zipWith6M :: Monad m => (a -> b -> c -> d -> e -> f -> m g) -> Stream m a -> Stream m b -> Stream m c -> Stream m d -> Stream m e -> Stream m f -> Stream m g

zipWith :: Monad m => (a -> b -> c) -> Stream m a -> Stream m b -> Stream m c

zipWith3 :: Monad m => (a -> b -> c -> d) -> Stream m a -> Stream m b -> Stream m c -> Stream m d

zipWith4 :: Monad m => (a -> b -> c -> d -> e) -> Stream m a -> Stream m b -> Stream m c -> Stream m d -> Stream m e

zipWith5 :: Monad m => (a -> b -> c -> d -> e -> f) -> Stream m a -> Stream m b -> Stream m c -> Stream m d -> Stream m e -> Stream m f

zipWith6 :: Monad m => (a -> b -> c -> d -> e -> f -> g) -> Stream m a -> Stream m b -> Stream m c -> Stream m d -> Stream m e -> Stream m f -> Stream m g

zip :: Monad m => Stream m a -> Stream m b -> Stream m (a, b)

zip3 :: Monad m => Stream m a -> Stream m b -> Stream m c -> Stream m (a, b, c)

zip4 :: Monad m => Stream m a -> Stream m b -> Stream m c -> Stream m d -> Stream m (a, b, c, d)

zip5 :: Monad m => Stream m a -> Stream m b -> Stream m c -> Stream m d -> Stream m e -> Stream m (a, b, c, d, e)

zip6 :: Monad m => Stream m a -> Stream m b -> Stream m c -> Stream m d -> Stream m e -> Stream m f -> Stream m (a, b, c, d, e, f)

Filtering

filter :: Monad m => (a -> Bool) -> Stream m a -> Stream m a

Drop elements which do not satisfy the predicate

filterM :: Monad m => (a -> m Bool) -> Stream m a -> Stream m a

Drop elements which do not satisfy the monadic predicate

takeWhile :: Monad m => (a -> Bool) -> Stream m a -> Stream m a

Longest prefix of elements that satisfy the predicate

takeWhileM :: Monad m => (a -> m Bool) -> Stream m a -> Stream m a

Longest prefix of elements that satisfy the monadic predicate

dropWhile :: Monad m => (a -> Bool) -> Stream m a -> Stream m a

Drop the longest prefix of elements that satisfy the predicate

dropWhileM :: Monad m => (a -> m Bool) -> Stream m a -> Stream m a

Drop the longest prefix of elements that satisfy the monadic predicate

Searching

elem :: (Monad m, Eq a) => a -> Stream m a -> m Bool

Check whether the Stream contains an element

notElem :: (Monad m, Eq a) => a -> Stream m a -> m Bool

Inverse of elem

find :: Monad m => (a -> Bool) -> Stream m a -> m (Maybe a)

Yield Just the first element that satisfies the predicate or Nothing if no such element exists.

findM :: Monad m => (a -> m Bool) -> Stream m a -> m (Maybe a)

Yield Just the first element that satisfies the monadic predicate or Nothing if no such element exists.

findIndex :: Monad m => (a -> Bool) -> Stream m a -> m (Maybe Int)

Yield Just the index of the first element that satisfies the predicate or Nothing if no such element exists.

findIndexM :: Monad m => (a -> m Bool) -> Stream m a -> m (Maybe Int)

Yield Just the index of the first element that satisfies the monadic predicate or Nothing if no such element exists.

Folding

foldl :: Monad m => (a -> b -> a) -> a -> Stream m b -> m a

Left fold

foldlM :: Monad m => (a -> b -> m a) -> a -> Stream m b -> m a

Left fold with a monadic operator

foldl1 :: Monad m => (a -> a -> a) -> Stream m a -> m a

Left fold over a non-empty Stream

foldl1M :: Monad m => (a -> a -> m a) -> Stream m a -> m a

Left fold over a non-empty Stream with a monadic operator

foldM :: Monad m => (a -> b -> m a) -> a -> Stream m b -> m a

Same as foldlM

fold1M :: Monad m => (a -> a -> m a) -> Stream m a -> m a

Same as foldl1M

foldl' :: Monad m => (a -> b -> a) -> a -> Stream m b -> m a

Left fold with a strict accumulator

foldlM' :: Monad m => (a -> b -> m a) -> a -> Stream m b -> m a

Left fold with a strict accumulator and a monadic operator

foldl1' :: Monad m => (a -> a -> a) -> Stream m a -> m a

Left fold over a non-empty Stream with a strict accumulator

foldl1M' :: Monad m => (a -> a -> m a) -> Stream m a -> m a

Left fold over a non-empty Stream with a strict accumulator and a monadic operator

foldM' :: Monad m => (a -> b -> m a) -> a -> Stream m b -> m a

Same as foldlM'

fold1M' :: Monad m => (a -> a -> m a) -> Stream m a -> m a

Same as foldl1M'

foldr :: Monad m => (a -> b -> b) -> b -> Stream m a -> m b

Right fold

foldrM :: Monad m => (a -> b -> m b) -> b -> Stream m a -> m b

Right fold with a monadic operator

foldr1 :: Monad m => (a -> a -> a) -> Stream m a -> m a

Right fold over a non-empty stream

foldr1M :: Monad m => (a -> a -> m a) -> Stream m a -> m a

Right fold over a non-empty stream with a monadic operator

Specialised folds

and :: Monad m => Stream m Bool -> m Bool

or :: Monad m => Stream m Bool -> m Bool

concatMapM :: Monad m => (a -> m (Stream m b)) -> Stream m a -> Stream m b

Unfolding

unfoldr :: Monad m => (s -> Maybe (a, s)) -> s -> Stream m a

Unfold

unfoldrM :: Monad m => (s -> m (Maybe (a, s))) -> s -> Stream m a

Unfold with a monadic function

unfoldrN :: Monad m => Int -> (s -> Maybe (a, s)) -> s -> Stream m a

Unfold at most n elements

unfoldrNM :: Monad m => Int -> (s -> m (Maybe (a, s))) -> s -> Stream m a

Unfold at most n elements with a monadic functions

Scans

prescanl :: Monad m => (a -> b -> a) -> a -> Stream m b -> Stream m a

Prefix scan

prescanlM :: Monad m => (a -> b -> m a) -> a -> Stream m b -> Stream m a

Prefix scan with a monadic operator

prescanl' :: Monad m => (a -> b -> a) -> a -> Stream m b -> Stream m a

Prefix scan with strict accumulator

prescanlM' :: Monad m => (a -> b -> m a) -> a -> Stream m b -> Stream m a

Prefix scan with strict accumulator and a monadic operator

postscanl :: Monad m => (a -> b -> a) -> a -> Stream m b -> Stream m a

Suffix scan

postscanlM :: Monad m => (a -> b -> m a) -> a -> Stream m b -> Stream m a

Suffix scan with a monadic operator

postscanl' :: Monad m => (a -> b -> a) -> a -> Stream m b -> Stream m a

Suffix scan with strict accumulator

postscanlM' :: Monad m => (a -> b -> m a) -> a -> Stream m b -> Stream m a

Suffix scan with strict acccumulator and a monadic operator

scanl :: Monad m => (a -> b -> a) -> a -> Stream m b -> Stream m a

Haskell-style scan

scanlM :: Monad m => (a -> b -> m a) -> a -> Stream m b -> Stream m a

Haskell-style scan with a monadic operator

scanl' :: Monad m => (a -> b -> a) -> a -> Stream m b -> Stream m a

Haskell-style scan with strict accumulator

scanlM' :: Monad m => (a -> b -> m a) -> a -> Stream m b -> Stream m a

Haskell-style scan with strict accumulator and a monadic operator

scanl1 :: Monad m => (a -> a -> a) -> Stream m a -> Stream m a

Scan over a non-empty Stream

scanl1M :: Monad m => (a -> a -> m a) -> Stream m a -> Stream m a

Scan over a non-empty Stream with a monadic operator

scanl1' :: Monad m => (a -> a -> a) -> Stream m a -> Stream m a

Scan over a non-empty Stream with a strict accumulator

scanl1M' :: Monad m => (a -> a -> m a) -> Stream m a -> Stream m a

Scan over a non-empty Stream with a strict accumulator and a monadic operator

Enumerations

enumFromStepN :: (Num a, Monad m) => a -> a -> Int -> Stream m a

Yield a Stream of the given length containing the values x, x+y, x+y+y etc.

enumFromTo :: (Enum a, Monad m) => a -> a -> Stream m a

Enumerate values

WARNING: This operation can be very inefficient. If at all possible, use enumFromStepN instead.

enumFromThenTo :: (Enum a, Monad m) => a -> a -> a -> Stream m a

Enumerate values with a given step.

WARNING: This operation is very inefficient. If at all possible, use enumFromStepN instead.

Conversions

toList :: Monad m => Stream m a -> m [a]

Convert a Stream to a list

fromList :: Monad m => [a] -> Stream m a

Convert a list to a Stream

fromListN :: Monad m => Int -> [a] -> Stream m a

Convert the first n elements of a list to a Stream

unsafeFromList :: Monad m => Size -> [a] -> Stream m a

Convert a list to a Stream with the given Size hint.