I'm working on an Android app and I would like to play some short sounds(~ 2s). I tried Soundpool but it doesn't really suit for me since it can't check if a sounds is already playing. So I decided to use AudioTrack.

It works quite good BUT most of the time, when it begins to play a sound there is a "click" sound. I checked my audiofiles and they are clean.

I use audiotrack on stream mode. I saw that static mode is better for short sounds but after many searchs I still don't understand how to make it work. I also read that the clicking noise can be caused by the header of the wav file, so maybe the sound would disappear if I skip this header with setPlaybackHeadPosition(int positionInFrames) function (that is supposed to work only in static mode)

Here is my code (so the problem is the ticking noise at the beginning)

    int minBufferSize = AudioTrack.getMinBufferSize(44100, AudioFormat.CHANNEL_CONFIGURATION_MONO, 
    audioTrack = new AudioTrack(AudioManager.STREAM_MUSIC, 44100, AudioFormat.CHANNEL_CONFIGURATION_MONO, 
         AudioFormat.ENCODING_PCM_16BIT, minBufferSize, AudioTrack.MODE_STREAM); 
            int i = 0;
            int bufferSize = 2048; //don't really know which value to put

            byte [] buffer = new byte[bufferSize];
//there we open the wav file >
            InputStream inputStream = getResources().openRawResource(R.raw.abordage);
            try {
                while((i = inputStream.read(buffer)) != -1)
                    audioTrack.write(buffer, 0, i);
            } catch (IOException e) {
                // TODO Auto-generated catch block
            try {
            } catch (IOException e) {
                // TODO Auto-generated catch block

Does anyone has a solution to avoid that noise? I tried this, that works sometimes but not everytime. Could someone show me how to implement audiotrack in MODE_STATIC ? Thank you

6 Answers 6


I found that Scott Stensland's reasoning was fitting my issue (thanks!).

I eliminated the pop by running a dead simple linear fade-in filter over the beginning of the sample array. The filter makes sample values start from 0 and slowly increase in amplitude to their original value. By always starting at a value of 0 at the zero cross over point the pop never occurs.

A similar fade-out filter was applied at the end of the sample array. The filter duration can easily be adjusted.

import android.util.Log;

public class FadeInFadeOutFilter
    private static final String TAG = FadeInFadeOutFilter.class.getSimpleName();

    private final int filterDurationInSamples;

    public FadeInFadeOutFilter ( int filterDurationInSamples )
        this.filterDurationInSamples = filterDurationInSamples;

    public void filter ( short[] audioShortArray )
        filter(audioShortArray, audioShortArray.length);

    public void filter ( short[] audioShortArray, int audioShortArraySize )
        if ( audioShortArraySize/2 <= filterDurationInSamples ) {
            Log.w(TAG, "filtering audioShortArray with less samples filterDurationInSamples; untested, pops or even crashes may occur.  audioShortArraySize="+audioShortArraySize+", filterDurationInSamples="+filterDurationInSamples);
        final int I = Math.min(filterDurationInSamples, audioShortArraySize/2);

        // Perform fade-in and fade-out simultaneously in one loop.
        final int fadeOutOffset = audioShortArraySize - filterDurationInSamples;
        for ( int i = 0 ; i < I ; i++ ) {
            // Fade-in beginning.
            final double fadeInAmplification = (double)i/I; // Linear ramp-up 0..1.
            audioShortArray[i] = (short)(fadeInAmplification * audioShortArray[i]);

            // Fade-out end.
            final double fadeOutAmplification = 1 - fadeInAmplification; // Linear ramp-down 1..0.
            final int j = i + fadeOutOffset;
            audioShortArray[j] = (short)(fadeOutAmplification * audioShortArray[j]);

In my case. It was WAV-header. And...

byte[] buf44 = new byte[44];
int read = inputStream.read(buf44, 0, 44);

...solved it.


A common cause of audio "pop" is due to the rendering process not starting/stopping sound at the zero cross over point (assuming min/max of -1 to +1 cross over would be 0). Transducers like speakers or ear-buds are at rest (no sound input) which maps to this zero cross level. If an audio rendering process fails to start/stop from/to this zero, the transducer is being asked to do the impossible, namely instantaneously go from its resting state to some non-zero position in its min/max movement range, (or visa versa if you get a "pop" at the end).

  • So I have to start playing the track with an offset?
    – Bartho
    Jul 17, 2014 at 8:30
  • Play same audio track manually using some standard tool ... Do you also hear a pop ? Jul 17, 2014 at 11:04
  • With the soundpool player I didn't have this pop (it is an higher level player, so it must be better configurated). I find the solution and I wrote it in an answer :)
    – Bartho
    Jul 17, 2014 at 11:19
  • This explanation makes sense and helped me to the solution I've posted. Apr 18, 2016 at 20:47

Finally, after a lot of experimentation, I made it work without the click noise. Here is my code (unfortunaly, I can't read the size of the inputStream since the getChannel().size() method only works with FileInputStream type)

    long totalAudioLen = 0;  
    InputStream inputStream = getResources().openRawResource(R.raw.abordage); // open the file
    totalAudioLen = inputStream.available();
    byte[] rawBytes = new byte[(int)totalAudioLen];
    AudioTrack track = new AudioTrack(AudioManager.STREAM_MUSIC,
    int offset = 0;
    int numRead = 0;

    track.setPlaybackHeadPosition(100); // IMPORTANT to skip the click
    while (offset < rawBytes.length
               && (numRead=inputStream.read(rawBytes, offset, rawBytes.length-offset)) >= 0) {
            offset += numRead;
    } //don't really know why it works, it reads the file
    track.write(rawBytes, 0, (int)totalAudioLen); //write it in the buffer?
    track.play();  // launch the play
    catch (FileNotFoundException e) {

        Log.e(TAG, "Error loading audio to bytes", e);
    } catch (IOException e) {
        Log.e(TAG, "Error loading audio to bytes", e);
    } catch (IllegalArgumentException e) {
        Log.e(TAG, "Error loading audio to bytes", e);

So the solution to skip the clicking noise is to use MODE_STATIC and setPlaybackHeadPosition function to skip the beginning of the audio file (that is probably the header or I don't know what). I hope that this part of code will help someone, I spent too many time trying to find a static mode code sample without finding a way to load a raw ressource.

Edit: After testing this solution on various devices, it appears that they have the clicking noise anyway.

  • 2
    are you playing from a wav file? Then it would be enough to skip the first 44 bytes since the header is (mostly) of that size. Even better would be to skip those bytes already in the stream: inputStream.skip(44)
    – Chris623
    Nov 11, 2015 at 15:22
  • You should see my answer and solution and move the accepted answer tick ;) Apr 18, 2016 at 20:46

For "setPlaybackHeadPosition" to work, you have to play and pause first. It doesn't work if your track is stopped or not started. Trust me. This is dumb. But it works:

// then continue with track.write, track.play, etc. 

In Java, both FileInputStream and BufferedInputStream classes have a skip() method which is perfect for this. If you're reading a WAV file into a byte array and are going to play back the raw data like with Android's AudioTrack you will need to skip the header. The header is always exactly 44 bytes long according to the WAV file format. So you can just do something like this.

Here is a method I wrote to read a WAV file from storage into a hash map I have to keep multiple sounds in memory and get a handle on them based on their name. The 2 important parts are where we subtract wavHeaderLength (which is 44) and where we do bufferedInputStream.skip(wavHeaderLength):

    private static void loadWavIntoHashMap(String wavFileName){
    String wavFilePath = getFilePath(wavFileName);
    File wavFile = new File(wavFilePath);

    int size = (int) wavFile.length();
    byte[] audioData = new byte[size - wavHeaderLength ]; // - 44 to remove header
    try {
        BufferedInputStream bufferedInputStream = new BufferedInputStream(new FileInputStream(wavFile));
        bufferedInputStream.read(audioData, 0, audioData.length);
        soundNameByteArrayMap.put(wavFileName, audioData);
    } catch (FileNotFoundException e) {
    } catch (IOException e) {

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