#if __GLASGOW_HASKELL__ >= 701
#endif
module Data.ByteString.Builder.Prim.Binary (
int8
, word8
, int16BE
, int32BE
, int64BE
, word16BE
, word32BE
, word64BE
, floatBE
, doubleBE
, int16LE
, int32LE
, int64LE
, word16LE
, word32LE
, word64LE
, floatLE
, doubleLE
, intHost
, int16Host
, int32Host
, int64Host
, wordHost
, word16Host
, word32Host
, word64Host
, floatHost
, doubleHost
) where
import Data.ByteString.Builder.Prim.Internal
import Data.ByteString.Builder.Prim.Internal.Floating
import Foreign
#include "MachDeps.h"
word8 :: FixedPrim Word8
word8 = storableToF
word16BE :: FixedPrim Word16
#ifdef WORDS_BIGENDIAN
word16BE = word16Host
#else
word16BE = fixedPrim 2 $ \w p -> do
poke p (fromIntegral (shiftR w 8) :: Word8)
poke (p `plusPtr` 1) (fromIntegral w :: Word8)
#endif
word16LE :: FixedPrim Word16
#ifdef WORDS_BIGENDIAN
word16LE = fixedPrim 2 $ \w p -> do
poke p (fromIntegral w :: Word8)
poke (p `plusPtr` 1) (fromIntegral (shiftR w 8) :: Word8)
#else
word16LE = word16Host
#endif
word32BE :: FixedPrim Word32
#ifdef WORDS_BIGENDIAN
word32BE = word32Host
#else
word32BE = fixedPrim 4 $ \w p -> do
poke p (fromIntegral (shiftR w 24) :: Word8)
poke (p `plusPtr` 1) (fromIntegral (shiftR w 16) :: Word8)
poke (p `plusPtr` 2) (fromIntegral (shiftR w 8) :: Word8)
poke (p `plusPtr` 3) (fromIntegral w :: Word8)
#endif
word32LE :: FixedPrim Word32
#ifdef WORDS_BIGENDIAN
word32LE = fixedPrim 4 $ \w p -> do
poke p (fromIntegral w :: Word8)
poke (p `plusPtr` 1) (fromIntegral (shiftR w 8) :: Word8)
poke (p `plusPtr` 2) (fromIntegral (shiftR w 16) :: Word8)
poke (p `plusPtr` 3) (fromIntegral (shiftR w 24) :: Word8)
#else
word32LE = word32Host
#endif
word64BE :: FixedPrim Word64
#ifdef WORDS_BIGENDIAN
word64BE = word64Host
#else
#if WORD_SIZE_IN_BITS < 64
word64BE =
fixedPrim 8 $ \w p -> do
let a = fromIntegral (shiftR w 32) :: Word32
b = fromIntegral w :: Word32
poke p (fromIntegral (shiftR a 24) :: Word8)
poke (p `plusPtr` 1) (fromIntegral (shiftR a 16) :: Word8)
poke (p `plusPtr` 2) (fromIntegral (shiftR a 8) :: Word8)
poke (p `plusPtr` 3) (fromIntegral a :: Word8)
poke (p `plusPtr` 4) (fromIntegral (shiftR b 24) :: Word8)
poke (p `plusPtr` 5) (fromIntegral (shiftR b 16) :: Word8)
poke (p `plusPtr` 6) (fromIntegral (shiftR b 8) :: Word8)
poke (p `plusPtr` 7) (fromIntegral b :: Word8)
#else
word64BE = fixedPrim 8 $ \w p -> do
poke p (fromIntegral (shiftR w 56) :: Word8)
poke (p `plusPtr` 1) (fromIntegral (shiftR w 48) :: Word8)
poke (p `plusPtr` 2) (fromIntegral (shiftR w 40) :: Word8)
poke (p `plusPtr` 3) (fromIntegral (shiftR w 32) :: Word8)
poke (p `plusPtr` 4) (fromIntegral (shiftR w 24) :: Word8)
poke (p `plusPtr` 5) (fromIntegral (shiftR w 16) :: Word8)
poke (p `plusPtr` 6) (fromIntegral (shiftR w 8) :: Word8)
poke (p `plusPtr` 7) (fromIntegral w :: Word8)
#endif
#endif
word64LE :: FixedPrim Word64
#ifdef WORDS_BIGENDIAN
#if WORD_SIZE_IN_BITS < 64
word64LE =
fixedPrim 8 $ \w p -> do
let b = fromIntegral (shiftR w 32) :: Word32
a = fromIntegral w :: Word32
poke (p) (fromIntegral a :: Word8)
poke (p `plusPtr` 1) (fromIntegral (shiftR a 8) :: Word8)
poke (p `plusPtr` 2) (fromIntegral (shiftR a 16) :: Word8)
poke (p `plusPtr` 3) (fromIntegral (shiftR a 24) :: Word8)
poke (p `plusPtr` 4) (fromIntegral b :: Word8)
poke (p `plusPtr` 5) (fromIntegral (shiftR b 8) :: Word8)
poke (p `plusPtr` 6) (fromIntegral (shiftR b 16) :: Word8)
poke (p `plusPtr` 7) (fromIntegral (shiftR b 24) :: Word8)
#else
word64LE = fixedPrim 8 $ \w p -> do
poke p (fromIntegral w :: Word8)
poke (p `plusPtr` 1) (fromIntegral (shiftR w 8) :: Word8)
poke (p `plusPtr` 2) (fromIntegral (shiftR w 16) :: Word8)
poke (p `plusPtr` 3) (fromIntegral (shiftR w 24) :: Word8)
poke (p `plusPtr` 4) (fromIntegral (shiftR w 32) :: Word8)
poke (p `plusPtr` 5) (fromIntegral (shiftR w 40) :: Word8)
poke (p `plusPtr` 6) (fromIntegral (shiftR w 48) :: Word8)
poke (p `plusPtr` 7) (fromIntegral (shiftR w 56) :: Word8)
#endif
#else
word64LE = word64Host
#endif
wordHost :: FixedPrim Word
wordHost = storableToF
word16Host :: FixedPrim Word16
word16Host = storableToF
word32Host :: FixedPrim Word32
word32Host = storableToF
word64Host :: FixedPrim Word64
word64Host = storableToF
int8 :: FixedPrim Int8
int8 = fromIntegral >$< word8
int16BE :: FixedPrim Int16
int16BE = fromIntegral >$< word16BE
int16LE :: FixedPrim Int16
int16LE = fromIntegral >$< word16LE
int32BE :: FixedPrim Int32
int32BE = fromIntegral >$< word32BE
int32LE :: FixedPrim Int32
int32LE = fromIntegral >$< word32LE
int64BE :: FixedPrim Int64
int64BE = fromIntegral >$< word64BE
int64LE :: FixedPrim Int64
int64LE = fromIntegral >$< word64LE
intHost :: FixedPrim Int
intHost = storableToF
int16Host :: FixedPrim Int16
int16Host = storableToF
int32Host :: FixedPrim Int32
int32Host = storableToF
int64Host :: FixedPrim Int64
int64Host = storableToF
floatBE :: FixedPrim Float
floatBE = encodeFloatViaWord32F word32BE
floatLE :: FixedPrim Float
floatLE = encodeFloatViaWord32F word32LE
doubleBE :: FixedPrim Double
doubleBE = encodeDoubleViaWord64F word64BE
doubleLE :: FixedPrim Double
doubleLE = encodeDoubleViaWord64F word64LE
floatHost :: FixedPrim Float
floatHost = storableToF
doubleHost :: FixedPrim Double
doubleHost = storableToF