#if defined(__GLASGOW_HASKELL__) && !defined(__HADDOCK__)
#include "MachDeps.h"
#endif
module Data.Serialize.Builder (
Builder
, toByteString
, toLazyByteString
, empty
, singleton
, append
, fromByteString
, fromLazyByteString
, flush
, putWord16be
, putWord32be
, putWord64be
, putWord16le
, putWord32le
, putWord64le
, putWordhost
, putWord16host
, putWord32host
, putWord64host
) where
import Data.Monoid
import Data.Word
import Foreign.ForeignPtr
import Foreign.Ptr (Ptr,plusPtr)
import Foreign.Storable
import System.IO.Unsafe (unsafePerformIO)
import qualified Data.ByteString as S
import qualified Data.ByteString.Lazy as L
import qualified Data.ByteString.Internal as S
#if defined(__GLASGOW_HASKELL__) && !defined(__HADDOCK__)
import GHC.Base
import GHC.Word (Word32(..),Word16(..),Word64(..))
#if WORD_SIZE_IN_BITS < 64 && __GLASGOW_HASKELL__ >= 608
import GHC.Word (uncheckedShiftRL64#)
#endif
#else
import Data.Word
#endif
newtype Builder = Builder {
runBuilder :: (Buffer -> [S.ByteString]) -> Buffer -> [S.ByteString]
}
instance Monoid Builder where
mempty = empty
mappend = append
empty :: Builder
empty = Builder id
singleton :: Word8 -> Builder
singleton = writeN 1 . flip poke
append :: Builder -> Builder -> Builder
append (Builder f) (Builder g) = Builder (f . g)
fromByteString :: S.ByteString -> Builder
fromByteString bs
| S.null bs = empty
| otherwise = flush `append` mapBuilder (bs :)
fromLazyByteString :: L.ByteString -> Builder
fromLazyByteString bss = flush `append` mapBuilder (L.toChunks bss ++)
data Buffer = Buffer !(ForeignPtr Word8)
!Int
!Int
!Int
toByteString :: Builder -> S.ByteString
toByteString m = S.concat $ unsafePerformIO $ do
buf <- newBuffer defaultSize
return (runBuilder (m `append` flush) (const []) buf)
toLazyByteString :: Builder -> L.ByteString
toLazyByteString m = L.fromChunks $ unsafePerformIO $ do
buf <- newBuffer defaultSize
return (runBuilder (m `append` flush) (const []) buf)
flush :: Builder
flush = Builder $ \ k buf@(Buffer p o u l) ->
if u == 0
then k buf
else S.PS p o u : k (Buffer p (o+u) 0 l)
defaultSize :: Int
defaultSize = 32 * k overhead
where k = 1024
overhead = 2 * sizeOf (undefined :: Int)
unsafeLiftIO :: (Buffer -> IO Buffer) -> Builder
unsafeLiftIO f = Builder $ \ k buf -> S.inlinePerformIO $ do
buf' <- f buf
return (k buf')
withSize :: (Int -> Builder) -> Builder
withSize f = Builder $ \ k buf@(Buffer _ _ _ l) ->
runBuilder (f l) k buf
mapBuilder :: ([S.ByteString] -> [S.ByteString]) -> Builder
mapBuilder f = Builder (f .)
ensureFree :: Int -> Builder
ensureFree n = n `seq` withSize $ \ l ->
if n <= l then empty else
flush `append` unsafeLiftIO (const (newBuffer (max n defaultSize)))
writeN :: Int -> (Ptr Word8 -> IO ()) -> Builder
writeN n f = ensureFree n `append` unsafeLiftIO (writeNBuffer n f)
writeNBuffer :: Int -> (Ptr Word8 -> IO ()) -> Buffer -> IO Buffer
writeNBuffer n f (Buffer fp o u l) = do
withForeignPtr fp (\p -> f (p `plusPtr` (o+u)))
return (Buffer fp o (u+n) (ln))
newBuffer :: Int -> IO Buffer
newBuffer size = do
fp <- S.mallocByteString size
return $! Buffer fp 0 0 size
writeNbytes :: Storable a => Int -> (Ptr a -> IO ()) -> Builder
writeNbytes n f = ensureFree n `append` unsafeLiftIO (writeNBufferBytes n f)
writeNBufferBytes :: Storable a => Int -> (Ptr a -> IO ()) -> Buffer -> IO Buffer
writeNBufferBytes n f (Buffer fp o u l) = do
withForeignPtr fp (\p -> f (p `plusPtr` (o+u)))
return (Buffer fp o (u+n) (ln))
putWord16be :: Word16 -> Builder
putWord16be w = writeN 2 $ \p -> do
poke p (fromIntegral (shiftr_w16 w 8) :: Word8)
poke (p `plusPtr` 1) (fromIntegral (w) :: Word8)
putWord16le :: Word16 -> Builder
putWord16le w = writeN 2 $ \p -> do
poke p (fromIntegral (w) :: Word8)
poke (p `plusPtr` 1) (fromIntegral (shiftr_w16 w 8) :: Word8)
putWord32be :: Word32 -> Builder
putWord32be w = writeN 4 $ \p -> do
poke p (fromIntegral (shiftr_w32 w 24) :: Word8)
poke (p `plusPtr` 1) (fromIntegral (shiftr_w32 w 16) :: Word8)
poke (p `plusPtr` 2) (fromIntegral (shiftr_w32 w 8) :: Word8)
poke (p `plusPtr` 3) (fromIntegral (w) :: Word8)
putWord32le :: Word32 -> Builder
putWord32le w = writeN 4 $ \p -> do
poke p (fromIntegral (w) :: Word8)
poke (p `plusPtr` 1) (fromIntegral (shiftr_w32 w 8) :: Word8)
poke (p `plusPtr` 2) (fromIntegral (shiftr_w32 w 16) :: Word8)
poke (p `plusPtr` 3) (fromIntegral (shiftr_w32 w 24) :: Word8)
putWord64be :: Word64 -> Builder
#if WORD_SIZE_IN_BITS < 64
putWord64be w =
let a = fromIntegral (shiftr_w64 w 32) :: Word32
b = fromIntegral w :: Word32
in writeN 8 $ \p -> do
poke p (fromIntegral (shiftr_w32 a 24) :: Word8)
poke (p `plusPtr` 1) (fromIntegral (shiftr_w32 a 16) :: Word8)
poke (p `plusPtr` 2) (fromIntegral (shiftr_w32 a 8) :: Word8)
poke (p `plusPtr` 3) (fromIntegral (a) :: Word8)
poke (p `plusPtr` 4) (fromIntegral (shiftr_w32 b 24) :: Word8)
poke (p `plusPtr` 5) (fromIntegral (shiftr_w32 b 16) :: Word8)
poke (p `plusPtr` 6) (fromIntegral (shiftr_w32 b 8) :: Word8)
poke (p `plusPtr` 7) (fromIntegral (b) :: Word8)
#else
putWord64be w = writeN 8 $ \p -> do
poke p (fromIntegral (shiftr_w64 w 56) :: Word8)
poke (p `plusPtr` 1) (fromIntegral (shiftr_w64 w 48) :: Word8)
poke (p `plusPtr` 2) (fromIntegral (shiftr_w64 w 40) :: Word8)
poke (p `plusPtr` 3) (fromIntegral (shiftr_w64 w 32) :: Word8)
poke (p `plusPtr` 4) (fromIntegral (shiftr_w64 w 24) :: Word8)
poke (p `plusPtr` 5) (fromIntegral (shiftr_w64 w 16) :: Word8)
poke (p `plusPtr` 6) (fromIntegral (shiftr_w64 w 8) :: Word8)
poke (p `plusPtr` 7) (fromIntegral (w) :: Word8)
#endif
putWord64le :: Word64 -> Builder
#if WORD_SIZE_IN_BITS < 64
putWord64le w =
let b = fromIntegral (shiftr_w64 w 32) :: Word32
a = fromIntegral w :: Word32
in writeN 8 $ \p -> do
poke (p) (fromIntegral (a) :: Word8)
poke (p `plusPtr` 1) (fromIntegral (shiftr_w32 a 8) :: Word8)
poke (p `plusPtr` 2) (fromIntegral (shiftr_w32 a 16) :: Word8)
poke (p `plusPtr` 3) (fromIntegral (shiftr_w32 a 24) :: Word8)
poke (p `plusPtr` 4) (fromIntegral (b) :: Word8)
poke (p `plusPtr` 5) (fromIntegral (shiftr_w32 b 8) :: Word8)
poke (p `plusPtr` 6) (fromIntegral (shiftr_w32 b 16) :: Word8)
poke (p `plusPtr` 7) (fromIntegral (shiftr_w32 b 24) :: Word8)
#else
putWord64le w = writeN 8 $ \p -> do
poke p (fromIntegral (w) :: Word8)
poke (p `plusPtr` 1) (fromIntegral (shiftr_w64 w 8) :: Word8)
poke (p `plusPtr` 2) (fromIntegral (shiftr_w64 w 16) :: Word8)
poke (p `plusPtr` 3) (fromIntegral (shiftr_w64 w 24) :: Word8)
poke (p `plusPtr` 4) (fromIntegral (shiftr_w64 w 32) :: Word8)
poke (p `plusPtr` 5) (fromIntegral (shiftr_w64 w 40) :: Word8)
poke (p `plusPtr` 6) (fromIntegral (shiftr_w64 w 48) :: Word8)
poke (p `plusPtr` 7) (fromIntegral (shiftr_w64 w 56) :: Word8)
#endif
putWordhost :: Word -> Builder
putWordhost w = writeNbytes (sizeOf (undefined :: Word)) (\p -> poke p w)
putWord16host :: Word16 -> Builder
putWord16host w16 = writeNbytes (sizeOf (undefined :: Word16)) (\p -> poke p w16)
putWord32host :: Word32 -> Builder
putWord32host w32 = writeNbytes (sizeOf (undefined :: Word32)) (\p -> poke p w32)
putWord64host :: Word64 -> Builder
putWord64host w = writeNbytes (sizeOf (undefined :: Word64)) (\p -> poke p w)
shiftr_w16 :: Word16 -> Int -> Word16
shiftr_w32 :: Word32 -> Int -> Word32
shiftr_w64 :: Word64 -> Int -> Word64
#if defined(__GLASGOW_HASKELL__) && !defined(__HADDOCK__)
shiftr_w16 (W16# w) (I# i) = W16# (w `uncheckedShiftRL#` i)
shiftr_w32 (W32# w) (I# i) = W32# (w `uncheckedShiftRL#` i)
#if WORD_SIZE_IN_BITS < 64
shiftr_w64 (W64# w) (I# i) = W64# (w `uncheckedShiftRL64#` i)
#if __GLASGOW_HASKELL__ <= 606
foreign import ccall unsafe "stg_uncheckedShiftRL64"
uncheckedShiftRL64# :: Word64# -> Int# -> Word64#
#endif
#else
shiftr_w64 (W64# w) (I# i) = W64# (w `uncheckedShiftRL#` i)
#endif
#else
shiftr_w16 = shiftR
shiftr_w32 = shiftR
shiftr_w64 = shiftR
#endif