Exemple #1
0
void AVI_info(avi_t *avifile)
{

  long frames, rate, mp3rate, chunks, tot_bytes;

  int width, height, format, chan, bits;

  int j, tracks, tmp;
  
  double fps;
  
  char *codec;

  frames =  AVI_video_frames(avifile);
   width =  AVI_video_width(avifile);
  height =  AVI_video_height(avifile);

  fps    =  AVI_frame_rate(avifile);
  codec  =  AVI_video_compressor(avifile);

  printf("[avilib] V: %6.3f fps, codec=%s, frames=%ld, width=%d, height=%d\n",  fps, ((strlen(codec)==0)? "RGB": codec), frames, width, height);

  tracks=AVI_audio_tracks(avifile);

  tmp=AVI_get_audio_track(avifile);

  for(j=0; j<tracks; ++j) {
      
      AVI_set_audio_track(avifile, j);
      
      rate   =  AVI_audio_rate(avifile);
      format =  AVI_audio_format(avifile);
      chan   =  AVI_audio_channels(avifile);
      bits   =  AVI_audio_bits(avifile);
      mp3rate=  AVI_audio_mp3rate(avifile);

      chunks = AVI_audio_chunks(avifile);
      tot_bytes = AVI_audio_bytes(avifile);

      
      if(chan>0) {
	  printf("[avilib] A: %ld Hz, format=0x%02x, bits=%d, channels=%d, bitrate=%ld kbps,\n", rate, format, bits, chan, mp3rate); 
	  printf("[avilib]    %ld chunks, %ld bytes, %s\n", chunks, tot_bytes, (AVI_get_audio_vbr(avifile)?"VBR":"CBR"));
      } else
	  printf("[avilib] A: no audio track found\n");
  }

  AVI_set_audio_track(avifile, tmp); //reset
  
}
static void init_avi_data(AVIData *data, avi_t *AVI)
{
    if (AVI && data) {
        data->vbr     = AVI_get_audio_vbr(AVI);
        data->mp3rate = AVI_audio_mp3rate(AVI);
        data->format  = AVI_audio_format(AVI);
        data->chan    = AVI_audio_channels(AVI);
        data->rate    = AVI_audio_rate(AVI);
        data->bits    = AVI_audio_bits(AVI);

        data->bits = (data->bits == 0) ?16 :data->bits;

        if (data->format == 0x1) { /* FIXME */
            data->mp3rate = data->rate * data->chan * data->bits;
        } else {
            data->mp3rate *= 1000; /* FIXME */
        }
    }
    return;
}
Exemple #3
0
void
avi_reader_c::identify_audio() {
  int i;
  for (i = 0; i < AVI_audio_tracks(m_avi); i++) {
    AVI_set_audio_track(m_avi, i);

    auto info = mtx::id::info_c{};

    info.add(mtx::id::audio_channels,           AVI_audio_channels(m_avi));
    info.add(mtx::id::audio_sampling_frequency, AVI_audio_rate(m_avi));
    info.add(mtx::id::audio_bits_per_sample,    AVI_audio_bits(m_avi));

    unsigned int audio_format = AVI_audio_format(m_avi);
    alWAVEFORMATEX *wfe       = m_avi->wave_format_ex[i];
    if ((0xfffe == audio_format) && (get_uint16_le(&wfe->cb_size) >= (sizeof(alWAVEFORMATEXTENSION)))) {
      alWAVEFORMATEXTENSIBLE *ext = reinterpret_cast<alWAVEFORMATEXTENSIBLE *>(wfe);
      audio_format = get_uint32_le(&ext->extension.guid.data1);
    }

    auto codec = codec_c::look_up_audio_format(audio_format);
    id_result_track(i + 1, ID_RESULT_TRACK_AUDIO, codec.get_name((boost::format("unsupported (0x%|1$04x|)") % audio_format).str()), info.get());
  }
}
Exemple #4
0
void
avi_reader_c::add_audio_demuxer(int aid) {
  for (auto &demuxer : m_audio_demuxers)
    if (demuxer.m_aid == aid) // Demuxer already added?
      return;

  AVI_set_audio_track(m_avi, aid);
  if (AVI_read_audio_chunk(m_avi, nullptr) < 0) {
    mxwarn(boost::format(Y("Could not find an index for audio track %1% (avilib error message: %2%). Skipping track.\n")) % (aid + 1) % AVI_strerror());
    return;
  }

  avi_demuxer_t demuxer;
  generic_packetizer_c *packetizer = nullptr;
  alWAVEFORMATEX *wfe              = m_avi->wave_format_ex[aid];
  uint32_t audio_format            = AVI_audio_format(m_avi);

  demuxer.m_aid                    = aid;
  demuxer.m_ptzr                   = -1;
  demuxer.m_samples_per_second     = AVI_audio_rate(m_avi);
  demuxer.m_channels               = AVI_audio_channels(m_avi);
  demuxer.m_bits_per_sample        = AVI_audio_bits(m_avi);

  m_ti.m_id                        = aid + 1;       // ID for this audio track.
  m_ti.m_avi_block_align           = get_uint16_le(&wfe->n_block_align);
  m_ti.m_avi_avg_bytes_per_sec     = get_uint32_le(&wfe->n_avg_bytes_per_sec);
  m_ti.m_avi_samples_per_chunk     = get_uint32_le(&m_avi->stream_headers[aid].dw_scale);
  m_ti.m_avi_sample_scale          = get_uint32_le(&m_avi->stream_headers[aid].dw_rate);
  m_ti.m_avi_samples_per_sec       = demuxer.m_samples_per_second;

  if ((0xfffe == audio_format) && (get_uint16_le(&wfe->cb_size) >= (sizeof(alWAVEFORMATEXTENSION)))) {
    alWAVEFORMATEXTENSIBLE *ext = reinterpret_cast<alWAVEFORMATEXTENSIBLE *>(wfe);
    audio_format                = get_uint32_le(&ext->extension.guid.data1);

  } else if (get_uint16_le(&wfe->cb_size) > 0)
    m_ti.m_private_data = memory_c::clone(wfe + 1, get_uint16_le(&wfe->cb_size));

  else
    m_ti.m_private_data.reset();

  switch(audio_format) {
    case 0x0001:                // raw PCM audio
    case 0x0003:                // raw PCM audio (float)
      packetizer = new pcm_packetizer_c(this, m_ti, demuxer.m_samples_per_second, demuxer.m_channels, demuxer.m_bits_per_sample, 0x0003 == audio_format ? pcm_packetizer_c::ieee_float : pcm_packetizer_c::little_endian_integer);
      break;

    case 0x0050:                // MP2
    case 0x0055:                // MP3
      packetizer = new mp3_packetizer_c(this, m_ti, demuxer.m_samples_per_second, demuxer.m_channels, false);
      break;

    case 0x2000:                // AC3
      packetizer = new ac3_packetizer_c(this, m_ti, demuxer.m_samples_per_second, demuxer.m_channels, 0);
      break;

    case 0x2001:                // DTS
      packetizer = create_dts_packetizer(aid);
      break;

    case 0x00ff:
    case 0x706d:                // AAC
      packetizer = create_aac_packetizer(aid, demuxer);
      break;

    case 0x566f:                // Vorbis
      packetizer = create_vorbis_packetizer(aid);
      break;

    default:
      mxerror_tid(m_ti.m_fname, aid + 1, boost::format(Y("Unknown/unsupported audio format 0x%|1$04x| for this audio track.\n")) % audio_format);
  }

  show_packetizer_info(aid + 1, packetizer);

  demuxer.m_ptzr = add_packetizer(packetizer);

  m_audio_demuxers.push_back(demuxer);

  int i, maxchunks = AVI_audio_chunks(m_avi);
  for (i = 0; i < maxchunks; i++)
    m_bytes_to_process += AVI_audio_size(m_avi, i);
}
Exemple #5
0
/*
 * avi2raw
 * required arg1 should be the input AVI file
 * required arg2 should be the output RAW file
 */ 
int main(int argc, char** argv)
{
	/* configurable variables from command line */
	bool extractVideo = TRUE;	/* FALSE implies extract audio */
	u_int32_t start = 0;		/* secs, start offset */
	u_int32_t duration = 0;		/* secs, 0 implies entire file */
	bool quiet = FALSE;		

	/* internal variables */
	char* aviFileName = NULL;
	char* rawFileName = NULL;
	avi_t* aviFile = NULL;
	FILE* rawFile = NULL;
	int verbose = FALSE;
	u_int32_t numBytes, totBytes = 0;
	bool eliminate_short_frames = FALSE;
	uint32_t short_frames_len;
	/* begin process command line */
	progName = argv[0];
	while (1) {
		int c = -1;
		int option_index = 0;
		static struct option long_options[] = {
			{ "audio", 0, 0, 'a' },
			{ "eliminate-short-frames", optional_argument, 0, 'e'},
			{ "length", 1, 0, 'l' },
			{ "quiet", 0, 0, 'q' },
			{ "start", 1, 0, 's' },
			{ "video", 0, 0, 'v' },
			{ "version", 0, 0, 'V'},
			{ "verbose", 0, 0, 'R'},
			{ "help", 0, 0, 'h'},
			{ NULL, 0, 0, 0 }
		};

		c = getopt_long_only(argc, argv, "ael:qs:vVh",
			long_options, &option_index);

		if (c == -1)
			break;

		switch (c) {
		case 'h':
		  fprintf(stderr, "%s - %s version %s\n", progName,
			  MPEG4IP_PACKAGE, MPEG4IP_VERSION);
		  fprintf(stderr, "options:\n");
		  fprintf(stderr, " --audio - extract audio track\n");
		  fprintf(stderr, " --length <length> - extract <length> secs\n");
		  fprintf(stderr, " --quiet - quiet mode\n");
		  fprintf(stderr, " --start <time> - extract from <start> time\n");
		  fprintf(stderr, " --video - extract video track\n");
		  fprintf(stderr, " --eliminate-short-frames <bytes> - eliminate short frames of bytes or less - default 4\n");
		  return 0;
		case 'a': {
			extractVideo = FALSE;
			break;
		}
		case 'e':
		  eliminate_short_frames = TRUE;
		  if (optarg) {
		    if (optarg[0] == '=') optarg[0] = ' ';
		    if (sscanf(optarg, "%u", &short_frames_len) != 1) {
		      fprintf(stderr, "%s:bad eliminate length %s\n",
			      progName, optarg);
		    }
		  } else {
		    short_frames_len = 4;
		  }
		  break;
		case 'l': {
			/* --length=<secs> */
			u_int i;
			if (sscanf(optarg, "%u", &i) < 1) {
				fprintf(stderr, 
					"%s: bad length specified: %s\n",
					 progName, optarg);
			} else {
				duration = i;
			}
			break;
		}
		case 'q': {
			quiet = TRUE;
			break;
		}
		case 's': {
			/* --start=<secs> */
			u_int i;
			if (sscanf(optarg, "%u", &i) < 1) {
				fprintf(stderr, 
					"%s: bad start specified: %s\n",
					 progName, optarg);
			} else {
				start = i;
			}
			break;
		}
		case 'v': {
			extractVideo = TRUE;
			break;
		}
		case '?':
			break;
		case 'R':
		  verbose = TRUE; quiet = FALSE;
		  break;
		case 'V':
		  fprintf(stderr, "%s - %s version %s\n", progName,
			  MPEG4IP_PACKAGE, MPEG4IP_VERSION);
		  return(0);
		default:
			fprintf(stderr, "%s: unknown option specified, ignoring: %c\n", 
				progName, c);
		}
	}

	/* check that we have at least two non-option arguments */
	if ((argc - optind) < 2) {
		fprintf(stderr, 
			"usage: %s <avi-file> <raw-file>\n",
			progName);
		exit(1);
	}

	/* point to the specified file names */
	aviFileName = argv[optind++];
	rawFileName = argv[optind++];

	/* warn about extraneous non-option arguments */
	if (optind < argc) {
		fprintf(stderr, "%s: unknown options specified, ignoring: ", progName);
		while (optind < argc) {
			fprintf(stderr, "%s ", argv[optind++]);
		}
		fprintf(stderr, "\n");
	}

	/* end processing of command line */

	/* open the AVI file */
	aviFile = AVI_open_input_file(aviFileName, TRUE);
	if (aviFile == NULL) {
		fprintf(stderr, 
			"%s: error %s: %s\n",
			progName, aviFileName, AVI_strerror());
		exit(4);
	}

	if (!quiet) {
	  fprintf(stderr, "%s - %s version %s\n",
		  progName, MPEG4IP_PACKAGE, MPEG4IP_VERSION);
	}
	/* open the RAW file */
	rawFile = fopen(rawFileName, "wb");
	if (rawFile == NULL) {
		fprintf(stderr,
			"%s: error opening %s: %s\n",
			progName, rawFileName, strerror(errno));
		exit(5);
	}

	if (extractVideo) {

		double videoFrameRate = AVI_video_frame_rate(aviFile);
		u_int32_t numVideoFrames = AVI_video_frames(aviFile);
		u_int32_t fileDuration = ceil(numVideoFrames / videoFrameRate);
		u_int32_t numDesiredVideoFrames;
		u_int32_t videoFramesRead = 0;
		u_int32_t emptyFramesRead = 0;
		/* get a buffer large enough to handle a frame of raw SDTV */
		u_char* buf = (u_char*)malloc(768 * 576 * 4);

		if (duration) {
			numDesiredVideoFrames = duration * videoFrameRate;
		} else {
			numDesiredVideoFrames = numVideoFrames;
		}

		if (buf == NULL) {
			fprintf(stderr,
				"%s: error allocating memory: %s\n",
				progName, strerror(errno));
			exit(6);
		}

		/* check that start offset is valid */
		if (start > fileDuration) {
			fprintf(stderr,
				"%s: specified start is past the end of the file\n",
				progName);
			exit(7);
		}

		if (AVI_seek_start(aviFile)) {
			fprintf(stderr,
				"%s: bad seek: %s\n",
				progName, AVI_strerror());
			exit(8);
		}
		if (AVI_set_video_position(aviFile, (long) ROUND(start * videoFrameRate), NULL)) {
			fprintf(stderr,
				"%s: bad seek: %s\n",
				progName, AVI_strerror());
			exit(9);
		}
#ifdef DEBUG_H264
		h264_decode_t dec;
#endif

		while (TRUE) {
		  numBytes = AVI_read_frame(aviFile, (char *)buf);

			/* read error */
			if (numBytes < 0) {
				break;
			}

			totBytes += numBytes;
			videoFramesRead++;
			if (verbose) {
			  printf("frame %d - len %u total %u\n", 
				 videoFramesRead, numBytes, totBytes);
			}
			/*
			 * note some capture programs 
			 * insert a zero length frame occasionally
			 * hence numBytes == 0, but we're not a EOF
			 */
			if ((eliminate_short_frames && numBytes > short_frames_len) ||
			    (eliminate_short_frames == FALSE && numBytes)) {
			  // test
#ifdef DEBUG_H264
			  uint32_t offset = 0, read;
			  do {
			    if (h264_is_start_code(buf + offset)) {
			      int ret = 
			      h264_detect_boundary(buf + offset, 
						   numBytes - offset, 
						   &dec);

			      printf(" frame offset %d nal type %d slice %d %d\n", 
				     offset,
				     dec.nal_unit_type,
				     dec.slice_type,
				     ret);
			    }
			    read = h264_find_next_start_code(buf + offset, 
							     numBytes - offset);
			    offset += read;
			  } while (read != 0 && offset < numBytes);
#endif
				if (fwrite(buf, 1, numBytes, rawFile) != numBytes) {
					fprintf(stderr,
						"%s: error writing %s: %s\n",
						progName, rawFileName, strerror(errno));
					break;
				}
			} else {
				emptyFramesRead++;
			}
			if (videoFramesRead >= numDesiredVideoFrames) {
				break;
			}
		}
		if (verbose) {
		  printf("read %u video bytes\n", totBytes);
		}

		if (numBytes < 0) {
			printf("%s: error reading %s, frame %d, %s\n",
				progName, aviFileName, videoFramesRead + 1, AVI_strerror());
		}
		if (videoFramesRead < numDesiredVideoFrames) {
			fprintf(stderr,
				"%s: warning: could only extract %u seconds of video (%u of %u frames)\n",
				progName, (unsigned int)ceil(videoFramesRead / videoFrameRate),
				videoFramesRead, numDesiredVideoFrames);
		}
		if (emptyFramesRead) {
			fprintf(stderr,
				"%s: warning: %u zero length frames ignored\n",
				progName, emptyFramesRead);
		}

		if (!quiet) {
			printf("%u video frames written\n", 
				videoFramesRead - emptyFramesRead);
		}

		/* cleanup */
		free(buf);

	} else {
		/* extract audio */
	  u_int32_t audioBytesRead = 0;
	  u_char *buf = (u_char*) malloc(8*1024);
	  u_int32_t numDesiredAudioBytes = AVI_audio_bytes(aviFile);
	  u_int32_t audioBytesPerSec = 0;
	  if (start != 0) {
		u_int32_t numAudioBytes = numDesiredAudioBytes;
		u_int32_t fileDuration;
		audioBytesPerSec = AVI_audio_rate(aviFile) * 	
		  ((AVI_audio_bits(aviFile) + 7) / 8) * AVI_audio_channels(aviFile);
		fileDuration = ceil(numAudioBytes / audioBytesPerSec);
		numDesiredAudioBytes = duration * audioBytesPerSec;

		/* check that start offset is valid */
		if (start > fileDuration) {
			fprintf(stderr,
				"%s: specified start is past the end of the file\n",
				progName);
			exit(7);
		}
		if (AVI_seek_start(aviFile)) {
			fprintf(stderr,
				"%s: bad seek: %s\n",
				progName, AVI_strerror());
			exit(8);
		}
		if (AVI_set_audio_position(aviFile, start * audioBytesPerSec)) {
			fprintf(stderr,
				"%s: bad seek: %s\n",
				progName, AVI_strerror());
			exit(9);
		}
	  } else {
		if (AVI_seek_start(aviFile)) {
			fprintf(stderr,
				"%s: bad seek: %s\n",
				progName, AVI_strerror());
			exit(8);
		}
		if (AVI_set_audio_position(aviFile, 0)) {
			fprintf(stderr,
				"%s: bad seek: %s\n",
				progName, AVI_strerror());
			exit(9);
		}
	  }

	  while ((numBytes = AVI_read_audio(aviFile, (char *)buf, sizeof(buf))) > 0) {
			if (fwrite(buf, 1, numBytes, rawFile) != numBytes) {
				fprintf(stderr,
					"%s: error writing %s: %s\n",
					progName, rawFileName, strerror(errno));
				break;
			}

			audioBytesRead += numBytes;
			if (numDesiredAudioBytes 
			  && audioBytesRead >= numDesiredAudioBytes) {
				break;
			}
		}

		if (verbose) {
		  printf("read %u audio bytes\n", audioBytesRead);
		}
		if (duration && audioBytesRead < numDesiredAudioBytes) {
			fprintf(stderr,
				"%s: warning: could only extract %u seconds of audio\n",
				progName, audioBytesPerSec == 0 ? audioBytesRead : audioBytesRead / audioBytesPerSec);
		}

		if (!quiet && AVI_audio_bits(aviFile) != 0) {
			printf("%u audio samples written\n", 
				audioBytesRead / ((AVI_audio_bits(aviFile) + 7) / 8)); 
		}

	}

	/* cleanup */
	AVI_close(aviFile);
	fclose(rawFile);

	return(0);
}
int main(int argc, char *argv[])
{
  avi_t *avifile, *avifile1, *avifile2;

  char *outfile=NULL, *infile=NULL, *audfile=NULL;

  long rate, mp3rate;

  int j, ch, cc=0, track_num=0, out_track_num=-1;
  int width, height, format=0, format_add, chan, bits, aud_error=0;

  double fps;

  char *codec;

  long offset, frames, n, bytes, aud_offset=0;

  int key;

  int aud_tracks;

  // for mp3 audio
  FILE *f=NULL;
  int len, headlen, chan_i, rate_i, mp3rate_i;
  unsigned long vid_chunks=0;
  char head[8];
  off_t pos;
  double aud_ms = 0.0, vid_ms = 0.0;
  double aud_ms_w[AVI_MAX_TRACKS];

  ac_init(AC_ALL);

  if(argc==1) usage(EXIT_FAILURE);

  while ((ch = getopt(argc, argv, "A:a:b:ci:o:p:f:x:?hv")) != -1) {

    switch (ch) {

    case 'i':

      if(optarg[0]=='-') usage(EXIT_FAILURE);
      infile = optarg;

      break;

    case 'A':

      if(optarg[0]=='-') usage(EXIT_FAILURE);
      out_track_num = atoi(optarg);

      if(out_track_num<-1) usage(EXIT_FAILURE);

      break;

    case 'a':

      if(optarg[0]=='-') usage(EXIT_FAILURE);
      track_num = atoi(optarg);

      if(track_num<0) usage(EXIT_FAILURE);

      break;

    case 'b':

      if(optarg[0]=='-') usage(EXIT_FAILURE);
      is_vbr = atoi(optarg);

      if(is_vbr<0) usage(EXIT_FAILURE);

      break;

    case 'c':

      drop_video = 1;

      break;

    case 'o':

      if(optarg[0]=='-') usage(EXIT_FAILURE);
      outfile = optarg;

      break;

    case 'p':

      if(optarg[0]=='-') usage(EXIT_FAILURE);
      audfile = optarg;

      break;

    case 'f':

      if(optarg[0]=='-') usage(EXIT_FAILURE);
      comfile = optarg;

      break;


    case 'x':

      if(optarg[0]=='-') usage(EXIT_FAILURE);
      indexfile = optarg;

      break;

    case 'v':
      version();
      exit(EXIT_SUCCESS);
    case 'h':
      usage(EXIT_SUCCESS);
    default:
      usage(EXIT_FAILURE);
    }
  }

  if(outfile == NULL || infile == NULL) usage(EXIT_FAILURE);

  printf("scanning file %s for video/audio parameter\n", infile);

  // open first file for video/audio info read only
  if(indexfile) {
      if (NULL == (avifile1 = AVI_open_input_indexfile(infile,0,indexfile))) {
	  AVI_print_error("AVI open with index file");
      }
  }
  else if(NULL == (avifile1 = AVI_open_input_file(infile,1))) {
      AVI_print_error("AVI open");
      exit(1);
  }

  AVI_info(avifile1);

  // safety checks

  if(strcmp(infile, outfile)==0) {
    printf("error: output filename conflicts with input filename\n");
    exit(1);
  }

  ch = optind;

  while (ch < argc) {

    if(tc_file_check(argv[ch]) != 0) {
      printf("error: file not found\n");
      exit(1);
    }

    if(strcmp(argv[ch++], outfile)==0) {
      printf("error: output filename conflicts with input filename\n");
      exit(1);
    }
  }

  // open output file
  if(NULL == (avifile = AVI_open_output_file(outfile))) {
    AVI_print_error("AVI open");
    exit(1);
  }


  // read video info;

  width  =  AVI_video_width(avifile1);
  height =  AVI_video_height(avifile1);

  fps    =  AVI_frame_rate(avifile1);
  codec  =  AVI_video_compressor(avifile1);

  //set video in outputfile
  AVI_set_video(avifile, width, height, fps, codec);

  if (comfile!=NULL)
    AVI_set_comment_fd(avifile, open(comfile, O_RDONLY));

  //multi audio tracks?
  aud_tracks = AVI_audio_tracks(avifile1);
  if (out_track_num < 0) out_track_num = aud_tracks;

  for(j=0; j<aud_tracks; ++j) {

      if (out_track_num == j) continue;
      AVI_set_audio_track(avifile1, j);

      rate   =  AVI_audio_rate(avifile1);
      chan   =  AVI_audio_channels(avifile1);
      bits   =  AVI_audio_bits(avifile1);

      format =  AVI_audio_format(avifile1);
      mp3rate=  AVI_audio_mp3rate(avifile1);
      //printf("TRACK %d MP3RATE %ld VBR %ld\n", j, mp3rate, AVI_get_audio_vbr(avifile1));

      //set next track of output file
      AVI_set_audio_track(avifile, j);
      AVI_set_audio(avifile, chan, rate, bits, format, mp3rate);
      AVI_set_audio_vbr(avifile, AVI_get_audio_vbr(avifile1));
  }

  if(audfile!=NULL) goto audio_merge;

  // close reopen in merger function
  AVI_close(avifile1);

  //-------------------------------------------------------------

  printf("merging multiple AVI-files (concatenating) ...\n");

  // extract and write to new files

  printf ("file %02d %s\n", ++cc, infile);
  merger(avifile, infile);

  while (optind < argc) {

    printf ("file %02d %s\n", ++cc, argv[optind]);
    merger(avifile, argv[optind++]);
  }

  // close new AVI file

  AVI_close(avifile);

  printf("... done merging %d file(s) in %s\n", cc, outfile);

  // reopen file for video/audio info
  if(NULL == (avifile = AVI_open_input_file(outfile,1))) {
    AVI_print_error("AVI open");
    exit(1);
  }
  AVI_info(avifile);

  return(0);

  //-------------------------------------------------------------


// *************************************************
// Merge the audio track of an additional AVI file
// *************************************************

 audio_merge:

  printf("merging audio %s track %d (multiplexing) into %d ...\n", audfile, track_num, out_track_num);

  // open audio file read only
  if(NULL == (avifile2 = AVI_open_input_file(audfile,1))) {
    int f=open(audfile, O_RDONLY), ret=0;
    char head[1024], *c;
    c = head;
    if (f>0 && (1024 == read(f, head, 1024)) ) {
      while ((c-head<1024-8) && (ret = tc_probe_audio_header(c, 8))<=0 ) {
	c++;
      }
      close(f);

      if (ret > 0) {
	aud_offset = c-head;
	//printf("found atrack 0x%x off=%ld\n", ret, aud_offset);
	goto merge_mp3;
      }
    }

    AVI_print_error("AVI open");
    exit(1);
  }

  AVI_info(avifile2);

  //switch to requested track

  if(AVI_set_audio_track(avifile2, track_num)<0) {
    fprintf(stderr, "invalid audio track\n");
  }

  rate   =  AVI_audio_rate(avifile2);
  chan   =  AVI_audio_channels(avifile2);
  bits   =  AVI_audio_bits(avifile2);

  format =  AVI_audio_format(avifile2);
  mp3rate=  AVI_audio_mp3rate(avifile2);

  //set next track
  AVI_set_audio_track(avifile, out_track_num);
  AVI_set_audio(avifile, chan, rate, bits, format, mp3rate);
  AVI_set_audio_vbr(avifile, AVI_get_audio_vbr(avifile2));

  AVI_seek_start(avifile1);
  frames =  AVI_video_frames(avifile1);
  offset = 0;

  printf ("file %02d %s\n", ++cc, infile);

  for (n=0; n<AVI_MAX_TRACKS; n++)
    aud_ms_w[n] = 0.0;
  vid_chunks=0;

  for (n=0; n<frames; ++n) {

    // video
    bytes = AVI_read_frame(avifile1, data, &key);

    if(bytes < 0) {
      AVI_print_error("AVI read video frame");
      return(-1);
    }

    if(AVI_write_frame(avifile, data, bytes, key)<0) {
      AVI_print_error("AVI write video frame");
      return(-1);
    }
    ++vid_chunks;
    vid_ms = vid_chunks*1000.0/fps;

    for(j=0; j<aud_tracks; ++j) {

      if (j == out_track_num) continue;
      AVI_set_audio_track(avifile1, j);
      AVI_set_audio_track(avifile, j);
      chan   = AVI_audio_channels(avifile1);

      // audio
      chan = AVI_audio_channels(avifile1);
      if(chan) {
	  sync_audio_video_avi2avi(vid_ms, &aud_ms_w[j], avifile1, avifile);
      }
    }


    // merge additional track

    // audio
    chan = AVI_audio_channels(avifile2);
    AVI_set_audio_track(avifile, out_track_num);

    if(chan) {
	sync_audio_video_avi2avi(vid_ms, &aud_ms, avifile2, avifile);
    }

    // progress
    fprintf(stderr, "[%s] (%06ld-%06ld)\r", outfile, offset, offset + n);

  }

  fprintf(stderr,"\n");

  offset = frames;

  //more files to merge?

  AVI_close(avifile1);

  while (optind < argc) {

    printf ("file %02d %s\n", ++cc, argv[optind]);

    if(NULL == ( avifile1 = AVI_open_input_file(argv[optind++],1))) {
      AVI_print_error("AVI open");
      goto finish;
    }

    AVI_seek_start(avifile1);
    frames =  AVI_video_frames(avifile1);

    for (n=0; n<frames; ++n) {

      // video
      bytes = AVI_read_frame(avifile1, data, &key);

      if(bytes < 0) {
	AVI_print_error("AVI read video frame");
	return(-1);
      }

      if(AVI_write_frame(avifile, data, bytes, key)<0) {
	AVI_print_error("AVI write video frame");
	return(-1);
      }

      ++vid_chunks;
      vid_ms = vid_chunks*1000.0/fps;

      // audio
      for(j=0; j<aud_tracks; ++j) {

	if (j == out_track_num) continue;
	AVI_set_audio_track(avifile1, j);
	AVI_set_audio_track(avifile, j);

	chan   = AVI_audio_channels(avifile1);

	if(chan) {
	  sync_audio_video_avi2avi(vid_ms, &aud_ms_w[j], avifile1, avifile);
	}
      }

      // merge additional track

      chan   = AVI_audio_channels(avifile2);
      AVI_set_audio_track(avifile, out_track_num);

      if(chan) {
	  sync_audio_video_avi2avi(vid_ms, &aud_ms, avifile2, avifile);
      } // chan

      // progress
      fprintf(stderr, "[%s] (%06ld-%06ld)\r", outfile, offset, offset + n);
    }

    fprintf(stderr, "\n");

    offset += frames;
    AVI_close(avifile1);
  }

 finish:

  // close new AVI file

  printf("... done multiplexing in %s\n", outfile);

  AVI_info(avifile);
  AVI_close(avifile);

  return(0);


// *************************************************
// Merge a raw audio file which is either MP3 or AC3
// *************************************************

merge_mp3:

  f = fopen(audfile,"rb");
  if (!f) { perror ("fopen"); exit(1); }

  fseek(f, aud_offset, SEEK_SET);
  len = fread(head, 1, 8, f);
  format_add  = tc_probe_audio_header(head, len);
  headlen = tc_get_audio_header(head, len, format_add, &chan_i, &rate_i, &mp3rate_i);
  fprintf(stderr, "... this looks like a %s track ...\n", (format_add==0x55)?"MP3":"AC3");

  fseek(f, aud_offset, SEEK_SET);

  //set next track
  AVI_set_audio_track(avifile, out_track_num);
  AVI_set_audio(avifile, chan_i, rate_i, 16, format_add, mp3rate_i);
  AVI_set_audio_vbr(avifile, is_vbr);

  AVI_seek_start(avifile1);
  frames =  AVI_video_frames(avifile1);
  offset = 0;

  for (n=0; n<AVI_MAX_TRACKS; ++n)
      aud_ms_w[n] = 0.0;

  for (n=0; n<frames; ++n) {

    // video
    bytes = AVI_read_frame(avifile1, data, &key);

    if(bytes < 0) {
      AVI_print_error("AVI read video frame");
      return(-1);
    }

    if(AVI_write_frame(avifile, data, bytes, key)<0) {
      AVI_print_error("AVI write video frame");
      return(-1);
    }

    vid_chunks++;
    vid_ms = vid_chunks*1000.0/fps;

    for(j=0; j<aud_tracks; ++j) {

      if (j == out_track_num) continue;
      AVI_set_audio_track(avifile1, j);
      AVI_set_audio_track(avifile, j);
      chan   = AVI_audio_channels(avifile1);

      if(chan) {
	sync_audio_video_avi2avi(vid_ms, &aud_ms_w[j], avifile1, avifile);
      }
    }


    // merge additional track

    if(headlen>4 && !aud_error) {
      while (aud_ms < vid_ms) {
	//printf("reading Audio Chunk ch(%ld) vms(%lf) ams(%lf)\n", vid_chunks, vid_ms, aud_ms);
	pos = ftell(f);

	len = fread (head, 1, 8, f);
	if (len<=0) { //eof
	  fprintf(stderr, "EOF in %s; continuing ..\n", audfile);
	  aud_error=1;
	  break;
	}

	if ( (headlen = tc_get_audio_header(head, len, format_add, NULL, NULL, &mp3rate_i))<0) {
	  fprintf(stderr, "Broken %s track #(%d)? skipping\n", (format_add==0x55?"MP3":"AC3"), aud_tracks);
	  aud_ms = vid_ms;
	  aud_error=1;
	} else { // look in import/tcscan.c for explanation
	  aud_ms += (headlen*8.0)/(mp3rate_i);
	}

	fseek (f, pos, SEEK_SET);

	len = fread (data, headlen, 1, f);
	if (len<=0) { //eof
	  fprintf(stderr, "EOF in %s; continuing ..\n", audfile);
	  aud_error=1;
	  break;
	}

	AVI_set_audio_track(avifile, out_track_num);

	if(AVI_write_audio(avifile, data, headlen)<0) {
	  AVI_print_error("AVI write audio frame");
	  return(-1);
	}

      }
    }

    // progress
    fprintf(stderr, "[%s] (%06ld-%06ld)\r", outfile, offset, offset + n);

  }

  fprintf(stderr,"\n");
  offset = frames;

  // more files?
  while (optind < argc) {

    printf ("file %02d %s\n", ++cc, argv[optind]);

    if(NULL == ( avifile1 = AVI_open_input_file(argv[optind++],1))) {
      AVI_print_error("AVI open");
      goto finish;
    }

    AVI_seek_start(avifile1);
    frames =  AVI_video_frames(avifile1);

    for (n=0; n<frames; ++n) {

      // video
      bytes = AVI_read_frame(avifile1, data, &key);

      if(bytes < 0) {
	AVI_print_error("AVI read video frame");
	return(-1);
      }

      if(AVI_write_frame(avifile, data, bytes, key)<0) {
	AVI_print_error("AVI write video frame");
	return(-1);
      }

      vid_chunks++;
      vid_ms = vid_chunks*1000.0/fps;

      for(j=0; j<aud_tracks; ++j) {

	if (j == out_track_num) continue;
	AVI_set_audio_track(avifile1, j);
	AVI_set_audio_track(avifile, j);
	chan   = AVI_audio_channels(avifile1);

	if(chan) {
	  sync_audio_video_avi2avi(vid_ms, &aud_ms_w[j], avifile1, avifile);
	}
      }

      // merge additional track
      // audio

      if(headlen>4 && !aud_error) {
	while (aud_ms < vid_ms) {
	  //printf("reading Audio Chunk ch(%ld) vms(%lf) ams(%lf)\n", vid_chunks, vid_ms, aud_ms);
	  pos = ftell(f);

	  len = fread (head, 8, 1, f);
	  if (len<=0) { //eof
	    fprintf(stderr, "EOF in %s; continuing ..\n", audfile);
	    aud_error=1; break;
	  }

	  if ( (headlen = tc_get_audio_header(head, len, format_add, NULL, NULL, &mp3rate_i))<0) {
	    fprintf(stderr, "Broken %s track #(%d)?\n", (format_add==0x55?"MP3":"AC3"), aud_tracks);
	    aud_ms = vid_ms;
	    aud_error=1;
	  } else { // look in import/tcscan.c for explanation
	    aud_ms += (headlen*8.0)/(mp3rate_i);
	  }

	  fseek (f, pos, SEEK_SET);

	  len = fread (data, headlen, 1, f);
	  if (len<=0) { //eof
	    fprintf(stderr, "EOF in %s; continuing ..\n", audfile);
	    aud_error=1; break;
	  }

	  AVI_set_audio_track(avifile, out_track_num);

	  if(AVI_write_audio(avifile, data, headlen)<0) {
	    AVI_print_error("AVI write audio frame");
	    return(-1);
	  }

	}
      }

      // progress
      fprintf(stderr, "[%s] (%06ld-%06ld)\r", outfile, offset, offset + n);
    }

    fprintf(stderr, "\n");

    offset += frames;
    AVI_close(avifile1);
  }


  if (f) fclose(f);

  printf("... done multiplexing in %s\n", outfile);

  AVI_close(avifile);

  return(0);
}
Exemple #7
0
/*
 * Create the media for the quicktime file, and set up some session stuff.
 */
int create_media_for_avi_file (CPlayerSession *psptr, 
			       const char *name,
			       char *errmsg,
			       uint32_t errlen,
			       int have_audio_driver,
			       control_callback_vft_t *cc_vft)
{
  CAviFile *Avifile1 = NULL;
  avi_t *avi;
  CPlayerMedia *mptr;
  avi = AVI_open_input_file(name, 1);
  if (avi == NULL) {
    snprintf(errmsg, errlen, "%s", AVI_strerror());
    player_error_message("%s", AVI_strerror());
    return (-1);
  }

  int video_count = 1;
  codec_plugin_t *plugin;
  video_query_t vq;

  const char *codec_name = AVI_video_compressor(avi);
  player_debug_message("Trying avi video codec %s", codec_name);
  plugin = check_for_video_codec(STREAM_TYPE_AVI_FILE,
				 codec_name, 
				 NULL,
				 -1,
				 -1,
				 NULL,
				 0, 
				 &config);
  if (plugin == NULL) {
    video_count = 0;
  } else {
    vq.track_id = 1;
    vq.stream_type = STREAM_TYPE_AVI_FILE;
    vq.compressor = codec_name;
    vq.type = -1;
    vq.profile = -1;
    vq.fptr = NULL;
    vq.h = AVI_video_height(avi);
    vq.w = AVI_video_width(avi);
    vq.frame_rate = AVI_video_frame_rate(avi);
    vq.config = NULL;
    vq.config_len = 0;
    vq.enabled = 0;
    vq.reference = NULL;
  }

  int have_audio = 0;
  int audio_count = 0;
  audio_query_t aq;

  if (AVI_audio_bytes(avi) != 0) {
    have_audio = 1;
    plugin = check_for_audio_codec(STREAM_TYPE_AVI_FILE,
				   NULL,
				   NULL,
				   AVI_audio_format(avi), 
				   -1, 
				   NULL, 
				   0,
				   &config);
    if (plugin != NULL) {
      audio_count = 1;
      aq.track_id = 1;
      aq.stream_type = STREAM_TYPE_AVI_FILE;
      aq.compressor = NULL;
      aq.type = AVI_audio_format(avi);
      aq.profile = -1;
      aq.fptr = NULL;
      aq.sampling_freq = AVI_audio_rate(avi);
      aq.chans = AVI_audio_channels(avi);
      aq.config = NULL;
      aq.config_len = 0;
      aq.enabled = 0;
      aq.reference = NULL;
    }
  }

  if (cc_vft != NULL && cc_vft->media_list_query != NULL) {
    (cc_vft->media_list_query)(psptr, video_count, &vq, audio_count, &aq);
  } else {
    if (video_count != 0) vq.enabled = 1;
    if (audio_count != 0) aq.enabled = 1;
  }


  if ((video_count == 0 || vq.enabled == 0) && 
      (audio_count == 0 || aq.enabled == 0)) {
    snprintf(errmsg, errlen, "No audio or video tracks enabled or playable");
    AVI_close(avi);
    return -1;
  }
  
  Avifile1 = new CAviFile(name, avi, vq.enabled, audio_count);
  psptr->set_media_close_callback(close_avi_file, Avifile1);

  if (video_count != 0 && vq.enabled) {
    mptr = new CPlayerMedia(psptr);
    if (mptr == NULL) {
      return (-1);
    }
  
    video_info_t *vinfo = MALLOC_STRUCTURE(video_info_t);
    if (vinfo == NULL) 
      return (-1);
    vinfo->height = vq.h;
    vinfo->width = vq.w;
    player_debug_message("avi file h %d w %d frame rate %g", 
			 vinfo->height,
			 vinfo->width,
			 vq.frame_rate);

    plugin = check_for_video_codec(STREAM_TYPE_AVI_FILE,
				   codec_name, 
				   NULL,
				   -1,
				   -1,
				   NULL,
				   0,
				   &config);
    int ret;
    ret = mptr->create_video_plugin(plugin,
				    STREAM_TYPE_AVI_FILE,
				    codec_name,
				    -1,
				    -1,
				    NULL,
				    vinfo,
				    NULL,
				    0);
    if (ret < 0) {
      snprintf(errmsg, errlen, "Failed to create video plugin %s", 
	       codec_name);
      player_error_message("Failed to create plugin data");
      delete mptr;
      return -1;
    }
    CAviVideoByteStream *vbyte = new CAviVideoByteStream(Avifile1);
    if (vbyte == NULL) {
      delete mptr;
      return (-1);
    }
    vbyte->config(AVI_video_frames(avi), vq.frame_rate);
    ret = mptr->create(vbyte, TRUE, errmsg, errlen);
    if (ret != 0) {
      return (-1);
    }
  }
    
  int seekable = 1;
  if (have_audio_driver > 0 && audio_count > 0 && aq.enabled != 0) {
    plugin = check_for_audio_codec(STREAM_TYPE_AVI_FILE,
				   NULL,
				   NULL,
				   aq.type,
				   -1, 
				   NULL, 
				   0,
				   &config);
    CAviAudioByteStream *abyte;
    mptr = new CPlayerMedia(psptr);
    if (mptr == NULL) {
      return (-1);
    }
    audio_info_t *ainfo;
    ainfo = MALLOC_STRUCTURE(audio_info_t);
    ainfo->freq = aq.sampling_freq;
    ainfo->chans = aq.chans;
    ainfo->bitspersample = AVI_audio_bits(avi); 

  
    int ret;
    ret = mptr->create_audio_plugin(plugin, 
				    aq.stream_type,
				    aq.compressor,
				    aq.type,
				    aq.profile,
				    NULL, 
				    ainfo,
				    NULL, 
				    0);
    if (ret < 0) {
      delete mptr;
      player_error_message("Couldn't create audio from plugin %s", 
			   plugin->c_name);
      return -1;
    }
    abyte = new CAviAudioByteStream(Avifile1);

    ret = mptr->create(abyte, FALSE, errmsg, errlen);
    if (ret != 0) {
      return (-1);
    }
    seekable = 0;
  } 
  psptr->session_set_seekable(seekable);

  if (audio_count == 0 && have_audio != 0) {
    snprintf(errmsg, errlen, "Unknown Audio Codec in avi file ");
    return (1);
  }
  if (video_count != 1) {
    snprintf(errmsg, errlen, "Unknown Video Codec %s in avi file",
	     codec_name);
    return (1);
  }
  return (0);
}
Exemple #8
0
void
avi_reader_c::add_audio_demuxer(int aid) {
  for (auto &demuxer : m_audio_demuxers)
    if (demuxer.m_aid == aid) // Demuxer already added?
      return;

  AVI_set_audio_track(m_avi, aid);
  if (AVI_read_audio_chunk(m_avi, nullptr) < 0) {
    mxwarn(boost::format(Y("Could not find an index for audio track %1% (avilib error message: %2%). Skipping track.\n")) % (aid + 1) % AVI_strerror());
    return;
  }

  avi_demuxer_t demuxer;
  generic_packetizer_c *packetizer = nullptr;
  alWAVEFORMATEX *wfe              = m_avi->wave_format_ex[aid];
  uint32_t audio_format            = AVI_audio_format(m_avi);

  demuxer.m_aid                    = aid;
  demuxer.m_ptzr                   = -1;
  demuxer.m_samples_per_second     = AVI_audio_rate(m_avi);
  demuxer.m_channels               = AVI_audio_channels(m_avi);
  demuxer.m_bits_per_sample        = AVI_audio_bits(m_avi);

  m_ti.m_id                        = aid + 1;       // ID for this audio track.

  auto stream_header               = &m_avi->stream_headers[aid];
  auto dw_scale                    = static_cast<int64_t>(get_uint32_le(&stream_header->dw_scale));
  auto dw_rate                     = static_cast<int64_t>(get_uint32_le(&stream_header->dw_rate));
  auto dw_sample_size              = static_cast<int64_t>(get_uint32_le(&stream_header->dw_sample_size));
  m_ti.m_avi_audio_data_rate       = dw_scale ? dw_rate * dw_sample_size / dw_scale : 0;

  if ((0xfffe == audio_format) && (get_uint16_le(&wfe->cb_size) >= (sizeof(alWAVEFORMATEXTENSION)))) {
    alWAVEFORMATEXTENSIBLE *ext = reinterpret_cast<alWAVEFORMATEXTENSIBLE *>(wfe);
    audio_format                = get_uint32_le(&ext->extension.guid.data1);

  } else if (get_uint16_le(&wfe->cb_size) > 0)
    m_ti.m_private_data = memory_c::clone(wfe + 1, get_uint16_le(&wfe->cb_size));

  else
    m_ti.m_private_data.reset();

  demuxer.m_codec = codec_c::look_up_audio_format(audio_format);

  if (demuxer.m_codec.is(codec_c::type_e::A_PCM))
    packetizer = new pcm_packetizer_c(this, m_ti, demuxer.m_samples_per_second, demuxer.m_channels, demuxer.m_bits_per_sample, 0x0003 == audio_format ? pcm_packetizer_c::ieee_float : pcm_packetizer_c::little_endian_integer);

  else if (demuxer.m_codec.is(codec_c::type_e::A_MP2) || demuxer.m_codec.is(codec_c::type_e::A_MP3))
    packetizer = new mp3_packetizer_c(this, m_ti, demuxer.m_samples_per_second, demuxer.m_channels, false);

  else if (demuxer.m_codec.is(codec_c::type_e::A_AC3))
    packetizer = new ac3_packetizer_c(this, m_ti, demuxer.m_samples_per_second, demuxer.m_channels, 0);

  else if (demuxer.m_codec.is(codec_c::type_e::A_DTS))
    packetizer = create_dts_packetizer(aid);

  else if (demuxer.m_codec.is(codec_c::type_e::A_AAC))
    packetizer = create_aac_packetizer(aid, demuxer);

  else if (demuxer.m_codec.is(codec_c::type_e::A_VORBIS))
    packetizer = create_vorbis_packetizer(aid);

  else
    mxerror_tid(m_ti.m_fname, aid + 1, boost::format(Y("Unknown/unsupported audio format 0x%|1$04x| for this audio track.\n")) % audio_format);

  packetizer->enable_avi_audio_sync(true);

  show_packetizer_info(aid + 1, packetizer);

  demuxer.m_ptzr = add_packetizer(packetizer);

  m_audio_demuxers.push_back(demuxer);

  int i, maxchunks = AVI_audio_chunks(m_avi);
  for (i = 0; i < maxchunks; i++) {
    auto size = AVI_audio_size(m_avi, i);
    if (size < AVI_MAX_AUDIO_CHUNK_SIZE)
      m_bytes_to_process += size;
  }
}
int main(int argc, char *argv[])
{

  avi_t *avifile1=NULL;
  avi_t *avifile2=NULL;
  avi_t *avifile3=NULL;

  char *in_file=NULL, *out_file=NULL;

  long frames, bytes;

  double fps;

  char *codec;

  int track_num=0, aud_tracks;
  int encode_null=0;

  int i, j, n, key, shift=0;

  int ch, preload=0;

  long rate, mp3rate;

  int width, height, format, chan, bits;

  int be_quiet = 0;
  FILE *status_fd = stderr;

  /* for null frame encoding */
  char nulls[32000];
  long nullbytes=0;
  char tmp0[] = "/tmp/nullfile.00.avi"; /* XXX: use mktemp*() */

  buffer_list_t *ptr;

  double vid_ms = 0.0, shift_ms = 0.0, one_vid_ms = 0.0;
  double aud_ms [ AVI_MAX_TRACKS ];
  int aud_bitrate = 0;
  int aud_chunks = 0;

  ac_init(AC_ALL);

  if(argc==1) usage(EXIT_FAILURE);

  while ((ch = getopt(argc, argv, "a:b:vi:o:n:Nq?h")) != -1)
    {

	switch (ch) {

	case 'i':

	     if(optarg[0]=='-') usage(EXIT_FAILURE);
	    in_file=optarg;

	    break;

	case 'a':

	  if(optarg[0]=='-') usage(EXIT_FAILURE);
	  track_num = atoi(optarg);

	  if(track_num<0) usage(EXIT_FAILURE);

	  break;

	case 'b':

	  if(optarg[0]=='-') usage(EXIT_FAILURE);
	  is_vbr = atoi(optarg);

	  if(is_vbr<0) usage(EXIT_FAILURE);

	  break;

	case 'o':

	    if(optarg[0]=='-') usage(EXIT_FAILURE);
	    out_file=optarg;

	    break;

	case 'f':

	    if(optarg[0]=='-') usage(EXIT_FAILURE);
	    comfile = optarg;

	    break;

	case 'n':

	    if(sscanf(optarg,"%d", &shift)!=1) {
		fprintf(stderr, "invalid parameter for option -n\n");
		usage(EXIT_FAILURE);
	    }
	    break;

	case 'N':
	    encode_null=1;
	    break;
	case 'q':
	    be_quiet = 1;
	    break;
	case 'v':
	    version();
	    exit(0);
	    break;
      case 'h':
	usage(EXIT_SUCCESS);
      default:
	usage(EXIT_FAILURE);
      }
    }

  // check
  if(in_file==NULL || out_file == NULL) usage(EXIT_FAILURE);

  if(shift == 0) fprintf(stderr, "no sync requested - exit");

  memset (nulls, 0, sizeof(nulls));


  // open file
  if(NULL == (avifile1 = AVI_open_input_file(in_file,1))) {
      AVI_print_error("AVI open");
      exit(1);
  }

  if(strcmp(in_file, out_file)==0) {
      printf("error: output filename conflicts with input filename\n");
      exit(1);
  }

  if(NULL == (avifile2 = AVI_open_output_file(out_file))) {
    AVI_print_error("AVI open");
    exit(1);
  }

  if (be_quiet) {
    if (!(status_fd = fopen("/dev/null", "w"))) {
      fprintf(stderr, "Can't open /dev/null\n");
      exit(1);
    }
  }

  // read video info;

  AVI_info(avifile1);

  // read video info;

  frames =  AVI_video_frames(avifile1);
   width =  AVI_video_width(avifile1);
  height =  AVI_video_height(avifile1);

  fps    =  AVI_frame_rate(avifile1);
  codec  =  AVI_video_compressor(avifile1);

  //set video in outputfile
  AVI_set_video(avifile2, width, height, fps, codec);

  if (comfile!=NULL)
    AVI_set_comment_fd(avifile2, open(comfile, O_RDONLY));

  aud_tracks = AVI_audio_tracks(avifile1);

  for(j=0; j<aud_tracks; ++j) {

    AVI_set_audio_track(avifile1, j);

    rate   =  AVI_audio_rate(avifile1);
    chan   =  AVI_audio_channels(avifile1);
    bits   =  AVI_audio_bits(avifile1);

    format =  AVI_audio_format(avifile1);
    mp3rate=  AVI_audio_mp3rate(avifile1);

    //set next track of output file
    AVI_set_audio_track(avifile2, j);
    AVI_set_audio(avifile2, chan, rate, bits, format, mp3rate);
    AVI_set_audio_vbr(avifile2, is_vbr);
  }

  //switch to requested audio_channel

  if(AVI_set_audio_track(avifile1, track_num)<0) {
    fprintf(stderr, "invalid auto track\n");
  }

  AVI_set_audio_track(avifile2, track_num);

  if (encode_null) {
      char cmd[1024];

      rate   =  AVI_audio_rate(avifile2);
      chan   =  AVI_audio_channels(avifile2);
      bits   =  AVI_audio_bits(avifile2);
      format =  AVI_audio_format(avifile2);
      mp3rate=  AVI_audio_mp3rate(avifile2);

      if (bits==0) bits=16;
      if (mp3rate%2) mp3rate++;

      fprintf(status_fd, "Creating silent mp3 frame with current parameter\n");
      memset (cmd, 0, sizeof(cmd));
      tc_snprintf(cmd, sizeof(cmd), "transcode -i /dev/zero -o %s -x raw,raw"
	      " -n 0x1 -g 16x16 -y raw,raw -c 0-5 -e %ld,%d,%d -b %ld -q0",
	      tmp0, rate,bits,chan, mp3rate);

      printf(cmd);
      system(cmd);

      if(NULL == (avifile3 = AVI_open_input_file(tmp0,1))) {
	  AVI_print_error("AVI open");
	  exit(1);
      }

      nullbytes = AVI_audio_size(avifile3, 3);

      /* just read a few frames */
      if(AVI_read_audio(avifile3, nulls, nullbytes) < 0) {
	  AVI_print_error("AVI audio read frame");
	  return(-1);
      }
      memset (nulls, 0, sizeof(nulls));
      if(AVI_read_audio(avifile3, nulls, nullbytes) < 0) {
	  AVI_print_error("AVI audio read frame");
	  return(-1);
      }
      memset (nulls, 0, sizeof(nulls));
      if(AVI_read_audio(avifile3, nulls, nullbytes) < 0) {
	  AVI_print_error("AVI audio read frame");
	  return(-1);
      }


      /*
      printf("\nBytes (%ld): \n", nullbytes);
      {
	  int asd=0;
	  for (asd=0; asd<nullbytes; asd++){
	      printf("%x ",(unsigned char)nulls[asd]);
	  }
	  printf("\n");
      }
      */



  }

  vid_ms   = 0.0;
  shift_ms = 0.0;
  for (n=0; n<AVI_MAX_TRACKS; ++n)
      aud_ms[n] = 0.0;

  // ---------------------------------------------------------------------

  for (n=0; n<frames; ++n) {

    // video unchanged
    bytes = AVI_read_frame(avifile1, data, &key);

    if(bytes < 0) {
      AVI_print_error("AVI read video frame");
      return(-1);
    }

    if(AVI_write_frame(avifile2, data, bytes, key)<0) {
      AVI_print_error("AVI write video frame");
      return(-1);
    }

    vid_ms = (n+1)*1000.0/fps;


    // Pass-through all other audio tracks.
    for(j=0; j<aud_tracks; ++j) {

	// skip track we want to modify
	if (j == track_num) continue;

	// switch to track
	AVI_set_audio_track(avifile1, j);
	AVI_set_audio_track(avifile2, j);
	sync_audio_video_avi2avi(vid_ms, &aud_ms[j], avifile1, avifile2);
    }

    //switch to requested audio_channel
    if(AVI_set_audio_track(avifile1, track_num)<0) {
	fprintf(stderr, "invalid auto track\n");
    }
    AVI_set_audio_track(avifile2, track_num);
    shift_ms = (double)shift*1000.0/fps;
    one_vid_ms = 1000.0/fps;
    format = AVI_audio_format(avifile1);
    rate   = AVI_audio_rate(avifile1);
    chan   = AVI_audio_channels(avifile1);
    bits   = AVI_audio_bits(avifile1);
    bits   = bits==0?16:bits;
    mp3rate= AVI_audio_mp3rate(avifile1);


    if(shift>0) {

      // for n < shift, shift audio frames are discarded

      if(!preload) {

	if (tc_format_ms_supported(format)) {
	  for(i=0;i<shift;++i) {
	      //fprintf (stderr, "shift (%d) i (%d) n (%d) a (%d)\n", shift, i, n, aud_chunks);
	    while (aud_ms[track_num] < vid_ms + one_vid_ms*(double)i) {

		aud_bitrate = (format==0x1||format==0x2000)?1:0;
		aud_chunks++;
		if( (bytes = AVI_read_audio_chunk(avifile1, data)) <= 0) {
		    aud_ms[track_num] = vid_ms + one_vid_ms*i;
		    if (bytes == 0) continue;
		    AVI_print_error("AVI 2 audio read frame");
		    break;
		}

		if ( !aud_bitrate && tc_get_audio_header(data, bytes, format, NULL, NULL, &aud_bitrate)<0) {
		    // if this is the last frame of the file, slurp in audio chunks
		    if (n == frames-1) continue;
		    aud_ms[track_num] = vid_ms + one_vid_ms*i;
		} else
		    aud_ms[track_num] += (bytes*8.0)/(format==0x1?((double)(rate*chan*bits)/1000.0):
				       (format==0x2000?(double)(mp3rate):aud_bitrate));
	    }
	  }

	} else { // fallback
	    bytes=0;
	    for(i=0;i<shift;++i) {
		do {
		    if( (bytes = AVI_read_audio_chunk(avifile1, data)) < 0) {
			AVI_print_error("AVI audio read frame");
			return(-1);
		    }
		} while (AVI_can_read_audio(avifile1));
	    }
	}
	preload=1;
      }


      // copy rest of the track
      if(n<frames-shift) {
	if (tc_format_ms_supported(format)) {

	    while (aud_ms[track_num] < vid_ms + shift_ms) {

		aud_chunks++;
		aud_bitrate = (format==0x1||format==0x2000)?1:0;

		if( (bytes = AVI_read_audio_chunk(avifile1, data)) < 0) {
		    aud_ms[track_num] = vid_ms + shift_ms;
		    AVI_print_error("AVI 3 audio read frame");
		    break;
		}

		if(AVI_write_audio(avifile2, data, bytes) < 0) {
		    AVI_print_error("AVI 3 write audio frame");
		    return(-1);
		}

		fprintf(status_fd, "V [%05d][%08.2f] | A [%05d][%08.2f] [%05ld]\r", n, vid_ms, aud_chunks, aud_ms[track_num], bytes);

		if (bytes == 0) {
		    aud_ms[track_num] = vid_ms + shift_ms;
		    continue;
		}

		if(n>=frames-2*shift) {

		    // save audio frame for later
		    ptr = buffer_register(n);

		    if(ptr==NULL) {
			fprintf(stderr,"buffer allocation failed\n");
			break;
		    }

		    ac_memcpy(ptr->data, data, bytes);
		    ptr->size = bytes;
		    ptr->status = BUFFER_READY;
		}


		if ( !aud_bitrate && tc_get_audio_header(data, bytes, format, NULL, NULL, &aud_bitrate)<0) {
		    if (n == frames-1) continue;
		    aud_ms[track_num] = vid_ms + shift_ms;
		} else
		    aud_ms[track_num] += (bytes*8.0)/(format==0x1?((double)(rate*chan*bits)/1000.0):
				       (format==0x2000?(double)(mp3rate):aud_bitrate));
	    }

	} else { // fallback
	bytes = AVI_audio_size(avifile1, n+shift-1);

	do {
	    if( (bytes = AVI_read_audio_chunk(avifile1, data)) < 0) {
		AVI_print_error("AVI audio read frame");
		return(-1);
	    }

	    if(AVI_write_audio(avifile2, data, bytes) < 0) {
		AVI_print_error("AVI write audio frame");
		return(-1);
	    }

	    fprintf(status_fd, "V [%05d] | A [%05d] [%05ld]\r", n, n+shift, bytes);

	    if(n>=frames-2*shift) {

		// save audio frame for later
		ptr = buffer_register(n);

		if(ptr==NULL) {
		    fprintf(stderr,"buffer allocation failed\n");
		    break;
		}

		ac_memcpy(ptr->data, data, bytes);
		ptr->size = bytes;
		ptr->status = BUFFER_READY;
	    }
	} while (AVI_can_read_audio(avifile1));
	}
      }

      // padding at the end
      if(n>=frames-shift) {

	if (!ptrlen) {
	    ptr = buffer_retrieve();
	    ac_memcpy (ptrdata, ptr->data, ptr->size);
	    ptrlen = ptr->size;
	}

	if (tc_format_ms_supported(format)) {

	    while (aud_ms[track_num] < vid_ms + shift_ms) {

		aud_bitrate = (format==0x1||format==0x2000)?1:0;

		// mute this -- check if can mute (valid A header)!
		if (tc_probe_audio_header(ptrdata, ptrlen) > 0)
		    tc_format_mute(ptrdata, ptrlen, format);

		if(AVI_write_audio(avifile2, ptrdata, ptrlen) < 0) {
		    AVI_print_error("AVI write audio frame");
		    return(-1);
		}

		fprintf(status_fd, " V [%05d][%08.2f] | A [%05d][%08.2f] [%05ld]\r", n, vid_ms, n+shift, aud_ms[track_num], bytes);

		if ( !aud_bitrate && tc_get_audio_header(ptrdata, ptrlen, format, NULL, NULL, &aud_bitrate)<0) {
		    //if (n == frames-1) continue;
		    aud_ms[track_num] = vid_ms + shift_ms;
		} else
		    aud_ms[track_num] += (ptrlen*8.0)/(format==0x1?((double)(rate*chan*bits)/1000.0):
				       (format==0x2000?(double)(mp3rate):aud_bitrate));
	    }

	} else { // fallback

	// get next audio frame
	ptr = buffer_retrieve();

	while (1) {
	    printf("ptr->id (%d) ptr->size (%d)\n", ptr->id, ptr->size);

	    if(ptr==NULL) {
		fprintf(stderr,"no buffer found\n");
		break;
	    }

	    if (encode_null) {
		if(AVI_write_audio(avifile2, nulls, nullbytes)<0) {
		    AVI_print_error("AVI write audio frame");
		    return(-1);
		}
	    } else {
		// simple keep old frames to force exact time delay
		if(AVI_write_audio(avifile2, ptr->data, ptr->size)<0) {
		    AVI_print_error("AVI write audio frame");
		    return(-1);
		}
	    }

	    fprintf(status_fd, "V [%05d] | padding\r", n);

	    if (ptr->next && ptr->next->id == ptr->id) {
		buffer_remove(ptr);
		ptr = buffer_retrieve();
		continue;
	    }

	    buffer_remove(ptr);
	    break;
	}  // 1
      }
      }


// *************************************
// negative shift (pad audio at start)
// *************************************

    } else {

      if (tc_format_ms_supported(format)) {
	/*
	fprintf(status_fd, "n(%d) -shift(%d) shift_ms (%.2lf) vid_ms(%.2lf) aud_ms[%d](%.2lf) v-s(%.2lf)\n",
	    n, -shift, shift_ms, vid_ms, track_num, aud_ms[track_num], vid_ms + shift_ms);
	    */

	// shift<0 -> shift_ms<0 !
	while (aud_ms[track_num] < vid_ms) {
	    /*
	  fprintf(stderr, " 1 (%02d) %s frame_read len=%4ld (A/V) (%8.2f/%8.2f)\n",
	      n, format==0x55?"MP3":"AC3", bytes, aud_ms[track_num], vid_ms);
	      */

	  aud_bitrate = (format==0x1||format==0x2000)?1:0;

	  if( (bytes = AVI_read_audio_chunk(avifile1, data)) < 0) {
	    AVI_print_error("AVI 2 audio read frame");
	    aud_ms[track_num] = vid_ms;
	    break;
	    //return(-1);
	  }

	  // save audio frame for later
	  ptr = buffer_register(n);

	  if(ptr==NULL) {
	    fprintf(stderr,"buffer allocation failed\n");
	    break;
	  }

	  ac_memcpy(ptr->data, data, bytes);
	  ptr->size = bytes;
	  ptr->status = BUFFER_READY;

	  if(n<-shift) {

	    // mute this -- check if can mute!
	    if (tc_probe_audio_header(data, bytes) > 0)
		tc_format_mute(data, bytes, format);

	    // simple keep old frames to force exact time delay
	    if(AVI_write_audio(avifile2, data, bytes)<0) {
	      AVI_print_error("AVI write audio frame");
	      return(-1);
	    }

	    fprintf(status_fd, "V [%05d] | padding\r", n);

	  } else {
	    if (n==-shift)
		fprintf(status_fd, "\n");

	    // get next audio frame
	    ptr = buffer_retrieve();

	    if(ptr==NULL) {
	      fprintf(stderr,"no buffer found\n");
	      break;
	    }

	    if(AVI_write_audio(avifile2, ptr->data, ptr->size)<0) {
	      AVI_print_error("AVI write audio frame");
	      return(-1);
	    }
	    bytes = ptr->size;
	    ac_memcpy (data, ptr->data, bytes);

	    fprintf(status_fd, "V [%05d] | A [%05d]\r", n, ptr->id);

	    buffer_remove(ptr);
	  }

	  if ( !aud_bitrate && tc_get_audio_header(data, bytes, format, NULL, NULL, &aud_bitrate)<0) {
	    if (n == frames-1) continue;
	    aud_ms[track_num] = vid_ms;
	  } else
	    aud_ms[track_num] += (bytes*8.0)/(format==0x1?((double)(rate*chan*bits)/1000.0):
				       (format==0x2000?(double)(mp3rate):aud_bitrate));

	  /*
	  fprintf(stderr, " 1 (%02d) %s frame_read len=%4ld (A/V) (%8.2f/%8.2f)\n",
	      n, format==0x55?"MP3":"AC3", bytes, aud_ms[track_num], vid_ms);
	      */

	}








      } else { // no supported format

      bytes = AVI_audio_size(avifile1, n);


      if(bytes > SIZE_RGB_FRAME) {
	fprintf(stderr, "invalid frame size\n");
	return(-1);
      }

      if(AVI_read_audio(avifile1, data, bytes) < 0) {
	AVI_print_error("AVI audio read frame");
	return(-1);
      }

      // save audio frame for later
      ptr = buffer_register(n);

      if(ptr==NULL) {
	fprintf(stderr,"buffer allocation failed\n");
	break;
      }

      ac_memcpy(ptr->data, data, bytes);
      ptr->size = bytes;
      ptr->status = BUFFER_READY;


      if(n<-shift) {

	if (encode_null) {
	    if(AVI_write_audio(avifile2, nulls, nullbytes)<0) {
		AVI_print_error("AVI write audio frame");
		return(-1);
	    }
	} else {
	// simple keep old frames to force exact time delay
	    if(AVI_write_audio(avifile2, data, bytes)<0) {
		AVI_print_error("AVI write audio frame");
		return(-1);
	    }
	}

	fprintf(status_fd, "V [%05d] | padding\r", n);

      } else {

	// get next audio frame
	ptr = buffer_retrieve();

	if(ptr==NULL) {
	  fprintf(stderr,"no buffer found\n");
	  break;
	}

	if(AVI_write_audio(avifile2, ptr->data, ptr->size)<0) {
	  AVI_print_error("AVI write audio frame");
	  return(-1);
	}

	fprintf(status_fd, "V [%05d] | A [%05d]\r", n, ptr->id);

	buffer_remove(ptr);
      }
    }
    }
  }

  fprintf(status_fd, "\n");

  if (be_quiet) {
    fclose(status_fd);
  }

  AVI_close(avifile1);
  AVI_close(avifile2);

  if (avifile3) {
      memset(nulls, 0, sizeof(nulls));
      tc_snprintf(nulls, sizeof(nulls), "rm -f %s", tmp0);
      system(nulls);
      AVI_close(avifile3);
  }

  return(0);
}