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revision 1.11, Tue Sep 10 22:25:23 2002 UTC revision 1.16.2.2, Mon Jul 28 12:39:32 2003 UTC
# Line 3  Line 3 
3   *  XVID MPEG-4 VIDEO CODEC   *  XVID MPEG-4 VIDEO CODEC
4   *  - Bitstream reader/writer inlined functions and constants-   *  - Bitstream reader/writer inlined functions and constants-
5   *   *
6   *  Copyright (C) 2001-2002 - Peter Ross <pross@cs.rmit.edu.au>   *  Copyright (C) 2001-2002 - Peter Ross <pross@xvid.org>
7   *   *
8   *  This program is an implementation of a part of one or more MPEG-4   *  This file is part of XviD, a free MPEG-4 video encoder/decoder
  *  Video tools as specified in ISO/IEC 14496-2 standard.  Those intending  
  *  to use this software module in hardware or software products are  
  *  advised that its use may infringe existing patents or copyrights, and  
  *  any such use would be at such party's own risk.  The original  
  *  developer of this software module and his/her company, and subsequent  
  *  editors and their companies, will have no liability for use of this  
  *  software or modifications or derivatives thereof.  
9   *   *
10   *  This program is free software ; you can redistribute it and/or modify   *  XviD is free software; you can redistribute it and/or modify it
11   *  it under the terms of the GNU General Public License as published by   *  under the terms of the GNU General Public License as published by
12   *  the Free Software Foundation ; either version 2 of the License, or   *  the Free Software Foundation ; either version 2 of the License, or
13   *  (at your option) any later version.   *  (at your option) any later version.
14   *   *
# Line 28  Line 21 
21   *  along with this program ; if not, write to the Free Software   *  along with this program ; if not, write to the Free Software
22   *  Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307 USA   *  Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307 USA
23   *   *
24     *  Under section 8 of the GNU General Public License, the copyright
25     *  holders of XVID explicitly forbid distribution in the following
26     *  countries:
27     *
28     *    - Japan
29     *    - United States of America
30     *
31     *  Linking XviD statically or dynamically with other modules is making a
32     *  combined work based on XviD.  Thus, the terms and conditions of the
33     *  GNU General Public License cover the whole combination.
34     *
35     *  As a special exception, the copyright holders of XviD give you
36     *  permission to link XviD with independent modules that communicate with
37     *  XviD solely through the VFW1.1 and DShow interfaces, regardless of the
38     *  license terms of these independent modules, and to copy and distribute
39     *  the resulting combined work under terms of your choice, provided that
40     *  every copy of the combined work is accompanied by a complete copy of
41     *  the source code of XviD (the version of XviD used to produce the
42     *  combined work), being distributed under the terms of the GNU General
43     *  Public License plus this exception.  An independent module is a module
44     *  which is not derived from or based on XviD.
45     *
46     *  Note that people who make modified versions of XviD are not obligated
47     *  to grant this special exception for their modified versions; it is
48     *  their choice whether to do so.  The GNU General Public License gives
49     *  permission to release a modified version without this exception; this
50     *  exception also makes it possible to release a modified version which
51     *  carries forward this exception.
52     *
53   * $Id$   * $Id$
54   *   *
55   ****************************************************************************/   ****************************************************************************/
# Line 35  Line 57 
57  #ifndef _BITSTREAM_H_  #ifndef _BITSTREAM_H_
58  #define _BITSTREAM_H_  #define _BITSTREAM_H_
59    
60    #include <stdio.h>
61    
62  #include "../portab.h"  #include "../portab.h"
63  #include "../decoder.h"  #include "../decoder.h"
64  #include "../encoder.h"  #include "../encoder.h"
# Line 44  Line 68 
68   * Constants   * Constants
69   ****************************************************************************/   ****************************************************************************/
70    
71  // comment any #defs we dont use  /* comment any #defs we dont use */
72    
73  #define VIDOBJ_START_CODE               0x00000100      /* ..0x0000011f  */  #define VIDOBJ_START_CODE               0x00000100      /* ..0x0000011f  */
74  #define VIDOBJLAY_START_CODE    0x00000120      /* ..0x0000012f */  #define VIDOBJLAY_START_CODE    0x00000120      /* ..0x0000012f */
# Line 52  Line 76 
76  #define VISOBJSEQ_STOP_CODE             0x000001b1      /* ??? */  #define VISOBJSEQ_STOP_CODE             0x000001b1      /* ??? */
77  #define USERDATA_START_CODE             0x000001b2  #define USERDATA_START_CODE             0x000001b2
78  #define GRPOFVOP_START_CODE             0x000001b3  #define GRPOFVOP_START_CODE             0x000001b3
79  //#define VIDSESERR_ERROR_CODE  0x000001b4  /*#define VIDSESERR_ERROR_CODE  0x000001b4 */
80  #define VISOBJ_START_CODE               0x000001b5  #define VISOBJ_START_CODE               0x000001b5
81  //#define SLICE_START_CODE      0x000001b7  /*#define SLICE_START_CODE      0x000001b7 */
82  //#define EXT_START_CODE        0x000001b8  /*#define EXT_START_CODE        0x000001b8 */
83    
84    
85  #define VISOBJ_TYPE_VIDEO                               1  #define VISOBJ_TYPE_VIDEO                               1
86  //#define VISOBJ_TYPE_STILLTEXTURE      2  /*#define VISOBJ_TYPE_STILLTEXTURE      2 */
87  //#define VISOBJ_TYPE_MESH              3  /*#define VISOBJ_TYPE_MESH              3 */
88  //#define VISOBJ_TYPE_FBA               4  /*#define VISOBJ_TYPE_FBA               4 */
89  //#define VISOBJ_TYPE_3DMESH            5  /*#define VISOBJ_TYPE_3DMESH            5 */
90    
91    
92  #define VIDOBJLAY_TYPE_SIMPLE                   1  #define VIDOBJLAY_TYPE_SIMPLE                   1
93  //#define VIDOBJLAY_TYPE_SIMPLE_SCALABLE    2  /*#define VIDOBJLAY_TYPE_SIMPLE_SCALABLE    2 */
94  #define VIDOBJLAY_TYPE_CORE                             3  #define VIDOBJLAY_TYPE_CORE                             3
95  #define VIDOBJLAY_TYPE_MAIN                             4  #define VIDOBJLAY_TYPE_MAIN                             4
96    
97    
98  //#define VIDOBJLAY_AR_SQUARE           1  /*#define VIDOBJLAY_AR_SQUARE           1 */
99  //#define VIDOBJLAY_AR_625TYPE_43       2  /*#define VIDOBJLAY_AR_625TYPE_43       2 */
100  //#define VIDOBJLAY_AR_525TYPE_43       3  /*#define VIDOBJLAY_AR_525TYPE_43       3 */
101  //#define VIDOBJLAY_AR_625TYPE_169      8  /*#define VIDOBJLAY_AR_625TYPE_169      8 */
102  //#define VIDOBJLAY_AR_525TYPE_169      9  /*#define VIDOBJLAY_AR_525TYPE_169      9 */
103  #define VIDOBJLAY_AR_EXTPAR                             15  #define VIDOBJLAY_AR_EXTPAR                             15
104    
105    
# Line 91  Line 115 
115  #define READ_MARKER()   BitstreamSkip(bs, 1)  #define READ_MARKER()   BitstreamSkip(bs, 1)
116  #define WRITE_MARKER()  BitstreamPutBit(bs, 1)  #define WRITE_MARKER()  BitstreamPutBit(bs, 1)
117    
118  // vop coding types  /* vop coding types  */
119  // intra, prediction, backward, sprite, not_coded  /* intra, prediction, backward, sprite, not_coded */
120  #define I_VOP   0  #define I_VOP   0
121  #define P_VOP   1  #define P_VOP   1
122  #define B_VOP   2  #define B_VOP   2
123  #define S_VOP   3  #define S_VOP   3
124  #define N_VOP   4  #define N_VOP   4
125    
126  // resync-specific  /* resync-specific */
127  #define NUMBITS_VP_RESYNC_MARKER  17  #define NUMBITS_VP_RESYNC_MARKER  17
128  #define RESYNC_MARKER 1  #define RESYNC_MARKER 1
129    
# Line 112  Line 136 
136  read_video_packet_header(Bitstream *bs, const int addbits, int * quant);  read_video_packet_header(Bitstream *bs, const int addbits, int * quant);
137    
138    
139  // header stuff  /* header stuff */
140  int BitstreamReadHeaders(Bitstream * bs,  int BitstreamReadHeaders(Bitstream * bs,
141                                                   DECODER * dec,                                                   DECODER * dec,
142                                                   uint32_t * rounding,                                                   uint32_t * rounding,
# Line 131  Line 155 
155                                                           const FRAMEINFO * frame,                                                           const FRAMEINFO * frame,
156                                                           int vop_coded);                                                           int vop_coded);
157    
 void BitstreamWriteUserData(Bitstream * const bs,  
                                                         uint8_t * data,  
                                                         const int length);  
   
158  /*****************************************************************************  /*****************************************************************************
159   * Inlined functions   * Inlined functions
160   ****************************************************************************/   ****************************************************************************/
# Line 147  Line 167 
167                            uint32_t length)                            uint32_t length)
168  {  {
169          uint32_t tmp;          uint32_t tmp;
170            size_t bitpos;
171            ptr_t adjbitstream = (ptr_t)bitstream;
172    
173          bs->start = bs->tail = (uint32_t *) bitstream;          /*
174             * Start the stream on a uint32_t boundary, by rounding down to the
175             * previous uint32_t and skipping the intervening bytes.
176             */
177            bitpos = ((sizeof(uint32_t)-1) & (size_t)bitstream);
178            adjbitstream = adjbitstream - bitpos;
179            bs->start = bs->tail = (uint32_t *) adjbitstream;
180    
181          tmp = *(uint32_t *) bitstream;          tmp = *bs->start;
182  #ifndef ARCH_IS_BIG_ENDIAN  #ifndef ARCH_IS_BIG_ENDIAN
183          BSWAP(tmp);          BSWAP(tmp);
184  #endif  #endif
185          bs->bufa = tmp;          bs->bufa = tmp;
186    
187          tmp = *((uint32_t *) bitstream + 1);          tmp = *(bs->start + 1);
188  #ifndef ARCH_IS_BIG_ENDIAN  #ifndef ARCH_IS_BIG_ENDIAN
189          BSWAP(tmp);          BSWAP(tmp);
190  #endif  #endif
191          bs->bufb = tmp;          bs->bufb = tmp;
192    
193          bs->buf = 0;          bs->buf = 0;
194          bs->pos = 0;          bs->pos = bs->initpos = bitpos*8;
195          bs->length = length;          bs->length = length;
196  }  }
197    
# Line 190  Line 218 
218          bs->bufb = tmp;          bs->bufb = tmp;
219    
220          bs->buf = 0;          bs->buf = 0;
221          bs->pos = 0;          bs->pos = bs->initpos;
222  }  }
223    
224    
# Line 235  Line 263 
263  }  }
264    
265    
266  // number of bits to next byte alignment  /* number of bits to next byte alignment */
267  static uint32_t __inline  static uint32_t __inline
268  BitstreamNumBitsToByteAlign(Bitstream *bs)  BitstreamNumBitsToByteAlign(Bitstream *bs)
269  {  {
# Line 244  Line 272 
272  }  }
273    
274    
275  // show nbits from next byte alignment  /* show nbits from next byte alignment */
276  static uint32_t __inline  static uint32_t __inline
277  BitstreamShowBitsFromByteAlign(Bitstream *bs, int bits)  BitstreamShowBitsFromByteAlign(Bitstream *bs, int bits)
278  {  {
# Line 283  Line 311 
311  static uint32_t __inline  static uint32_t __inline
312  BitstreamPos(const Bitstream * const bs)  BitstreamPos(const Bitstream * const bs)
313  {  {
314          return 8 * ((ptr_t)bs->tail - (ptr_t)bs->start) + bs->pos;          return((uint32_t)(8*((ptr_t)bs->tail - (ptr_t)bs->start) + bs->pos - bs->initpos));
315  }  }
316    
317    
# Line 294  Line 322 
322  static uint32_t __inline  static uint32_t __inline
323  BitstreamLength(Bitstream * const bs)  BitstreamLength(Bitstream * const bs)
324  {  {
325          uint32_t len = (ptr_t) bs->tail - (ptr_t) bs->start;          uint32_t len = (uint32_t)((ptr_t)bs->tail - (ptr_t)bs->start);
326    
327          if (bs->pos) {          if (bs->pos) {
328                  uint32_t b = bs->buf;                  uint32_t b = bs->buf;
# Line 307  Line 335 
335                  len += (bs->pos + 7) / 8;                  len += (bs->pos + 7) / 8;
336          }          }
337    
338            /* initpos is always on a byte boundary */
339            if (bs->initpos)
340                    len -= bs->initpos/8;
341    
342          return len;          return len;
343  }  }
344    
# Line 331  Line 363 
363          }          }
364  }  }
365    
   
 /* pad bitstream to the next byte boundary */  
   
 static void __inline  
 BitstreamPad(Bitstream * const bs)  
 {  
         uint32_t remainder = bs->pos % 8;  
   
         if (remainder) {  
                 BitstreamForward(bs, 8 - remainder);  
         }  
 }  
   
   
366  /* read n bits from bitstream */  /* read n bits from bitstream */
367    
368  static uint32_t __inline  static uint32_t __inline
# Line 407  Line 425 
425          }          }
426  }  }
427    
428    static const int stuffing_codes[8] =
429    {
430                    /* nbits     stuffing code */
431            0,              /* 1          0 */
432            1,              /* 2          01 */
433            3,              /* 3          011 */
434            7,              /* 4          0111 */
435            0xf,    /* 5          01111 */
436            0x1f,   /* 6          011111 */
437            0x3f,   /* 7          0111111 */
438            0x7f,   /* 8          01111111 */
439    };
440    
441    /* pad bitstream to the next byte boundary */
442    
443    static void __inline
444    BitstreamPad(Bitstream * const bs)
445    {
446            int bits = 8 - (bs->pos % 8);
447            if (bits < 8)
448                    BitstreamPutBits(bs, stuffing_codes[bits - 1], bits);
449    }
450    
451    /*
452     * pad bitstream to the next byte boundary
453     * alway pad: even if currently at the byte boundary
454     */
455    
456    static void __inline
457    BitstreamPadAlways(Bitstream * const bs)
458    {
459            int bits = 8 - (bs->pos % 8);
460            BitstreamPutBits(bs, stuffing_codes[bits - 1], bits);
461    }
462    
463  #endif /* _BITSTREAM_H_ */  #endif /* _BITSTREAM_H_ */

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