80 lines
2.5 KiB
Text
80 lines
2.5 KiB
Text
class:: UnpackFFT
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summary:: Unpack an FFT chain into separate demand-rate FFT bin streams
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categories:: UGens>FFT
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related:: Classes/PackFFT, Classes/Unpack1FFT
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description::
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Takes an FFT chain and separates the magnitude and phase data into separate demand-rate streams, for arithmetic manipulation etc.
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This is technically a demand-rate UGen. The actual "demand" is usually created by PackFFT later on in the graph, which requests the values in order to re-pack the data. This allows for processing to occur in between...
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See also pvcollect, pvcalc and pvcalc2 methods ( in link::Classes/PV_ChainUGen:: ) which provide convenient ways to process audio in the frequency domain. The help for pvcollect includes notes on efficiency considerations.
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classmethods::
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private:: categories
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method:: new
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argument:: chain
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FFT chain
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argument:: bufsize
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FFT buffer size
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argument:: frombin
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limiting analysis to the bins of interest
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argument:: tobin
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limiting analysis to the bins of interest
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returns::
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A list from DC up to Nyquist of code:: [mag[0], phase[0], mag[1], phase[1], ... mag[nyquist], phase[nyquist]]. ::
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discussion::
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Note that you do have to decide your FFT buffer size in advance, since this determines how many values the UGen will output.
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code::
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#magsphases = UnpackFFT(chain, bufsize)
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::
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examples::
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code::
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(
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s.waitForBoot({
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var fftsize = 1024;
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b = Buffer.alloc(s, fftsize, 1);
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c = Buffer.read(s, Platform.resourceDir +/+ "sounds/a11wlk01.wav");
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})
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)
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// This one just drags out various the values and posts them - a little bit pointless!
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(
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x = {
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var sig, chain, unp;
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sig = SinOsc.ar;
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sig = PlayBuf.ar(1, c, BufRateScale.kr(c), loop: 1);
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chain = FFT(b, sig);
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// Using the frombin & tobin args makes it much more efficient, limiting analysis to the bins of interest
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unp = UnpackFFT(chain, b.numFrames, frombin: 0, tobin: 4);
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// Demand some data from the unpacker.
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// NOTE: At present, Demand.kr is unable to handle more than 32 inputs,
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// so using frombin & tobin to limit the number of bins is compulsory.
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Demand.kr(chain>=0, 0, unp).collect{|anunp, index|
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anunp.poll(chain>=0, if(index % 2 == 0, "Magnitude", "Phase")+(index/2).floor);
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};
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(sig*0.1).dup;
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}.play(s);
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)
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x.free;
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// Now a simple frequency-domain manipulation, square-rooting the magnitudes AND phases.
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(
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x = {
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var in, chain, magsphases;
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in = PlayBuf.ar(1, c, BufRateScale.kr(c), loop: 1);
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chain = FFT(b, in);
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magsphases = UnpackFFT(chain, b.numFrames);
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magsphases = magsphases.collect(_.sqrt);
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PackFFT(chain, b.numFrames, magsphases);
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Out.ar(0, 0.25 * IFFT(chain).dup);
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}.play(s);
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)
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x.free;
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::
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