{-# LANGUAGE CPP, RankNTypes #-} -- | Functions for interacting with bytes. module Data.Conduit.Binary ( -- * Files and @Handle@s -- | Note that most of these functions live in the @MonadResource@ monad -- to ensure resource finalization even in the presence of exceptions. In -- order to run such code, you will need to use @runResourceT@. -- ** Sources sourceFile , sourceHandle , sourceHandleUnsafe , sourceIOHandle , sourceFileRange , sourceHandleRange -- ** Sinks , sinkFile , sinkHandle , sinkIOHandle -- ** Conduits , conduitFile , conduitHandle -- * Utilities -- ** Sources , sourceLbs -- ** Sinks , head , dropWhile , take , drop , sinkCacheLength , sinkLbs , mapM_ -- ** Conduits , isolate , takeWhile , Data.Conduit.Binary.lines ) where import Prelude hiding (head, take, drop, takeWhile, dropWhile, mapM_) import qualified Data.ByteString as S import qualified Data.ByteString.Lazy as L import Data.Conduit import Data.Conduit.List (sourceList, consume) import Control.Exception (assert, finally) import Control.Monad (unless, when) import Control.Monad.IO.Class (liftIO, MonadIO) import Control.Monad.Trans.Resource (allocate, release) import Control.Monad.Trans.Class (lift) import qualified System.IO as IO import Data.Word (Word8, Word64) import Control.Applicative ((<$>)) import System.Directory (getTemporaryDirectory, removeFile) import Data.ByteString.Lazy.Internal (defaultChunkSize) #if CABAL_OS_WINDOWS import qualified System.Win32File as F #elif NO_HANDLES import qualified System.PosixFile as F #endif import Data.ByteString.Internal (ByteString (PS), inlinePerformIO) import Foreign.ForeignPtr.Unsafe (unsafeForeignPtrToPtr) import Foreign.ForeignPtr (touchForeignPtr) import Foreign.Ptr (plusPtr) import Foreign.Storable (peek) import GHC.ForeignPtr (mallocPlainForeignPtrBytes) -- | Stream the contents of a file as binary data. -- -- Since 0.3.0 sourceFile :: MonadResource m => FilePath -> Producer m S.ByteString sourceFile fp = #if CABAL_OS_WINDOWS || NO_HANDLES bracketP (F.openRead fp) F.close loop where loop h = liftIO (F.read h) >>= maybe (return ()) (\bs -> yield bs >> loop h) #else sourceIOHandle (IO.openBinaryFile fp IO.ReadMode) #endif -- | Stream the contents of a 'IO.Handle' as binary data. Note that this -- function will /not/ automatically close the @Handle@ when processing -- completes, since it did not acquire the @Handle@ in the first place. -- -- Since 0.3.0 sourceHandle :: MonadIO m => IO.Handle -> Producer m S.ByteString sourceHandle h = loop where loop = do bs <- liftIO (S.hGetSome h defaultChunkSize) if S.null bs then return () else yield bs >> loop -- | Same as @sourceHandle@, but instead of allocating a new buffer for each -- incoming chunk of data, reuses the same buffer. Therefore, the @ByteString@s -- yielded by this function are not referentially transparent between two -- different @yield@s. -- -- This function will be slightly more efficient than @sourceHandle@ by -- avoiding allocations and reducing garbage collections, but should only be -- used if you can guarantee that you do not reuse a @ByteString@ (or any slice -- thereof) between two calls to @await@. -- -- Since 1.0.12 sourceHandleUnsafe :: MonadIO m => IO.Handle -> Source m ByteString sourceHandleUnsafe handle = do fptr <- liftIO $ mallocPlainForeignPtrBytes defaultChunkSize let ptr = unsafeForeignPtrToPtr fptr loop = do count <- liftIO $ IO.hGetBuf handle ptr defaultChunkSize when (count > 0) $ do yield (PS fptr 0 count) loop loop liftIO $ touchForeignPtr fptr -- | An alternative to 'sourceHandle'. -- Instead of taking a pre-opened 'IO.Handle', it takes an action that opens -- a 'IO.Handle' (in read mode), so that it can open it only when needed -- and closed it as soon as possible. -- -- Since 0.3.0 sourceIOHandle :: MonadResource m => IO IO.Handle -> Producer m S.ByteString sourceIOHandle alloc = bracketP alloc IO.hClose sourceHandle -- | Stream all incoming data to the given 'IO.Handle'. Note that this function -- will /not/ automatically close the @Handle@ when processing completes. -- -- Since 0.3.0 sinkHandle :: MonadIO m => IO.Handle -> Consumer S.ByteString m () sinkHandle h = awaitForever $ liftIO . S.hPut h -- | An alternative to 'sinkHandle'. -- Instead of taking a pre-opened 'IO.Handle', it takes an action that opens -- a 'IO.Handle' (in write mode), so that it can open it only when needed -- and close it as soon as possible. -- -- Since 0.3.0 sinkIOHandle :: MonadResource m => IO IO.Handle -> Consumer S.ByteString m () sinkIOHandle alloc = bracketP alloc IO.hClose sinkHandle -- | Stream the contents of a file as binary data, starting from a certain -- offset and only consuming up to a certain number of bytes. -- -- Since 0.3.0 sourceFileRange :: MonadResource m => FilePath -> Maybe Integer -- ^ Offset -> Maybe Integer -- ^ Maximum count -> Producer m S.ByteString sourceFileRange fp offset count = bracketP (IO.openBinaryFile fp IO.ReadMode) IO.hClose (\h -> sourceHandleRange h offset count) -- | Stream the contents of a handle as binary data, starting from a certain -- offset and only consuming up to a certain number of bytes. -- -- Since 1.0.8 sourceHandleRange :: MonadIO m => IO.Handle -> Maybe Integer -- ^ Offset -> Maybe Integer -- ^ Maximum count -> Producer m S.ByteString sourceHandleRange handle offset count = do case offset of Nothing -> return () Just off -> liftIO $ IO.hSeek handle IO.AbsoluteSeek off case count of Nothing -> pullUnlimited Just c -> pullLimited (fromInteger c) where pullUnlimited = do bs <- liftIO $ S.hGetSome handle 4096 if S.null bs then return () else do yield bs pullUnlimited pullLimited c = do bs <- liftIO $ S.hGetSome handle (min c 4096) let c' = c - S.length bs assert (c' >= 0) $ if S.null bs then return () else do yield bs pullLimited c' -- | Stream all incoming data to the given file. -- -- Since 0.3.0 sinkFile :: MonadResource m => FilePath -> Consumer S.ByteString m () #if NO_HANDLES sinkFile fp = bracketP (F.openWrite fp) F.close loop where loop h = awaitForever $ liftIO . F.write h #else sinkFile fp = sinkIOHandle (IO.openBinaryFile fp IO.WriteMode) #endif -- | Stream the contents of the input to a file, and also send it along the -- pipeline. Similar in concept to the Unix command @tee@. -- -- Since 0.3.0 conduitFile :: MonadResource m => FilePath -> Conduit S.ByteString m S.ByteString conduitFile fp = bracketP (IO.openBinaryFile fp IO.WriteMode) IO.hClose conduitHandle -- | Stream the contents of the input to a @Handle@, and also send it along the -- pipeline. Similar in concept to the Unix command @tee@. Like @sourceHandle@, -- does not close the handle on completion. Related to: @conduitFile@. -- -- Since 1.0.9 conduitHandle :: MonadIO m => IO.Handle -> Conduit S.ByteString m S.ByteString conduitHandle h = awaitForever $ \bs -> liftIO (S.hPut h bs) >> yield bs -- | Ensure that only up to the given number of bytes are consume by the inner -- sink. Note that this does /not/ ensure that all of those bytes are in fact -- consumed. -- -- Since 0.3.0 isolate :: Monad m => Int -> Conduit S.ByteString m S.ByteString isolate = loop where loop 0 = return () loop count = do mbs <- await case mbs of Nothing -> return () Just bs -> do let (a, b) = S.splitAt count bs case count - S.length a of 0 -> do unless (S.null b) $ leftover b yield a count' -> assert (S.null b) $ yield a >> loop count' -- | Return the next byte from the stream, if available. -- -- Since 0.3.0 head :: Monad m => Consumer S.ByteString m (Maybe Word8) head = do mbs <- await case mbs of Nothing -> return Nothing Just bs -> case S.uncons bs of Nothing -> head Just (w, bs') -> leftover bs' >> return (Just w) -- | Return all bytes while the predicate returns @True@. -- -- Since 0.3.0 takeWhile :: Monad m => (Word8 -> Bool) -> Conduit S.ByteString m S.ByteString takeWhile p = loop where loop = await >>= maybe (return ()) go go bs | S.null x = next | otherwise = yield x >> next where next = if S.null y then loop else leftover y (x, y) = S.span p bs -- | Ignore all bytes while the predicate returns @True@. -- -- Since 0.3.0 dropWhile :: Monad m => (Word8 -> Bool) -> Consumer S.ByteString m () dropWhile p = loop where loop = do mbs <- await case S.dropWhile p <$> mbs of Nothing -> return () Just bs | S.null bs -> loop | otherwise -> leftover bs -- | Take the given number of bytes, if available. -- -- Since 0.3.0 take :: Monad m => Int -> Consumer S.ByteString m L.ByteString take 0 = return L.empty take n0 = go n0 id where go n front = await >>= maybe (return $ L.fromChunks $ front []) go' where go' bs = case S.length bs `compare` n of LT -> go (n - S.length bs) (front . (bs:)) EQ -> return $ L.fromChunks $ front [bs] GT -> let (x, y) = S.splitAt n bs in assert (not $ S.null y) $ leftover y >> return (L.fromChunks $ front [x]) -- | Drop up to the given number of bytes. -- -- Since 0.5.0 drop :: Monad m => Int -> Consumer S.ByteString m () drop 0 = return () drop n0 = go n0 where go n = await >>= maybe (return ()) go' where go' bs = case S.length bs `compare` n of LT -> go (n - S.length bs) EQ -> return () GT -> let y = S.drop n bs in assert (not $ S.null y) $ leftover y >> return () -- | Split the input bytes into lines. In other words, split on the LF byte -- (10), and strip it from the output. -- -- Since 0.3.0 lines :: Monad m => Conduit S.ByteString m S.ByteString lines = loop id where loop front = await >>= maybe (finish front) (go front) finish front = let final = front S.empty in unless (S.null final) (yield final) go sofar more = case S.uncons second of Just (_, second') -> yield (sofar first) >> go id second' Nothing -> let rest = sofar more in loop $ S.append rest where (first, second) = S.breakByte 10 more -- | Stream the chunks from a lazy bytestring. -- -- Since 0.5.0 sourceLbs :: Monad m => L.ByteString -> Producer m S.ByteString sourceLbs = sourceList . L.toChunks -- | Stream the input data into a temp file and count the number of bytes -- present. When complete, return a new @Source@ reading from the temp file -- together with the length of the input in bytes. -- -- All resources will be cleaned up automatically. -- -- Since 1.0.5 sinkCacheLength :: (MonadResource m1, MonadResource m2) => Sink S.ByteString m1 (Word64, Source m2 S.ByteString) sinkCacheLength = do tmpdir <- liftIO getTemporaryDirectory (releaseKey, (fp, h)) <- allocate (IO.openBinaryTempFile tmpdir "conduit.cache") (\(fp, h) -> IO.hClose h `finally` removeFile fp) len <- sinkHandleLen h liftIO $ IO.hClose h return (len, sourceFile fp >> release releaseKey) where sinkHandleLen :: MonadResource m => IO.Handle -> Sink S.ByteString m Word64 sinkHandleLen h = loop 0 where loop x = await >>= maybe (return x) go where go bs = do liftIO $ S.hPut h bs loop $ x + fromIntegral (S.length bs) -- | Consume a stream of input into a lazy bytestring. Note that no lazy I\/O -- is performed, but rather all content is read into memory strictly. -- -- Since 1.0.5 sinkLbs :: Monad m => Sink S.ByteString m L.ByteString sinkLbs = fmap L.fromChunks consume mapM_BS :: Monad m => (Word8 -> m ()) -> S.ByteString -> m () mapM_BS f (PS fptr offset len) = do let start = unsafeForeignPtrToPtr fptr `plusPtr` offset end = start `plusPtr` len loop ptr | ptr >= end = inlinePerformIO (touchForeignPtr fptr) `seq` return () | otherwise = do f (inlinePerformIO (peek ptr)) loop (ptr `plusPtr` 1) loop start {-# INLINE mapM_BS #-} -- | Perform a computation on each @Word8@ in a stream. -- -- Since 1.0.10 mapM_ :: Monad m => (Word8 -> m ()) -> Consumer S.ByteString m () mapM_ f = awaitForever (lift . mapM_BS f) {-# INLINE mapM_ #-}