module Data.Monoid.Instances.Stateful (
Stateful(Stateful), inject, extract, state, setState
)
where
import Prelude hiding (all, any, break, filter, foldl, foldl1, foldr, foldr1, map, concatMap,
length, null, reverse, scanl, scanr, scanl1, scanr1, span, splitAt)
import Control.Applicative (Applicative(..))
import Data.Functor ((<$>))
import qualified Data.List as List
import Data.String (IsString(..))
import Data.Monoid (Monoid(..), (<>), First(..), Sum(..))
import Data.Monoid.Cancellative (LeftReductiveMonoid(..), RightReductiveMonoid(..), ReductiveMonoid(..),
LeftGCDMonoid(..), RightGCDMonoid(..), GCDMonoid(..))
import Data.Monoid.Null (MonoidNull(null), PositiveMonoid)
import Data.Monoid.Factorial (FactorialMonoid(..), StableFactorialMonoid)
import Data.Monoid.Textual (TextualMonoid(..))
import qualified Data.Monoid.Factorial as Factorial
import qualified Data.Monoid.Textual as Textual
newtype Stateful a b = Stateful (b, a) deriving (Eq, Ord, Show)
inject :: Monoid a => b -> Stateful a b
inject = pure
extract :: Stateful a b -> b
extract (Stateful (t, _)) = t
state :: Stateful a b -> a
state (Stateful (_, x)) = x
setState :: a -> Stateful a b -> Stateful a b
setState s (Stateful (t, _)) = Stateful (t, s)
instance Functor (Stateful a) where
fmap f (Stateful (x, s)) = Stateful (f x, s)
instance Monoid a => Applicative (Stateful a) where
pure m = Stateful (m, mempty)
Stateful (f, s1) <*> Stateful (x, s2) = Stateful (f x, s1 <> s2)
instance (Monoid a, Monoid b) => Monoid (Stateful a b) where
mempty = Stateful mempty
mappend (Stateful x) (Stateful y) = Stateful (x <> y)
instance (MonoidNull a, MonoidNull b) => MonoidNull (Stateful a b) where
null (Stateful x) = null x
instance (PositiveMonoid a, PositiveMonoid b) => PositiveMonoid (Stateful a b)
instance (LeftReductiveMonoid a, LeftReductiveMonoid b) => LeftReductiveMonoid (Stateful a b) where
stripPrefix (Stateful x) (Stateful x') = Stateful <$> stripPrefix x x'
instance (RightReductiveMonoid a, RightReductiveMonoid b) => RightReductiveMonoid (Stateful a b) where
stripSuffix (Stateful x) (Stateful x') = Stateful <$> stripSuffix x x'
instance (LeftGCDMonoid a, LeftGCDMonoid b) => LeftGCDMonoid (Stateful a b) where
commonPrefix (Stateful x) (Stateful x') = Stateful (commonPrefix x x')
instance (RightGCDMonoid a, RightGCDMonoid b) => RightGCDMonoid (Stateful a b) where
commonSuffix (Stateful x) (Stateful x') = Stateful (commonSuffix x x')
instance (FactorialMonoid a, FactorialMonoid b) => FactorialMonoid (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)
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)
foldl f a (Stateful x) = Factorial.foldl f' a x
where f' a x = f a (Stateful x)
foldl' f a (Stateful x) = Factorial.foldl' f' a x
where f' a x = f a (Stateful x)
foldr f a (Stateful x) = Factorial.foldr (f . Stateful) a x
foldMap f (Stateful x) = Factorial.foldMap (f . Stateful) x
span p (Stateful x) = (Stateful xp, Stateful xs)
where (xp, xs) = Factorial.span (p . Stateful) x
split p (Stateful x) = List.map Stateful (Factorial.split (p . Stateful) x)
splitAt m (Stateful x) = (Stateful xp, Stateful xs)
where (xp, xs) = splitAt m x
instance (StableFactorialMonoid a, StableFactorialMonoid b) => StableFactorialMonoid (Stateful a b)
instance (Monoid a, IsString b) => IsString (Stateful a b) where
fromString = inject . 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 = Textual.all p . extract
any p = Textual.any p . extract
foldl fx fc a (Stateful (t, x)) = Factorial.foldl f2 (Textual.foldl f1 fc a 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 a (Stateful (t, x)) = a' `seq` Factorial.foldl' f2 a' x
where a' = Textual.foldl' f1 fc a t
f1 a = fx a . fromFst
f2 a = fx a . fromSnd
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)
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)
split p (Stateful (t, x)) = restore id ts
where ts = Textual.split p t
restore f [t] = f [Stateful (t, x)]
restore f (hd:tl) = restore (f . (Stateful (hd, mempty):)) tl
find p = find p . extract
fromFst :: Monoid b => a -> Stateful b a
fromFst a = Stateful (a, mempty)
fromSnd :: Monoid a => b -> Stateful b a
fromSnd b = Stateful (mempty, b)