ghc-9.0.1: The GHC API
Safe HaskellSafe-Inferred
LanguageHaskell2010

GHC.Data.Stream

Description

Monadic streams

Synopsis

Documentation

newtype Stream m a b Source #

Stream m a b is a computation in some Monad m that delivers a sequence of elements of type a followed by a result of type b.

More concretely, a value of type Stream m a b can be run using runStream in the Monad m, and it delivers either

  • the final result: Left b, or
  • Right (a,str), where a is the next element in the stream, and str is a computation to get the rest of the stream.

Stream is itself a Monad, and provides an operation yield that produces a new element of the stream. This makes it convenient to turn existing monadic computations into streams.

The idea is that Stream is useful for making a monadic computation that produces values from time to time. This can be used for knitting together two complex monadic operations, so that the producer does not have to produce all its values before the consumer starts consuming them. We make the producer into a Stream, and the consumer pulls on the stream each time it wants a new value.

Constructors

Stream 

Fields

Instances

Instances details
Monad m => Monad (Stream m a) # 
Instance details

Defined in GHC.Data.Stream

Methods

(>>=) :: Stream m a a0 -> (a0 -> Stream m a b) -> Stream m a b Source #

(>>) :: Stream m a a0 -> Stream m a b -> Stream m a b Source #

return :: a0 -> Stream m a a0 Source #

Monad f => Functor (Stream f a) # 
Instance details

Defined in GHC.Data.Stream

Methods

fmap :: (a0 -> b) -> Stream f a a0 -> Stream f a b Source #

(<$) :: a0 -> Stream f a b -> Stream f a a0 Source #

Monad m => Applicative (Stream m a) # 
Instance details

Defined in GHC.Data.Stream

Methods

pure :: a0 -> Stream m a a0 Source #

(<*>) :: Stream m a (a0 -> b) -> Stream m a a0 -> Stream m a b Source #

liftA2 :: (a0 -> b -> c) -> Stream m a a0 -> Stream m a b -> Stream m a c Source #

(*>) :: Stream m a a0 -> Stream m a b -> Stream m a b Source #

(<*) :: Stream m a a0 -> Stream m a b -> Stream m a a0 Source #

yield :: Monad m => a -> Stream m a () Source #

liftIO :: IO a -> Stream IO b a Source #

collect :: Monad m => Stream m a () -> m [a] Source #

Turn a Stream into an ordinary list, by demanding all the elements.

collect_ :: Monad m => Stream m a r -> m ([a], r) Source #

Turn a Stream into an ordinary list, by demanding all the elements.

consume :: Monad m => Stream m a b -> (a -> m ()) -> m b Source #

fromList :: Monad m => [a] -> Stream m a () Source #

Turn a list into a Stream, by yielding each element in turn.

map :: Monad m => (a -> b) -> Stream m a x -> Stream m b x Source #

Apply a function to each element of a Stream, lazily

mapM :: Monad m => (a -> m b) -> Stream m a x -> Stream m b x Source #

Apply a monadic operation to each element of a Stream, lazily

mapAccumL :: Monad m => (c -> a -> m (c, b)) -> c -> Stream m a () -> Stream m b c Source #

analog of the list-based mapAccumL on Streams. This is a simple way to map over a Stream while carrying some state around.

mapAccumL_ :: Monad m => (c -> a -> m (c, b)) -> c -> Stream m a r -> Stream m b (c, r) Source #