module Data.Conduit.Binary
( sourceFile
, sourceHandle
, sourceIOHandle
, sourceFileRange
, sinkFile
, sinkHandle
, sinkIOHandle
, conduitFile
, isolate
, openFile
, head
, takeWhile
, dropWhile
, take
, Data.Conduit.Binary.lines
) where
import Prelude hiding (head, take, takeWhile, dropWhile)
import qualified Data.ByteString as S
import qualified Data.ByteString.Lazy as L
import Data.Conduit
import qualified Data.Conduit.List as CL
import Control.Exception (assert)
import Control.Monad (liftM)
import Control.Monad.IO.Class (liftIO)
import qualified System.IO as IO
import Control.Monad.Trans.Resource (withIO, release)
import Data.Word (Word8)
#if CABAL_OS_WINDOWS
import qualified System.Win32File as F
#elif NO_HANDLES
import qualified System.PosixFile as F
#endif
openFile :: ResourceIO m
=> FilePath
-> IO.IOMode
-> ResourceT m IO.Handle
openFile fp mode = fmap snd $ withIO (IO.openBinaryFile fp mode) IO.hClose
sourceFile :: ResourceIO m
=> FilePath
-> Source m S.ByteString
sourceFile fp =
#if CABAL_OS_WINDOWS || NO_HANDLES
sourceIO (F.openRead fp)
F.close
(liftIO . F.read)
#else
sourceIOHandle (IO.openBinaryFile fp IO.ReadMode)
#endif
sourceHandle :: ResourceIO m
=> IO.Handle
-> Source m S.ByteString
sourceHandle h =
src
where
src = Source pull close
pull = do
bs <- liftIO (S.hGetSome h 4096)
if S.null bs
then return Closed
else return $ Open src bs
close = return ()
sourceIOHandle :: ResourceIO m
=> IO IO.Handle
-> Source m S.ByteString
sourceIOHandle alloc = sourceIO alloc IO.hClose
(\handle -> do
bs <- liftIO (S.hGetSome handle 4096)
if S.null bs
then return IOClosed
else return $ IOOpen bs)
sinkHandle :: ResourceIO m
=> IO.Handle
-> Sink S.ByteString m ()
sinkHandle h =
SinkData push close
where
push input = liftIO (S.hPut h input) >> return (Processing push close)
close = return ()
sinkIOHandle :: ResourceIO m
=> IO IO.Handle
-> Sink S.ByteString m ()
sinkIOHandle alloc = sinkIO alloc IO.hClose
(\handle bs -> liftIO (S.hPut handle bs) >> return IOProcessing)
(const $ return ())
sourceFileRange :: ResourceIO m
=> FilePath
-> Maybe Integer
-> Maybe Integer
-> Source m S.ByteString
sourceFileRange fp offset count = Source
{ sourcePull = do
(key, handle) <- withIO (IO.openBinaryFile fp IO.ReadMode) IO.hClose
case offset of
Nothing -> return ()
Just off -> liftIO $ IO.hSeek handle IO.AbsoluteSeek off
case count of
Nothing -> pullUnlimited handle key
Just c -> pullLimited c handle key
, sourceClose = return ()
}
where
pullUnlimited handle key = do
bs <- liftIO $ S.hGetSome handle 4096
if S.null bs
then do
release key
return Closed
else do
let src = Source
{ sourcePull = pullUnlimited handle key
, sourceClose = release key
}
return $ Open src bs
pullLimited c0 handle key = do
let c = fromInteger c0
bs <- liftIO $ S.hGetSome handle (min c 4096)
let c' = c S.length bs
assert (c' >= 0) $
if S.null bs
then do
release key
return Closed
else do
let src = Source
{ sourcePull = pullLimited (toInteger c') handle key
, sourceClose = release key
}
return $ Open src bs
sinkFile :: ResourceIO m
=> FilePath
-> Sink S.ByteString m ()
sinkFile fp = sinkIOHandle (IO.openBinaryFile fp IO.WriteMode)
conduitFile :: ResourceIO m
=> FilePath
-> Conduit S.ByteString m S.ByteString
conduitFile fp = conduitIO
(IO.openBinaryFile fp IO.WriteMode)
IO.hClose
(\handle bs -> do
liftIO $ S.hPut handle bs
return $ IOProducing [bs])
(const $ return [])
isolate :: Resource m
=> Int
-> Conduit S.ByteString m S.ByteString
isolate count0 = conduitState
count0
push
close
where
push 0 bs = return $ StateFinished (Just bs) []
push count bs = do
let (a, b) = S.splitAt count bs
let count' = count S.length a
return $
if count' == 0
then StateFinished (if S.null b then Nothing else Just b) (if S.null a then [] else [a])
else assert (S.null b) $ StateProducing count' [a]
close _ = return []
head :: Resource m => Sink S.ByteString m (Maybe Word8)
head =
SinkData push close
where
push bs =
case S.uncons bs of
Nothing -> return $ Processing push close
Just (w, bs') -> do
let lo = if S.null bs' then Nothing else Just bs'
return $ Done lo (Just w)
close = return Nothing
takeWhile :: Resource m => (Word8 -> Bool) -> Conduit S.ByteString m S.ByteString
takeWhile p =
conduit
where
conduit = Conduit push close
push bs = do
let (x, y) = S.span p bs
return $
if S.null y
then Producing conduit [x]
else Finished (Just y) (if S.null x then [] else [x])
close = return []
dropWhile :: Resource m => (Word8 -> Bool) -> Sink S.ByteString m ()
dropWhile p =
SinkData push close
where
push bs = do
let bs' = S.dropWhile p bs
return $
if S.null bs'
then Processing push close
else Done (Just bs') ()
close = return ()
take :: Resource m => Int -> Sink S.ByteString m L.ByteString
take n = L.fromChunks `liftM` (isolate n =$ CL.consume)
lines :: Resource m => Conduit S.ByteString m S.ByteString
lines =
conduitState id push close
where
push front bs' = return $ StateProducing leftover ls
where
bs = front bs'
(leftover, ls) = getLines id bs
getLines front bs
| S.null bs = (id, front [])
| S.null y = (S.append x, front [])
| otherwise = getLines (front . (x:)) (S.drop 1 y)
where
(x, y) = S.breakByte 10 bs
close front
| S.null bs = return []
| otherwise = return [bs]
where
bs = front S.empty