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I was discussing some code on Reddit, and it made me curious about how this would be implemented in io-streams. Consider the following code which traverses a directory structure and prints out all of the filenames:

import           Control.Exception         (bracket)
import qualified Data.Foldable             as F
import           Data.Streaming.Filesystem (closeDirStream, openDirStream,
import           System.Environment        (getArgs)
import           System.FilePath           ((</>))

printFiles :: FilePath -> IO ()
printFiles dir = bracket
    (openDirStream dir)
    loop ds = do
        mfp <- readDirStream ds
        F.forM_ mfp $ \fp' -> do
            let fp = dir </> fp'
            ftype <- getFileType fp
            case ftype of
                FTFile -> putStrLn fp
                FTFileSym -> putStrLn fp
                FTDirectory -> printFiles fp
                _ -> return ()
            loop ds

main :: IO ()
main = getArgs >>= mapM_ printFiles

Instead of simply printing the files, suppose we wanted to create some kind of streaming filepath representation. I know how this would work in enumerator, conduit, and pipes. However, since the intermediate steps require acquisition of a scarce resource (the DirStream), I'm not sure what the implementation would be for io-streams. Can someone provide an example of how that would be done?

For comparison, here's the conduit implementation, which is made possible via bracketP and MonadResource. And here's how the conduit code would be used to implemented the same file printing program as above:

import           Control.Monad.IO.Class       (liftIO)
import           Control.Monad.Trans.Resource (runResourceT)
import           Data.Conduit                 (($$))
import           Data.Conduit.Filesystem      (sourceDirectoryDeep)
import qualified Data.Conduit.List            as CL
import           System.Environment           (getArgs)

main :: IO ()
main =
    getArgs >>= runResourceT . mapM_ eachRoot
    -- False means don't traverse dir symlinks
    eachRoot root = sourceDirectoryDeep False root
                 $$ CL.mapM_ (liftIO . putStrLn)
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Side comment: I was going to tag this with io-streams, but apparently SO thinks that conflicts with the existing iostreams tag. I put snap-framework on this instead, but if there's a better tag for io-streams questions, please let me know. –  Michael Snoyman May 7 '14 at 5:05
I hope it's a small directory structure; that looks painfully slow. On my system, running sourceDirectoryDeep on a ghc build tree (without printing any output) takes about 1.6s, compared to 95ms when using traverseDirectory from posix-paths. –  John L May 7 '14 at 7:38
I'm not surprised it's slower; it's using FilePath instead of RawFilePath. There are also some missing rewrite rules for sourceDirectoryDeep right now, which might be a contributing factor. I'd be curious what the difference in speed is between posix-paths and streaming-commons itself, though. –  Michael Snoyman May 7 '14 at 7:45
posix-paths doesn't stat anything, which is probably the most substantial savings (after RawFilePath) –  John L May 7 '14 at 7:49
Ahh, that would do it. It's too bad unix doesn't expose more information with readDirStream, perhaps I should modify streaming-commons to expose more of the information. –  Michael Snoyman May 7 '14 at 8:02

1 Answer 1

up vote 1 down vote accepted

Typical style would be to do something like this:

traverseDirectory :: RawFilePath -> (InputStream RawFilePath -> IO a) -> IO a

i.e. a standard "with-" function, with the obvious implementation.

Edit: added a working example implementation: https://gist.github.com/gregorycollins/00c51e7e33cf1f9c8cc0

It's not exactly complicated but it's also not as trivial as I had first suggested.

share|improve this answer
Can you actually provide an implementation in terms of streaming-commons (or any other library you like)? I don't see how to get the proper resource allocation semantics given the recursive nature of traversal. –  Michael Snoyman May 9 '14 at 11:02
Thanks for the clarification. I added a comment on the Gist with some concerns about exception safety in the deallocation code. –  Michael Snoyman May 12 '14 at 10:18

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