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This is my first SO post, so please excuse me in anything is unclear.

I am developing an android app that needs to take any audio track and calculate the BPM and duration of the song.

I am having trouble understanding the byte arrays of

public void onFftDataCapture(Visualizer visualizer, byte[] bytes, int samplingRate)
{
// BEGIN Magnitude of sound algorithm               
    float mag[] = new float[(bytes.length-1)/2];
    for (int i = 0; i < (bytes.length-1)/2; i++)
    {
        mag[i] = bytes[2*i]*bytes[2*i] + bytes[2*i+1]*bytes[2*i+1];
    }

//END Magnitude of sound algorithm

    Stars.updateMagData(mag);
    long songDuration = System.nanoTime() - startTime;
    Stars.updateSongDuration(songDuration);
    Stars.updateFftData(bytes);
}

I've tested with the same ogg file where I panned all the audio to the left, right, and amplified the audio track using Audacity.

The magnitude of sound energy is tracked by the mag[], but im not sure if

mag[i] = bytes[2*i]*bytes[2*i] + bytes[2*i+1]*bytes[2*i+1]; is correct

Basically, how can we get from having a streaming byte[] to calculating a songs BPM?

I've tried Log.d() of the bytes to see, ex:

//Log.d("bytes.toString()",bytes.toString());
//Log.d("Byte.toString(bytes[bytes.length-1])", bytes[bytes.length-1] );
//Log.d("mag[i] amp", String.valueOf(mag[mag.length-1] ));

but none of these values make much sense given the same audio track, panned, or amplified

Thanks if you read this far,

share|improve this question
    
I've broken down the byte[] of getWaveformData() from the Visualizer and am having trouble understand this array. The size of it is 1024, so we have bytes[0] to bytes[1023]. I know that these are mono, 8 bit PCM audio data, and that they range from -128 to 127. How do these values represent frequency? Can we apply some sort of FFT on this data set? Since this is only mono, 1 channel, does that mean we can directly get the magnitude from just bytes[2*i]*bytes[2*i] + bytes[2*i+1]*bytes[2*i+1]? Still working on this, any help would be appreciated! –  EEZ Nov 1 '11 at 21:44
    
the sampling rate for onWaveFormDataCapture and onFftDataCapture come out to be 44100000, so does that mean for each index in the bytes[], we take 44100000 / 2 to find the highest frequency we can capture, which is 22050000. Then divide 22050000 into 1024 to get the frequency data as a number between -128 and 127? –  EEZ Nov 2 '11 at 15:33
    
I have a feeling I am suppose to convert the values in the byte[] into a short[], but Im unsure of how to get this data also into the time domain... any help would be appreciated –  EEZ Nov 2 '11 at 15:48
    
Say you sample at 44.1 KHz for mono audio; then effectively, you will have 44.1 K * 1 samples. If you are using 8 bits per sample, then given the duration of audio, you can calculate the total size of the wave file as: Size in bytes = sampling rate * number of channels * (bits per sample / 8) * duration in seconds Size in bytes = 44100000 * 1 * 1 * 12seconds Number of samples per second = 44100000 * 1 –  EEZ Nov 2 '11 at 16:04
    
Suppose your FFT of N PCM samples returns N/2 complex values representing positive frequencies. Then the distance between 2 complex samples is F/2N Hz. With F=44100Hz and N=1024 samples, this would be 21.5Hz. This is my frequency resolution. –  EEZ Nov 2 '11 at 16:12

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