{-# LANGUAGE Haskell2010 #-}
module Data.Monoid.Instances.Stateful (
Stateful(Stateful), extract, state, setState
)
where
import Control.Applicative
import Data.Functor
import qualified Data.List as List
import Data.String (IsString(..))
import Data.Semigroup (Semigroup(..))
import Data.Monoid (Monoid(..))
import Data.Semigroup.Cancellative (LeftReductive(..), RightReductive(..))
import Data.Semigroup.Factorial (Factorial(..), StableFactorial)
import Data.Monoid.GCD (LeftGCDMonoid(..), RightGCDMonoid(..))
import Data.Monoid.Null (MonoidNull(null), PositiveMonoid)
import Data.Monoid.Factorial (FactorialMonoid(..))
import Data.Monoid.Textual (TextualMonoid(..))
import qualified Data.Semigroup.Factorial as Factorial
import qualified Data.Monoid.Factorial as Factorial
import qualified Data.Monoid.Textual as Textual
import Prelude hiding (all, any, break, elem, drop, filter, foldl, foldl1, foldr, foldr1, gcd, map, concatMap,
length, null, reverse, scanl, scanr, scanl1, scanr1, span, splitAt, take)
newtype Stateful a b = Stateful (b, a) deriving (Eq, Ord, Show)
extract :: Stateful a b -> b
extract (Stateful (t, _)) = t
state :: Stateful a b -> a
state (Stateful (_, x)) = x
setState :: a -> Stateful a b -> Stateful a b
setState s (Stateful (t, _)) = Stateful (t, s)
instance Functor (Stateful a) where
fmap f (Stateful (x, s)) = Stateful (f x, s)
instance Monoid a => Applicative (Stateful a) where
pure m = Stateful (m, mempty)
Stateful (f, s1) <*> Stateful (x, s2) = Stateful (f x, mappend s1 s2)
instance (Semigroup a, Semigroup b) => Semigroup (Stateful a b) where
Stateful x <> Stateful y = Stateful (x <> y)
{-# INLINE (<>) #-}
instance (Monoid a, Monoid b) => Monoid (Stateful a b) where
mempty = Stateful mempty
Stateful x `mappend` Stateful y = Stateful (mappend x y)
{-# INLINE mempty #-}
{-# INLINE mappend #-}
instance (MonoidNull a, MonoidNull b) => MonoidNull (Stateful a b) where
null (Stateful x) = null x
{-# INLINE null #-}
instance (PositiveMonoid a, PositiveMonoid b) => PositiveMonoid (Stateful a b)
instance (LeftReductive a, LeftReductive b) => LeftReductive (Stateful a b) where
isPrefixOf (Stateful x) (Stateful x') = isPrefixOf x x'
stripPrefix (Stateful x) (Stateful x') = Stateful <$> stripPrefix x x'
{-# INLINE isPrefixOf #-}
{-# INLINE stripPrefix #-}
instance (RightReductive a, RightReductive b) => RightReductive (Stateful a b) where
isSuffixOf (Stateful x) (Stateful x') = isSuffixOf x x'
stripSuffix (Stateful x) (Stateful x') = Stateful <$> stripSuffix x x'
{-# INLINE stripSuffix #-}
{-# INLINE isSuffixOf #-}
instance (LeftGCDMonoid a, LeftGCDMonoid b) => LeftGCDMonoid (Stateful a b) where
commonPrefix (Stateful x) (Stateful x') = Stateful (commonPrefix x x')
stripCommonPrefix (Stateful x) (Stateful x') = (Stateful prefix, Stateful suffix1, Stateful suffix2)
where (prefix, suffix1, suffix2) = stripCommonPrefix x x'
{-# INLINE commonPrefix #-}
{-# INLINE stripCommonPrefix #-}
instance (RightGCDMonoid a, RightGCDMonoid b) => RightGCDMonoid (Stateful a b) where
commonSuffix (Stateful x) (Stateful x') = Stateful (commonSuffix x x')
{-# INLINE commonSuffix #-}
instance (FactorialMonoid a, FactorialMonoid b) => Factorial (Stateful a b) where
factors (Stateful x) = List.map Stateful (factors x)
length (Stateful x) = length x
reverse (Stateful x) = Stateful (reverse x)
primePrefix (Stateful x) = Stateful (primePrefix x)
primeSuffix (Stateful x) = Stateful (primeSuffix x)
foldl f a0 (Stateful x) = Factorial.foldl f' a0 x
where f' a x1 = f a (Stateful x1)
foldl' f a0 (Stateful x) = Factorial.foldl' f' a0 x
where f' a x1 = f a (Stateful x1)
foldr f a (Stateful x) = Factorial.foldr (f . Stateful) a x
foldMap f (Stateful x) = Factorial.foldMap (f . Stateful) x
{-# INLINE primePrefix #-}
{-# INLINE primeSuffix #-}
{-# INLINE foldl' #-}
{-# INLINE foldr #-}
{-# INLINE foldMap #-}
{-# INLINE length #-}
instance (FactorialMonoid a, FactorialMonoid b) => FactorialMonoid (Stateful a b) where
splitPrimePrefix (Stateful x) = do (xp, xs) <- splitPrimePrefix x
return (Stateful xp, Stateful xs)
splitPrimeSuffix (Stateful x) = do (xp, xs) <- splitPrimeSuffix x
return (Stateful xp, Stateful xs)
span p (Stateful x) = (Stateful xp, Stateful xs)
where (xp, xs) = Factorial.span (p . Stateful) x
spanMaybe s0 f (Stateful x) = (Stateful xp, Stateful xs, s')
where (xp, xs, s') = Factorial.spanMaybe s0 f' x
f' s x1 = f s (Stateful x1)
spanMaybe' s0 f (Stateful x) = (Stateful xp, Stateful xs, s')
where (xp, xs, s') = Factorial.spanMaybe' s0 f' x
f' s x1 = f s (Stateful x1)
split p (Stateful x) = List.map Stateful (Factorial.split (p . Stateful) x)
splitAt n (Stateful x) = (Stateful xp, Stateful xs)
where (xp, xs) = splitAt n x
take n (Stateful x) = Stateful (take n x)
drop n (Stateful x) = Stateful (drop n x)
{-# INLINE splitPrimePrefix #-}
{-# INLINE splitPrimeSuffix #-}
{-# INLINE span #-}
{-# INLINE spanMaybe #-}
{-# INLINE spanMaybe' #-}
{-# INLINE splitAt #-}
{-# INLINE take #-}
{-# INLINE drop #-}
instance (FactorialMonoid a, FactorialMonoid b, StableFactorial a, StableFactorial b) => StableFactorial (Stateful a b)
instance (Monoid a, IsString b) => IsString (Stateful a b) where
fromString = pure . fromString
instance (LeftGCDMonoid a, FactorialMonoid a, TextualMonoid b) => TextualMonoid (Stateful a b) where
fromText t = Stateful (fromText t, mempty)
singleton c = Stateful (singleton c, mempty)
characterPrefix = characterPrefix . extract
splitCharacterPrefix (Stateful (t, x)) = do (c, t') <- splitCharacterPrefix t
return (c, Stateful (t', x))
map f (Stateful (t, x)) = Stateful (Textual.map f t, x)
all p = all p . extract
any p = any p . extract
foldl fx fc a0 (Stateful (t, x)) = Factorial.foldl f2 (Textual.foldl f1 fc a0 t) x
where f1 a = fx a . fromFst
f2 a = fx a . fromSnd
foldr fx fc a (Stateful (t, x)) = Textual.foldr (fx . fromFst) fc (Factorial.foldr (fx . fromSnd) a x) t
foldl' fx fc a0 (Stateful (t, x)) = a' `seq` Factorial.foldl' f2 a' x
where a' = Textual.foldl' f1 fc a0 t
f1 a = fx a . fromFst
f2 a = fx a . fromSnd
foldl_' fc a (Stateful (t, _)) = foldl_' fc a t
foldr_ fc a (Stateful (t, _)) = Textual.foldr_ fc a t
toString fx (Stateful (t, x)) = toString (fx . fromFst) t ++ Factorial.foldMap (fx . fromSnd) x
scanl f c (Stateful (t, x)) = Stateful (Textual.scanl f c t, x)
scanl1 f (Stateful (t, x)) = Stateful (Textual.scanl1 f t, x)
scanr f c (Stateful (t, x)) = Stateful (Textual.scanr f c t, x)
scanr1 f (Stateful (t, x)) = Stateful (Textual.scanr1 f t, x)
mapAccumL f a (Stateful (t, x)) = (a', Stateful (t', x))
where (a', t') = Textual.mapAccumL f a t
mapAccumR f a (Stateful (t, x)) = (a', Stateful (t', x))
where (a', t') = Textual.mapAccumR f a t
span pt pc (Stateful (t, x)) = (Stateful (tp, xp), Stateful (ts, xs))
where (tp, ts) = Textual.span (pt . fromFst) pc t
(xp, xs) | null ts = Factorial.span (pt . fromSnd) x
| otherwise = (mempty, x)
span_ bt pc (Stateful (t, x)) = (Stateful (tp, xp), Stateful (ts, xs))
where (tp, ts) = Textual.span_ bt pc t
(xp, xs) | null ts && bt = (x, mempty)
| otherwise = (mempty, x)
break pt pc (Stateful (t, x)) = (Stateful (tp, xp), Stateful (ts, xs))
where (tp, ts) = Textual.break (pt . fromFst) pc t
(xp, xs) | null ts = Factorial.break (pt . fromSnd) x
| otherwise = (mempty, x)
spanMaybe s0 ft fc (Stateful (t, x)) = (Stateful (tp, xp), Stateful (ts, xs), s'')
where (tp, ts, s') = Textual.spanMaybe s0 ft' fc t
(xp, xs, s'') | null ts = Factorial.spanMaybe s' ft'' x
| otherwise = (mempty, x, s')
ft' s t1 = ft s (Stateful (t1, mempty))
ft'' s x1 = ft s (Stateful (mempty, x1))
spanMaybe' s0 ft fc (Stateful (t, x)) = (Stateful (tp, xp), Stateful (ts, xs), s'')
where (tp, ts, s') = Textual.spanMaybe' s0 ft' fc t
(xp, xs, s'') | null ts = Factorial.spanMaybe' s' ft'' x
| otherwise = (mempty, x, s')
ft' s t1 = ft s (Stateful (t1, mempty))
ft'' s x1 = ft s (Stateful (mempty, x1))
spanMaybe_' s0 fc (Stateful (t, x)) = (Stateful (tp, xp), Stateful (ts, xs), s')
where (tp, ts, s') = Textual.spanMaybe_' s0 fc t
(xp, xs) | null ts = (x, mempty)
| otherwise = (mempty, x)
split p (Stateful (t, x)) = restore id ts
where ts = Textual.split p t
restore f [t1] = f [Stateful (t1, x)]
restore f ~(hd:tl) = restore (f . (Stateful (hd, mempty):)) tl
find p = find p . extract
elem c = elem c . extract
{-# INLINE characterPrefix #-}
{-# INLINE splitCharacterPrefix #-}
{-# INLINE map #-}
{-# INLINE foldl' #-}
{-# INLINE foldr #-}
{-# INLINE spanMaybe' #-}
{-# INLINE span #-}
{-# INLINE spanMaybe_' #-}
{-# INLINE span_ #-}
{-# INLINE any #-}
{-# INLINE all #-}
{-# INLINE split #-}
{-# INLINE find #-}
{-# INLINE elem #-}
{-# INLINE fromFst #-}
fromFst :: Monoid b => a -> Stateful b a
fromFst a = Stateful (a, mempty)
{-# INLINE fromSnd #-}
fromSnd :: Monoid a => b -> Stateful b a
fromSnd b = Stateful (mempty, b)