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I have some pipes-concurrency code that looks like this:

-- this won't compile but will give you the gist of what's happening
pipeline :: MonadIO m => Consumer a m ()
main = do
    (output, input) <- spawn Unbounded
    async $ do runEffect $ fromInput input >-> pipeline
               performGC
    -- skipped the `output` pipeline code.

Question 1: This obviously won't compile since runEffect will return MonadIO m => m () and async requires IO a. Is there a way to do this? Or am I stuck forcing my pipeline to contain effects within the IO monad?

Question 2: does it even make sense to embed an async within a Monad implementing MonadIO? Not sure if I'm articulating myself well here.

Thank you!

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2 Answers 2

This obviously won't compile since runEffect will return MonadIO m => m () and async requires IO a

That's not quite right. IO is an instance of MonadIO so your output of runEffect could be passed to async or e.g. a function taking MaybeT IO () (also a MonadIO instance).

I think what you're looking for is liftIO :: IO a -> m a, which will let you "lift" the specific IO (Async a) returned by async to a polymorphic MonadIO type as called for in your type signature.

...
liftIO $ async $ do runEffect $ fromInput input >-> pipeline
           performGC

Haven't tried to compile this; you may need to lift other IO parts of your functions as well.

Question 2: does it even make sense to embed an async within a Monad implementing MonadIO? Not sure if I'm articulating myself well here.

Sure, if you want to do concurrency in some monad stack why not?

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the problem is that runEffect will return m () and async needs IO a. –  aaronlevin Jun 6 '14 at 23:01
    
@weirdcanada as I said that's not the problem. You can convince yourself with dummy implementations in GHCi. Enter the following lines: data Effect m r = Effect (m r), let runEffect :: Monad m => Effect m r -> m r ; runEffect = undefined, data Async a, let async :: IO a -> IO (Async a) ; async = undefined, :t async $ runEffect undefined. You may have other issues, but it's difficult to help without a SSCCE –  jberryman Jun 7 '14 at 16:45
    
Hmm... I think I'm missing something. I'll get a SSCCE soon (currently on the road on mobile). I appreciate the help! –  aaronlevin Jun 8 '14 at 3:33

I am trying to do the exact same thing and this is the core of the problem:

$ :t async . runEffect
async . runEffect :: Effect IO a -> IO (Async a)
$

In a nutshell, I am expected to provide something of this type. But the type that I really want is:

someAsync . runEffect :: MonadIO m => Effect m a -> m (Async a)

Unfortunately I am not sure how to make this happen. Currently this seems impossible but not because of pipes-concurrency and purely because of the types of async.

I think we should point the developers of both libraries to this question because, otherwise, I don't see how to get the type that I want.

Edit 1: I have found this issue where they do not want to add MonadIO support to async.

Edit 2: I love the Pipes library but I am having difficulty finding a solution to this problem. If I can't find the answer to this problem then I might use buffer from Data.Conduit.Async because it seems to solve this problem really nicely.

Edit 3: It seems that the right solution to this problem is to use lifted-async. This library provides the following method:

async :: MonadBaseControl IO m => m a -> m (Async (StM m a))

That should do exactly what you are loking for so long as you implement MonadBaseControl IO for your Monad.

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