module Data.FMList (
FMList(..)
, transform
, empty
, singleton
, cons
, snoc
, pair
, append
, fromList
, fromFoldable
, null
, length
, genericLength
, head
, tail
, last
, init
, reverse
, toList
, flatten
, foldMapA
, filter
, take
, drop
, takeWhile
, dropWhile
, zip
, zipWith
, iterate
, repeat
, cycle
, unfold
, unfoldr
) where
import Prelude
( (.), ($), ($!), flip, const, error
, Either(..), either
, Bool(..), (&&)
, Ord(..), Num(..), Int
, Show(..), String, (++)
)
import Data.Maybe (Maybe(..), maybe, fromMaybe, isNothing)
import Data.Monoid (Monoid, mempty, mappend, Dual(..), First(..), Last(..), Sum(..))
#if MIN_VERSION_base(4,9,0)
import Data.Semigroup (Semigroup((<>)))
#endif
import Data.Foldable (Foldable, foldMap, foldr, toList)
import Data.Traversable (Traversable, traverse)
import Control.Monad
import Control.Applicative
newtype FMList a = FM { unFM :: forall m . Monoid m => (a -> m) -> m }
transform :: (forall m. Monoid m => (a -> m) -> (b -> m)) -> FMList b -> FMList a
transform t (FM l) = FM (l . t)
nil :: FMList a
nil = FM mempty
one :: a -> FMList a
one x = FM ($ x)
(><) :: FMList a -> FMList a -> FMList a
FM l >< FM r = FM (l `mappend` r)
singleton :: a -> FMList a
singleton = one
cons :: a -> FMList a -> FMList a
cons x l = one x >< l
snoc :: FMList a -> a -> FMList a
snoc l x = l >< one x
pair :: a -> a -> FMList a
pair l r = one l >< one r
append :: FMList a -> FMList a -> FMList a
append = (><)
fromList :: [a] -> FMList a
fromList = fromFoldable
fromFoldable :: Foldable f => f a -> FMList a
fromFoldable l = FM $ flip foldMap l
mhead :: FMList a -> Maybe a
mhead l = getFirst (unFM l (First . Just))
null :: FMList a -> Bool
null = isNothing . mhead
length :: FMList a -> Int
length = genericLength
genericLength :: Num b => FMList a -> b
genericLength l = getSum $ unFM l (const $ Sum 1)
head :: FMList a -> a
head l = mhead l `fromMaybeOrError` "Data.FMList.head: empty list"
tail :: FMList a -> FMList a
tail l = if null l then error "Data.FMList.tail: empty list" else drop (1::Int) l
last :: FMList a -> a
last l = getLast (unFM l (Last . Just)) `fromMaybeOrError` "Data.FMList.last: empty list"
init :: FMList a -> FMList a
init l = if null l then error "Data.FMList.init: empty list" else reverse . drop (1::Int) . reverse $ l
reverse :: FMList a -> FMList a
reverse l = FM $ getDual . unFM l . (Dual .)
flatten :: Foldable t => FMList (t a) -> FMList a
flatten = transform foldMap
filter :: (a -> Bool) -> FMList a -> FMList a
filter p = transform (\f x -> if p x then f x else mempty)
transformCS :: (forall m. Monoid m => (b -> m) -> a -> (m -> s -> m) -> s -> m) -> s -> FMList a -> FMList b
transformCS t s0 l = FM $ \f -> foldr (\e r -> t f e (\a -> mappend a . r)) mempty l s0
take :: (Ord n, Num n) => n -> FMList a -> FMList a
take = transformCS (\f e c i -> if i > 0 then c (f e) (i1) else mempty)
takeWhile :: (a -> Bool) -> FMList a -> FMList a
takeWhile p = transformCS (\f e c _ -> if p e then c (f e) True else mempty) True
drop :: (Ord n, Num n) => n -> FMList a -> FMList a
drop = transformCS (\f e c i -> if i > 0 then c mempty (i1) else c (f e) 0)
dropWhile :: (a -> Bool) -> FMList a -> FMList a
dropWhile p = transformCS (\f e c ok -> if ok && p e then c mempty True else c (f e) False) True
zipWith :: (a -> b -> c) -> FMList a -> FMList b -> FMList c
zipWith t = transformCS (\f e2 c r1 -> foldr (\e1 _ -> c (f (t e1 e2)) (drop (1::Int) r1)) mempty r1)
zip :: FMList a -> FMList b -> FMList (a,b)
zip = zipWith (,)
iterate :: (a -> a) -> a -> FMList a
iterate f x = x `cons` iterate f (f x)
repeat :: a -> FMList a
repeat = cycle . one
cycle :: FMList a -> FMList a
cycle l = l >< cycle l >< l
unfoldr :: (b -> Maybe (a, b)) -> b -> FMList a
unfoldr g = unfold (maybe empty (\(a, b) -> Right a `pair` Left b) . g)
unfold :: (b -> FMList (Either b a)) -> b -> FMList a
unfold g = transform (\f -> either (foldMap f . unfold g) f) . g
newtype WrapApp f m = WrapApp { unWrapApp :: f m }
#if MIN_VERSION_base(4,9,0)
instance (Applicative f, Semigroup m) => Semigroup (WrapApp f m) where
WrapApp a <> WrapApp b = WrapApp $ (<>) <$> a <*> b
#endif
instance (Applicative f, Monoid m) => Monoid (WrapApp f m) where
mempty = WrapApp $ pure mempty
mappend (WrapApp a) (WrapApp b) = WrapApp $ mappend <$> a <*> b
foldMapA :: (Foldable t, Applicative f, Monoid m) => (a -> f m) -> t a -> f m
foldMapA f = unWrapApp . foldMap (WrapApp . f)
instance Functor FMList where
fmap g = transform (\f -> f . g)
a <$ l = transform (\f -> const (f a)) l
instance Foldable FMList where
foldMap = flip unFM
instance Traversable FMList where
traverse f = foldMapA (fmap one . f)
instance Monad FMList where
return = one
m >>= g = transform (\f -> foldMap f . g) m
m >> k = transform (\f -> const (foldMap f k)) m
fail _ = nil
instance Applicative FMList where
pure = one
gs <*> xs = transform (\f g -> unFM xs (f . g)) gs
as <* bs = transform (\f a -> unFM bs (const (f a))) as
as *> bs = transform (\f -> const (unFM bs f)) as
#if MIN_VERSION_base(4,9,0)
instance Semigroup (FMList a) where
(<>) = (><)
#endif
instance Monoid (FMList a) where
mempty = nil
mappend = (><)
instance MonadPlus FMList where
mzero = nil
mplus = (><)
instance Alternative FMList where
empty = nil
(<|>) = (><)
instance Show a => Show (FMList a) where
show l = "fromList " ++ (show $! toList l)
fromMaybeOrError :: Maybe a -> String -> a
fromMaybeOrError ma e = fromMaybe (error e) ma