Пример #1
0
//******************************************
// Compute the value that will not change
// (duration)
// and init the entries for current bitrate
//******************************************
void prepare( void )
{
#if 0
	float duration=0;
	aviInfo info;
	char string[200];
	 uint16_t mm,hh,ss,ms;
         AVDMGenericAudioStream *stream;

	 if(frameStart<frameEnd) numberOfVideoFrames=frameEnd-frameStart;
	 else			 numberOfVideoFrames=frameStart-frameEnd;



	duration=(float)video_body->getTime (numberOfVideoFrames);
	duration=duration/1000.;

	if(duration<0) duration=-duration;

	video_body->getVideoInfo(&info);

	videoDuration=(uint32_t)ceil(duration);
	frame2time(numberOfVideoFrames,info.fps1000, &hh, &mm, &ss, &ms);
	// now we can set it
	sprintf(string,"%02d:%02d:%02d",hh,mm,ss);
	gtk_label_set_text(GTK_LABEL(GW(labelDuration),string);

	printf("Video duration :%lu\n",videoDuration);

	// Now get audio info
	track1=0;
	if(audioProcessMode() && currentaudiostream)
	{
//		stream=buildAudioFilter(currentaudiostream,0);

		if(stream)
		{
			track1=(stream->getInfo()->byterate*8)/1000;
		}
//                deleteAudioFilter(stream);
	}else
	{
		if(currentaudiostream) track1=(currentaudiostream->getInfo()->byterate*8)/1000;
	}

	track2=0;
	gtk_spin_button_set_value(GTK_SPIN_BUTTON(GW(spinbuttonTrack1)), track1);
	gtk_spin_button_set_value(GTK_SPIN_BUTTON(GW(spinbuttonTrack2)), track2);

	printf("Track1 bitrate :%lu\n",track1);
	printf("Track2 bitrate :%lu\n",track2);

#endif

}
Пример #2
0
calculatorDialog::calculatorDialog(QWidget* parent) : QDialog(parent)
{
    ui.setupUi(this);

    connect(ui.formatComboBox, SIGNAL(currentIndexChanged(int)), this, SLOT(comboBox_currentIndexChanged(int)));
    connect(ui.mediumComboBox, SIGNAL(currentIndexChanged(int)), this, SLOT(mediumComboBox_currentIndexChanged(int)));
    connect(ui.customSizeSpinBox, SIGNAL(valueChanged(int)), this, SLOT(spinBox_valueChanged(int)));
    connect(ui.audioTrack1SpinBox, SIGNAL(valueChanged(int)), this, SLOT(spinBox_valueChanged(int)));
    connect(ui.audioTrack2SpinBox, SIGNAL(valueChanged(int)), this, SLOT(spinBox_valueChanged(int)));

    float duration = 0;
    aviInfo info;
    uint16_t mm, hh, ss, ms;
    unsigned int track1 = 0;

    if (frameStart < frameEnd)
        _videoFrameCount = frameEnd - frameStart;
    else
        _videoFrameCount = frameStart - frameEnd;

    duration = ((float)video_body->getTime(_videoFrameCount) / 1000.);

    if (duration < 0)
        duration = -duration;

    _videoDuration = (uint32_t)ceil(duration);

    video_body->getVideoInfo(&info);
    frame2time(_videoFrameCount, info.fps1000, &hh, &mm, &ss, &ms);

    ui.durationLabel->setText(QString("%1:%2:%3").arg(hh, 2, 10, QLatin1Char('0')).arg(mm, 2, 10, QLatin1Char('0')).arg(ss, 2, 10, QLatin1Char('0')));

    if (audioProcessMode() && currentaudiostream)
    {
        AVDMGenericAudioStream *stream ; //= buildAudioFilter(currentaudiostream, 0);

        if (stream)
            track1 = (stream->getInfo()->byterate * 8) / 1000;

//		deleteAudioFilter(stream);
    }
    else if(currentaudiostream)
        track1 = (currentaudiostream->getInfo()->byterate * 8) / 1000;

    ui.audioTrack1SpinBox->setValue(track1);

    update();
}
Пример #3
0
uint8_t ADM_Composer::audioGoTo (uint32_t offset)
{
  uint32_t
    seg,
    ref;			//, sz;
  AVDMGenericAudioStream *
    as;

    aprintf("************Editor: audio go to : seg %lu offset %lu \n",_audioseg,_audiooffset);
  seg = 0;
  while (1)
    {
      ref = _segments[seg]._reference;
      as = _videos[ref]._audiostream;
      if (!as)
	return 0;

      if (_segments[seg]._audio_size < offset)
	{
	  offset -= _segments[seg]._audio_size;
	  seg++;
	  if (seg >= _nb_segment)
	    return 0;
	  continue;
	}
      // we are in the right seg....
      else
	{
	  _audioseg = seg;
	  _audiooffset = offset + _segments[seg]._audio_start;
	  as->goToSync (_audiooffset);
	  return 1;
	}

    }

  return 0;
}
Пример #4
0
uint8_t oplug_mpegff(const char *name, ADM_OUT_FORMAT type)
{
AVDMGenericVideoStream *_incoming;
//EncoderFFMPEGMpeg1  *encoder;
Encoder  *encoder;

ADMMpegMuxer	*muxer=NULL;
FILE 		*file=NULL;
uint8_t		audioBuffer[48000];
uint32_t	audioLen=0;
uint32_t _w,_h,_fps1000,_page,total;	
AVDMGenericAudioStream	*audio;
uint32_t len,flags;
uint32_t size;
ADM_MUXER_TYPE mux;
uint32_t  audio_encoding=0;
uint32_t  real_framenum=0;
uint8_t   ret=0;
uint32_t  sample_target=0;
uint32_t  total_sample=0;
ADMBitstream bitstream(0);
uint32_t audioSum=0;

        twoPass=new char[strlen(name)+6];
        twoFake=new char[strlen(name)+6];
  
        strcpy(twoPass,name);
        strcat(twoPass,".stat");
        /* orig: strcat(twoFake,".fake"); */

        strcpy(twoFake,name);
        strcat(twoFake,".fake");
 
        _incoming = getLastVideoFilter (frameStart,frameEnd-frameStart);
        _w=_incoming->getInfo()->width;
        _h=_incoming->getInfo()->height;
        _fps1000=_incoming->getInfo()->fps1000;
        _page=_w*_h;
        _page+=_page>>1;

        total=_incoming->getInfo()->nb_frames;
        if(!total) return 0;	
        
        switch(type)
        {
            default:
                    ADM_assert(0);
            case ADM_ES:
                        // Else open file (if possible)                       
                        mux=MUXER_NONE;
                        break;
            case ADM_TS:
                    if(!currentaudiostream)
                    {
                      GUI_Error_HIG(_("There is no audio track"), NULL);
                        return 0;
                    }
                    audio=mpt_getAudioStream();
                    mux=MUXER_TS;
                    break;
            case ADM_PS:
            
            {
                if(!currentaudiostream)
                {
                  GUI_Error_HIG(_("There is no audio track"), NULL);
                        return 0;
                }
                audio=mpt_getAudioStream();
                // Have to check the type
                // If it is mpeg2 we use DVD-PS
                // If it is mpeg1 we use VCD-PS
                // Later check if it is SVCD
                if(!audio)
                {
                  GUI_Error_HIG(_("Audio track is not suitable"), NULL);
                        return 0;
                }
                // Check
                WAVHeader *hdr=audio->getInfo();	
                audio_encoding=hdr->encoding;
                if(current_codec==CodecXVCD ||current_codec==CodecVCD)
                {
                        if(hdr->frequency!=44100 ||  hdr->encoding != WAV_MP2)
                        {
                            GUI_Error_HIG(("Incompatible audio"),_( "For VCD, audio must be 44.1 kHz MP2."));
                            deleteAudioFilter(audio);
                            return 0;
                        }
                        mux=MUXER_VCD;
                        printf("X*CD: Using VCD PS\n");
                }else
                {    
                        aviInfo info;
                        video_body->getVideoInfo(&info);
                        if(hdr->frequency==44100 && _w==480&&hdr->encoding == WAV_MP2 ) // SVCD ?
                        {
                            mux=MUXER_SVCD;
                            printf("X*VCD: Using SVCD PS\n");
                        }
                        else
                        {
                            // mpeg2, we do only DVD right now
                            if(hdr->frequency!=48000 || 
                                (hdr->encoding != WAV_MP2 && hdr->encoding!=WAV_AC3 && hdr->encoding!=WAV_LPCM))
                            {
                                deleteAudioFilter(audio);
                                GUI_Error_HIG(_("Incompatible audio"), _("For DVD, audio must be 48 kHz MP2, AC3 or LPCM."));
                                return 0 ;
                            }
                            mux=MUXER_DVD;
                            printf("X*VCD: Using DVD PS\n");
                        }
                }
            }
         }        
        // Create muxer
       
       
        switch(current_codec)
        {
                
                case CodecXVCD:
                        encoder=new EncoderFFMPEGMpeg1(FF_MPEG1,&ffmpeg1Codec);
                        printf("\n Using ffmpeg mpeg1 encoder\n");
                        break;
                case CodecXSVCD:
                        encoder=new EncoderFFMPEGMpeg1(FF_MPEG2,&ffmpeg2SVCDCodec);
                        printf("\n Using ffmpeg mpeg2 encoder\n");
                        break;
                case CodecXDVD:
                        encoder=new EncoderFFMPEGMpeg1(FF_MPEG2,&ffmpeg2DVDCodec);
                        printf("\n Using ffmpeg mpeg2 encoder (DVD)\n");
                        break;
                case CodecDVD:
                  encoder=new EncoderMpeg2enc(MPEG2ENC_DVD,&DVDCodec);
                  printf("\n Using mpeg2enc encoder (DVD)\n");
                  break;
                case CodecRequant:
                  if(!isMpeg12Compatible(avifileinfo->fcc))
                  {
                    GUI_Error_HIG("Incompatible Input","The input file must be mpeg2 to be able to use requant!");
                    return 0; // Fixme, do some cleanup 
                  }
                  encoder=new EncoderRequant(&RequantCodec);
                  printf("\n Using mpeg2 requant\n");
                  break;
                break;
                case CodecSVCD:
                  encoder=new EncoderMpeg2enc(MPEG2ENC_SVCD,&SVCDCodec);
                  printf("\n Using mpeg2enc encoder (SVCD)\n");
                  break;
                case CodecVCD:
                  encoder=new EncoderMpeg2enc(MPEG2ENC_VCD,&VCDCodec);
                  printf("\n Using mpeg2enc encoder (VCD)\n");
                  break;
                default:
                ADM_assert(0);
      }

      encoder->setLogFile(twoPass,total);
      if(!encoder->configure(_incoming))
      {
              delete encoder;
              return 0;
      }


      _buffer=new uint8_t[_page]; // Might overflow if _page only
      _outbuffer=new uint8_t[_page];

      ADM_assert(  _buffer);
      ADM_assert(  _outbuffer);
    
      DIA_encoding  *encoding;
      encoding =new DIA_encoding(_fps1000);
      switch(current_codec)
      {
          case CodecVCD:
            encoding->setCodec("libmpeg2enc VCD");
            break;
          case CodecSVCD:
            encoding->setCodec("libmpeg2enc SVCD");
            break;
          case CodecDVD:
            encoding->setCodec("libmpeg2enc DVD");
            break;
          case CodecXVCD:
            encoding->setCodec("FFmpeg Mpeg1 VBR");
            break;
          case CodecXSVCD:
            encoding->setCodec("FFmpeg Mpeg2 SVCD VBR");
            break;
          case CodecXDVD:
            encoding->setCodec("FFmpeg Mpeg2 DVD VBR");
            break;
          case CodecRequant:
            encoding->setCodec("Mpeg Requantizer");
            break;
          
          default:
            ADM_assert(0);
	}
        switch(mux)
          {
            case MUXER_NONE:encoding->setContainer("Mpeg ES");break;
            case MUXER_TS:  encoding->setContainer("Mpeg TS");break;
            case MUXER_VCD: encoding->setContainer("Mpeg VCD");break;
            case MUXER_SVCD:encoding->setContainer("Mpeg SVCD");break;
            case MUXER_DVD: encoding->setContainer("Mpeg DVD");break;
            default:
                ADM_assert(0);
          }



        // pass 1
        if(encoder->isDualPass())
        {
                        FILE *fd;
                        uint8_t reuse=0;
                        fd=fopen(twoPass,"rt");
                        if(fd)
                        {
                          if(GUI_Question(_("Reuse log file ?")))
                                {
                                        reuse=1;
                                }
                                fclose(fd);
                        }
                        if(!reuse)
                        {
                                encoding->setPhasis ("Pass 1/2");
                                encoder->startPass1();
                                bitstream.data=_buffer;
                                bitstream.bufferSize=_page;
                                for(uint32_t i=0;i<total;i++)
                                {
                                        bitstream.cleanup(i);
                                        if(!encoder->encode( i, &bitstream))//&len,(uint8_t *) _buffer,&flags))
                                        {
                                          GUI_Error_HIG(_("Error in pass 1"), NULL);
                                        }
                                        encoding->setFrame(i,bitstream.len,bitstream.out_quantizer,total);
                                        if(!encoding->isAlive())
                                        {

                                              goto finishvcdff;
                                        }
                                }
                        }
                        encoder->startPass2();
                        encoding->reset();
                }
                
              switch(type)
              {
                case ADM_PS:
                  muxer=new mplexMuxer;
                  break;
                case ADM_TS:
                  muxer=new tsMuxer;
                  break;
                case ADM_ES:
                  break;
                default:
                  ADM_assert(0);
      
      
              }
              if(muxer)
              {
                if(!muxer->open(name,0,mux,avifileinfo,audio->getInfo()))
                {
                  delete muxer;
                  muxer=NULL;
                  deleteAudioFilter(audio);
                  printf("Muxer init failed\n");
                  return 0 ;
                }
                double sample_time;

                sample_time=total;
                sample_time*=1000;
                sample_time/=_fps1000; // target_time in second
                sample_time*=audio->getInfo()->frequency;
                sample_target=(uint32_t)floor(sample_time);
              }
              else
              {
                file=fopen(name,"wb");
                if(!file)
                {
                  GUI_Error_HIG(_("File error"), _("Cannot open \"%s\" for writing."), name);
                  return 0 ;
                }
              }
          if(encoder->isDualPass())
                  encoding->setPhasis ("Pass 2/2");
          else
                  encoding->setPhasis ("Encoding");

         // Set info for audio if any
         if(muxer)
         {
            if(!audioProcessMode())
                  encoding->setAudioCodec("Copy");
            else
                  encoding->setAudioCodec(getStrFromAudioCodec(audio->getInfo()->encoding));
         }
         //**********************************************************
         //  In that case we do multithreadedwriting (yes!)
         //**********************************************************

         if(mux==MUXER_DVD || mux==MUXER_SVCD || mux==MUXER_VCD)
         {
           pthread_t audioThread,videoThread,muxerThread;
           muxerMT context;
           //
           bitstream.data=_outbuffer;
           bitstream.bufferSize=_page;
           // 
           memset(&context,0,sizeof(context));
           context.videoEncoder=encoder;
           context.audioEncoder=audio;
           context.muxer=(mplexMuxer *)muxer;
           context.nbVideoFrame=total;
           context.audioTargetSample=sample_target;
           context.audioBuffer=audioBuffer;
           context.bitstream=&bitstream;
           context.opaque=(void *)encoding;

           // start audio thread
           ADM_assert(!pthread_create(&audioThread,NULL,(THRINP)defaultAudioSlave,&context)); 
           ADM_assert(!pthread_create(&videoThread,NULL,(THRINP)defaultVideoSlave,&context)); 
           while(1)
           {
             accessMutex.lock();
             if(!encoding->isAlive())
             {
               context.audioAbort=1;
               context.videoAbort=1;
               printf("[mpegFF]Waiting for slaves\n");
               accessMutex.unlock();
               while(1)
               {
                 accessMutex.lock();
                 if(context.audioDone && context.videoDone)
                 {
                   printf("[mpegFF]Both audio & video done\n");
                   if(context.audioDone==1 && context.videoDone==1) ret=1;
                   else ret=0;
                   accessMutex.unlock();
                   goto finishvcdff;
                 }
                 accessMutex.unlock();
                 ADM_usleep(50000);
 
               }
               
             }
             if(context.audioDone==2 || context.videoDone==2 ) //ERROR
             {
               context.audioAbort=1;
               context.videoAbort=1;
             }
             if(context.audioDone && context.videoDone)
             {
               printf("[mpegFF]Both audio & video done\n");
               if(context.audioDone==1 && context.videoDone==1) ret=1;
               else ret=0;
               accessMutex.unlock();
               goto finishvcdff;
             }
             accessMutex.unlock();
             ADM_usleep(1000*1000);
             
           }
           
         }
         //**********************************************************
         //  NOT MULTITHREADED
         //**********************************************************

      bitstream.data=_outbuffer;
      for(uint32_t i=0;i<total;i++)
      {
       	// get frame
                bitstream.cleanup(i);
                if(!encoder->encode( i,&bitstream))// &len,(uint8_t *) _outbuffer,&flags))
                {
                  GUI_Error_HIG(_("Error in pass 2"), NULL);
                        goto finishvcdff;
                }
                if(!bitstream.len) continue;
                
                if(file)
                {
                    fwrite(_outbuffer,bitstream.len,1,file);
                }
                else
                {
                        uint32_t samples; 
                        
                        //printf("%lu %lu\n",i,dts);
                        
                        muxer->writeVideoPacket(&bitstream);
                        real_framenum++;
                        // _muxer->writeVideoPacket(len,_buffer_out,
                        //i-MPEG_PREFILL,_codec->getCodedPictureNumber());
                        if(total_sample<sample_target)
                        {
                            while(muxer->needAudio() && total_sample<sample_target) 
                            {				
                                if(!audio->getPacket(audioBuffer, &audioLen, &samples))	
                                { 
                                        break; 
                                }
                                if(audioLen) 
                                {
                                        muxer->writeAudioPacket(audioLen,audioBuffer); 
                                        total_sample+=samples;
                                        audioSum+=audioLen;
                                }
                            }
                        }
                
                }
                encoding->setFrame(i,bitstream.len,bitstream.out_quantizer,total);
                encoding->setAudioSize(audioSum);
                if(!encoding->isAlive ())
                        {
                                  ret=0;        
                                  goto finishvcdff;
                        }
        }
        ret=1;
finishvcdff:
        printf("[MPEGFF] Finishing..\n");
        delete encoding;
        end();
        if(file)
        {
                fclose(file);
                file=NULL;
        }
        else
        {  
            if(muxer)
            {
                muxer->close();
                delete muxer;
                muxer=NULL;
            }
        }
        delete encoder;
        return ret;
}