Exemplo n.º 1
0
bool MidiInputController::enablePort(int portNumber) {
    if(portNumber < 0)
        return false;

    try {
        MidiInputCallback *callback = new MidiInputCallback;
        RtMidiIn *rtMidiIn = new RtMidiIn;

        cout << "Enabling MIDI port " << portNumber << " (" << rtMidiIn->getPortName(portNumber) << ")\n";

        rtMidiIn->openPort(portNumber);				// Open the port
        rtMidiIn->ignoreTypes(true, true, true);	// Ignore sysex, timing, active sensing

        callback->controller = this;
        callback->midiIn = rtMidiIn;
        callback->inputNumber = portNumber;

        rtMidiIn->setCallback(MidiInputController::rtMidiStaticCallback, callback);

        activePorts_[portNumber] = callback;
    }
    catch(...) {
        return false;
    }

    return true;
}
Exemplo n.º 2
0
int main(int argc, char** argv)
{

  if (argc != 2) {
    printf("Usage: synth file.sf2\n");
    exit(0);
  }

  LightFluidSynth *usynth;

  usynth = new LightFluidSynth();

  usynth->loadSF2(argv[1]);
//  usynth->loadSF2("tim.sf2");

  RtMidiIn *midiIn = new RtMidiIn();
  if (midiIn->getPortCount() == 0) {
    std::cout << "No MIDI ports available!\n";
  }
  midiIn->openPort(0);
  midiIn->setCallback( &midiCallback, (void *)usynth );
  midiIn->ignoreTypes( false, false, false );

//   RtAudio dac(RtAudio::LINUX_PULSE);
  RtAudio dac;
  RtAudio::StreamParameters rtParams;

  // Determine the number of devices available
  unsigned int devices = dac.getDeviceCount();
  // Scan through devices for various capabilities
  RtAudio::DeviceInfo info;
  for ( unsigned int i = 0; i < devices; i++ ) {
    info = dac.getDeviceInfo( i );
    if ( info.probed == true ) {
      std::cout << "device " << " = " << info.name;
      std::cout << ": maximum output channels = " << info.outputChannels << "\n";
    }
  }
//  rtParams.deviceId = 3;
  rtParams.deviceId = dac.getDefaultOutputDevice();
  rtParams.nChannels = 2;
  unsigned int bufferFrames = FRAME_SIZE;

  RtAudio::StreamOptions options;
  options.flags = RTAUDIO_SCHEDULE_REALTIME;

  dac.openStream( &rtParams, NULL, AUDIO_FORMAT, SAMPLE_RATE, &bufferFrames, &audioCallback, (void *)usynth, &options );
  dac.startStream();

  printf("\n\nPress Enter to stop\n\n");
  cin.get();
  dac.stopStream();

  delete(usynth);
  return 0;
}
void midiInfo()
{
    cout << "MIDI INFO port = " << portopt << endl;

    std::vector<unsigned char> message;
    double stamp;
    int nBytes;
    int i;

#ifdef MARSYAS_MIDIIO  
    RtMidiIn *midiin = NULL;  
    try {
        midiin = new RtMidiIn();
    }
    catch (RtError3 &error) {
        error.printMessage();
        exit(1);
    }


    try {
        midiin->openPort(portopt);
    }
    catch (RtError3 &error) {
        error.printMessage();
        exit(1);

    }

    // Don't ignore sysex, timing, or active sensing messages.
    midiin->ignoreTypes( false, false, false ); 


    while(1) 

    {  

        stamp = midiin->getMessage( &message );
        nBytes = message.size();
        if (nBytes >0)
        {

            for ( i=0; i<nBytes; i++ )
                std::cout << "Byte " << i << " = " << (int)message[i] << ", ";
            if ( nBytes > 0 )
                std::cout << "stamp = " << stamp << '\n';
        }

        usleep(10);

    }

#endif

}
Exemplo n.º 4
0
static VALUE rtMidiIn_connect(VALUE self, VALUE port)
{
	RtMidiIn *device;
	Data_Get_Struct(self, RtMidiIn, device);
	
	try {
		device->openPort(NUM2INT(port));
		device->ignoreTypes( false, false, false );
	}
	catch(RtError &error)
	{
		rb_warn("could not open port");
		return Qfalse;
	}
	
	return Qtrue;
}
Exemplo n.º 5
0
    /* returns 0 on failure */
    int
    start_midi(int port)
    {
        if(midi.getPortCount() < 1) {
            std::cout << "No MIDI ports available!\n";
            return 0;
        }

        try {
            midi.openPort(port);
        } catch(RtError &error) {
            return 0;
        }

        // don't ignore sysex, timing, or active sensing messages
        midi.ignoreTypes(false, false, false);

        return 1;
    }
Exemplo n.º 6
0
//-----------------------------------------------------------------------------
// name: main()
// desc: entry point
//-----------------------------------------------------------------------------
int main( int argc, char ** argv )
{

 RtMidiIn *midiin = new RtMidiIn();

  // Check available ports.
  unsigned int nPorts = midiin->getPortCount();
  if ( nPorts == 0 ) {
    std::cout << "No ports available!\n";
    //goto cleanup;
  }

  midiin->openPort( 0 );

  // Set our callback function.  This should be done immediately after
  // opening the port to avoid having incoming messages written to the
  // queue.
  midiin->setCallback( &mycallback );

  // Don't ignore sysex, timing, or active sensing messages.
  midiin->ignoreTypes( false, false, false );

  std::cout << "\nReading MIDI input ... press <enter> to quit.\n";
  char input;
  std::cin.get(input);


    // instantiate RtAudio object
    RtAudio audio;
    // variables
    unsigned int bufferBytes = 0;
    // frame size
    unsigned int numFrames = 512;
    
    // check for audio devices
    if( audio.getDeviceCount() < 1 )
    {
        // nopes
        cout << "no audio devices found!" << endl;
        exit( 1 );
    }
    
    // let RtAudio print messages to stderr.
    audio.showWarnings( true );
    
    // set input and output parameters
    RtAudio::StreamParameters iParams, oParams;
    iParams.deviceId = audio.getDefaultInputDevice();
    iParams.nChannels = MY_CHANNELS;
    iParams.firstChannel = 0;
    oParams.deviceId = audio.getDefaultOutputDevice();
    oParams.nChannels = MY_CHANNELS;
    oParams.firstChannel = 0;
    
    // create stream options
    RtAudio::StreamOptions options;
    
    // go for it
    try {
        // open a stream
        audio.openStream( &oParams, &iParams, MY_FORMAT, MY_SRATE, &numFrames, &callme, NULL, &options );
    }
    catch( RtError& e )
    {
        // error!
        cout << e.getMessage() << endl;
        exit( 1 );
    }
    
    // compute
    bufferBytes = numFrames * MY_CHANNELS * sizeof(SAMPLE);
    
    // test RtAudio functionality for reporting latency.
    cout << "stream latency: " << audio.getStreamLatency() << " frames" << endl;
    
    for( int i = 0; i < MY_NUMSTRINGS; i++ )
    {
        // intialize
        g_ks[i].init( MY_SRATE*2, 440, MY_SRATE );
	
    }
    
    // go for it
    try {
        // start stream
        audio.startStream();
	char input;
        std::cout << "Press any key to quit ";
	std::cin.get(input);
        
        // stop the stream.
        audio.stopStream();
    }
    catch( RtError& e )
    {
        // print error message
        cout << e.getMessage() << endl;
        goto cleanup;
    }
    
cleanup:
    // close if open
    if( audio.isStreamOpen() )
        audio.closeStream();
    delete midiin;
    
    // done
    return 0;
}
Exemplo n.º 7
0
value rtmidi_in_ignoretypes(value obj, value sysex, value time, value sense) {
  RtMidiIn *midiin = (RtMidiIn *)(intptr_t)val_float(obj);
  midiin->ignoreTypes(val_bool(sysex), val_bool(time), val_bool(sense));
  return alloc_null();
}
Exemplo n.º 8
0
int main( int argc, char *argv[] )
{
  RtMidiIn *midiin = 0;
  std::vector<unsigned char> message;
  int nBytes, i;
  double stamp;

  // Minimal command-line check.
  if ( argc > 2 ) usage();

  // RtMidiIn constructor
  try {
    midiin = new RtMidiIn();
  }
  catch ( RtError &error ) {
    error.printMessage();
    exit( EXIT_FAILURE );
  }

  // Check available ports vs. specified.
  unsigned int port = 0;
  unsigned int nPorts = midiin->getPortCount();
  if ( argc == 2 ) port = (unsigned int) atoi( argv[1] );
  if ( port >= nPorts ) {
    delete midiin;
    std::cout << "Invalid port specifier!\n";
    usage();
  }

  try {
    midiin->openPort( port );
  }
  catch ( RtError &error ) {
    error.printMessage();
    goto cleanup;
  }

  // Don't ignore sysex, timing, or active sensing messages.
  midiin->ignoreTypes( false, false, false );

  // Install an interrupt handler function.
  done = false;
  (void) signal(SIGINT, finish);

  // Periodically check input queue.
  std::cout << "Reading MIDI from port ... quit with Ctrl-C.\n";
  while ( !done ) {
    stamp = midiin->getMessage( &message );
    nBytes = message.size();
    for ( i=0; i<nBytes; i++ )
      std::cout << "Byte " << i << " = " << (int)message[i] << ", ";
    if ( nBytes > 0 )
      std::cout << "stamp = " << stamp << std::endl;

    // Sleep for 10 milliseconds.
    SLEEP( 10 );
  }

  // Clean up
 cleanup:
  delete midiin;

  return 0;
}
Exemplo n.º 9
0
int main (int argc, char ** argv)
{
    
    //parse tempo 
    if (argc>2)
    {
        cerr<<"Error in arguments\n";
        printHelp();
        exit(1);
    }
    else if (argc==2) 
    {
        g_tempo = atoi(argv[1]);
        if (g_tempo<40 && g_tempo>200)
        {
            cerr<<"Tempo out of bounds!\n";
            printHelp();
            exit(1);
        }
        tempoChange();
    }
    
    // set up fluid synth stuff
    // TODO: error checking!!!!
    g_settings = new_fluid_settings(); 
    g_synth = new_fluid_synth( g_settings );
    g_metronome = new_fluid_synth( g_settings );  
    
    
    //fluid_player_t* player;
    //player = new_fluid_player(g_synth);
    //fluid_player_add(player, "backing.mid");
    //fluid_player_play(player);

    
    
    if (fluid_synth_sfload(g_synth, "piano.sf2", 1) == -1)
    {
        cerr << "Error loading sound font" << endl;
        exit(1);
    }
    
    if (fluid_synth_sfload(g_metronome, "drum.sf2", 1) == -1)
    {
        cerr << "Error loading sound font" << endl;
        exit(1);
    }
    
    
    // RtAudio config + init

    // pointer to RtAudio object
    RtMidiIn * midiin = NULL;    
	RtAudio *  audio = NULL;
    unsigned int bufferSize = 512;//g_sixteenth/100;

    // MIDI config + init
    try 
    {
        midiin = new RtMidiIn();
    }
    catch( RtError & err ) {
        err.printMessage();
       // goto cleanup;
    }
    
    // Check available ports.
    if ( midiin->getPortCount() == 0 )
    {
        std::cout << "No ports available!\n";
       // goto cleanup;
    }
    // use the first available port
    if ( midiin->getPortCount() > 2)
        midiin->openPort( 1 );
    else 
        midiin->openPort( 0 );

    // set midi callback
    midiin->setCallback( &midi_callback );

    // Don't ignore sysex, timing, or active sensing messages.
    midiin->ignoreTypes( false, false, false );

    // create the object
    try
    {
        audio = new RtAudio();
        cerr << "buffer size: " << bufferSize << endl;
    }
        catch( RtError & err ) {
        err.printMessage();
        exit(1);
    }

    if( audio->getDeviceCount() < 1 )
    {
        // nopes
        cout << "no audio devices found!" << endl;
        exit( 1 );
    }
        
    // let RtAudio print messages to stderr.
    audio->showWarnings( true );

    // set input and output parameters
    RtAudio::StreamParameters iParams, oParams;
    iParams.deviceId = audio->getDefaultInputDevice();
    iParams.nChannels = 1;
    iParams.firstChannel = 0;
    oParams.deviceId = audio->getDefaultOutputDevice();
    oParams.nChannels = 2;
    oParams.firstChannel = 0;
        
    // create stream options
    RtAudio::StreamOptions options;

    // set the callback and start stream
    try
    {
        audio->openStream( &oParams, &iParams, RTAUDIO_FLOAT32, MY_SRATE, &bufferSize, &audioCallback, NULL, &options);
        audio->startStream();
        
        // test RtAudio functionality for reporting latency.
        cout << "stream latency: " << audio->getStreamLatency() << " frames" << endl;
    }
    catch( RtError & err )
    {
        err.printMessage();
        goto cleanup;
    }

    // wait for user input
    cout << "Type CTRL+C to quit:";
    
    //initialize graphics
    gfxInit(&argc,argv);
    
    // if we get here, stop!
    try
    {
        audio->stopStream();
    }
    catch( RtError & err )
    {
        err.printMessage();
    }

    // Clean up
    cleanup:
    if(audio)
    {
        audio->closeStream();
        delete audio;
    }

    
    return 0;
}