SinGrainI granular synthesis with sinusoidal grains and user supplied envelopes
*ar(trigger, dur, freq, envbuf1, envbuf2, ifac, mul, add)
trigger - a kr or ar trigger to start a new grain. If ar, grains after the start of the synth are sample accurate.
The following args are polled at grain creation time
dur - size of the grain.
freq - the freq of the grain generators internal oscillator
envbuf1 - a buffer with a stored signal to be used for the envelope of the grain
envbuf2 - a buffer with a stored signal to be used for the envelope of the grain
ifac - an interpolation factor. interpolates between the two envelopes where 0 is all envbuf1, and 1 is all
envbuf2
Examples:
s.boot;
SynthDef(\sin_grain_test, {arg gate = 1, amp = 1, envbuf1, envbuf2;
Out.ar(0,
SinGrainI.ar(Impulse.kr(20), 0.2, WhiteNoise.kr.range(440, 880), envbuf1, envbuf2,
MouseX.kr(0, 1),
EnvGen.kr(
Env([0, 1, 0], [1, 1], \sin, 1),
gate,
levelScale: amp,
doneAction: 2)
)
)
}).load(s);
y = Env([0, 1, 0], [1, 1], \sin).asSignal(1024);
z = Env([0, 1, 0], [1, 1], [10, -10]).asSignal(1024);
s.sendMsg(\b_alloc, b = s.bufferAllocator.alloc(1), 1024, 1, [\b_setn, b, 0, 1024] ++ y)
s.sendMsg(\b_alloc, c = s.bufferAllocator.alloc(1), 1024, 1, [\b_setn, c, 0, 1024] ++ z)
s.sendMsg(\s_new, \sin_grain_test, a=s.nextNodeID, 0, 1, \amp, 0.2, \envbuf1, b, \envbuf2, c);
s.sendMsg(\n_set, a, \gate, 0);
s.sendMsg(\b_free, b);
s.sendMsg(\b_free, c);