Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have a basic wave generator in java but I need something to remove the clicks I get from when the amplitude of a wave changes sharply. Namely when I start/stop playing a wave, especially if I have a beeping tone.

Phrogz's answer on SO gave a really nice and simple function, but I'm not sure I'm implementing it right.

When I first tried to use it, I couldn't get it to work, but then I seem to remember it working very well... I have since fiddled about a lot with my code and now it doesn't seem to be working very well again.

So here's the closest I could get to an SSCCE:

If you play this you will notice that when the filtering is on (filter = true) the wave is much quieter and the clicks slightly less, but this seems mainly due to the decrease in volume. There is still a noticeable "hit" on each beep, that I don't want, and I don't remember being there before...

import javax.sound.sampled.*;


public class Oscillator{

    private static int SAMPLE_RATE = 22050;
    private static short MAX_AMPLITUDE = Short.MAX_VALUE;   
    private static AudioFormat af = null;
    private static SourceDataLine line = null;
    private int frequency = 440; //Hz
    private int numLoops = 1000;
    private int beep = 100;

    // set to true to apply low-pass filter
    private boolean  filter = true;
    // set the amount of "smoothing" here
    private int smoothing = 100;
    private double oldValue;

    public Oscillator(){

        prepareLine();

    }


    public static void main(String[] args) {
        System.out.println("Playing oscillator");
        Oscillator osc = new Oscillator();
        osc.play();
    }


    private void prepareLine(){


        af =  new AudioFormat(AudioFormat.Encoding.PCM_SIGNED, SAMPLE_RATE, 16, 2, 4, SAMPLE_RATE, false);

        try {

            DataLine.Info info = new DataLine.Info(SourceDataLine.class, af);

            if (!AudioSystem.isLineSupported(info)) {
                System.out.println("Line does not support: " + af);
                System.exit(0);
            }
            line = (SourceDataLine) AudioSystem.getLine(info);
            line.open(af);
        }
        catch (Exception e) { 
            System.out.println(e.getMessage());
            System.exit(0);
        }
    }

    private void play() {

        System.out.println("play");

         int maxSize = (int) Math.round( (SAMPLE_RATE * af.getFrameSize())/ frequency );  
         byte[] samples = new byte[maxSize];

         line.start();

         double volume = 1;

         int count = 0;
         for (int i = 0; i < numLoops; i ++){


             if (count == beep) {
                 if(volume==1) volume = 0;
                 else volume = 1;
                 count = 0;
             }

             count ++;

             playWave(frequency, volume, samples);


         }

         line.drain();
         line.stop();
         line.close();
         System.exit(0);
    }  

    private void playWave(int frequency, double volLevel, byte[] samples) {

         double amplitude = volLevel * MAX_AMPLITUDE;

         int numSamplesInWave = (int) Math.round( ((double) SAMPLE_RATE)/frequency );

         int index = 0;

         for (int i = 0; i < numSamplesInWave; i++) {

             double theta = (double)i/numSamplesInWave;

             double wave = getWave(theta);

             int sample = (int) (wave * amplitude);


             if (filter) sample = applyLowPassFilter(sample);



             // left sample
             samples[index + 0] = (byte) (sample & 0xFF);        
             samples[index + 1] = (byte) ((sample >> 8) & 0xFF); 
             // right sample
             samples[index + 2] = (byte) (sample & 0xFF);
             samples[index + 3] = (byte) ((sample >> 8) & 0xFF);
             index += 4;
         }

         int offset = 0;

         while (offset < index){
             double increment =line.write(samples, offset, index-offset);
             offset += increment;
         }
    }

    private double getWave(double theta){

        double value = 0;

        theta = theta * 2 * Math.PI;

        value = getSin(theta);
        //value = getSqr(theta);

        return value;

    }

    private double getSin(double theta){
        return Math.sin(theta);
    }

    private int getSqr(double theta){
        if (theta <= Math.PI) return 1;
        else return 0;
    }

    // implementation of basic low-pass filter
    private int applyLowPassFilter(int sample){

        int newValue = sample;
        double filteredValue = oldValue + (newValue - oldValue) / smoothing;

        oldValue = filteredValue;
        return (int) filteredValue;
    }
}

The relevant method is at the end. If anyone does test this, please be careful of the volume if you have headphones!

So either:

  1. It is working and I'm just expecting too much of such a simple implementation
  2. I'm doing something wrong, stupid and obvious...

If it's just 1. How should/could I get rid of that harsh beat/hit/click from sudden amplitude changes?

If it's 2. good, should be a v short answer for a too long question.

share|improve this question

1 Answer 1

up vote 2 down vote accepted

A low pass filter will not remove clicks from sudden amplitude changes. Instead you need to avoid sudden amplitude changes.

You could use the lowpass filter to filter your amplitude level.

**Pseudo code**

for i = 0 to numSamplesInWave-1 do
begin
  theta = i / numSamplesInWave;
  wave = getWave(theta);
  currentAmplitude = applyLowPassFilter(TargetAmplitude);   
  Sample[i] = wave * currentAmplitude;
end;

Using a lowpass filter as above is fine for smoothing input values. For example when the user changes a volume control.

In other situations it might be more appropriate to create an envelope of some sort. For example synthesizers commonly use ADSR envelopes to smooth the amplitude changes when a new Voice/Sound starts and stops.

share|improve this answer
    
Ah okay, thanks. I just thought it was doing a much better jobs on a beeping sine/square wave before... now my code mainly seems to be decreasing the volume. I will try applying it to the amplitude as well as looking into implementing ADSR envelopes instead. Out of curiosity, is there a maximum amplitude change above which you will definitely hear clicks? –  kiman May 26 '12 at 19:52
    
@kiman: To avoid clicks, the amplitude should change smoothly. Small, discontinuous amplitude changes can still produce clicks. –  Shannon May 26 '12 at 23:38
1  
@kiman: Depending on the context, smoothing amplitude changes out over 1-10 milliseconds might be enough to avoid an obvious click. –  Shannon May 26 '12 at 23:44

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.