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Is it possible to merge multiple pipes into one or vice versa?

I'm struggling with implementing the following functions.

merge :: (Monad m) => [Pipe l i o u m r] -> Pipe [l] [i] [o] m [r]

split :: (Monad m) => Pipe [l] [i] [o] m [r] -> [Pipe l i o u m r]

Any help would be appreciated.

share|improve this question
Can you outline the behavior you need? It is possible to build fairly general merge functions for sources (concatenated or sorted) and sinks (stop when first sink is done or when all are done). Conduit merging tends to be more specialized. I don't think splitting a pipe of lists is possible without IO. – Nathan Howell Jan 30 '13 at 16:11
@comatose I think the type signature needs to be fixed. The u probably needs to be dropped. – Davorak Jan 30 '13 at 17:03
@NathanHowell I think he wants to tak a list of pipe and combine them into one pipe so that he can feed in a list of lists. merge [mapD (*2), mapD (+2)], would (*2) the first element of a list and (+2) to the second, and either fail if the list was longer or use id I guess. – Davorak Jan 30 '13 at 17:07
@Davorak There are many possible ways to combine pipes. Here are two different ways that I commonly use: mergeSinks :: (Monad m, Monoid r) => [Pipe i i Void () m r] -> Pipe i i Void () m r and mergeSources :: (Ord o, Monoid u, Monad m) => [Pipe l i o u m ()] -> Pipe l i o u m (). But he may also want mconcat :: [Pipe l i o u m ()] -> Pipe l i o u m ()... or even foldM, it's hard to guess. – Nathan Howell Jan 30 '13 at 18:02
@Davorak I missed [u] between [o] and m. For the 2nd comment, that's exactly what I meant. Thanks. – comatose Jan 31 '13 at 9:05

From your comment, it sounds like you can more easily accomplish what you're trying to do just by chaining some sinks together:

import Data.Conduit
import Data.Serialize.Put (putListOf, putWord32le)
import qualified Data.Conduit.Binary as Cb
import qualified Data.Conduit.List as Cl
import qualified Data.Conduit.Cereal as Cc

main :: IO ()
main = do
  let source = Cl.sourceList [[1,2,3],[4,5,6],[7,8,9]]
      encoder = Cc.conduitPut $ putListOf putWord32le

  runResourceT . runPipe $ source >+> do
    Cl.isolate 1 >+> encoder >+> Cb.sinkFile "/tmp/1.bin"
    Cl.isolate 1 >+> encoder >+> Cb.sinkFile "/tmp/2.bin"
    Cl.isolate 1 >+> encoder >+> Cb.sinkFile "/tmp/3.bin"
share|improve this answer
Hum, just realized you may actually need a sink router. We use two, one is sychronous: routeToSinksBy :: (Monad m, Ord a) => (i -> a) -> Map a (Sink i m r) -> Sink i m (Map a r)... I can get it cleaned up and published if it would be helpful. The other is asynchronous and uses sources built from TBQueues to bind to each sink. – Nathan Howell Feb 1 '13 at 6:26
Thanks for the answer. But, actually, I wanted that [1,4,7] to 1.bin, [2,5,8] to 2.bin, and [3,6,9] to 3.bin. If there is something like "transpose", it will help. And also what if I have cycle [[1,2,3], [4,5,6], [7,8,9]]? routeToSinkBy sounds pretty good. I am looking forward to that. – comatose Feb 2 '13 at 9:03
I have a suggestion for conduit, if you're involved in conduit. Recently, I have failed to find something like sourceFile :: MonadResource m => Int -> FilePath -> GSource m ByteString, which has an additional parameter for the packet size of hGetSome. I think it will be helpful in some cases. Thanks. – comatose Feb 2 '13 at 9:15

As others have commented, merging pipes has a variety of semantics.

I know that in pipes-core (Paolo Capriotti's fork of Gabriel Gonzalez's pipes library, which is another implementation of iteratees like conduit) there's some very general code for monoidal and multiplicative categories.

For instance, using PipeC, a newtype that moves the type variables around to make PipeC m r a valid category, we can multiplex sets independent signals as Eithers.

You also have something like sequence which applies across the Monad instance.

sequence :: [m a] -> m [a]

which will sequence various pipes "vertically" (one runs then the next) letting us write something like (using Control.Pipe.Pipe from Gonzalez's pipes package)

takeNPipe :: Int -> Pipe a b m [a]
takeNPipe n = sequence (replicate n await)

The type you're asking for implies both of these kinds of "merges" simultaneously. This is (I believe) impossible since you want both parallel (multiplexed) and sequential (vertical) composition at once.

share|improve this answer
I've considered using pipes before, but i didn't due to the absence of pipes-bysestring. Anyway, thanks for the answer. – comatose Feb 2 '13 at 9:16
I just used it as an example. These concepts are probably general to any of the iteratee-inspired libraries. I like pipes a lot, though it's definitely far behind in terms of library support. – J. Abrahamson Feb 2 '13 at 14:50

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