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I'm used to using SoundMixer.computeSpectrum, but I need to get some data on-the-fly from the microphone (and I can't use the SoundMixer with the microphone).

I'm having trouble translating the FFT data (from this class) as shown in this excellent spectral analysis example to match the ByteArray output from computeSpectrum. My existing code is built to handle the data received from computeSpectrum (with FFT set to true).

Any help is appreciated!

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It's not clear what you're trying to do. Are you trying to generate a dynamic wave form for the audio coming in from the microphone or...? –  Technik Empire May 30 '11 at 1:27
No. I want to analyze the audio, just like in the example link, but I need to perform additional analysis. –  Justin Putney May 30 '11 at 5:36

1 Answer 1

In the sample code you have linked, the m_mag vector contains the spectrum data itself. If you want to modify it to work with existing code that is designed to work with computeSpectrum, you should write the values in this vector to a ByteArray like so:

import flash.utils.ByteArray;

var fftBytes:ByteArray = new ByteArray();
for(var i:uint = 0; i < N/2; i++)
    var re:Number = m_tempRe[i];
    var im:Number = m_tempIm[i];
    var mag:Number = re*re + im*im;
    // Old method: write to vector
    // m_mag[i] = Math.sqrt(sample);
    // New method: write to ByteArray
// microphone is mono, so make a copy to match computeSpectrum's stereo output
fftBytes.writeBytes(fftBytes, 0, fftBytes.length);

Your existing code can then look at fftBytes directly instead of calling computeSpectrum. Note that we copy the values a second time at the end of the ByteArray, to simulate the fact that computeSpectrum always returns stereo data, but the microphone is mono. You could also gain a little bit of speed by adjusting your existing code to accept mono data and to look at the m_mag vector, instead of writing it all to a ByteArray.

Additionally, you may want to change the SAMPLE_RATE and N constants at the top of the code to 44100 and 9 respectively. This will match the default computeSpectrum behavior of returning 256 values per channel, sampled at 44100Hz.

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Very helpful, Mike. I'm currently using ASFFT (an Alchemy-based solution) to try to complete the project, but I hope to come back around to a pure AS solution once everything is in place. Thanks so much for you input! –  Justin Putney Aug 9 '11 at 23:03

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