This b)
assoc (That c) = That (That c)
assoc (These (That b) c) = That (These b c)
assoc (This (These a b)) = These a (This b)
assoc (These (This a) c) = These a (That c)
assoc (These (These a b) c) = These a (These b c)
unassoc (This a) = This (This a)
unassoc (That (This b)) = This (That b)
unassoc (That (That c)) = That c
unassoc (That (These b c)) = These (That b) c
unassoc (These a (This b)) = This (These a b)
unassoc (These a (That c)) = These (This a) c
unassoc (These a (These b c)) = These (These a b) c
instance (Semigroup a, Semigroup b) => Semigroup (These a b) where
This a <> This b = This (a <> b)
This a <> That y = These a y
This a <> These b y = These (a <> b) y
That x <> This b = These b x
That x <> That y = That (x <> y)
That x <> These b y = These b (x <> y)
These a x <> This b = These (a <> b) x
These a x <> That y = These a (x <> y)
These a x <> These b y = These (a <> b) (x <> y)
instance Functor (These a) where
fmap _ (This x) = This x
fmap f (That y) = That (f y)
fmap f (These x y) = These x (f y)
instance Foldable (These a) where
foldr _ z (This _) = z
foldr f z (That x) = f x z
foldr f z (These _ x) = f x z
instance Traversable (These a) where
traverse _ (This a) = pure $ This a
traverse f (That x) = That <$> f x
traverse f (These a x) = These a <$> f x
sequenceA (This a) = pure $ This a
sequenceA (That x) = That <$> x
sequenceA (These a x) = These a <$> x
instance Bifunctor These where
bimap f _ (This a ) = This (f a)
bimap _ g (That x) = That (g x)
bimap f g (These a x) = These (f a) (g x)
instance Bifoldable These where
bifold = these id id mappend
bifoldr f g z = these (`f` z) (`g` z) (\x y -> x `f` (y `g` z))
bifoldl f g z = these (z `f`) (z `g`) (\x y -> (z `f` x) `g` y)
instance Bifoldable1 These where
bifold1 = these id id (<>)
instance Bitraversable These where
bitraverse f _ (This x) = This <$> f x
bitraverse _ g (That x) = That <$> g x
bitraverse f g (These x y) = These <$> f x <*> g y
instance Bitraversable1 These where
bitraverse1 f _ (This x) = This <$> f x
bitraverse1 _ g (That x) = That <$> g x
bitraverse1 f g (These x y) = These <$> f x <.> g y
instance Swapped These where
swapped = iso swap swap
instance (Semigroup a) => Apply (These a) where
This a <.> _ = This a
That _ <.> This b = This b
That f <.> That x = That (f x)
That f <.> These b x = These b (f x)
These a _ <.> This b = This (a <> b)
These a f <.> That x = These a (f x)
These a f <.> These b x = These (a <> b) (f x)
instance (Semigroup a) => Applicative (These a) where
pure = That
(<*>) = (<.>)
instance (Semigroup a) => Bind (These a) where
This a >>- _ = This a
That x >>- k = k x
These a x >>- k = case k x of
This b -> This (a <> b)
That y -> These a y
These b y -> These (a <> b) y
instance (Semigroup a) => Monad (These a) where
return = pure
(>>=) = (>>-)
instance (Hashable a, Hashable b) => Hashable (These a b)
instance (NFData a, NFData b) => NFData (These a b) where
rnf (This a) = rnf a
rnf (That b) = rnf b
rnf (These a b) = rnf a `seq` rnf b
instance (Binary a, Binary b) => Binary (These a b) where
put (This a) = put (0 :: Int) >> put a
put (That b) = put (1 :: Int) >> put b
put (These a b) = put (2 :: Int) >> put a >> put b
get = do
i <- get
case (i :: Int) of
0 -> This <$> get
1 -> That <$> get
2 -> These <$> get <*> get
_ -> fail "Invalid These index"
instance (ToJSON a, ToJSON b) => ToJSON (These a b) where
toJSON (This a) = Aeson.object [ "This" .= a ]
toJSON (That b) = Aeson.object [ "That" .= b ]
toJSON (These a b) = Aeson.object [ "This" .= a, "That" .= b ]
toEncoding (This a) = Aeson.pairs $ "This" .= a
toEncoding (That b) = Aeson.pairs $ "That" .= b
toEncoding (These a b) = Aeson.pairs $ "This" .= a <> "That" .= b
instance (FromJSON a, FromJSON b) => FromJSON (These a b) where
parseJSON = Aeson.withObject "These a b" (p . HM.toList)
where
p [("This", a), ("That", b)] = These <$> parseJSON a <*> parseJSON b
p [("That", b), ("This", a)] = These <$> parseJSON a <*> parseJSON b
p [("This", a)] = This <$> parseJSON a
p [("That", b)] = That <$> parseJSON b
p _ = fail "Expected object with 'This' and 'That' keys only"
instance Aeson.ToJSON2 These where
liftToJSON2 toa _ _tob _ (This a) = Aeson.object [ "This" .= toa a ]
liftToJSON2 _toa _ tob _ (That b) = Aeson.object [ "That" .= tob b ]
liftToJSON2 toa _ tob _ (These a b) = Aeson.object [ "This" .= toa a, "That" .= tob b ]
liftToEncoding2 toa _ _tob _ (This a) = Aeson.pairs $ Aeson.pair "This" (toa a)
liftToEncoding2 _toa _ tob _ (That b) = Aeson.pairs $ Aeson.pair "That" (tob b)
liftToEncoding2 toa _ tob _ (These a b) = Aeson.pairs $ Aeson.pair "This" (toa a) <> Aeson.pair "That" (tob b)
instance ToJSON a => Aeson.ToJSON1 (These a) where
liftToJSON _tob _ (This a) = Aeson.object [ "This" .= a ]
liftToJSON tob _ (That b) = Aeson.object [ "That" .= tob b ]
liftToJSON tob _ (These a b) = Aeson.object [ "This" .= a, "That" .= tob b ]
liftToEncoding _tob _ (This a) = Aeson.pairs $ "This" .= a
liftToEncoding tob _ (That b) = Aeson.pairs $ Aeson.pair "That" (tob b)
liftToEncoding tob _ (These a b) = Aeson.pairs $ "This" .= a <> Aeson.pair "That" (tob b)
instance Aeson.FromJSON2 These where
liftParseJSON2 pa _ pb _ = Aeson.withObject "These a b" (p . HM.toList)
where
p [("This", a), ("That", b)] = These <$> pa a <*> pb b
p [("That", b), ("This", a)] = These <$> pa a <*> pb b
p [("This", a)] = This <$> pa a
p [("That", b)] = That <$> pb b
p _ = fail "Expected object with 'This' and 'That' keys only"
instance FromJSON a => Aeson.FromJSON1 (These a) where
liftParseJSON pb _ = Aeson.withObject "These a b" (p . HM.toList)
where
p [("This", a), ("That", b)] = These <$> parseJSON a <*> pb b
p [("That", b), ("This", a)] = These <$> parseJSON a <*> pb b
p [("This", a)] = This <$> parseJSON a
p [("That", b)] = That <$> pb b
p _ = fail "Expected object with 'This' and 'That' keys only"
instance Arbitrary2 These where
liftArbitrary2 arbA arbB = oneof
[ This <$> arbA
, That <$> arbB
, These <$> arbA <*> arbB
]
liftShrink2 shrA _shrB (This x) = This <$> shrA x
liftShrink2 _shrA shrB (That y) = That <$> shrB y
liftShrink2 shrA shrB (These x y) =
[This x, That y] ++ [These x' y' | (x', y') <- liftShrink2 shrA shrB (x, y)]
instance (Arbitrary a) => Arbitrary1 (These a) where
liftArbitrary = liftArbitrary2 arbitrary
liftShrink = liftShrink2 shrink
instance (Arbitrary a, Arbitrary b) => Arbitrary (These a b) where
arbitrary = arbitrary1
shrink = shrink1
instance (Function a, Function b) => Function (These a b) where
function = functionMap g f
where
g (This a) = Left a
g (That b) = Right (Left b)
g (These a b) = Right (Right (a, b))
f (Left a) = This a
f (Right (Left b)) = That b
f (Right (Right (a, b))) = These a b
instance (CoArbitrary a, CoArbitrary b) => CoArbitrary (These a b)