isa-l/igzip/bitbuf2.h
Greg Tucker 660f49b02d Add data compression unit
Include fast DEFLATE compatable compression functions.

Signed-off-by: Greg Tucker <greg.b.tucker@intel.com>
2016-06-10 17:03:38 -07:00

162 lines
4.8 KiB
C

/**********************************************************************
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#ifndef BITBUF2_H
#define BITBUF2_H
#include "igzip_lib.h"
#if defined (__unix__) || (__APPLE__)
#define _mm_stream_si64x(dst, src) *((uint64_t*)dst) = src
#else
#include <intrin.h>
#endif
#ifdef _WIN64
#pragma warning(disable: 4996)
#endif
#ifdef _MSC_VER
#define inline __inline
#endif
/* MAX_BITBUF_BIT WRITE is the maximum number of bits than can be safely written
* by consecutive calls of write_bits. Note this assumes the bitbuf is in a
* state that is possible at the exit of write_bits */
#ifdef USE_BITBUF8 /*Write bits safe */
# define MAX_BITBUF_BIT_WRITE 63
#elif defined(USE_BITBUFB) /* Write bits always */
# define MAX_BITBUF_BIT_WRITE 56
#else /* USE_BITBUF_ELSE */
# define MAX_BITBUF_BIT_WRITE 56
#endif
static
inline void construct(struct BitBuf2 *me)
{
me->m_bits = 0;
me->m_bit_count = 0;
me->m_out_buf = me->m_out_start = me->m_out_end = NULL;
}
static inline void init(struct BitBuf2 *me)
{
me->m_bits = 0;
me->m_bit_count = 0;
}
static inline void set_buf(struct BitBuf2 *me, unsigned char *buf, unsigned int len)
{
unsigned int slop = 8;
me->m_out_buf = me->m_out_start = buf;
me->m_out_end = buf + len - slop;
}
static inline int is_full(struct BitBuf2 *me)
{
return (me->m_out_buf > me->m_out_end);
}
static inline uint8_t * buffer_ptr(struct BitBuf2 *me)
{
return me->m_out_buf;
}
static inline uint32_t buffer_used(struct BitBuf2 *me)
{
return (uint32_t)(me->m_out_buf - me->m_out_start);
}
static inline void check_space(struct BitBuf2 *me, uint32_t num_bits)
{
/* Checks if bitbuf has num_bits extra space and flushes the bytes in
* the bitbuf if it doesn't. */
uint32_t bytes;
if (63 - me->m_bit_count < num_bits) {
_mm_stream_si64x((int64_t *) me->m_out_buf, me->m_bits);
bytes = me->m_bit_count / 8;
me->m_out_buf += bytes;
bytes *= 8;
me->m_bit_count -= bytes;
me->m_bits >>= bytes;
}
}
static inline void write_bits_unsafe(struct BitBuf2 *me, uint64_t code, uint32_t count)
{
me->m_bits |= code << me->m_bit_count;
me->m_bit_count += count;
}
static inline void write_bits(struct BitBuf2 *me, uint64_t code, uint32_t count)
{
#ifdef USE_BITBUF8 /*Write bits safe */
me->m_bits |= code << me->m_bit_count;
me->m_bit_count += count;
if (me->m_bit_count >= 64) {
_mm_stream_si64x((int64_t *) me->m_out_buf, me->m_bits);
me->m_out_buf += 8;
me->m_bit_count -= 64;
me->m_bits = code >> (count - me->m_bit_count);
}
#elif defined(USE_BITBUFB) /* Write bits always */
/* Assumes there is space to fit code into m_bits. */
uint32_t bits;
me->m_bits |= code << me->m_bit_count;
me->m_bit_count += count;
if (me->m_bit_count >= 8) {
_mm_stream_si64x((int64_t *) me->m_out_buf, me->m_bits);
bits = me->m_bit_count & ~7;
me->m_bit_count -= bits;
me->m_out_buf += bits/8;
me->m_bits >>= bits;
}
#else /* USE_BITBUF_ELSE */
check_space(me, count);
write_bits_unsafe(me, code, count);
#endif
}
/* Can write up to 8 bytes to output buffer */
static inline void flush(struct BitBuf2 *me)
{
uint32_t bytes;
if (me->m_bit_count) {
_mm_stream_si64x((int64_t *) me->m_out_buf, me->m_bits);
bytes = (me->m_bit_count + 7) / 8;
me->m_out_buf += bytes;
}
me->m_bits = 0;
me->m_bit_count = 0;
}
#endif //BITBUF2_H