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What we want to show is that we can both read and write UTF-8reading a file in, every one of its lines, and writing it back out with the extension '.reversed'
lines, and writing it back out with the extension '.reversed'
Revision as of 07:51, 3 February 2007
A small example showing how to read and write UTF-8 in Haskell.
Do whatever you want; it's going in the public domain (Eric Kow on 2007-02-02 says so, anyway)
> module Main where > import Control.Monad (mapM_) > import Data.Word (Word8) > import Foreign.Marshal.Array (allocaArray, peekArray, pokeArray) > import System.Environment (getArgs) > import System.IO (hFileSize, Handle, hGetBuf, hPutBuf, openBinaryFile, > IOMode(ReadMode, WriteMode))
We're going to be using the 2002 UTF-8 implementation by Sven Moritz Hallberg. It happens to be the one that darcs uses ( http://abridgegame.org/repos/darcs/UTF8.lhs ). Note that Pugs also has a UTF-8 library of its own, which if I believe to handle ByteStrings, but I'm sticking with this one because it's what I know.
> import UTF8
What we want to show is that we can both read and write UTF-8. We do this by reading a file in, reversing every one of its lines, and writing it back out with the extra extension '.reversed'. We'll do this for every filename that is passed in on the command line.
> main :: IO () > main = > do args <- getArgs > mapM_ reverseUTF8File args > reverseUTF8File :: FilePath -> IO () > reverseUTF8File f = > do fb <- readFileBytes f > case decode fb of > (cs, ) -> writeFileBytes (f ++ ".reverse") $ encode $ reverseLines cs > (_, xs) -> fail $ show xs > where > reverseLines = unlines . map reverse . lines
For this to work, we need to have some helper functions for reading and writing [Word8]. It would be nice is if there were some standard functions for reading and writing [Word8] in files.
> readFileBytes :: FilePath -> IO [Word8] > readFileBytes f = > do h <- openBinaryFile f ReadMode > hsize <- fromIntegral `fmap` hFileSize h > hGetBytes h hsize > > writeFileBytes :: FilePath -> [Word8] -> IO () > writeFileBytes f ws = > do h <- openBinaryFile f WriteMode > hPutBytes h (length ws) ws > hGetBytes :: Handle -> Int -> IO [Word8] > hGetBytes h c = allocaArray c $ \p -> > do c' <- hGetBuf h p c > peekArray c' p > > hPutBytes :: Handle -> Int -> [Word8] -> IO () > hPutBytes h c ws = allocaArray c $ \p -> > do pokeArray p ws > hPutBuf h p c