I am working with the Haskell pipes package.
I am trying to use pipes-concurrency to merge a list of Producers together.
What I want to arrive at is:
merge :: MonadIO m => [Producer a m ()] -> Producer a m ()
so given a producer s1 and another producer s2: r = merge [s1, s2] which would give the behaviour:
s1 --1--1--1--| s2 ---2---2---2| r --12-1-21--2|
Following the code in the tutorial page I came up with:
mergeIO :: [Producer a IO ()] -> Producer a IO () mergeIO producers = do (output, input) <- liftIO $ spawn Unbounded _ <- liftIO $ mapM (fork output) producers fromInput input where fork :: Output a -> Producer a IO () -> IO () fork output producer = void $ forkIO $ do runEffect $ producer >-> toOutput output performGC
which works as expected.
However I am having difficulty generalizing things.
merge :: (MonadIO m) => [Producer a m ()] -> Producer a m () merge producers = do (output, input) <- liftIO $ spawn Unbounded _ <- liftIO $ mapM (fork output) producers fromInput input where runEffectIO :: Monad m => Effect m r -> IO (m r) runEffectIO e = do x <- evaluate $ runEffect e return x fork output producer = forkIO $ do runEffectIO $ producer >-> toOutput output performGC
Unfortunately this compiles but does not do all too much else. I am guessing that I am making a mess of
runEffectIO. Other approaches to my current
runEffectIO have yielded no better results.
main = do let producer = merge [repeater 1 (100 * 1000), repeater 2 (150 * 1000)] _ <- runEffect $ producer >-> taker 20 where repeater :: Int -> Int -> Producer Int IO r repeater val delay = forever $ do lift $ threadDelay delay yield val taker :: Int -> Consumer Int IO () taker 0 = return () taker n = do val <- await liftIO $ putStrLn $ "Taker " ++ show n ++ ": " ++ show val taker $ n - 1
val <- await but does not get to
liftIO $ putStrLn thus it produces no output. However it exits fine without hanging.
When I substitute in
merge then the program runs I would expect outputting 20 lines.