{-# LANGUAGE BangPatterns, CPP, RecordWildCards #-} #if __GLASGOW_HASKELL__ >= 702 {-# LANGUAGE Trustworthy #-} #endif -- | -- Module : Data.Text.Lazy.IO -- Copyright : (c) 2009, 2010 Bryan O'Sullivan, -- (c) 2009 Simon Marlow -- License : BSD-style -- Maintainer : [email protected] -- Portability : GHC -- -- Efficient locale-sensitive support for lazy text I\/O. -- -- Skip past the synopsis for some important notes on performance and -- portability across different versions of GHC. module Data.Text.Lazy.IO ( -- * Performance -- $performance -- * Locale support -- $locale -- * File-at-a-time operations readFile , writeFile , appendFile -- * Operations on handles , hGetContents , hGetLine , hPutStr , hPutStrLn -- * Special cases for standard input and output , interact , getContents , getLine , putStr , putStrLn ) where import Data.Text.Lazy (Text) import Prelude hiding (appendFile, getContents, getLine, interact, putStr, putStrLn, readFile, writeFile) import System.IO (Handle, IOMode(..), hPutChar, openFile, stdin, stdout, withFile) import qualified Data.Text.IO as T import qualified Data.Text.Lazy as L import qualified Control.Exception as E import Control.Monad (when) import Data.IORef (readIORef) import Data.Text.Internal.IO (hGetLineWith, readChunk) import Data.Text.Internal.Lazy (chunk, empty) import GHC.IO.Buffer (isEmptyBuffer) import GHC.IO.Exception (IOException(..), IOErrorType(..), ioException) import GHC.IO.Handle.Internals (augmentIOError, hClose_help, wantReadableHandle, withHandle) import GHC.IO.Handle.Types (Handle__(..), HandleType(..)) import System.IO (BufferMode(..), hGetBuffering, hSetBuffering) import System.IO.Error (isEOFError) import System.IO.Unsafe (unsafeInterleaveIO) -- $performance -- -- The functions in this module obey the runtime system's locale, -- character set encoding, and line ending conversion settings. -- -- If you know in advance that you will be working with data that has -- a specific encoding (e.g. UTF-8), and your application is highly -- performance sensitive, you may find that it is faster to perform -- I\/O with bytestrings and to encode and decode yourself than to use -- the functions in this module. -- -- Whether this will hold depends on the version of GHC you are using, -- the platform you are working on, the data you are working with, and -- the encodings you are using, so be sure to test for yourself. -- | Read a file and return its contents as a string. The file is -- read lazily, as with 'getContents'. readFile :: FilePath -> IO Text readFile name = openFile name ReadMode >>= hGetContents -- | Write a string to a file. The file is truncated to zero length -- before writing begins. writeFile :: FilePath -> Text -> IO () writeFile p = withFile p WriteMode . flip hPutStr -- | Write a string the end of a file. appendFile :: FilePath -> Text -> IO () appendFile p = withFile p AppendMode . flip hPutStr -- | Lazily read the remaining contents of a 'Handle'. The 'Handle' -- will be closed after the read completes, or on error. hGetContents :: Handle -> IO Text hGetContents h = do chooseGoodBuffering h wantReadableHandle "hGetContents" h $ \hh -> do ts <- lazyRead h return (hh{haType=SemiClosedHandle}, ts) -- | Use a more efficient buffer size if we're reading in -- block-buffered mode with the default buffer size. chooseGoodBuffering :: Handle -> IO () chooseGoodBuffering h = do bufMode <- hGetBuffering h when (bufMode == BlockBuffering Nothing) $ hSetBuffering h (BlockBuffering (Just 16384)) lazyRead :: Handle -> IO Text lazyRead h = unsafeInterleaveIO $ withHandle "hGetContents" h $ \hh -> do case haType hh of ClosedHandle -> return (hh, L.empty) SemiClosedHandle -> lazyReadBuffered h hh _ -> ioException (IOError (Just h) IllegalOperation "hGetContents" "illegal handle type" Nothing Nothing) lazyReadBuffered :: Handle -> Handle__ -> IO (Handle__, Text) lazyReadBuffered h hh@Handle__{..} = do buf <- readIORef haCharBuffer (do t <- readChunk hh buf ts <- lazyRead h return (hh, chunk t ts)) `E.catch` \e -> do (hh', _) <- hClose_help hh if isEOFError e then return $ if isEmptyBuffer buf then (hh', empty) else (hh', L.singleton '\r') else E.throwIO (augmentIOError e "hGetContents" h) -- | Read a single line from a handle. hGetLine :: Handle -> IO Text hGetLine = hGetLineWith L.fromChunks -- | Write a string to a handle. hPutStr :: Handle -> Text -> IO () hPutStr h = mapM_ (T.hPutStr h) . L.toChunks -- | Write a string to a handle, followed by a newline. hPutStrLn :: Handle -> Text -> IO () hPutStrLn h t = hPutStr h t >> hPutChar h '\n' -- | The 'interact' function takes a function of type @Text -> Text@ -- as its argument. The entire input from the standard input device is -- passed (lazily) to this function as its argument, and the resulting -- string is output on the standard output device. interact :: (Text -> Text) -> IO () interact f = putStr . f =<< getContents -- | Lazily read all user input on 'stdin' as a single string. getContents :: IO Text getContents = hGetContents stdin -- | Read a single line of user input from 'stdin'. getLine :: IO Text getLine = hGetLine stdin -- | Write a string to 'stdout'. putStr :: Text -> IO () putStr = hPutStr stdout -- | Write a string to 'stdout', followed by a newline. putStrLn :: Text -> IO () putStrLn = hPutStrLn stdout -- $locale -- -- /Note/: The behaviour of functions in this module depends on the -- version of GHC you are using. -- -- Beginning with GHC 6.12, text I\/O is performed using the system or -- handle's current locale and line ending conventions. -- -- Under GHC 6.10 and earlier, the system I\/O libraries /do not -- support/ locale-sensitive I\/O or line ending conversion. On these -- versions of GHC, functions in this library all use UTF-8. What -- does this mean in practice? -- -- * All data that is read will be decoded as UTF-8. -- -- * Before data is written, it is first encoded as UTF-8. -- -- * On both reading and writing, the platform's native newline -- conversion is performed. -- -- If you must use a non-UTF-8 locale on an older version of GHC, you -- will have to perform the transcoding yourself, e.g. as follows: -- -- > import qualified Data.ByteString.Lazy as B -- > import Data.Text.Lazy (Text) -- > import Data.Text.Lazy.Encoding (encodeUtf16) -- > -- > putStr_Utf16LE :: Text -> IO () -- > putStr_Utf16LE t = B.putStr (encodeUtf16LE t)