Beispiel #1
0
int main(int argc, char *argv[])
{
  // ensure libraries are set up
  bbcat_register_bbcat_fileio();

 if (argc < 2)
  {
    fprintf(stderr, "Usage: adm-to-json <xml-file>\n");
    exit(1);
  }

  // create basic ADM
  XMLADMData *adm;
  if ((adm = XMLADMData::CreateADM()) != NULL)
  {
    if (adm->ReadXMLFromFile(argv[1])) {
      std::vector<const ADMObject *> channelformats;
      uint_t i;

      printf("XML: %s", adm->GetAxml().c_str());
      
      adm->GetObjects(ADMAudioChannelFormat::Type, channelformats);

      printf("%u channel formats found\n", (uint_t)channelformats.size());
      
      for (i = 0; i < channelformats.size(); i++)
      {
        const ADMAudioChannelFormat *cf = dynamic_cast<const ADMAudioChannelFormat *>(channelformats[i]);

        if (cf)
        {
          const std::vector<ADMAudioBlockFormat *>& blockformats = cf->GetBlockFormatRefs();
          uint_t j;
          
          printf("ChannelFormat %u/%u: %u block formats\n", i + 1, (uint_t)channelformats.size(), (uint_t)blockformats.size());

          for (j = 0; j < blockformats.size(); j++)
          {
            printf("Object %u/%u: %s\n", j + 1, (uint_t)blockformats.size(), blockformats[j]->GetObjectParameters().ToJSONString().c_str());
          }

          printf("\n");
        }
      }
    }
    else BBCERROR("Failed to read XML from '%s'\n", argv[1]);
    
    delete adm;
  }
  
  return 0;
}
int main(int argc, char *argv[])
{
  // print library versions (the actual loaded versions, if dynamically linked)
  printf("Versions:\n%s\n", LoadedVersions::Get().GetVersionsList().c_str());

  if (argc < 2)
  {
    fprintf(stderr, "Usage: write-separate-adm <filename>\n");
    exit(1);
  }
  
  // create basic ADM
  XMLADMData *adm;
  if ((adm = XMLADMData::CreateADM()) != NULL)
  {
    ADMData::OBJECTNAMES names;

    // set programme name
    // if an audioProgramme object of this name doesn't exist, one will be created
    names.programmeName = "ADM Test Programme";

    // set content name
    // if an audioContent object of this name doesn't exist, one will be created
    names.contentName   = "ADM Test Content";
    
    // create 16 tracks, channels and streams
    uint_t t, ntracks = 16;
    for (t = 0; t < ntracks; t++)
    {
      ADMAudioTrack *track;
      std::string trackname;
      
      printf("------------- Track %2u -----------------\n", t + 1);

      // create default audioTrackFormat name (used for audioStreamFormat objects as well)
      Printf(trackname, "Track %u", t + 1);
      
      names.trackNumber = t;

      // create audioTrackUID for chna chunk
      if ((track = adm->CreateTrack(names.trackNumber)) != NULL)
      {
        track->SetSampleRate(48000);
        track->SetBitDepth(24);
      }

      // derive channel and stream names from track name
      names.channelFormatName = trackname;
      names.streamFormatName  = "PCM_" + trackname;
      names.trackFormatName   = "PCM_" + trackname;

      // set object name
      // create 4 objects, each of 4 tracks
      names.objectName = "";  // need this because Printf() APPENDS!
      Printf(names.objectName, "Object %u", 1 + (t / 4));
        
      // set pack name from object name
      // create 4 packs, each of 4 tracks
      names.packFormatName = "";  // need this because Printf() APPENDS!
      Printf(names.packFormatName, "Pack %u", 1 + (t / 4));

      adm->CreateObjects(names);

      // note how the programme and content names are left in place in 'names'
      // this is necessary to ensure that things are linked up properly

      // find channel format object for this track
      ADMAudioChannelFormat *cf;
      if ((cf = dynamic_cast<ADMAudioChannelFormat *>(adm->GetWritableObjectByName(names.channelFormatName, ADMAudioChannelFormat::Type))) != NULL)
      {
        // found channel format, generate block formats for it
        ADMAudioBlockFormat   *bf;
        uint_t i;

        for (i = 0; i < 20; i++)
        {
          if ((bf = adm->CreateBlockFormat(cf)) != NULL)
          {
            AudioObjectParameters params;
            Position pos;
              
            // set start time to be index * 25ms
            bf->SetRTime(i * 25000000);
            // set duration to be 25ms
            bf->SetDuration(25000000);

            pos.polar  = true;
            pos.pos.az = fmod((double)(t + i) * 20.0, 360.0);
            pos.pos.el = (double)i / (double)ntracks * 60.0;
            pos.pos.d  = 1.0;
            params.SetPosition(pos);

            params.SetGain(2.0);
            params.SetWidth(5.0);
            params.SetHeight(10.0);
            params.SetDepth(15.0);
            params.SetDiffuseness(20.0);
            params.SetDelay(25.0);
            params.SetObjectImportance(5);
            params.SetChannelImportance(2);
            params.SetDialogue(1);
            params.SetChannelLock(true);
            params.SetInteract(true);
            params.SetInterpolate(true);
            params.SetInterpolationTimeS(5.2);
            params.SetOnScreen(true);
            ParameterSet othervalues = params.GetOtherValues();
            params.SetOtherValues(othervalues.Set("other1", 1).Set("other2", "2"));

            // set object parameters
            bf->GetObjectParameters() = params;
          }
          else fprintf(stderr, "Failed to create audioBlockFormat (t: %u, i: %u)\n", t, i);
        }
      }
      else
      {
        // this will only occur in the case of an error
        fprintf(stderr, "Unable to find channel format '%s'\n", names.channelFormatName.c_str());
      }
    }

    // finalise ADM
    adm->Finalise();

    // output ADM
    std::string axml = adm->GetAxml();
    printf("XML:\n%s", axml.c_str());

    // create simple WAV file
    RIFFFile file;
    if (file.Create(argv[1], 48000, 16))
    {
      // add the chna and axml chunks from the ADM
      uint64_t len;
      const uint8_t *data;

      // add chna chunk
      if ((data = adm->GetChna(len)) != NULL) file.AddChunk("chna", data, len);
      else fprintf(stderr, "No chna chunk to add!\n");

      // add axml chunk
      file.AddChunk("axml", (const uint8_t *)axml.c_str(), axml.size());

      // write everything
      file.Close();
    }
    else fprintf(stderr, "Failed to create file '%s'\n", argv[1]);
  }
  else fprintf(stderr, "Failed to create ADM - no provider available?\n");

  return 0;
}
int main(void)
{
  // print library versions (the actual loaded versions, if dynamically linked)
  printf("Versions:\n%s\n", LoadedVersions::Get().GetVersionsList().c_str());

  XMLADMData *adm;
  
  // create basic ADM
  if ((adm = XMLADMData::CreateADM()) != NULL)
  {
    ADMData::OBJECTNAMES names;

    // set programme name
    // if an audioProgramme object of this name doesn't exist, one will be created
    names.programmeName = "ADM Test Programme";

    // set content name
    // if an audioContent object of this name doesn't exist, one will be created
    names.contentName   = "ADM Test Content";
    
    // create 16 tracks, channels and streams
    uint_t t, ntracks = 16;
    for (t = 0; t < ntracks; t++)
    {
      std::string trackname;

      printf("------------- Track %2u -----------------\n", t + 1);

      // create default audioTrackFormat name (used for audioStreamFormat objects as well)
      Printf(trackname, "Track %u", t + 1);

      names.trackNumber = t;

      // derive channel and stream names from track name
      names.channelFormatName = trackname;
      names.streamFormatName  = "PCM_" + trackname;
      names.trackFormatName   = "PCM_" + trackname;

      // set object name
      // create 4 objects, each of 4 tracks
      names.objectName = "";  // need this because Printf() APPENDS!
      Printf(names.objectName, "Object %u", 1 + (t / 4));
        
      // set pack name from object name
      // create 4 packs, each of 4 tracks
      names.packFormatName = "";  // need this because Printf() APPENDS!
      Printf(names.packFormatName, "Pack %u", 1 + (t / 4));

      adm->CreateObjects(names);

      // note how the programme and content names are left in place in 'names'
      // this is necessary to ensure that things are linked up properly

      // find channel format object for this track
      ADMAudioChannelFormat *cf;
      if ((cf = dynamic_cast<ADMAudioChannelFormat *>(adm->GetWritableObjectByName(names.channelFormatName, ADMAudioChannelFormat::Type))) != NULL)
      {
        // found channel format, generate block formats for it
        ADMAudioBlockFormat   *bf;
        uint_t i;

        for (i = 0; i < 20; i++)
        {
          if ((bf = adm->CreateBlockFormat(cf)) != NULL)
          {
            AudioObjectParameters params;
            Position pos;
              
            // set start time to be index * 25ms
            bf->SetRTime(i * 25000000);
            // set duration to be 25ms
            bf->SetDuration(25000000);

            pos.polar  = true;
            pos.pos.az = fmod((double)(t + i) * 20.0, 360.0);
            pos.pos.el = (double)i / (double)ntracks * 60.0;
            pos.pos.d  = 1.0;
            params.SetPosition(pos);

            params.SetGain(2.0);
            params.SetWidth(5.0);
            params.SetHeight(10.0);
            params.SetDepth(15.0);
            params.SetDiffuseness(20.0);
            params.SetDelay(25.0);
            params.SetObjectImportance(5);
            params.SetChannelImportance(2);
            params.SetDialogue(1);
            params.SetChannelLock(true);
            params.SetInteract(true);
            params.SetInterpolate(true);
            params.SetInterpolationTimeS(5.2);
            params.SetOnScreen(true);
            ParameterSet othervalues = params.GetOtherValues();
            params.SetOtherValues(othervalues.Set("other1", 1).Set("other2", "2"));

            // set object parameters
            bf->GetObjectParameters() = params;
          }
          else fprintf(stderr, "Failed to create audioBlockFormat (t: %u, i: %u)\n", t, i);
        }
      }
      else
      {
        // this will only occur in the case of an error
        fprintf(stderr, "Unable to find channel format '%s'\n", names.channelFormatName.c_str());
      }
    }

    // finalise ADM
    adm->Finalise();
    
    // output ADM
    printf("XML:\n%s", adm->GetAxml().c_str());
  }

  return 0;
}