41 |
* * |
* * |
42 |
* Revision history: * |
* Revision history: * |
43 |
* * |
* * |
44 |
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* 28.06.2002 addded BitstreamNumBitsToByteAlign() * |
45 |
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* BitstreamShowBitsFromByteAlign() * |
46 |
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* 26.03.2002 interlacing support - modified putvol/vopheaders paramters * |
47 |
* 04.03.2002 putbits speedup (Isibaar) * |
* 04.03.2002 putbits speedup (Isibaar) * |
48 |
* 03.03.2002 merged BITREADER and BITWRITER (Isibaar) * |
* 03.03.2002 merged BITREADER and BITWRITER (Isibaar) * |
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* 16.12.2001 inital version * |
* 16.12.2001 inital version * |
82 |
//#define VIDOBJLAY_TYPE_SIMPLE_SCALABLE 2 |
//#define VIDOBJLAY_TYPE_SIMPLE_SCALABLE 2 |
83 |
#define VIDOBJLAY_TYPE_CORE 3 |
#define VIDOBJLAY_TYPE_CORE 3 |
84 |
#define VIDOBJLAY_TYPE_MAIN 4 |
#define VIDOBJLAY_TYPE_MAIN 4 |
85 |
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//#define VIDOBJLAY_TYPE_NBIT 5 |
86 |
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//#define VIDOBJLAY_TYPE_ANIM_TEXT 6 |
87 |
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//#define VIDOBJLAY_TYPE_ANIM_MESH 7 |
88 |
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//#define VIDOBJLAY_TYPE_SIMPLE_FACE 8 |
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//#define VIDOBJLAY_TYPE_STILL_SCALABLE 9 |
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#define VIDOBJLAY_TYPE_ART_SIMPLE 10 |
91 |
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//#define VIDOBJLAY_TYPE_CORE_SCALABLE 11 |
92 |
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#define VIDOBJLAY_TYPE_ACE 12 |
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//#define VIDOBJLAY_TYPE_SIMPLE_FBA 13 |
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//#define VIDOBJLAY_AR_SQUARE 1 |
//#define VIDOBJLAY_AR_SQUARE 1 |
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#define VIDOBJLAY_SHAPE_BINARY_ONLY 2 |
#define VIDOBJLAY_SHAPE_BINARY_ONLY 2 |
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#define VIDOBJLAY_SHAPE_GRAYSCALE 3 |
#define VIDOBJLAY_SHAPE_GRAYSCALE 3 |
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110 |
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#define SPRITE_NONE 0 |
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#define SPRITE_STATIC 1 |
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#define SPRITE_GMC 2 |
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114 |
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115 |
#define VO_START_CODE 0x8 |
#define VO_START_CODE 0x8 |
116 |
#define VOL_START_CODE 0x12 |
#define VOL_START_CODE 0x12 |
117 |
#define VOP_START_CODE 0x1b6 |
#define VOP_START_CODE 0x1b6 |
127 |
#define S_VOP 3 |
#define S_VOP 3 |
128 |
#define N_VOP 4 |
#define N_VOP 4 |
129 |
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130 |
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// resync-specific |
131 |
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#define NUMBITS_VP_RESYNC_MARKER 17 |
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#define RESYNC_MARKER 1 |
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typedef struct |
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{ |
int read_video_packet_header(Bitstream *bs, |
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uint32_t bufa; |
DECODER * dec, |
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uint32_t bufb; |
const int addbits, |
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uint32_t buf; |
int * quant, |
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uint32_t pos; |
int * fcode_forward, |
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uint32_t *tail; |
int * fcode_backward, |
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uint32_t *start; |
int * intra_dc_threshold); |
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uint32_t length; |
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} |
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Bitstream; |
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// header stuff |
// header stuff |
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int BitstreamReadHeaders(Bitstream * bs, DECODER * dec, uint32_t * rounding, |
int BitstreamReadHeaders(Bitstream * bs, |
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uint32_t * quant, uint32_t * fcode, uint32_t * intra_dc_threshold); |
DECODER * dec, |
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uint32_t * rounding, |
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uint32_t * reduced_resolution, |
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uint32_t * quant, |
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uint32_t * fcode_forward, |
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uint32_t * fcode_backward, |
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uint32_t * intra_dc_threshold, |
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VECTOR * gmc_mv); |
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void BitstreamWriteVolHeader(Bitstream * const bs, |
void BitstreamWriteVolHeader(Bitstream * const bs, |
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const int width, |
const MBParam * pParam, |
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const int height, |
const FRAMEINFO * const frame); |
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const int quant_type); |
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159 |
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void BitstreamWriteVopHeader(Bitstream * const bs, |
void BitstreamWriteVopHeader(Bitstream * const bs, |
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VOP_TYPE prediction_type, |
const MBParam * pParam, |
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const int rounding_type, |
const FRAMEINFO * const frame, |
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const uint32_t quant, |
int vop_coded); |
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const uint32_t fcode); |
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void BitstreamWriteUserData(Bitstream * const bs, |
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uint8_t * data, |
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const int length); |
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/* initialise bitstream structure */ |
/* initialise bitstream structure */ |
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static void __inline BitstreamInit(Bitstream * const bs, |
static void __inline |
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BitstreamInit(Bitstream * const bs, |
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void * const bitstream, |
void * const bitstream, |
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uint32_t length) |
uint32_t length) |
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{ |
{ |
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/* reset bitstream state */ |
/* reset bitstream state */ |
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static void __inline BitstreamReset(Bitstream * const bs) |
static void __inline |
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BitstreamReset(Bitstream * const bs) |
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{ |
{ |
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uint32_t tmp; |
uint32_t tmp; |
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/* reads n bits from bitstream without changing the stream pos */ |
/* reads n bits from bitstream without changing the stream pos */ |
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static uint32_t __inline BitstreamShowBits(Bitstream * const bs, |
static uint32_t __inline |
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BitstreamShowBits(Bitstream * const bs, |
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const uint32_t bits) |
const uint32_t bits) |
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{ |
{ |
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int nbit = (bits + bs->pos) - 32; |
int nbit = (bits + bs->pos) - 32; |
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if (nbit > 0) |
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{ |
if (nbit > 0) { |
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return ((bs->bufa & (0xffffffff >> bs->pos)) << nbit) | |
return ((bs->bufa & (0xffffffff >> bs->pos)) << nbit) | (bs-> |
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(bs->bufb >> (32 - nbit)); |
bufb >> (32 - |
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} |
nbit)); |
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else |
} else { |
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{ |
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return (bs->bufa & (0xffffffff >> bs->pos)) >> (32 - bs->pos - bits); |
return (bs->bufa & (0xffffffff >> bs->pos)) >> (32 - bs->pos - bits); |
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} |
} |
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} |
} |
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/* skip n bits forward in bitstream */ |
/* skip n bits forward in bitstream */ |
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static __inline void BitstreamSkip(Bitstream * const bs, const uint32_t bits) |
static __inline void |
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BitstreamSkip(Bitstream * const bs, |
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const uint32_t bits) |
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{ |
{ |
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bs->pos += bits; |
bs->pos += bits; |
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if (bs->pos >= 32) |
if (bs->pos >= 32) { |
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{ |
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uint32_t tmp; |
uint32_t tmp; |
252 |
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bs->bufa = bs->bufb; |
bs->bufa = bs->bufb; |
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} |
} |
263 |
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264 |
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// number of bits to next byte alignment |
266 |
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static __inline uint32_t |
267 |
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BitstreamNumBitsToByteAlign(Bitstream *bs) |
268 |
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{ |
269 |
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uint32_t n = (32 - bs->pos) % 8; |
270 |
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return n == 0 ? 8 : n; |
271 |
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} |
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273 |
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274 |
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// show nbits from next byte alignment |
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static __inline uint32_t |
276 |
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BitstreamShowBitsFromByteAlign(Bitstream *bs, int bits) |
277 |
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{ |
278 |
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int bspos = bs->pos + BitstreamNumBitsToByteAlign(bs); |
279 |
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int nbit = (bits + bspos) - 32; |
280 |
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281 |
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if (bspos >= 32) { |
282 |
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return bs->bufb >> (32 - nbit); |
283 |
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} else if (nbit > 0) { |
284 |
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return ((bs->bufa & (0xffffffff >> bspos)) << nbit) | (bs-> |
285 |
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bufb >> (32 - |
286 |
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nbit)); |
287 |
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} else { |
288 |
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return (bs->bufa & (0xffffffff >> bspos)) >> (32 - bspos - bits); |
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} |
290 |
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291 |
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} |
292 |
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293 |
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294 |
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295 |
/* move forward to the next byte boundary */ |
/* move forward to the next byte boundary */ |
296 |
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297 |
static __inline void BitstreamByteAlign(Bitstream * const bs) |
static __inline void |
298 |
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BitstreamByteAlign(Bitstream * const bs) |
299 |
{ |
{ |
300 |
uint32_t remainder = bs->pos % 8; |
uint32_t remainder = bs->pos % 8; |
301 |
if (remainder) |
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302 |
{ |
if (remainder) { |
303 |
BitstreamSkip(bs, 8 - remainder); |
BitstreamSkip(bs, 8 - remainder); |
304 |
} |
} |
305 |
} |
} |
307 |
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308 |
/* bitstream length (unit bits) */ |
/* bitstream length (unit bits) */ |
309 |
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310 |
static uint32_t __inline BitstreamPos(const Bitstream * const bs) |
static uint32_t __inline |
311 |
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BitstreamPos(const Bitstream * const bs) |
312 |
{ |
{ |
313 |
return 8 * ((uint32_t)bs->tail - (uint32_t)bs->start) + bs->pos; |
return 8 * ((ptr_t)bs->tail - (ptr_t)bs->start) + bs->pos; |
314 |
} |
} |
315 |
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316 |
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318 |
NOTE: assumes no futher bitstream functions will be called. |
NOTE: assumes no futher bitstream functions will be called. |
319 |
*/ |
*/ |
320 |
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321 |
static uint32_t __inline BitstreamLength(Bitstream * const bs) |
static uint32_t __inline |
322 |
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BitstreamLength(Bitstream * const bs) |
323 |
{ |
{ |
324 |
uint32_t len = (uint32_t) bs->tail - (uint32_t) bs->start; |
uint32_t len = (ptr_t) bs->tail - (ptr_t) bs->start; |
325 |
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326 |
if (bs->pos) |
if (bs->pos) { |
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{ |
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327 |
uint32_t b = bs->buf; |
uint32_t b = bs->buf; |
328 |
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329 |
#ifndef ARCH_IS_BIG_ENDIAN |
#ifndef ARCH_IS_BIG_ENDIAN |
330 |
BSWAP(b); |
BSWAP(b); |
331 |
#endif |
#endif |
340 |
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341 |
/* move bitstream position forward by n bits and write out buffer if needed */ |
/* move bitstream position forward by n bits and write out buffer if needed */ |
342 |
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343 |
static void __inline BitstreamForward(Bitstream * const bs, const uint32_t bits) |
static void __inline |
344 |
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BitstreamForward(Bitstream * const bs, |
345 |
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const uint32_t bits) |
346 |
{ |
{ |
347 |
bs->pos += bits; |
bs->pos += bits; |
348 |
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349 |
if (bs->pos >= 32) |
if (bs->pos >= 32) { |
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{ |
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350 |
uint32_t b = bs->buf; |
uint32_t b = bs->buf; |
351 |
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352 |
#ifndef ARCH_IS_BIG_ENDIAN |
#ifndef ARCH_IS_BIG_ENDIAN |
353 |
BSWAP(b); |
BSWAP(b); |
354 |
#endif |
#endif |
359 |
} |
} |
360 |
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361 |
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/* pad bitstream to the next byte boundary */ |
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static void __inline BitstreamPad(Bitstream * const bs) |
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{ |
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uint32_t remainder = bs->pos % 8; |
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if (remainder) |
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{ |
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BitstreamForward(bs, 8 - remainder); |
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} |
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} |
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362 |
/* read n bits from bitstream */ |
/* read n bits from bitstream */ |
363 |
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364 |
static uint32_t __inline BitstreamGetBits(Bitstream * const bs, |
static uint32_t __inline |
365 |
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BitstreamGetBits(Bitstream * const bs, |
366 |
const uint32_t n) |
const uint32_t n) |
367 |
{ |
{ |
368 |
uint32_t ret = BitstreamShowBits(bs, n); |
uint32_t ret = BitstreamShowBits(bs, n); |
369 |
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370 |
BitstreamSkip(bs, n); |
BitstreamSkip(bs, n); |
371 |
return ret; |
return ret; |
372 |
} |
} |
374 |
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375 |
/* read single bit from bitstream */ |
/* read single bit from bitstream */ |
376 |
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377 |
static uint32_t __inline BitstreamGetBit(Bitstream * const bs) |
static uint32_t __inline |
378 |
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BitstreamGetBit(Bitstream * const bs) |
379 |
{ |
{ |
380 |
return BitstreamGetBits(bs, 1); |
return BitstreamGetBits(bs, 1); |
381 |
} |
} |
383 |
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384 |
/* write single bit to bitstream */ |
/* write single bit to bitstream */ |
385 |
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386 |
static void __inline BitstreamPutBit(Bitstream * const bs, |
static void __inline |
387 |
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BitstreamPutBit(Bitstream * const bs, |
388 |
const uint32_t bit) |
const uint32_t bit) |
389 |
{ |
{ |
390 |
if (bit) |
if (bit) |
396 |
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397 |
/* write n bits to bitstream */ |
/* write n bits to bitstream */ |
398 |
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399 |
static void __inline BitstreamPutBits(Bitstream * const bs, |
static void __inline |
400 |
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BitstreamPutBits(Bitstream * const bs, |
401 |
const uint32_t value, |
const uint32_t value, |
402 |
const uint32_t size) |
const uint32_t size) |
403 |
{ |
{ |
421 |
} |
} |
422 |
} |
} |
423 |
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424 |
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425 |
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static const int stuffing_codes[8] = |
426 |
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{ |
427 |
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/* nbits stuffing code */ |
428 |
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0, /* 1 0 */ |
429 |
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1, /* 2 01 */ |
430 |
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3, /* 3 011 */ |
431 |
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7, /* 4 0111 */ |
432 |
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0xf, /* 5 01111 */ |
433 |
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0x1f, /* 6 011111 */ |
434 |
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0x3f, /* 7 0111111 */ |
435 |
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0x7f, /* 8 01111111 */ |
436 |
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}; |
437 |
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438 |
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/* pad bitstream to the next byte boundary */ |
439 |
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440 |
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static void __inline |
441 |
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BitstreamPad(Bitstream * const bs) |
442 |
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{ |
443 |
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int bits = 8 - (bs->pos % 8); |
444 |
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if (bits < 8) |
445 |
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{ |
446 |
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BitstreamPutBits(bs, stuffing_codes[bits - 1], bits); |
447 |
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} |
448 |
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} |
449 |
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450 |
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451 |
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/* pad bitstream to the next byte boundary |
452 |
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alway pad: even if currently at the byte boundary */ |
453 |
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454 |
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static void __inline |
455 |
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BitstreamPadAlways(Bitstream * const bs) |
456 |
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{ |
457 |
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int bits = 8 - (bs->pos % 8); |
458 |
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BitstreamPutBits(bs, stuffing_codes[bits - 1], bits); |
459 |
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} |
460 |
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461 |
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462 |
#endif /* _BITSTREAM_H_ */ |
#endif /* _BITSTREAM_H_ */ |