ldecod.c

包含了从MPEG4的视频解码到H.264的视频编码部分的源代码

  if (inp->buf_cycle < 1)
  {
    snprintf(errortext, ET_SIZE, "Frame Buffer Size is %d. It has to be at least 1",inp->buf_cycle);
    error(errortext,1);
  }

  fscanf(fd,"%d",&(NAL_mode));                // NAL mode
    fscanf(fd,"%*[^\n]");

  switch(NAL_mode)
  {
  case 0:
    inp->FileFormat = PAR_OF_ANNEXB;
    break;
  case 1:
    inp->FileFormat = PAR_OF_RTP;
    break;
  default:
    snprintf(errortext, ET_SIZE, "NAL mode %i is not supported", NAL_mode);
    error(errortext,400);
  }

#ifdef _LEAKYBUCKET_
  fscanf(fd,"%ld,",&inp->R_decoder);             // Decoder rate
  fscanf(fd, "%*[^\n]");
  fscanf(fd,"%ld,",&inp->B_decoder);             // Decoder buffer size
  fscanf(fd, "%*[^\n]");
  fscanf(fd,"%ld,",&inp->F_decoder);             // Decoder initial delay
  fscanf(fd, "%*[^\n]"); 
  fscanf(fd,"%s",inp->LeakyBucketParamFile);    // file where Leaky Bucket params (computed by encoder) are stored
  fscanf(fd,"%*[^\n]");
#endif


  // Loop Filter parameters flag
  fscanf(fd,"%d,",&inp->LFParametersFlag);   // 0: No Params  1: Read Filter Params, may be overwritten in case of RTP NAL
  fscanf(fd,"%*[^\n]");
  if(inp->LFParametersFlag != 0 && inp->LFParametersFlag != 1)
  {
    snprintf(errortext, ET_SIZE, "Unsupported value=%d on loop filter parameters flag",inp->LFParametersFlag);
    error(errortext,1);
  }


  fclose (fd);


#if TRACE
  if ((p_trace=fopen(TRACEFILE,"w"))==0)             // append new statistic at the end
  {
    snprintf(errortext, ET_SIZE, "Error open file %s!",TRACEFILE);
    error(errortext,500);
  }
#endif


  if ((p_out=fopen(inp->outfile,"wb"))==0)
  {
    snprintf(errortext, ET_SIZE, "Error open file %s ",inp->outfile);
    error(errortext,500);
  }

  fprintf(stdout,"--------------------------------------------------------------------------\n");
  fprintf(stdout," Decoder config file                    : %s \n",config_filename);
  fprintf(stdout,"--------------------------------------------------------------------------\n");
  fprintf(stdout," Input H.26L bitstream                  : %s \n",inp->infile);
  fprintf(stdout," Output decoded YUV 4:2:0               : %s \n",inp->outfile);
  fprintf(stdout," Output status file                     : %s \n",LOGFILE);
  if ((p_ref=fopen(inp->reffile,"rb"))==0)
  {
    fprintf(stdout," Input reference file                   : %s does not exist \n",inp->reffile);
    fprintf(stdout,"                                          SNR values are not available\n");
  }
  else
    fprintf(stdout," Input reference file                   : %s \n",inp->reffile);

  fprintf(stdout,"--------------------------------------------------------------------------\n");
#ifdef _LEAKYBUCKET_
  fprintf(stdout," Rate_decoder        : %8ld \n",inp->R_decoder);
  fprintf(stdout," B_decoder           : %8ld \n",inp->B_decoder);
  fprintf(stdout," F_decoder           : %8ld \n",inp->F_decoder);
  fprintf(stdout," LeakyBucketParamFile: %s \n",inp->LeakyBucketParamFile); // Leaky Bucket Param file
  calc_buffer(inp);
  fprintf(stdout,"--------------------------------------------------------------------------\n");
#endif
  fprintf(stdout,"Frame    TR    QP  SnrY    SnrU    SnrV   Time(ms)\n");
}

/*!
 ************************************************************************
 * \brief
 *    Reports the gathered information to appropriate outputs
 *
 * \par Input:
 *    struct inp_par *inp,
 *    struct img_par *img,
 *    struct snr_par *stat
 *
 * \par Output:
 *    None
 ************************************************************************
 */
void report(struct inp_par *inp, struct img_par *img, struct snr_par *snr)
{
  #define OUTSTRING_SIZE 255
  char string[OUTSTRING_SIZE];
  FILE *p_log;

#ifndef WIN32
  time_t  now;
  struct tm *l_time;
#else
  char timebuf[128];
#endif

  fprintf(stdout,"-------------------- Average SNR all frames ------------------------------\n");
  fprintf(stdout," SNR Y(dB)           : %5.2f\n",snr->snr_ya);
  fprintf(stdout," SNR U(dB)           : %5.2f\n",snr->snr_ua);
  fprintf(stdout," SNR V(dB)           : %5.2f\n",snr->snr_va);
  fprintf(stdout," Total decoding time : %.3f sec \n",tot_time*0.001);
  fprintf(stdout,"--------------------------------------------------------------------------\n");
  fprintf(stdout," Exit JM %s decoder, ver %s ",JM,VERSION);
  fprintf(stdout,"\n");
  // write to log file

  snprintf(string, OUTSTRING_SIZE, "%s", LOGFILE);
  if ((p_log=fopen(string,"r"))==0)                    // check if file exist
  {
    if ((p_log=fopen(string,"a"))==0)
    {
      snprintf(errortext, ET_SIZE, "Error open file %s for appending",string);
      error(errortext, 500);
    }
    else                                              // Create header to new file
    {
      fprintf(p_log," ------------------------------------------------------------------------------------------\n");
      fprintf(p_log,"|  Decoder statistics. This file is made first time, later runs are appended               |\n");
      fprintf(p_log," ------------------------------------------------------------------------------------------ \n");
      fprintf(p_log,"| Date  | Time  |    Sequence        |#Img|Format|SNRY 1|SNRU 1|SNRV 1|SNRY N|SNRU N|SNRV N|\n");
      fprintf(p_log," ------------------------------------------------------------------------------------------\n");
    }
  }
  else
  { 
    fclose(p_log);
    p_log=fopen(string,"a");                    // File exist,just open for appending
  }

#ifdef WIN32
  _strdate( timebuf );
  fprintf(p_log,"| %1.5s |",timebuf );

  _strtime( timebuf);
  fprintf(p_log," % 1.5s |",timebuf);
#else
  now = time ((time_t *) NULL); // Get the system time and put it into 'now' as 'calender time'
  time (&now);
  l_time = localtime (&now);
  strftime (string, sizeof string, "%d-%b-%Y", l_time);
  fprintf(p_log,"| %1.5s |",string );

  strftime (string, sizeof string, "%H:%M:%S", l_time);
  fprintf(p_log,"| %1.5s |",string );
#endif

  fprintf(p_log,"%20.20s|",inp->infile);

  fprintf(p_log,"%3d |",img->number);

  fprintf(p_log,"%6.3f|",snr->snr_y1);
  fprintf(p_log,"%6.3f|",snr->snr_u1);
  fprintf(p_log,"%6.3f|",snr->snr_v1);
  fprintf(p_log,"%6.3f|",snr->snr_ya);
  fprintf(p_log,"%6.3f|",snr->snr_ua);
  fprintf(p_log,"%6.3f|\n",snr->snr_va);

  fclose(p_log);

  snprintf(string, OUTSTRING_SIZE,"%s", DATADECFILE);
  p_log=fopen(string,"a");

  if(Bframe_ctr != 0) // B picture used
  {
    fprintf(p_log, "%3d %2d %2d %2.2f %2.2f %2.2f %5d "
      "%2.2f %2.2f %2.2f %5d "
      "%2.2f %2.2f %2.2f %5d %.3f\n",
      img->number, 0, img->qp,
      snr->snr_y1,
      snr->snr_u1,
      snr->snr_v1,
      0,
      0.0,
      0.0,
      0.0,
      0,
      snr->snr_ya,
      snr->snr_ua,
      snr->snr_va,
      0,
      (double)0.001*tot_time/(img->number+Bframe_ctr-1));
  }
  else
  {
    fprintf(p_log, "%3d %2d %2d %2.2f %2.2f %2.2f %5d "
      "%2.2f %2.2f %2.2f %5d "
      "%2.2f %2.2f %2.2f %5d %.3f\n",
      img->number, 0, img->qp,
      snr->snr_y1,
      snr->snr_u1,
      snr->snr_v1,
      0,
      0.0,
      0.0,
      0.0,
      0,
      snr->snr_ya,
      snr->snr_ua,
      snr->snr_va,
      0,
      (double)0.001*tot_time/img->number);
  }
  fclose(p_log);
}

/*!
 ************************************************************************
 * \brief
 *    Allocates a stand-alone partition structure.  Structure should
 *    be freed by FreePartition();
 *    data structures
 *
 * \par Input:
 *    n: number of partitions in the array
 * \par return
 *    pointer to DataPartition Structure, zero-initialized
 ************************************************************************
 */

DataPartition *AllocPartition(int n)
{
  DataPartition *partArr, *dataPart;
  int i;

  partArr = (DataPartition *) calloc(n, sizeof(DataPartition));
  if (partArr == NULL)
  {
    snprintf(errortext, ET_SIZE, "AllocPartition: Memory allocation for Data Partition failed");
    error(errortext, 100);
  }

  for (i=0; i<n; i++) // loop over all data partitions
  {
    dataPart = &(partArr[i]);
    dataPart->bitstream = (Bitstream *) calloc(1, sizeof(Bitstream));
    if (dataPart->bitstream == NULL)
    {
      snprintf(errortext, ET_SIZE, "AllocPartition: Memory allocation for Bitstream failed");
      error(errortext, 100);
    }
    dataPart->bitstream->streamBuffer = (byte *) calloc(MAX_CODED_FRAME_SIZE, sizeof(byte));
    if (dataPart->bitstream->streamBuffer == NULL)
    {
      snprintf(errortext, ET_SIZE, "AllocPartition: Memory allocation for streamBuffer failed");
      error(errortext, 100);
    }
  }
  return partArr;
}




/*!
 ************************************************************************
 * \brief
 *    Frees a partition structure (array).  
 *
 * \par Input:
 *    Partition to be freed, size of partition Array (Number of Partitions)
 *
 * \par return
 *    None
 *
 * \note
 *    n must be the same as for the corresponding call of AllocPartition
 ************************************************************************
 */


void FreePartition (DataPartition *dp, int n)
{
  int i;

  assert (dp != NULL);
  assert (dp->bitstream != NULL);
  assert (dp->bitstream->streamBuffer != NULL);
  for (i=0; i<n; i++)
  {
    free (dp[i].bitstream->streamBuffer);
    free (dp[i].bitstream);
  }
  free (dp);
}


/*!
 ************************************************************************
 * \brief
 *    Allocates the slice structure along with its dependent
 *    data structures
 *
 * \par Input:
 *    Input Parameters struct inp_par *inp,  struct img_par *img
 ************************************************************************
 */
void malloc_slice(struct inp_par *inp, struct img_par *img)
{
  Slice *currSlice;

  img->currentSlice = (Slice *) calloc(1, sizeof(Slice));
  if ( (currSlice = img->currentSlice) == NULL)
  {
    snprintf(errortext, ET_SIZE, "Memory allocation for Slice datastruct in NAL-mode %d failed", inp->FileFormat);
    error(errortext,100);
  }
  img->currentSlice->rmpni_buffer=NULL;
  //! you don't know whether we do CABAC hre, hence initialize CABAC anyway
  // if (inp->symbol_mode == CABAC)
  if (1)
  {
    // create all context models