module Data.Monoid.Instances.Concat (
Concat, concatenate, extract
)
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.Foldable (Foldable)
import Data.Traversable (Traversable, traverse)
import qualified Data.Foldable as Foldable
import qualified Data.Traversable as Traversable
import Data.Maybe (fromMaybe)
import Data.String (IsString(..))
import Data.Monoid (Monoid(..), (<>), First(..), Sum(..))
import Data.Monoid.Cancellative (LeftReductiveMonoid(..), RightReductiveMonoid(..),
LeftGCDMonoid(..), RightGCDMonoid(..))
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
import Data.Sequence (Seq, empty, filter, (<|), (|>), ViewL((:<)), ViewR((:>)))
import qualified Data.Sequence as Seq
newtype Concat a = Concat {extract :: Seq a} deriving Show
concatenate :: (MonoidNull a, PositiveMonoid a) => Seq a -> Concat a
concatenate = Concat . filter (not . null)
instance (Eq a, Monoid a) => Eq (Concat a) where
Concat x == Concat y = Foldable.foldMap id x == Foldable.foldMap id y
instance (Ord a, Monoid a) => Ord (Concat a) where
compare (Concat x) (Concat y) = compare (Foldable.foldMap id x) (Foldable.foldMap id y)
instance Functor Concat where
fmap f (Concat x) = Concat (fmap f x)
instance Applicative Concat where
pure a = Concat (Seq.singleton a)
Concat x <*> Concat y = Concat (x <*> y)
Concat x *> Concat y = Concat (x *> y)
instance Monoid (Concat a) where
mempty = Concat Seq.empty
mappend (Concat a) (Concat b) = Concat (mappend a b)
instance MonoidNull (Concat a) where
null (Concat x) = Seq.null x
instance PositiveMonoid (Concat a)
instance (LeftReductiveMonoid a, MonoidNull a, StableFactorialMonoid a) => LeftReductiveMonoid (Concat a) where
stripPrefix (Concat x) (Concat y) = fmap Concat $ strip1 x y
where strip1 x y = strip2 (Seq.viewl x) y
strip2 Seq.EmptyL y = Just y
strip2 (xp :< xs) y = strip3 xp xs (Seq.viewl y)
strip3 _ _ Seq.EmptyL = Nothing
strip3 xp xs (yp :< ys) =
case (stripPrefix xp yp, stripPrefix yp xp)
of (Just yps, _) -> strip1 xs (if null yps then ys else yps <| ys)
(Nothing, Nothing) -> Nothing
(Nothing, Just xps) -> strip3 xps xs (Seq.viewl ys)
instance (MonoidNull a, RightReductiveMonoid a, StableFactorialMonoid a) => RightReductiveMonoid (Concat a) where
stripSuffix (Concat x) (Concat y) = fmap Concat $ strip1 x y
where strip1 x y = strip2 (Seq.viewr x) y
strip2 Seq.EmptyR y = Just y
strip2 (xp :> xs) y = strip3 xp xs (Seq.viewr y)
strip3 _ _ Seq.EmptyR = Nothing
strip3 xp xs (yp :> ys) =
case (stripSuffix xs ys, stripSuffix ys xs)
of (Just ysp, _) -> strip1 xp (if null ysp then yp else yp |> ysp)
(Nothing, Nothing) -> Nothing
(Nothing, Just xsp) -> strip3 xp xsp (Seq.viewr yp)
instance (Eq a, LeftGCDMonoid a, MonoidNull a, StableFactorialMonoid a) => LeftGCDMonoid (Concat a) where
stripCommonPrefix (Concat x) (Concat y) = strip cp1 xs1 ys1
where (cp1, xs1, ys1) = stripCommonPrefix x y
strip cp xs ys =
case (Seq.viewl xs, Seq.viewl ys)
of (Seq.EmptyL, _) -> (Concat cp, mempty, Concat ys)
(_, Seq.EmptyL) -> (Concat cp, Concat xs, mempty)
(xsp :< xss, ysp :< yss) ->
let (cs, xsps, ysps) = stripCommonPrefix xsp ysp
cp' = cp |> cs
prepend p s = if null p then s else p <| s
in if null cs
then (Concat cp, Concat xs, Concat ys)
else if null xsps && null ysps
then strip cp' xss yss
else (Concat cp', Concat $ prepend xsps xss, Concat $ prepend ysps yss)
instance (Eq a, RightGCDMonoid a, MonoidNull a, StableFactorialMonoid a) => RightGCDMonoid (Concat a) where
stripCommonSuffix (Concat x) (Concat y) = strip xp1 yp1 cs1
where (xp1, yp1, cs1) = stripCommonSuffix x y
strip xp yp cs =
case (Seq.viewr xp, Seq.viewr yp)
of (Seq.EmptyR, _) -> (mempty, Concat yp, Concat cs)
(_, Seq.EmptyR) -> (Concat xp, mempty, Concat cs)
(xpp :> xps, ypp :> yps) ->
let (xpsp, ypsp, cp) = stripCommonSuffix xps yps
cs' = cp <| cs
append p s = if null s then p else p |> s
in if null cp
then (Concat xp, Concat yp, Concat cs)
else if null xpsp && null ypsp
then strip xpp ypp cs'
else (Concat $ append xpp xpsp, Concat $ append ypp ypsp, Concat cs')
instance FactorialMonoid a => FactorialMonoid (Concat a) where
factors (Concat x) = Foldable.foldMap (fmap (Concat . Seq.singleton) . factors) x
primePrefix (Concat x) = Concat (fmap primePrefix $ primePrefix x)
primeSuffix (Concat x) = Concat (fmap primeSuffix $ primeSuffix x)
splitPrimePrefix (Concat x) =
case Seq.viewl x
of Seq.EmptyL -> Nothing
xp :< xs -> Just (Concat $ Seq.singleton xpp, Concat xs')
where Just (xpp, xps) = splitPrimePrefix xp
xs' = if null xps then xs else xps <| xs
splitPrimeSuffix (Concat x) =
case Seq.viewr x
of Seq.EmptyR -> Nothing
xp :> xs -> Just (Concat xp', Concat $ Seq.singleton xss)
where Just (xsp, xss) = splitPrimeSuffix xs
xp' = if null xsp then xp else xp |> xsp
foldl f a (Concat x) = Foldable.foldl g a x
where g = Factorial.foldl (\a-> f a . Concat . Seq.singleton)
foldl' f a (Concat x) = Foldable.foldl' g a x
where g = Factorial.foldl' (\a-> f a . Concat . Seq.singleton)
foldr f a (Concat x) = Foldable.foldr g a x
where g a b = Factorial.foldr (f . Concat . Seq.singleton) b a
length (Concat x) = getSum $ Foldable.foldMap (Sum . length) x
foldMap f (Concat x) = Foldable.foldMap (foldMap (f . Concat . Seq.singleton)) x
span p (Concat x) =
case Seq.viewl x
of Seq.EmptyL -> (mempty, mempty)
xp :< xs | null xps -> (Concat (xp <| xsp), xss)
| null xpp -> (mempty, Concat x)
| otherwise -> (Concat $ Seq.singleton xpp, Concat (xps <| xs))
where (xpp, xps) = Factorial.span (p . Concat . Seq.singleton) xp
(Concat xsp, xss) = Factorial.span p (Concat xs)
split p (Concat x) = Foldable.foldr splitNext [mempty] x
where splitNext a (xp:xs) =
let as = fmap (Concat . Seq.singleton) (Factorial.split (p . Concat . Seq.singleton) a)
in if null xp
then as ++ xs
else init as ++ (last as <> xp):xs
splitAt 0 c = (mempty, c)
splitAt n (Concat x) =
case Seq.viewl x
of Seq.EmptyL -> (mempty, mempty)
xp :< xs | k < n -> (Concat (xp <| xsp), xss)
| otherwise -> (Concat $ Seq.singleton xpp, Concat (if null xps then xs else xps <| xs))
where k = length xp
(Concat xsp, xss) = splitAt (n k) (Concat xs)
(xpp, xps) = splitAt n xp
reverse (Concat x) = Concat (fmap reverse $ reverse x)
instance (IsString a) => IsString (Concat a) where
fromString "" = Concat empty
fromString s = Concat (Seq.singleton $ fromString s)
instance (Eq a, TextualMonoid a, StableFactorialMonoid a) => TextualMonoid (Concat a) where
fromText t | null t = Concat empty
| otherwise = Concat (Seq.singleton $ fromText t)
singleton = Concat . Seq.singleton . singleton
splitCharacterPrefix (Concat x) =
case Seq.viewl x
of Seq.EmptyL -> Nothing
xp :< xs -> case splitCharacterPrefix xp
of Just (c, xps) -> Just (c, Concat $ if null xps then xs else xps <| xs)
Nothing -> Nothing
characterPrefix (Concat x) =
case Seq.viewl x
of Seq.EmptyL -> Nothing
xp :< _ -> characterPrefix xp
map f (Concat x) = Concat (fmap (map f) x)
any p (Concat x) = Foldable.any (any p) x
all p (Concat x) = Foldable.all (all p) x
foldl ft fc a (Concat x) = Foldable.foldl g a x
where g = Textual.foldl (\a-> ft a . Concat . Seq.singleton) fc
foldl' ft fc a (Concat x) = Foldable.foldl' g a x
where g = Textual.foldl' (\a-> ft a . Concat . Seq.singleton) fc
foldr ft fc a (Concat x) = Foldable.foldr g a x
where g a b = Textual.foldr (ft . Concat . Seq.singleton) fc b a
span pt pc (Concat x) =
case Seq.viewl x
of Seq.EmptyL -> (mempty, mempty)
xp :< xs | null xps -> (Concat (xp <| xsp), xss)
| null xpp -> (mempty, Concat x)
| otherwise -> (Concat $ Seq.singleton xpp, Concat (xps <| xs))
where (xpp, xps) = Textual.span (pt . Concat . Seq.singleton) pc xp
(Concat xsp, xss) = Textual.span pt pc (Concat xs)
break pt pc = Textual.span (not . pt) (not . pc)
find p (Concat x) = getFirst $ Foldable.foldMap (First . find p) x
injectSingleton :: (MonoidNull a, PositiveMonoid a) => a -> Concat a
injectSingleton a | null a = mempty
| otherwise = Concat (Seq.singleton a)