@Override
public void actionPerformed(final ActionEvent e) {
String name = e.getActionCommand();
PitchEstimationAlgorithm newAlgo = PitchEstimationAlgorithm.valueOf(name);
algo = newAlgo;
if (currentFile != null) {
estimationDispatcher.stop();
sourceDispatcher.stop();
startFile(currentFile);
}
}
protected void startFile(File file) {
currentFile = file;
AudioFormat format;
try {
format = AudioSystem.getAudioFileFormat(file).getFormat();
float samplerate = format.getSampleRate();
int size = 1024;
int overlap = 0;
PitchResyntheziser prs = new PitchResyntheziser(samplerate);
estimationGain = new GainProcessor(estimationGainSlider.getValue() / 100.0);
estimationDispatcher = AudioDispatcher.fromFile(file, size, overlap);
estimationDispatcher.addAudioProcessor(new PitchProcessor(algo, samplerate, size, prs));
estimationDispatcher.addAudioProcessor(estimationGain);
estimationDispatcher.addAudioProcessor(new AudioPlayer(format));
sourceGain = new GainProcessor(sourceGainSlider.getValue() / 100.0);
sourceDispatcher = AudioDispatcher.fromFile(file, size, overlap);
sourceDispatcher.addAudioProcessor(sourceGain);
sourceDispatcher.addAudioProcessor(new AudioPlayer(format));
new Thread(estimationDispatcher).start();
new Thread(sourceDispatcher).start();
} catch (UnsupportedAudioFileException e) {
// TODO Auto-generated catch block
e.printStackTrace();
} catch (IOException e) {
// TODO Auto-generated catch block
e.printStackTrace();
} catch (LineUnavailableException e) {
// TODO Auto-generated catch block
e.printStackTrace();
}
}
private void setNewMixer(Mixer mixer)
throws LineUnavailableException, UnsupportedAudioFileException {
if (dispatcher != null) {
dispatcher.stop();
}
if (fileName == null) {
final AudioFormat format = new AudioFormat(sampleRate, 16, 1, true, false);
final DataLine.Info dataLineInfo = new DataLine.Info(TargetDataLine.class, format);
TargetDataLine line;
line = (TargetDataLine) mixer.getLine(dataLineInfo);
final int numberOfSamples = bufferSize;
line.open(format, numberOfSamples);
line.start();
final AudioInputStream stream = new AudioInputStream(line);
// create a new dispatcher
dispatcher = new AudioDispatcher(stream, bufferSize, overlap);
} else {
try {
File audioFile = new File(fileName);
dispatcher = AudioDispatcher.fromFile(audioFile, bufferSize, overlap);
AudioFormat format = AudioSystem.getAudioFileFormat(audioFile).getFormat();
dispatcher.addAudioProcessor(new AudioPlayer(format));
} catch (IOException e) {
// TODO Auto-generated catch block
e.printStackTrace();
}
}
currentMixer = mixer;
// add a processor, handle pitch event.
dispatcher.addAudioProcessor(new PitchProcessor(algo, sampleRate, bufferSize, this));
dispatcher.addAudioProcessor(fftProcessor);
// run the dispatcher (on a new thread).
new Thread(dispatcher, "Audio dispatching").start();
}
@Ignore
@Test
public void testSilenceWriter()
throws UnsupportedAudioFileException, InterruptedException, LineUnavailableException,
FileNotFoundException {
float sampleRate = 44100;
int bufferSize = 1024;
int overlap = 0;
// available mixers
int index = 0;
int selectedMixerIndex = 4;
for (Mixer.Info mixer : AudioSystem.getMixerInfo()) {
System.out.println(index + ": " + Shared.toLocalString(mixer));
index++;
}
Mixer.Info selectedMixer = AudioSystem.getMixerInfo()[selectedMixerIndex];
System.out.println("Selected mixer: " + Shared.toLocalString(selectedMixer));
// open a line
final Mixer mixer = AudioSystem.getMixer(selectedMixer);
final AudioFormat format = new AudioFormat(sampleRate, 16, 1, true, true);
final DataLine.Info dataLineInfo = new DataLine.Info(TargetDataLine.class, format);
TargetDataLine line;
line = (TargetDataLine) mixer.getLine(dataLineInfo);
final int numberOfSamples = bufferSize;
line.open(format, numberOfSamples);
line.start();
final AudioInputStream stream = new AudioInputStream(line);
// create a new dispatcher
AudioDispatcher dispatcher = new AudioDispatcher(stream, bufferSize, overlap);
WaveformWriter writer = new WaveformWriter(format, "01.file.wav");
// add a processor, handle percussion event.
dispatcher.addAudioProcessor(new SilenceDetector());
dispatcher.addAudioProcessor(writer);
// run the dispatcher (on the same thread, use start() to run it on
// another thread).
new Thread(dispatcher).start();
Thread.sleep(3000);
dispatcher.removeAudioProcessor(writer);
writer = new WaveformWriter(format, "02.file.wav");
dispatcher.addAudioProcessor(writer);
Thread.sleep(3000);
dispatcher.stop();
}
private void run(String[] args)
throws UnsupportedAudioFileException, IOException, IllegalArgumentException,
LineUnavailableException {
PitchEstimationAlgorithm algo = PitchEstimationAlgorithm.FFT_YIN;
String inputFile = args[0];
String outputFile = null;
String combinedFile = null;
if (args.length == 3 && args[0].equalsIgnoreCase("--detector")) {
algo = PitchEstimationAlgorithm.valueOf(args[1].toUpperCase());
inputFile = args[2];
} else if (args.length == 3 && args[0].equalsIgnoreCase("--output")) {
outputFile = args[1];
inputFile = args[2];
} else if (args.length == 5
&& args[0].equalsIgnoreCase("--detector")
&& args[2].equalsIgnoreCase("--output")) {
algo = PitchEstimationAlgorithm.valueOf(args[1].toUpperCase());
outputFile = args[3];
inputFile = args[4];
} else if (args.length == 7
&& args[0].equalsIgnoreCase("--detector")
&& args[2].equalsIgnoreCase("--output")
&& args[4].equalsIgnoreCase("--combined")) {
algo = PitchEstimationAlgorithm.valueOf(args[1].toUpperCase());
outputFile = args[3];
combinedFile = args[5];
inputFile = args[6];
} else if (args.length != 1) {
printError();
SharedCommandLineUtilities.printLine();
System.err.println("Current error:");
System.err.println(
"\tThe command expects the options in the specified order, the current command is not parsed correctly!");
return;
}
File audioFile = new File(inputFile);
AudioFormat format = AudioSystem.getAudioFileFormat(audioFile).getFormat();
float samplerate = format.getSampleRate();
int size = 1024;
int overlap = 0;
PitchResyntheziser prs = new PitchResyntheziser(samplerate);
AudioDispatcher dispatcher = AudioDispatcher.fromFile(audioFile, size, overlap);
dispatcher.addAudioProcessor(new PitchProcessor(algo, samplerate, size, prs));
if (outputFile != null) {
dispatcher.addAudioProcessor(new WaveformWriter(format, outputFile));
} else {
dispatcher.addAudioProcessor(new AudioPlayer(format));
}
dispatcher.addAudioProcessor(
new AudioProcessor() {
@Override
public void processingFinished() {}
@Override
public boolean process(AudioEvent audioEvent) {
System.err.print(String.format("%3.0f %%", audioEvent.getProgress() * 100));
System.err.print(String.format("\b\b\b\b\b", audioEvent.getProgress()));
return true;
}
});
dispatcher.run();
if (combinedFile != null) {
combineTwoMonoAudioFilesInTwoChannels(inputFile, outputFile, combinedFile);
}
}
