-{-# OPTIONS -fno-implicit-prelude -#include "HsCore.h" #-}
+{-# OPTIONS -fno-implicit-prelude -#include "HsBase.h" #-}
#undef DEBUG_DUMP
--- -----------------------------------------------------------------------------
--- $Id: IO.hs,v 1.2 2002/01/02 14:40:10 simonmar Exp $
+-----------------------------------------------------------------------------
+-- |
+-- Module : GHC.IO
+-- Copyright : (c) The University of Glasgow, 1992-2001
+-- License : see libraries/base/LICENSE
+--
+-- Maintainer : libraries@haskell.org
+-- Stability : internal
+-- Portability : non-portable
--
--- (c) The University of Glasgow, 1992-2001
+-- String I\/O functions
--
+-----------------------------------------------------------------------------
module GHC.IO (
hWaitForInput, hGetChar, hGetLine, hGetContents, hPutChar, hPutStr,
commitBuffer', -- hack, see below
hGetcBuffered, -- needed by ghc/compiler/utils/StringBuffer.lhs
- hGetBuf, hPutBuf, slurpFile
+ hGetBuf, hPutBuf, slurpFile,
+ memcpy_ba_baoff,
+ memcpy_ptr_baoff,
+ memcpy_baoff_ba,
+ memcpy_baoff_ptr,
) where
import Foreign
import Foreign.C
+import System.IO.Error
import Data.Maybe
import Control.Monad
+import System.Posix.Internals
import GHC.Enum
import GHC.Base
-import GHC.Posix
import GHC.IOBase
import GHC.Handle -- much of the real stuff is in here
import GHC.Real
import GHC.Num
import GHC.Show
import GHC.List
-import GHC.Exception ( ioError, catch, throw )
+import GHC.Exception ( ioError, catch )
import GHC.Conc
-- ---------------------------------------------------------------------------
(inputReady (fromIntegral (haFD handle_)) (fromIntegral msecs) (haIsStream handle_))
return (r /= 0)
-foreign import "inputReady" unsafe
+foreign import ccall unsafe "inputReady"
inputReady :: CInt -> CInt -> Bool -> IO CInt
-- ---------------------------------------------------------------------------
NoBuffering -> do
-- make use of the minimal buffer we already have
let raw = bufBuf buf
- r <- throwErrnoIfMinus1RetryMayBlock "hGetChar"
- (read_off (fromIntegral fd) (haIsStream handle_) raw 0 1)
- (threadWaitRead fd)
+ r <- readRawBuffer "hGetChar" (fromIntegral fd) (haIsStream handle_) raw 0 1
if r == 0
then ioe_EOF
else do (c,_) <- readCharFromBuffer raw 0
#endif
xs <- unpack raw r off
+
+ -- if eol == True, then off is the offset of the '\n'
+ -- otherwise off == w and the buffer is now empty.
if eol
- then do if w == off + 1
- then writeIORef ref buf{ bufRPtr=0, bufWPtr=0 }
- else writeIORef ref buf{ bufRPtr = off + 1 }
+ then do if (w == off + 1)
+ then writeIORef ref buf{ bufRPtr=0, bufWPtr=0 }
+ else writeIORef ref buf{ bufRPtr = off + 1 }
return (concat (reverse (xs:xss)))
else do
maybe_buf <- maybeFillReadBuffer (haFD handle_) True (haIsStream handle_)
case maybe_buf of
-- Nothing indicates we caught an EOF, and we may have a
-- partial line to return.
- Nothing -> let str = concat (reverse (xs:xss)) in
- if not (null str)
- then return str
- else ioe_EOF
+ Nothing -> do
+ writeIORef ref buf{ bufRPtr=0, bufWPtr=0 }
+ let str = concat (reverse (xs:xss))
+ if not (null str)
+ then return str
+ else ioe_EOF
Just new_buf ->
hGetLineBufferedLoop handle_ ref new_buf (xs:xss)
)
(\e -> do if isEOFError e
then return Nothing
- else throw e)
+ else ioError e)
unpack :: RawBuffer -> Int -> Int -> IO [Char]
NoBuffering -> do
-- make use of the minimal buffer we already have
let raw = bufBuf buf
- r <- throwErrnoIfMinus1RetryMayBlock "lazyRead"
- (read_off (fromIntegral fd) (haIsStream handle_) raw 0 1)
- (threadWaitRead fd)
+ r <- readRawBuffer "lazyRead" (fromIntegral fd) (haIsStream handle_) raw 0 1
if r == 0
then do handle_ <- hClose_help handle_
return (handle_, "")
unpackAcc :: RawBuffer -> Int -> Int -> [Char] -> IO [Char]
-unpackAcc buf r 0 acc = return ""
+unpackAcc buf r 0 acc = return acc
unpackAcc buf (I# r) (I# len) acc = IO $ \s -> unpack acc (len -# 1#) s
where
unpack acc i s
LineBuffering -> hPutcBuffered handle_ True c
BlockBuffering _ -> hPutcBuffered handle_ False c
NoBuffering ->
- withObject (castCharToCChar c) $ \buf ->
- throwErrnoIfMinus1RetryMayBlock_ "hPutChar"
- (c_write (fromIntegral fd) buf 1)
- (threadWaitWrite fd)
-
+ withObject (castCharToCChar c) $ \buf -> do
+ writeRawBufferPtr "hPutChar" (fromIntegral fd) (haIsStream handle_) buf 0 1
+ return ()
hPutcBuffered handle_ is_line c = do
let ref = haBuffer handle_
-> Int -- number of bytes of data in buffer
-> IO ()
hPutBuf handle ptr count
- | count <= 0 = illegalBufferSize handle "hPutBuf" count
+ | count == 0 = return ()
+ | count < 0 = illegalBufferSize handle "hPutBuf" count
| otherwise =
wantWritableHandle "hPutBuf" handle $
\ handle_@Handle__{ haFD=fd, haBuffer=ref, haIsStream=is_stream } -> do
else do flushed_buf <- flushWriteBuffer fd is_stream old_buf
writeIORef ref flushed_buf
-- ToDo: should just memcpy instead of writing if possible
- writeChunk fd ptr count
+ writeChunk fd is_stream (castPtr ptr) count
-writeChunk :: FD -> Ptr a -> Int -> IO ()
-writeChunk fd ptr bytes = loop 0 bytes
+writeChunk :: FD -> Bool -> Ptr CChar -> Int -> IO ()
+writeChunk fd is_stream ptr bytes = loop 0 bytes
where
loop :: Int -> Int -> IO ()
loop _ bytes | bytes <= 0 = return ()
loop off bytes = do
r <- fromIntegral `liftM`
- throwErrnoIfMinus1RetryMayBlock "writeChunk"
- (c_write (fromIntegral fd) (ptr `plusPtr` off) (fromIntegral bytes))
- (threadWaitWrite fd)
+ writeRawBufferPtr "writeChunk" (fromIntegral fd) is_stream ptr
+ off (fromIntegral bytes)
-- write can't return 0
loop (off + r) (bytes - r)
hGetBuf :: Handle -> Ptr a -> Int -> IO Int
hGetBuf handle ptr count
- | count <= 0 = illegalBufferSize handle "hGetBuf" count
+ | count == 0 = return 0
+ | count < 0 = illegalBufferSize handle "hGetBuf" count
| otherwise =
wantReadableHandle "hGetBuf" handle $
- \ handle_@Handle__{ haFD=fd, haBuffer=ref } -> do
+ \ handle_@Handle__{ haFD=fd, haBuffer=ref, haIsStream=is_stream } -> do
buf@Buffer{ bufBuf=raw, bufWPtr=w, bufRPtr=r } <- readIORef ref
if bufferEmpty buf
- then readChunk fd ptr count
+ then readChunk fd is_stream ptr count
else do
let avail = w - r
copied <- if (count >= avail)
let remaining = count - copied
if remaining > 0
- then do rest <- readChunk fd (ptr `plusPtr` copied) remaining
+ then do rest <- readChunk fd is_stream (ptr `plusPtr` copied) remaining
return (rest + copied)
else return count
-readChunk :: FD -> Ptr a -> Int -> IO Int
-readChunk fd ptr bytes = loop 0 bytes
+readChunk :: FD -> Bool -> Ptr a -> Int -> IO Int
+readChunk fd is_stream ptr bytes = loop 0 bytes
where
loop :: Int -> Int -> IO Int
loop off bytes | bytes <= 0 = return off
loop off bytes = do
r <- fromIntegral `liftM`
- throwErrnoIfMinus1RetryMayBlock "readChunk"
- (c_read (fromIntegral fd) (ptr `plusPtr` off) (fromIntegral bytes))
- (threadWaitRead fd)
+ readRawBufferPtr "readChunk" (fromIntegral fd) is_stream
+ (castPtr ptr) off (fromIntegral bytes)
if r == 0
then return off
else loop (off + r) (bytes - r)
ioError (userError "slurpFile: file too big")
else do
let sz_i = fromIntegral sz
+ if sz_i == 0 then return (nullPtr, 0) else do
chunk <- mallocBytes sz_i
r <- hGetBuf handle chunk sz_i
hClose handle
-- ---------------------------------------------------------------------------
-- memcpy wrappers
-foreign import "__hscore_memcpy_src_off" unsafe
+foreign import ccall unsafe "__hscore_memcpy_src_off"
memcpy_ba_baoff :: RawBuffer -> RawBuffer -> Int -> CSize -> IO (Ptr ())
-foreign import "__hscore_memcpy_src_off" unsafe
+foreign import ccall unsafe "__hscore_memcpy_src_off"
memcpy_ptr_baoff :: Ptr a -> RawBuffer -> Int -> CSize -> IO (Ptr ())
-foreign import "__hscore_memcpy_dst_off" unsafe
+foreign import ccall unsafe "__hscore_memcpy_dst_off"
memcpy_baoff_ba :: RawBuffer -> Int -> RawBuffer -> CSize -> IO (Ptr ())
-foreign import "__hscore_memcpy_dst_off" unsafe
+foreign import ccall unsafe "__hscore_memcpy_dst_off"
memcpy_baoff_ptr :: RawBuffer -> Int -> Ptr a -> CSize -> IO (Ptr ())
-----------------------------------------------------------------------------