I've got the following program that takes a big input (a list of extension/mime mapping, a list of files) and output results line by line (the mime type for each file).

import System.IO
import Control.Monad
import qualified Data.Map as M
import System.FilePath
import Data.Char

main :: IO ()
main = do
    input_line <- getLine
    let n = read input_line :: Int -- Number of elements which make up the association table.
    input_line <- getLine
    let q = read input_line :: Int -- Number Q of file names to be analyzed.

    mimeMap <- fmap M.fromList $ replicateM n $ do
        input_line <- getLine
        let input = words input_line
        let ext = input!!0 -- file extension
        let mt = input!!1 -- MIME type.
        return (map toLower ext, mt)

    replicateM_ q $ do
        fname <- getLine
        let ext = map toLower . drop 1 . takeExtension $ fname
            mime = M.findWithDefault "UNKNOWN" ext mimeMap
        putStrLn mime

The program was quite slow, so I started profiling it, and I got a strange result.

When compiled with

ghc --make -O2 coding.hs

the program is very slow. However, the -fprof-auto seems to speed it all up. Compiled with

ghc --make -O2 coding.hs -prof -fprof-auto -fforce-recomp

makes it blazing fast -prof alone has no effect.

Strangely, it is also very fast when run with runghc coding.hs.

I have no idea in what direction to go from there. Does anyone understand what is happenning here?

EDIT: I should mention that my ghc is 7.10.1.

  • 3
    Probably some optimization enabled by -O2 is going awry, but is blocked by the profiling annotations added by -fprof-auto. Specifically GHC might have decided that mimeMap is used only once and moved the M.fromList into the second loop. Try building with -fno-state-hack. – Reid Barton May 9 '15 at 15:16
  • I can't reproduce the slow behavior. How big are n and q in your situation? – Lynn May 9 '15 at 15:37
  • 2
    This ghc ticket is also about IO code that runs slower with optimizations on, and gets sped up significantly by compiling with -fno-state-hack like Reid Barton mentioned. There's some more discussion about this on the mailing list. – Lynn May 9 '15 at 15:44
  • n and q are 9999 each. The problematic input can be found there: codingame.com/ide/fileservlet?id=1632865475298. Sadly, -fno-state-hack doesn't seem to fix it. However, building without optimization does indeed make it much faster. – madjar May 9 '15 at 22:23
  • Also, strictly evaluating mimeMap with a bang pattern prevents the slowdown. – madjar May 9 '15 at 22:32

To provide a complete answer to the question:

As Reid Barton mentioned, the problem seems to be the infamous state hack optimization, which inlines mimeMap into the repeated IO action, executing it much more times than necessary. -fno-state-hack disables that optimization and solves the problem. Another way to solve the problem is to force a strict evaluation of ``mimeMap.

!mimeMap <- fmap M.fromList $ replicateM n [...]

However, there also seems to be a regression in GHC 7.10, in which -fno-state-hack does not solves the problem. That explains why it didn't fix it for me.

Thanks a lot everyone for your answers.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.