rsc3/doc-schelp/HelpSource/Classes/DelTapWr.scrbl

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2022-08-24 13:53:18 +00:00
#lang scribble/manual
@(require (for-label racket))
@title{DelTapWr}
@section{categories}
UGens>Buffer, UGens>Delays
Write to a buffer for a DelTapRd UGen@section{related}
Classes/DelTapRd
@section{description}
Write to a buffer for a link::Classes/DelTapRd:: UGen.
@section{note}
If you run a
@racketblock[DelTapRd.ar:: and a ]
@racketblock[DelTapWr.ar:: in tandem, keep in mind that they read and write in blocks
equal to the server's block size. If the delay time is greater than the buffer size minus a block, the write and read
heads might interfere in unintended ways. Use a slightly larger buffer if this happens. ::
]
@section{classmethods}
@section{private}
categories
@section{method}
ar, kr
@section{argument}
buffer
the buffer to write signal into. Max delay time is based on buffer size.
@section{argument}
in
the signal to write to the buffer.
@section{returns}
phase - DelTapWr outputs its current sample value for use in the phase argument in DelTapRd
@section{examples}
@racketblock[
// a Buffer for the UGens to use, one second at the current sample rate
b = Buffer.alloc(s, s.sampleRate * 1, 1);
// write a signal into a delay, tap it at multiple times
SynthDef(\test, {arg buffer;
var src, tapPhase, tap1, tap2, tap3;
src = WhiteNoise.ar(0.2) * Decay.kr(Dust.kr(3), 0.2);
tapPhase = DelTapWr.ar(buffer, src);
#tap1, tap2, tap3 = DelTapRd.ar(buffer, tapPhase,
[0.2, 0.27, 0.303], // tap times
1, // no interp
[1.0, 0.4, 0.2] // muls for each tap
);
Out.ar(0, [src + tap2, tap1 + tap3])
}).add;
x = Synth(\test, [\buffer, b]);
x.free;
b.free;
::
]
@racketblock[
// a Buffer for the UGens to use
b = Buffer.alloc(s, 44100, 1);
// write a signal into a delay, tap it at multiple times
SynthDef(\write, {arg buffer, cout;
var src, tapPhase, tap1, tap2, tap3;
src = WhiteNoise.ar(0.2) * Decay.kr(Dust.kr(3), 0.7);
tapPhase = DelTapWr.ar(buffer, src);
Out.kr(cout, tapPhase);
}).add;
SynthDef(\readFilt, {arg buffer, cin;
var phase, src, filt;
phase = In.kr(cin);
src = DelTapRd.ar(buffer, phase, [0.01, 0.2]);
filt = BPF.ar(src, 880, 0.01) * 10;
Out.ar(0, filt);
}).add;
c = Bus.control;
x = Synth(\write, [\buffer, b, \cout, c]);
y = Synth(\readFilt, [\buffer, b, \cin, c]);
x.free;
b.free;
::
]