I'm trying to work over big files using Haskell. I'd like to browse an input file byte after byte, and to generate an output byte after byte. Of course I need the IO to be buffered with blocks of reasonable size (a few KB). I can't do it, and I need your help please.
import System import qualified Data.ByteString.Lazy as BL import Data.Word import Data.List main :: IO () main = do args <- System.getArgs let filename = head args byteString <- BL.readFile filename let wordsList = BL.unpack byteString let foldFun acc word = doSomeStuff word : acc let wordsListCopy = foldl' foldFun  wordsList let byteStringCopy = BL.pack (reverse wordsListCopy) BL.writeFile (filename ++ ".cpy") byteStringCopy where doSomeStuff = id
I name this file
TestCopy.hs, then do the following:
$ ls -l *MB -rwxrwxrwx 1 root root 10000000 2011-03-24 13:11 10MB -rwxrwxrwx 1 root root 5000000 2011-03-24 13:31 5MB $ ghc --make -O TestCopy.hs [1 of 1] Compiling Main ( TestCopy.hs, TestCopy.o ) Linking TestCopy ... $ time ./TestCopy 5MB real 0m5.631s user 0m1.972s sys 0m2.488s $ diff 5MB 5MB.cpy $ time ./TestCopy 10MB real 3m6.671s user 0m3.404s sys 1m21.649s $ diff 10MB 10MB.cpy $ time ./TestCopy 10MB +RTS -K500M -RTS real 2m50.261s user 0m3.808s sys 1m13.849s $ diff 10MB 10MB.cpy $
My problem: There is a huge difference between a 5MB and a 10 MB file. I'd like the performances to be linear in the size of the input file. Please what am i doing wrong, and how can I achieve this? I don't mind using lazy bytestrings or anything else as long as it works, but it has to be a standard ghc library.
Precision: It's for a university project. And I'm not trying to copy files. The
doSomeStuff function shall perform compression/decompression actions that I have to customize.