module Data.Conduit.Binary
(
sourceFile
, sourceHandle
, sourceIOHandle
, sourceFileRange
, sinkFile
, sinkHandle
, sinkIOHandle
, conduitFile
, sourceLbs
, head
, dropWhile
, take
, drop
, sinkCacheLength
, sinkLbs
, isolate
, takeWhile
, Data.Conduit.Binary.lines
) where
import Prelude hiding (head, take, drop, takeWhile, dropWhile)
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)
import Control.Monad.IO.Class (liftIO, MonadIO)
import Control.Monad.Trans.Resource (allocate, release)
import qualified System.IO as IO
import Data.Word (Word8, Word64)
import Control.Applicative ((<$>))
import System.Directory (getTemporaryDirectory, removeFile)
#if CABAL_OS_WINDOWS
import qualified System.Win32File as F
#elif NO_HANDLES
import qualified System.PosixFile as F
#endif
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
sourceHandle :: MonadIO m
=> IO.Handle
-> Producer m S.ByteString
sourceHandle h =
loop
where
loop = do
bs <- liftIO (S.hGetSome h 4096)
if S.null bs
then return ()
else yield bs >> loop
sourceIOHandle :: MonadResource m
=> IO IO.Handle
-> Producer m S.ByteString
sourceIOHandle alloc = bracketP alloc IO.hClose sourceHandle
sinkHandle :: MonadIO m
=> IO.Handle
-> Consumer S.ByteString m ()
sinkHandle h = awaitForever $ liftIO . S.hPut h
sinkIOHandle :: MonadResource m
=> IO IO.Handle
-> Consumer S.ByteString m ()
sinkIOHandle alloc = bracketP alloc IO.hClose sinkHandle
sourceFileRange :: MonadResource m
=> FilePath
-> Maybe Integer
-> Maybe Integer
-> Producer m S.ByteString
sourceFileRange fp offset count = bracketP
(IO.openBinaryFile fp IO.ReadMode)
IO.hClose
start
where
start handle = do
case offset of
Nothing -> return ()
Just off -> liftIO $ IO.hSeek handle IO.AbsoluteSeek off
case count of
Nothing -> pullUnlimited handle
Just c -> pullLimited (fromInteger c) handle
pullUnlimited handle = do
bs <- liftIO $ S.hGetSome handle 4096
if S.null bs
then return ()
else do
yield bs
pullUnlimited handle
pullLimited c handle = 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' handle
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
conduitFile :: MonadResource m
=> FilePath
-> Conduit S.ByteString m S.ByteString
conduitFile fp = bracketP
(IO.openBinaryFile fp IO.WriteMode)
IO.hClose
go
where
go h = awaitForever $ \bs -> liftIO (S.hPut h bs) >> yield bs
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'
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)
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
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 :: 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 :: 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 ()
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
sourceLbs :: Monad m => L.ByteString -> Producer m S.ByteString
sourceLbs = sourceList . L.toChunks
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)
sinkLbs :: Monad m => Sink S.ByteString m L.ByteString
sinkLbs = fmap L.fromChunks consume