rsc3/doc-schelp/HelpSource/Classes/BufDelayC.schelp

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2022-08-24 13:53:18 +00:00
class:: BufDelayC
summary:: Buffer based simple delay line with cubic interpolation.
related:: Classes/BufDelayL, Classes/BufDelayN, Classes/DelayC
categories:: UGens>Delays>Buffer
Description::
Simple delay line with cubic interpolation which uses a buffer for its
internal memory. See also link::Classes/BufDelayN:: which uses no
interpolation, and link::Classes/BufDelayL:: which uses linear
interpolation. Cubic interpolation is more computationally expensive
than linear, but more accurate.
classmethods::
method::ar, kr
argument::buf
Buffer number.
note:: The buffers provided to any of the BufDelay units must be one channel. If you want to delay a multichannel signal, you must provide as many separate (one-channel) buffers as there are input channels.::
argument::in
The input signal.
argument::delaytime
Delay time in seconds.
discussion::
Warning:: For reasons of efficiency, the effective buffer size is limited to the previous power of two. So, if 44100 samples are allocated, the maximum delay would be 32768 samples.
::
Examples::
code::
// allocate buffer
b = Buffer.alloc(s,44100,1);
(
// Dust randomly triggers Decay to create an exponential
// decay envelope for the WhiteNoise input source
{
z = Decay.ar(Dust.ar(1,0.5), 0.3, WhiteNoise.ar);
BufDelayC.ar(b.bufnum, z, 0.2, 1, z); // input is mixed with delay via the add input
}.play
)
b.free;
// multichannel
// two channels, two buffers
b = Buffer.allocConsecutive(2, s, 32768, 1);
a = { |bufs = #[0, 1]|
var sig = SinOsc.ar([440, 880]) * Decay2.kr(Impulse.kr([2, 4]), 0.01, 0.15);
sig + BufDelayC.ar(bufs, sig, delaytime: 0.125)
}.play(args: [bufs: b]);
a.free;
b.do(_.free);
::