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Ok so I have a frequency generator which uses AudioTrack to send PCM data to the hardware. Here's the code I'm using for that:

private class playSoundTask extends AsyncTask<Void, Void, Void> {
  float frequency;
  float increment;
  float angle = 0;
  short samples[] = new short[1024];

  @Override
  protected void onPreExecute() {
   int minSize = AudioTrack.getMinBufferSize( 44100, AudioFormat.CHANNEL_CONFIGURATION_MONO, AudioFormat.ENCODING_PCM_16BIT );        
   track = new AudioTrack( AudioManager.STREAM_MUSIC, 44100, 
     AudioFormat.CHANNEL_CONFIGURATION_MONO, AudioFormat.ENCODING_PCM_16BIT, 
     minSize, AudioTrack.MODE_STREAM);
   track.play();
  }

  @Override
  protected Void doInBackground(Void... params) {
   while( Main.this.isPlaying)
   {
    for( int i = 0; i < samples.length; i++ )
    {
     frequency = (float)Main.this.slider.getProgress();
     increment = (float)(2*Math.PI) * frequency / 44100;
     samples[i] = (short)((float)Math.sin( angle )*Short.MAX_VALUE);
     angle += increment;
    }

    track.write(samples, 0, samples.length);
   }
   return null;
  }
 }

The frequency is tied to a slide bar, and the correct value is being reported in the sample generation loop. Everything is fine and dandy when I start the app. When you drag your finger along the slide bar you get a nice sweeping sound. But after around 10 seconds of playing around with it, the audio starts to get jumpy. Instead of a smooth sweep, it's staggered, and only changes tone around every 1000 Hz or so. Any ideas on what could be causing this?

Here's all the code in case the problem lies somewhere else:

    public class Main extends Activity implements OnClickListener, OnSeekBarChangeListener {
 AudioTrack track;
 SeekBar slider;
 ImageButton playButton;
 TextView display; 

 boolean isPlaying=false;

 /** Called when the activity is first created. */
 @Override
 public void onCreate(Bundle savedInstanceState) {
  super.onCreate(savedInstanceState);
  setContentView(R.layout.main);

  display = (TextView) findViewById(R.id.display);
  display.setText("5000 Hz");

  slider = (SeekBar) findViewById(R.id.slider);
  slider.setMax(20000);
  slider.setProgress(5000);
  slider.setOnSeekBarChangeListener(this);


  playButton = (ImageButton) findViewById(R.id.play);
  playButton.setOnClickListener(this);

 }

 private class playSoundTask extends AsyncTask<Void, Void, Void> {
  float frequency;
  float increment;
  float angle = 0;
  short samples[] = new short[1024];

  @Override
  protected void onPreExecute() {
   int minSize = AudioTrack.getMinBufferSize( 44100, AudioFormat.CHANNEL_CONFIGURATION_MONO, AudioFormat.ENCODING_PCM_16BIT );        
   track = new AudioTrack( AudioManager.STREAM_MUSIC, 44100, 
     AudioFormat.CHANNEL_CONFIGURATION_MONO, AudioFormat.ENCODING_PCM_16BIT, 
     minSize, AudioTrack.MODE_STREAM);
   track.play();
  }

  @Override
  protected Void doInBackground(Void... params) {
   while( Main.this.isPlaying)
   {
    for( int i = 0; i < samples.length; i++ )
    {
     frequency = (float)Main.this.slider.getProgress();
     increment = (float)(2*Math.PI) * frequency / 44100;
     samples[i] = (short)((float)Math.sin( angle )*Short.MAX_VALUE);
     angle += increment;
    }

    track.write(samples, 0, samples.length);
   }
   return null;
  }
 }



 @Override
 public void onProgressChanged(SeekBar seekBar, int progress,
   boolean fromUser) {
  display.setText(""+progress+" Hz");
 }

 public void onClick(View v) {
  if (isPlaying) {
   stop();
  } else {
   start();
  }
 }

 public void stop() {
  isPlaying=false;
  playButton.setImageResource(R.drawable.play);
 }

 public void start() {
  isPlaying=true;
  playButton.setImageResource(R.drawable.stop);
  new playSoundTask().execute();
 }

 @Override
 protected void onResume() {
  super.onResume();

 }

 @Override
 protected void onStop() {
  super.onStop();
  //Store state
  stop();

 }


 @Override
 public void onStartTrackingTouch(SeekBar seekBar) {
  // TODO Auto-generated method stub

 }


 @Override
 public void onStopTrackingTouch(SeekBar seekBar) {
  // TODO Auto-generated method stub

 }
}
share|improve this question
    
not directly answering your question but as a side note, note that there's a known issue with progress bar and streaming: code.google.com/p/android/issues/detail?id=4124 Although your issue not with the progress bar itself but the audio stream. Therefore, not a resolution to your problem, but since you work with audio stream, you should be aware that there is one or more open bugs in it. –  Mathias Lin Jul 22 '10 at 4:35
    
I have exactly the same problem. The bigger the buffer is, the later the jumping starts. In the log I see a lot of very long GCs (GC cleaned 180 objects in 4200ms). I am not doing any allocations. In the DDMS allocation tracker it seems that the AudioTrack itself is doing allocations. Not sure if the GCs have to do with the jumping. Have you resolved this? –  Martin Konicek Feb 26 '11 at 11:35
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3 Answers

I found the cause!

The problem is the size of the AudioTrack's buffer. If you cannot generate samples fast enough, the samples run out, the playback pauses, and continues when there are enough samples again.

The only solution is to make sure that you can generate samples fast enough (44100/s). As a fast fix, try lowering the sampling rate to 22000 (or increasing the size of the buffer).

At least this is how it behaves for me - when I optimized my sample generation routine, the jumping went away.

(Increasing the size of the buffer makes the sound start playing later, as there is some reserve being waited for - until the buffer fills. But still, if you are not generating the samples fast enough, eventually the samples run out).


Oh, and you should put invariant variables outside of the loop! And maybe make the samples array larger, so that the loop runs longer.

short samples[] = new short[4*1024];
...

frequency = (float)Main.this.slider.getProgress();
increment = (float)(2 * Math.PI) * frequency / 44100;
for(int i = 0; i < samples.length; i++)
{
   samples[i] = (short)((float)Math.sin(angle) * Short.MAX_VALUE);
   angle += increment;
}

You could also precompute the values of all sines for frequencies 200Hz-8000Hz, with a step of 10Hz. Or do this on demand: when the user select a frequency, generate samples using your method for a while and also save them to an array. When you generate enough samples to have a one full sine wave, you can just keep looping over the array (since sin is a periodic function). Actually there might be some small inconsistencies in the sound as you never hit a period exactly (because you are increasing the angle by 1 and the lenght of one full sine wave is sampleRate / (double)frequency samples). But taking a right multiple of the period makes the inconsistencies unnoticeable.

Also, see http://developer.android.com/guide/practices/design/performance.html

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In case anyone stumbles across this with the same problem (as I did), the solution actually has nothing to do with buffers, it has to do with the sine function. Try replacing angle += increment with angle += (increment % (2.0f * (float) Math.PI));. Also, for efficiency, try using FloatMath.sin() instead of Math.sin().

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I think I've managed to solve the problem.

...
samples[i] = (short)((float)Math.sin( angle )*Short.MAX_VALUE);
angle += increment;
angle = angle % (2.0f * (float) Math.PI); //added statement
...

As stated before, it's not about buffers. It is about the angle variable, it increases continuously. After a while, the variable gets too large and does not support little steps.

As the sine repeats after 2*PI, we need to take the modulus of angle.

Hope this helps.

edited: angle += increment is enough for the job.

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