public void setActive(boolean active) {
this.active = active;
Visualizer visualizer = getVizualiser();
if (visualizer == null) {
return;
}
int captureRate = Math.min(PREFERRED_CAPTURE_RATE_MILLIHERTZ, Visualizer.getMaxCaptureRate());
if (active) {
visualizer.setDataCaptureListener(
new Visualizer.OnDataCaptureListener() {
@Override
public void onWaveFormDataCapture(
Visualizer visualizer, byte[] waveform, int samplingRate) {
updateVisualizer(waveform);
}
@Override
public void onFftDataCapture(Visualizer visualizer, byte[] fft, int samplingRate) {}
},
captureRate,
true,
false);
} else {
visualizer.setDataCaptureListener(null, captureRate, false, false);
}
visualizer.setEnabled(active);
invalidate();
}
public VisualizerGLSurfaceView(Context context, int mediaPlayerSessionId) {
super(context);
mWaveformData = null;
mVisualizer = new Visualizer(mediaPlayerSessionId);
mVisualizer.setCaptureSize(Visualizer.getCaptureSizeRange()[1]);
mVisualizer.setDataCaptureListener(this, Visualizer.getMaxCaptureRate(), true, false);
mVisualizer.setEnabled(true);
setEGLContextClientVersion(1);
setRenderer(new VisualizerGLRenderer(this));
}
private void setupVisualizerUI() {
// Create the Visualizer object and attach it to our media player.
mVisualizerView = (VisualizerView) mView.findViewById(R.id.myvisualizerview);
mVisualizer = new Visualizer(mPlayer.getAudioSessionId());
mVisualizer.setCaptureSize(Visualizer.getCaptureSizeRange()[1]);
mVisualizer.setDataCaptureListener(
new Visualizer.OnDataCaptureListener() {
public void onWaveFormDataCapture(Visualizer visualizer, byte[] bytes, int samplingRate) {
mVisualizerView.updateVisualizer(bytes);
}
public void onFftDataCapture(Visualizer visualizer, byte[] bytes, int samplingRate) {}
},
Visualizer.getMaxCaptureRate() / 2,
true,
false);
}
/**
* Links the visualizer to a player
*
* @param player - MediaPlayer instance to link to
*/
public void link(MediaPlayer player) {
if (player == null) {
throw new NullPointerException("Cannot link to null MediaPlayer");
}
// Create the Visualizer object and attach it to our media player.
mVisualizer = new Visualizer(player.getAudioSessionId());
mVisualizer.setCaptureSize(Visualizer.getCaptureSizeRange()[1]);
// Pass through Visualizer data to VisualizerView
Visualizer.OnDataCaptureListener captureListener =
new Visualizer.OnDataCaptureListener() {
@Override
public void onWaveFormDataCapture(
Visualizer visualizer, byte[] bytes, int samplingRate) {
updateVisualizer(bytes);
}
@Override
public void onFftDataCapture(Visualizer visualizer, byte[] bytes, int samplingRate) {
updateVisualizerFFT(bytes);
}
};
mVisualizer.setDataCaptureListener(
captureListener, Visualizer.getMaxCaptureRate() / 2, true, true);
// Enabled Visualizer and disable when we're done with the stream
mVisualizer.setEnabled(true);
player.setOnCompletionListener(
new MediaPlayer.OnCompletionListener() {
@Override
public void onCompletion(MediaPlayer mediaPlayer) {
mVisualizer.setEnabled(false);
}
});
}
@Override
protected Void doInBackground(Void... arg0) {
if (MainActivity.analyzeMode) {
// RECORD FROM MICROPHONE
try {
// SET UP AUDIORECORDER
int bufferSize =
AudioRecord.getMinBufferSize(frequency, channelConfiguration, audioEncoding);
AudioRecord audioRecord =
new AudioRecord(
MediaRecorder.AudioSource.VOICE_RECOGNITION,
frequency,
channelConfiguration,
audioEncoding,
bufferSize);
short[] buffer = new short[blockSize];
double[] toTransform = new double[blockSize];
audioRecord.startRecording();
// RECORDS AUDIO & PERFORMS FFT
while (started) {
int bufferReadResult = audioRecord.read(buffer, 0, blockSize);
for (int i = 0; i < blockSize && i < bufferReadResult; i++) {
toTransform[i] = (double) buffer[i] / 32768.0; // / 32768.0
}
transformer.ft(toTransform);
// getAvg(toTransform);
getFrequency(toTransform, 0, 1, 2);
// getFrequency(toTransform, 1, 0, 2);
// getFrequency(toTransform, 2, 1, 0);
publishProgress(toTransform);
}
audioRecord.stop();
} catch (Throwable t) {
t.printStackTrace();
Log.e("AudioRecord", "Recording Failed");
}
} else { // RECORD FROM SOUND MIX
// SETS UP VISUALIZER
visualizer = new Visualizer(0);
visualizer.setEnabled(false);
int capRate = Visualizer.getMaxCaptureRate();
visualizer.setCaptureSize(Visualizer.getCaptureSizeRange()[1]);
// USES VISUALIZER TO RETURN AUDIO & THEN PERFORMS FFT
Visualizer.OnDataCaptureListener captureListener =
new Visualizer.OnDataCaptureListener() {
public void onWaveFormDataCapture(
Visualizer visualizer, byte[] bytes, int samplingRate) {
double[] toTransform = new double[blockSize];
for (int i = 0; i < bytes.length; i++) {
toTransform[i] = (double) (bytes[i]) / 8192.0; // 32768.0
}
transformer.ft(toTransform);
// getAvg(toTransform);
getFrequency(toTransform, 0, 1, 2);
publishProgress(toTransform);
}
public void onFftDataCapture(Visualizer visualizer, byte[] bytes, int samplingRate) {}
};
int status =
visualizer.setDataCaptureListener(
captureListener, capRate, true /*wave*/, false /*no fft needed*/);
visualizer.setScalingMode(Visualizer.SCALING_MODE_AS_PLAYED);
visualizer.setEnabled(true);
}
return null;
}
