81 lines
2.4 KiB
Text
81 lines
2.4 KiB
Text
class:: CombC
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summary:: Comb delay line with cubic interpolation.
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related:: Classes/CombL, Classes/CombN, Classes/BufCombC
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categories:: UGens>Delays
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Description::
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Comb delay line with cubic interpolation. See also link::Classes/CombN::
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which uses no interpolation, and link::Classes/CombL:: which uses linear
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interpolation. Cubic interpolation is more computationally expensive
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than linear, but more accurate.
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The feedback coefficient is given by the equation code:: fb == 0.001 ** (delay / decay.abs) * decay.sign :: where 0.001 is -60 dBFS.
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classmethods::
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method::ar, kr
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argument::in
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The input signal.
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argument::maxdelaytime
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The maximum delay time in seconds. Used to initialize the delay buffer size.
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argument::delaytime
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Delay time in seconds.
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argument::decaytime
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Time for the echoes to decay by 60 decibels. If this time is negative then the feedback coefficient will be negative, thus emphasizing only odd harmonics at an octave lower.
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Infinite decay times are permitted. A decay time of code::inf:: leads to a feedback coefficient of 1, and a decay time of code::-inf:: leads to a feedback coefficient of -1.
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argument::mul
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Output will be multiplied by this value.
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argument::add
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This value will be added to the output.
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Examples::
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code::
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// These examples compare the variants, so that you can hear the difference in interpolation
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// Comb used as a resonator. The resonant fundamental is equal to
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// reciprocal of the delay time.
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{ CombN.ar(WhiteNoise.ar(0.01), 0.01, XLine.kr(0.0001, 0.01, 20), 0.2) }.play;
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{ CombL.ar(WhiteNoise.ar(0.01), 0.01, XLine.kr(0.0001, 0.01, 20), 0.2) }.play;
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{ CombC.ar(WhiteNoise.ar(0.01), 0.01, XLine.kr(0.0001, 0.01, 20), 0.2) }.play;
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// with negative feedback:
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{ CombN.ar(WhiteNoise.ar(0.01), 0.01, XLine.kr(0.0001, 0.01, 20), -0.2) }.play;
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{ CombL.ar(WhiteNoise.ar(0.01), 0.01, XLine.kr(0.0001, 0.01, 20), -0.2) }.play;
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{ CombC.ar(WhiteNoise.ar(0.01), 0.01, XLine.kr(0.0001, 0.01, 20), -0.2) }.play;
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// used as an echo.
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{ CombN.ar(Decay.ar(Dust.ar(1,0.5), 0.2, WhiteNoise.ar), 0.2, 0.2, 3) }.play;
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// large delay lines
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(
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s.options.memSize= 8192*2;
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s.reboot;
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)
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({
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var in, del1, del2, del3, del4;
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in = SoundIn.ar(0);
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del1 = CombC.ar(in, 8, LFNoise2.kr(0.01).range(1, 8), 1);
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del2 = CombC.ar(del1, 8, LFNoise2.kr(0.01).range(1, 8), 1);
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del3 = CombC.ar(del2, 8, LFNoise2.kr(0.01).range(1, 8), 1);
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del4 = CombC.ar(del3, 8, LFNoise2.kr(0.01).range(1, 8), 1);
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(del1 + del2 + del3 + del4)!2;
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}.play;
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);
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::
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