«Now you're going to die» by grirgz
on 12 Sep'17 00:09 in1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
(
Ndef(\fall, { arg freq=200, pan=0, amp=0.1;
var sig;
sig = ( WhiteNoise.ar + 0.8 ) * LFSaw.ar({ exprand(10.0,10000) }!20 * ( 1 + ( SinOsc.ar((1..4).rand(0.0)/18 * XLine.kr(1,121200,80)) * 1/41 * XLine.kr(1,180,60) )));
sig = DelayC.ar(sig, 0.2, {rrand(1/5,1/10000) * ( 1 + ( SinOsc.ar((1..2).rand(0.0)/18 * XLine.kr(1,121200,60)) * 1/41 * XLine.kr(1,180,60) ))}!4) + sig / 2;
sig = DelayC.ar(sig, 0.2, {rrand(1/5,1/10000) * XLine.kr(1,1/1000,14)}!4) + sig / 2;
sig = sig + BPF.ar(
sig,
{ ( exprand(100.0,10000) * LFNoise1.ar(1/100.0.rand).range(1,2) ).clip(20,20000) }!10,
{ ( rand(0.01,1) * LFNoise1.ar(1/100.0.rand).range(1,2) ).clip(0.01,1) }!10
);
sig = BRF.ar(
sig,
{ ( exprand(100.0,10000) * LFNoise1.ar(1/100.0.rand).range(1,2) ).clip(20,20000) }!10,
{ ( rand(0.01,1) * LFNoise1.ar(1/100.0.rand).range(1,2) ).clip(0.01,1) }!10
);
sig = LeakDC.ar(sig);
sig = LPF.ar(sig, 17000 * XLine.kr(1/100,1,4));
sig = sig * 5 * 3;
sig = sig.mean;
sig = sig * amp;
sig;
}).play;
);
reception
amaaazing!!!
I like the way that if you leave it long enough it sounds a bit like my washing machine.
Now you're going to wash!
:)