Safe Haskell | None |
---|---|

Language | Haskell2010 |

This module defines the `Coroutine`

monad transformer.

A `Coroutine`

monadic computation can `suspend`

its execution at any time, returning control to its invoker. The
returned suspension value contains the coroutine's resumption wrapped in a `Functor`

. Here is an example of a
coroutine in the `IO`

monad that suspends computation using the functor `Yield`

from the
Control.Monad.Coroutine.SuspensionFunctors module:

producer :: Coroutine (Yield Int) IO String producer = do yield 1 lift (putStrLn "Produced one, next is four.") yield 4 return "Finished"

To continue the execution of a suspended `Coroutine`

, extract it from the suspension functor and apply its `resume`

method. The easiest way to run a coroutine to completion is by using the `pogoStick`

function, which keeps resuming
the coroutine in trampolined style until it completes. Here is one way to apply `pogoStick`

to the *producer* example
above:

printProduce :: Show x => Coroutine (Yield x) IO r -> IO r printProduce producer = pogoStick (\(Yield x cont) -> lift (print x) >> cont) producer

Multiple concurrent coroutines can be run as well, and this module provides two different ways. To run two
interleaved computations, use a `WeaveStepper`

to `weave`

together steps of two different coroutines into a single
coroutine, which can then be executed by `pogoStick`

.

For various uses of trampoline-style coroutines, see

Coroutine Pipelines - Mario Blažević, The Monad.Reader issue 19, pages 29-50

Trampolined Style - Ganz, S. E. Friedman, D. P. Wand, M, ACM SIGPLAN NOTICES, 1999, VOL 34; NUMBER 9, pages 18-27

and

The Essence of Multitasking - William L. Harrison, Proceedings of the 11th International Conference on Algebraic Methodology and Software Technology, volume 4019 of Lecture Notes in Computer Science, 2006

- newtype Coroutine s m r = Coroutine {}
- type CoroutineStepResult s m r = Either (s (Coroutine s m r)) r
- suspend :: (Monad m, Functor s) => s (Coroutine s m x) -> Coroutine s m x
- mapMonad :: forall s m m' x. (Functor s, Monad m, Monad m') => (forall y. m y -> m' y) -> Coroutine s m x -> Coroutine s m' x
- mapSuspension :: (Functor s, Monad m) => (forall y. s y -> s' y) -> Coroutine s m x -> Coroutine s' m x
- mapFirstSuspension :: forall s m x. (Functor s, Monad m) => (forall y. s y -> s y) -> Coroutine s m x -> Coroutine s m x
- data Naught x
- runCoroutine :: Monad m => Coroutine Naught m x -> m x
- bounce :: (Monad m, Functor s) => (s (Coroutine s m x) -> Coroutine s m x) -> Coroutine s m x -> Coroutine s m x
- pogoStick :: Monad m => (s (Coroutine s m x) -> Coroutine s m x) -> Coroutine s m x -> m x
- pogoStickM :: Monad m => (s (Coroutine s m x) -> m (Coroutine s m x)) -> Coroutine s m x -> m x
- foldRun :: Monad m => (a -> s (Coroutine s m x) -> (a, Coroutine s m x)) -> a -> Coroutine s m x -> m (a, x)
- type PairBinder m = forall x y r. (x -> y -> m r) -> m x -> m y -> m r
- sequentialBinder :: Monad m => PairBinder m
- parallelBinder :: MonadParallel m => PairBinder m
- liftBinder :: forall s m. (Functor s, Monad m) => PairBinder m -> PairBinder (Coroutine s m)
- type Weaver s1 s2 s3 m x y z = Coroutine s1 m x -> Coroutine s2 m y -> Coroutine s3 m z
- type WeaveStepper s1 s2 s3 m x y z = Weaver s1 s2 s3 m x y z -> CoroutineStepResult s1 m x -> CoroutineStepResult s2 m y -> Coroutine s3 m z
- weave :: forall s1 s2 s3 m x y z. (Monad m, Functor s1, Functor s2, Functor s3) => PairBinder m -> WeaveStepper s1 s2 s3 m x y z -> Weaver s1 s2 s3 m x y z
- merge :: forall s m x. (Monad m, Functor s) => (forall y. [m y] -> m [y]) -> (forall y. [s y] -> s [y]) -> [Coroutine s m x] -> Coroutine s m [x]

# Coroutine definition

newtype Coroutine s m r Source

Suspending, resumable monadic computations.

Functor s => MonadTrans (Coroutine s) Source | |

(Functor s, Monad m) => Monad (Coroutine s m) Source | |

(Functor s, Functor m) => Functor (Coroutine s m) Source | |

(Functor s, Functor m, Monad m) => Applicative (Coroutine s m) Source | |

(Functor s, MonadParallel m) => MonadParallel (Coroutine s m) Source | |

(Functor s, MonadIO m) => MonadIO (Coroutine s m) Source |

type CoroutineStepResult s m r = Either (s (Coroutine s m r)) r Source

suspend :: (Monad m, Functor s) => s (Coroutine s m x) -> Coroutine s m x Source

Suspend the current `Coroutine`

.

# Coroutine operations

mapMonad :: forall s m m' x. (Functor s, Monad m, Monad m') => (forall y. m y -> m' y) -> Coroutine s m x -> Coroutine s m' x Source

Change the base monad of a `Coroutine`

.

mapSuspension :: (Functor s, Monad m) => (forall y. s y -> s' y) -> Coroutine s m x -> Coroutine s' m x Source

Change the suspension functor of a `Coroutine`

.

mapFirstSuspension :: forall s m x. (Functor s, Monad m) => (forall y. s y -> s y) -> Coroutine s m x -> Coroutine s m x Source

Modify the first upcoming suspension of a `Coroutine`

.

# Running coroutines

The `Naught`

functor instance doesn't contain anything and cannot be constructed. Used for building non-suspendable
coroutines.

runCoroutine :: Monad m => Coroutine Naught m x -> m x Source

Convert a non-suspending `Coroutine`

to the base monad.

bounce :: (Monad m, Functor s) => (s (Coroutine s m x) -> Coroutine s m x) -> Coroutine s m x -> Coroutine s m x Source

Runs a single step of a suspendable `Coroutine`

, using a function that extracts the coroutine resumption from its
suspension functor.

pogoStick :: Monad m => (s (Coroutine s m x) -> Coroutine s m x) -> Coroutine s m x -> m x Source

Runs a suspendable `Coroutine`

to its completion.

pogoStickM :: Monad m => (s (Coroutine s m x) -> m (Coroutine s m x)) -> Coroutine s m x -> m x Source

Runs a suspendable `Coroutine`

to its completion with a monadic action.

foldRun :: Monad m => (a -> s (Coroutine s m x) -> (a, Coroutine s m x)) -> a -> Coroutine s m x -> m (a, x) Source

Runs a suspendable coroutine much like `pogoStick`

, but allows the resumption function to thread an arbitrary
state as well.

# Weaving coroutines together

type PairBinder m = forall x y r. (x -> y -> m r) -> m x -> m y -> m r Source

Type of functions that can bind two monadic values together, used to combine two coroutines' step results. The two
functions provided here are `sequentialBinder`

and `parallelBinder`

.

sequentialBinder :: Monad m => PairBinder m Source

A `PairBinder`

that runs the two steps sequentially before combining their results.

parallelBinder :: MonadParallel m => PairBinder m Source

A `PairBinder`

that runs the two steps in parallel.

liftBinder :: forall s m. (Functor s, Monad m) => PairBinder m -> PairBinder (Coroutine s m) Source

Lifting a `PairBinder`

onto a `Coroutine`

monad transformer.

type Weaver s1 s2 s3 m x y z = Coroutine s1 m x -> Coroutine s2 m y -> Coroutine s3 m z Source

Type of functions that can weave two coroutines into a single coroutine.

type WeaveStepper s1 s2 s3 m x y z = Weaver s1 s2 s3 m x y z -> CoroutineStepResult s1 m x -> CoroutineStepResult s2 m y -> Coroutine s3 m z Source

Type of functions capable of combining two coroutines' `CoroutineStepResult`

values into a third one. Module
Monad.Coroutine.SuspensionFunctors contains several `WeaveStepper`

examples.

weave :: forall s1 s2 s3 m x y z. (Monad m, Functor s1, Functor s2, Functor s3) => PairBinder m -> WeaveStepper s1 s2 s3 m x y z -> Weaver s1 s2 s3 m x y z Source

Weaves two coroutines into one, given a `PairBinder`

to run the next step of each coroutine and a `WeaveStepper`

to
combine the results of the steps.