1087 lines
22 KiB
Plaintext
1087 lines
22 KiB
Plaintext
/* PLAN:
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- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
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GROWTH: granular sythesis, noise generators
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SYMBIOSIS: amp, freq, phase, pitch tracking, convolution
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CYCLES: patterns
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TIME: envelopes
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SPACE: root shapes <> steklenik topology { OctoPanOut.ar() }
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- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
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IDEAS:
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sources:
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- GrainFM.ar
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- Convolution experiments: Convolution2, StereoConvolution2L (for reverbs?)
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- more FFT experiments
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- granular synthesis
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- deterministic generation of buffers contents
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- samples, loops, recordings
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aim for:
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- deep basses - clean, or distorted - filtered
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- high sonics - filtered this or the other way
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- glitches
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- reverberations (JPverb, Greyhole)
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- experiments in random spatialization
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more work on:
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- GUI for the touch screen
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LIST of CHAOTIC UGens/algos:
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Crackle
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HenonN HenonL HenonC Henon2DN Henon2DL Henon2DC HenonTrig
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GbmanN GbmanL Gbman2DN Gbman2DL Gbman2DC GbmanTrig
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StandardN StandardL Standard2DN Standard2DL Standard2DC StandardTrig
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LatoocarfianN LatoocarfianL LatoocarfianC Latoocarfian2DN Latoocarfian2DL Latoocarfian2DC LatoocarfianTrig
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LorenzL Lorenz2DN Lorenz2DL Lorenz2DC LorenzTrig
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Fhn2DN Fhn2DL Fhn2DC FhnTrig
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MarkovSynth
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Logistic
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ArneodoCoulletTresser
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CuspN,
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FBSineN,
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LinCongN,
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QuadN
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Brusselator
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DoubleWell
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FincoSprott
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Rossler
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PATTERN:
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Phenon
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Platoo
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Pquad
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Plorenz
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PlinkCong
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Pstandard
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Pgbman
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Pfhn
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--------------------------------
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monitoring tools,yah!
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s.meter
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s.plotTree
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s.scope
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--------------------------------
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*/
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// Quarks.gui
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);
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m = ServerMeter.new(s, 0, 2);
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////////////////////////////////////////////////////////////////////////////////
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// chaos patterns
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Phenon().asStream.nextN(20);
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Platoo().asStream.nextN(20)
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Pquad().asStream.nextN(20)
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Plorenz
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PlinkCong
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Pstandard
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Pgbman
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Pfhn
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Pstandard().asStream.nextN(20);
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p=Ppatlace([Place([Pstandard.new])],inf);
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x=p.asStream;
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20.do({ x.next.postln });
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TempoClock.default.clear;
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t= TempoClock.new;
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t.tempo_(2.0); // equivalent to t.tempo = 2.0;
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t.tempo;
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t.tempo_(72/60) // 72 beats per minute
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t.tempo;
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////////////////////////////////////////////////////////////////////////////
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( // basic synth SynthDef
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SynthDef(\blipo, { | out, freq = 440, amp = 0.1, nharms = 10, pan = 0, gate = 1, sustain, attack=0.1 |
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var audio = Blip.ar(freq * (SinOsc.kr(3).range(1,1.001)), nharms, amp);
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var env = Linen.kr(gate, attackTime: attack, releaseTime: sustain, doneAction: Done.freeSelf);
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OffsetOut.ar(out, Pan2.ar(audio, pan, env) );
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}).add;
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// reverb effect SynthDef
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SynthDef("reverbo", { arg outBus = 0, inBus, wet = 0.1;
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var input = In.ar(inBus,2);
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var rev = JPverb.ar(input * wet, t60:6, damp:0.5);
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Out.ar(outBus, input + (rev));
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}).add;
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)
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// create a 'private' 2-chan audio bus
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~revbus = Bus.audio(s,2);
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(
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// start reverb effect on the private bus
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~fxRev = Synth("reverbo", [\inBus, ~revbus, \wet, 0.9]);
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~dotsP = Pbind(
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\dur, Pflatten(1, Plorenz() * 1),
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\attack, 0.01,
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\octave, 3,
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\nharms, Prand((2..7),500) );
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~linesP = Pbind(
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\dur, Pflatten(1, Plorenz() * 5),
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\attack, 3,
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\octave, Prand([2,3,4],inf),
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\nharms, Prand((1..4),80),
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\amp, 0.075 );
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~highP = Pbind(
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\dur, Pflatten(1, Plorenz() * 5),
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\attack, 3,
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\octave, 5,
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\nharms, Prand((1..3),50),
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\amp, 0.008 );
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Pbindf(
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Ptpar([ 0, ~dotsP, 60, ~linesP, 160, ~highP]),
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\instrument, \blipo,
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\degree, (Pflatten(1, Plorenz()) * 18).asInteger,
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\mtranspose, Prand([Pn(0,24),Pn(2,24),Pn(4,24)], inf),
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\detune, Prand([0,0.5], inf),
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\scale, Scale.minor,
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\legato, Prand((4..7),inf) * 0.2,
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\pan, Prand((-10..10),inf) * 0.1,
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\out, ~revbus
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).play;
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)
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////////////////////////////////////////////////////////////////////////
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{SinOsc.ar()}.play
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(
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Pbind( \dur, 0.1 + Pgbman() * 0.5, \legato, 0.2, \degree, Pgbman() ).play;
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)
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(-10..10).postln;
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Pseq(#[1, 2, 3], 4).asStream.all;
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Pflatten(1, Pstandard()).asStream.nextN(10)
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(
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// a function to position sound in space
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~octoPanOut = {
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arg in, in_x, in_y, fact;
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var s1_x=0, s1_y=0, s1_amp,
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s2_x=0, s2_y=360, s2_amp,
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s3_x=0, s3_y=720, s3_amp,
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s4_x=0, s4_y=1080, s4_amp,
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s5_x=650, s5_y=1260, s5_amp,
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s6_x=650, s6_y=900, s6_amp,
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s7_x=650, s7_y=540, s7_amp,
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s8_x=650, s8_y=180, s8_amp ;
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var factor = (1 / (5000000 * fact));
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var distance = {|x1,y1,x2,y2| (x2-x1) hypot: (y2-y1) }; // hypothenuse
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var amp = 1 / (1 + (distance.cubed * factor));
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// x,y are expected in rage 0-1
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in_x = in_x * 650;
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in_y = in_y * 1260;
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s1_amp = amp.value(in_x,in_y,s1_x,s1_y);
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s2_amp = amp.value(in_x,in_y,s2_x,s2_y);
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s3_amp = amp.value(in_x,in_y,s3_x,s3_y);
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s4_amp = amp.value(in_x,in_y,s4_x,s4_y);
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s5_amp = amp.value(in_x,in_y,s5_x,s5_y);
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s6_amp = amp.value(in_x,in_y,s6_x,s6_y);
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s7_amp = amp.value(in_x,in_y,s7_x,s7_y);
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s8_amp = amp.value(in_x,in_y,s8_x,s8_y);
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[in * s1_amp, in * s2_amp, in * s3_amp, in * s4_amp, in * s5_amp, in * s6_amp, in * s7_amp, in * s8_amp]
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};
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)
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(
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~octoBus1 = Bus.audio(s,1);
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~octoBus2 = Bus.audio(s,1);
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~octoBus3 = Bus.audio(s,1);
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~octoBus4 = Bus.audio(s,1);
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SynthDef("octoPanner", {
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arg inBus, x=0, y=0, radius=1;
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var snd = In.ar(inBus,1);
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y = SinOsc.kr(0.1,phase:1.5pi).range(0,1);
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x = SinOsc.kr(0.1,phase:1pi,mul:5).clip2.range(0,1);
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snd = ~octoPanOut.value(snd, x, y, radius);
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Out.ar(0, snd);
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}).add;
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SynthDef(\testOcto, {
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arg out;
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var son = WhiteNoise.ar(1) ;
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Out.ar(out,son);
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//Out.ar(1,son);
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}).add;
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)
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~octoPanner1 = Synth("octoPanner", [\inBus, ~octoBus1]);
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~whiteNoise = Synth(\testOcto, [\out, ~octoBus1]);
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~octoPanner1.set(\radius, 0.1); // can control through
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////////////////////////////////////////////////////////////////////////////
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( // MarkovChain synth
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(
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SynthDef("markov",
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{ arg recEnable = 1, waitTime = 1;
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var fedIn = LocalIn.ar(1) * 0.5;
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var mark = MarkovSynth.ar(fedIn + (Saw.ar(MouseY.kr(10, 5000)) * MouseX.kr(0, 0.5)), recEnable, waitTime, 5);
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LocalOut.ar(mark);
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Out.ar(0, mark.dup);
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}
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).play;
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)
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x = Synth("markov")
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x.free;
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// Table size of 3, on a periodic signal. A probabilistic explosion...
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x = { MarkovSynth.ar(SinOsc.ar([801,802]), 1, 2, [3,3]) * 0.2; }.play;
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x = { MarkovSynth.ar(SinOsc.ar(800), 1, 2, 10) + MarkovSynth.ar(SinOsc.ar(400 * [0,1]), 1, 2, 3) * 0.5; }.play;
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x = { MarkovSynth.ar(SinOsc.ar(1801).clip2(0.99), 1, 0, 3) }.play;
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x = { Splay.ar(MarkovSynth.ar(SinOsc.ar([360,480,400,401]), 1, 2, [3,10,3,10])) * 0.5; }.play(outbus:0);
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x = { MarkovSynth.ar(SinOsc.ar([401,402]), 1, 2, [3,3]); }.play;
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x = { MarkovSynth.ar(Pulse.ar([800,800]), 1, 2, [3,3]); }.play;
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x.free;
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)
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~marko = { Splay.ar(MarkovSynth.ar(SinOsc.ar([360,480,400,401]), 1, 2, [3,10,3,10])) * 0.05; }.play(outbus:0);
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~marko.free
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~marko2 = { MarkovSynth.ar(SinOsc.ar([801,802]), 1, 2, [3,3]) * 0.05; }.play(outbus:0);
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~marko2.free;
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/////////////////////////////////////////////////////////////////////////////
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/// ringz & trigs
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{ Ringz.ar(in:StandardTrig.ar(1,10), freq: rrand(400,500), decaytime:0.1) * 0.2}.play(outbus:0);
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{ Ringz.ar(in:HenonTrig.ar(1,10), freq: 1000, decaytime:0.3) * 0.5}.play(outbus:1);
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{ Ringz.ar(in:GbmanTrig.ar(1,10), freq: 1000, decaytime:0.3) * 0.5.dup}.play
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{ Ringz.ar(in:HenonTrig.ar(1,10), freq: 900, decaytime:0.3) * 0.5.dup}.play(outbus:2)
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{ Ringz.ar(in:LatoocarfianTrig.ar(1,10), freq: 1000, decaytime:0.3) * 0.5.dup}.play
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{ Ringz.ar(in:LorenzTrig.ar(1,10), freq: 500, decaytime:0.4) * 0.5.dup}.play
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{ Ringz.ar(in:FhnTrig.ar(1,20), freq: 3000, decaytime:0.1) * 0.9.dup}.play
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(
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x = SynthDef(\noiseCrackle, { // play //
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/* A noise generator based on a chaotic function.
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Class Methods
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Crackle.ar(chaosParam: 1.5, mul: 1.0, add: 0.0)
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Crackle.kr(chaosParam: 1.5, mul: 1.0, add: 0.0)
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Arguments:
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chaosParam - A parameter of the chaotic function with useful values
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from just below 1.0 to just above 2.0. Towards 2.0 the sound crackles.
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mul - Output will be multiplied by this value.
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add - This value will be added to the output. *********************/
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// TODO:
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// expand on more arguments?
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arg out = 0, amp = 0.9, gate = 1;
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var sig, par, lpf, hpf, env;
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par = LFNoise1.kr(0.09).range(1.9,2.02);
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sig = Crackle.ar(par);
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lpf = RLPF.ar(
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in: sig,
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freq: Lag3.kr(LFNoise0.kr(0.08).exprange(50,10000),10),
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rq:0.8);
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lpf = Pan2.ar(in:lpf, pos:LFNoise1.kr(0.07));
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hpf = RHPF.ar(
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in: sig,
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freq: Lag3.kr(LFNoise0.kr(0.065).exprange(50,10000),10),
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rq: 0.8);
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hpf = DelayN.ar(in:hpf, delaytime:0.11);
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hpf = Pan2.ar(in:hpf, pos:LFNoise1.kr(0.06));
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sig = lpf + hpf;
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// a fade-in/out envelope
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env = EnvGen.kr( Env([0, 1, 0], [1, 1], \sin, 1),
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gate, levelScale: amp, doneAction: Done.freeSelf);
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sig = sig * env;
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Out.ar(out, sig);
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}).play;
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)
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x = Synth(\noiseCrackle);
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x.set(\gate,0); // fadeout, and freeSelf
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x.free;
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( // LatoocarfianC - randomly modulate all params
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{
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Fold.ar(LatoocarfianC.ar(
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LFNoise2.kr(10).range(100,200),
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LFNoise2.kr([5,2],1.5,1.5),
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LFNoise2.kr([4,2],1.5,1.5),
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LFNoise2.kr([2,1],0.5,1.5),
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LFNoise2.kr([2,3],0.5,1.5)
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) * 9, -1, 1 )*0.4 }.play(s);
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)
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( // chaos generator modulates panning - LatoocarfianC
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{Pan2.ar(
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in: Dust.ar(20) * 0.9,
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//pos: SinOsc.ar(0.3)
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pos:
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LatoocarfianC.ar(
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20,
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LFNoise2.kr(2,1.5,1.5),
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LFNoise2.kr(2,1.5,1.5),
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LFNoise2.kr(2,0.5,1.5),
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LFNoise2.kr(2,0.5,1.5)
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) * 0.4
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)}.play;
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)
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( // LatoocarfianC being thrown around
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SynthDef(\latoo_synth, {
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arg out=0;
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// wandering latoocarfian into variable 'freq':
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var freq = LatoocarfianC.ar(
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30,
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// randomize parameters:
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LFNoise2.kr(0.1,1.5,1.5),
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LFNoise2.kr(0.4,1.5,1.5),
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LFNoise2.kr(0.3,0.5,1.5),
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LFNoise2.kr(0.2,0.5,1.5)
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).range(40,130);
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// wandering latoocarfian applied as frequency to squarewave:
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var sig = Pulse.ar([freq,freq*0.99]);
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// adding sinwave for more clean deep sound
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sig = sig + SinOsc.ar([freq*0.998,freq*0.995]);
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// pinch of simple fold distortion
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sig = sig.fold(-1,1);
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// low pass filter to give sense of closing and opening
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sig = LPF.ar(sig, LFNoise2.kr(1).exprange(50,15000));
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// add space. lots of space
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sig = sig * 0.4 + Greyhole.ar(sig * 0.4, delayTime:0.4, damp: 0.3, diff: 0.6, feedback:0.5,);
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Out.ar(out,sig*0.5);
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}).play;
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)
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(
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var a = 1.4, b = 0.3, x0 = 0, x1 = 1, size = 64;
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plot(size.collect { var aux = 1 - (a * (x1 ** 2)) + (b * x0); x0 = x1; x1 = aux; aux });
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)
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(
|
|
var a = 1, b = 3, c = 0.5, d = 0.5, xi = 0.5, yi = 0.5, size = 64;
|
|
plot(size.collect { var x = xi;
|
|
xi = sin(b * yi) + (c * sin(b * xi));
|
|
yi = sin(a * x) + (d * sin(a * yi));
|
|
xi
|
|
});
|
|
)
|
|
|
|
{LFTri.ar(0.1,3).range(0,2)}.play
|
|
|
|
|
|
{SinOsc.ar(freq:TRand.kr(trig:HenonTrig.kr(minfreq:1, maxfreq:10)).range(40,2000)).dup}.play;
|
|
|
|
|
|
( // henonSquare being thrown around
|
|
~henonSquare = SynthDef(\henonSquare, {
|
|
|
|
arg out=0, gate=1;
|
|
|
|
var env = EnvGen.kr(Env([0, 1, 0], [1, 4], \sin, 1), gate);
|
|
|
|
var trig = HenonTrig.kr();
|
|
|
|
// wandering attractor into variable 'freq':
|
|
var freq = HenonN.ar(
|
|
TRand.kr(trig:trig).exprange(1,20),
|
|
// parameters:
|
|
//a: LFNoise2.kr(0.5).range(0.3,1.6),
|
|
//b: LFNoise2.kr(0.5).range(0,0.6)
|
|
//a: 1.4,
|
|
a: LFTri.kr(0.01,3).range(1,1.5), // ramp up and down, slowly
|
|
b: 0.3
|
|
).exprange(40,1000);
|
|
|
|
// wandering attractor applied as frequency to squarewave:
|
|
var sig = Pulse.ar([freq,freq]);
|
|
|
|
// adding sinwave for more clean deep/soft sound
|
|
sig = sig + SinOsc.ar([freq,freq*0.995]);
|
|
|
|
// fold distortion
|
|
sig = sig.fold2(0.5) * 2;
|
|
|
|
// low pass filter to give sense of closing and opening
|
|
sig = LPF.ar(sig, LFNoise2.kr(0.2).exprange(100,20000));
|
|
|
|
sig = sig * env;
|
|
|
|
// add space. lots of space
|
|
sig = (sig * 0.5) + Greyhole.ar(sig * 0.5, delayTime:0.6, damp: 0.8, diff: 0, feedback:0.6,);
|
|
|
|
DetectSilence.ar(sig, doneAction: Done.freeSelf);
|
|
|
|
Out.ar(out,sig * 0.5);
|
|
}).play;
|
|
)
|
|
|
|
~henonSquare.set(\gate, 0);
|
|
|
|
|
|
|
|
|
|
|
|
|
|
( // FM GRAINS // multiplication 200x
|
|
( // synthdef /////////
|
|
SynthDef(\fm_grainer, {
|
|
arg out = 0, modfreq = rrand(10,1000), carfreq = 100 ;
|
|
var signal;
|
|
|
|
signal = GrainFM.ar(
|
|
numChannels:2,
|
|
trigger: Impulse.kr(LFTri.kr(0.1, -1)+1*10),
|
|
dur: 0.05,
|
|
carfreq: carfreq,
|
|
modfreq: modfreq,
|
|
// index: LFNoise1.kr.range(1, 90),
|
|
index: SinOsc.kr(0.05)*0.2,// LFNoise1.kr.range(1, 90),
|
|
pan: LFNoise1.kr.range(-1,1),
|
|
envbufnum: -1
|
|
) * 0.2;
|
|
|
|
signal = signal * EnvGen.kr(Env.linen(1,60,10,0.4,\lin),doneAction:Done.freeSelf);
|
|
|
|
Out.ar(out, Splay.ar(signal));
|
|
}).add;
|
|
)
|
|
|
|
( // with routine synth*env can be 'run' multiple times in succession!!
|
|
var r;
|
|
r = Routine {
|
|
200.do({
|
|
x = Synth(\fm_grainer,
|
|
[
|
|
"modfreq", rrand(10,1000),
|
|
"carfreq", rrand(40,100),
|
|
\out, 4
|
|
]);
|
|
1.wait;
|
|
});
|
|
"done".postln;
|
|
}.play;
|
|
)
|
|
)
|
|
|
|
( // granulating a buffer - using MouseX/y for
|
|
|
|
//////////////////////////////////////////////////////////////////////////////////////////////
|
|
// granulating a buffer
|
|
// a lot of potential
|
|
// expand, improve, make SynthDef more flexible (more arguments) + write Synth recipes
|
|
|
|
var winenv;
|
|
b = Buffer.read(s,
|
|
PathName(thisProcess.nowExecutingPath).pathOnly +/+ "../smp/403312__marco-luzi__forest-soil_norm-mono.wav" );
|
|
|
|
// a custom envelope
|
|
// winenv = Env([0, 1, 0], [0.5, 0.5], [8, -8]);
|
|
// z = Buffer.sendCollection(s, Env([0, 1, 0], [0.5, 0.5], [8, -8]).discretize, 1);
|
|
|
|
SynthDef(\Granny, { |out=0, gate = 1, amp = 0.5, sndbuf, envbuf|
|
|
var pan, env, freqdev;
|
|
// use mouse x to control panning
|
|
pan = MouseX.kr(-1, 1);
|
|
env = EnvGen.kr(
|
|
Env([0, 1, 0], [1, 1], \sin, 1),
|
|
gate,
|
|
levelScale: amp,
|
|
doneAction: Done.freeSelf);
|
|
Out.ar(out,
|
|
GrainBuf.ar(
|
|
numChannels: 2,
|
|
trigger: Impulse.kr(200),
|
|
dur: MouseY.kr.range(0.001,1),
|
|
sndbuf: sndbuf,
|
|
rate: 0.8, // the playback rate of the sampled sound
|
|
pos: MouseX.kr.range(0, 25) * LFNoise2.kr(20).range(0.999,1.001),
|
|
interp: 4, // 2: liner, 4: cubic
|
|
pan: pan,
|
|
envbufnum: envbuf,
|
|
maxGrains: 1024)
|
|
* env)
|
|
}).add;
|
|
)
|
|
(// granular Synth instances & parameters
|
|
// use built-in env
|
|
x = Synth(\Granny, [\sndbuf, b, \envbuf, -1]) // fade-in
|
|
x = Synth(\granSoil, [\sndbuf, b, \envbuf, -1]) // fade-inx\
|
|
x.set(\rate, 0.4, \amp, 4);
|
|
x.set(\gate, 0, \fadeTime, 2); // use envelope to fade out
|
|
x.free // stop.
|
|
// switch to the custom env
|
|
|
|
// you can create custom env in a buffer on a server after SynthDef and after Synth instantiation!
|
|
z = Buffer.sendCollection(s, Env([0, 1, 0], [0.5, 0.5], [8, -8]).discretize, 1);
|
|
z.plot
|
|
b.plot
|
|
x.set(\envbuf, z)
|
|
x.set(\envbuf, -1);
|
|
)
|
|
|
|
(// WeaklyNonlinear2
|
|
|
|
~weakly = { Out.ar(0,Pan2.ar(
|
|
in: 0.1 * WeaklyNonlinear2.ar(
|
|
input: Pulse.ar(
|
|
//input: Pulse.ar(
|
|
freq: 50.626,
|
|
//mul: MouseY.kr(0.0001,1,'exponential')
|
|
mul: LFNoise2.kr(1).linexp(-1,1,0.0001,1)
|
|
),
|
|
//freq: MouseX.kr(100,400)
|
|
freq: LFNoise2.kr(0.5).linlin(-1,1,100,400)
|
|
),
|
|
//pos: 0.0
|
|
pos: LFNoise2.kr(0.5) * 0.8
|
|
)
|
|
)}.play
|
|
)
|
|
~weakly.free;
|
|
|
|
|
|
|
|
( // three Ringz trigs, frequencies...
|
|
{
|
|
var son = [
|
|
Ringz.ar(LorenzTrig.ar(1,11), 1060 * SinOsc.ar(7).range(0.99,1.01), 0.04).fold2(0.5),
|
|
Ringz.ar(HenonTrig.ar(1,12), 360 * SinOsc.ar(7).range(0.99,1.01), 0.18).fold2(0.5)
|
|
]
|
|
+ Pan2.ar(Ringz.ar(GbmanTrig.ar(1,13), 60 * SinOsc.ar(7).range(0.95,1.05), 0.18).fold2(0.5),SinOsc.ar(0.5));
|
|
son + Greyhole.ar(son * 0.4, delayTime:0.2, feedback:0.6)
|
|
}.play;
|
|
)
|
|
|
|
|
|
|
|
|
|
|
|
(// Trigger versions of chaos UGens....
|
|
//
|
|
{ Ringz.ar(StandardTrig.ar(10, 20), 2205, 0.02).fold2(0.5).dup }.play
|
|
{ Ringz.ar(GbmanTrig.ar(1,70), 2205, 0.02).fold2(0.5).dup }.play
|
|
|
|
{ Ringz.ar(GbmanTrig.ar(1,20), GbmanL.ar(5).range(500,5000), 0.02).fold2(0.5).dup }.play
|
|
{ Ringz.ar(GbmanTrig.ar(1,40), GbmanL.ar(50).range(500,5000), 0.02).fold2(0.5).dup }.play
|
|
{ Ringz.ar(GbmanTrig.ar(1,40), 500, 0.02).fold2(0.5).dup }.play
|
|
|
|
{ Ringz.ar(GbmanTrig.ar(1,11), 1060 * SinOsc.ar(7).range(0.99,1.01), 0.04).fold2(0.5)!2}.play
|
|
|
|
|
|
{ Ringz.ar(LorenzTrig.ar(0.1,30), 2205, 0.02).fold2(0.5).dup }.play
|
|
|
|
{ LorenzTrig.ar(11025, 44100) }.play(s);
|
|
|
|
)
|
|
|
|
{ Ringz.ar(in:GbmanTrig.ar(9), freq: 160, decaytime:0.15) * 0.01.dup}.play
|
|
|
|
|
|
|
|
|
|
|
|
{ Ringz.ar(in:GbmanTrig.ar(1,10), freq: 1000, decaytime:0.3) * 0.5.dup}.play
|
|
|
|
{ Ringz.ar(in:HenonTrig.ar(1,10), freq: 1000, decaytime:0.3) * 0.5.dup}.play
|
|
|
|
{ Ringz.ar(in:LatoocarfianTrig.ar(1,10), freq: 1000, decaytime:0.3) * 0.5.dup}.play
|
|
|
|
{ Ringz.ar(in:StandardTrig.ar(1,10), freq: rrand(40,100), decaytime:0.3) * 0.5.dup}.play
|
|
|
|
{ Ringz.ar(in:LorenzTrig.ar(1,10), freq: 1000, decaytime:0.1) * 0.5.dup}.play
|
|
|
|
{ Ringz.ar(in:FhnTrig.ar(1,20), freq: 3000, decaytime:0.1) * 0.9.dup}.play
|
|
|
|
|
|
|
|
|
|
( // LorenzTrig
|
|
SynthDef(\lorenzTrigKick, {
|
|
arg out=0;
|
|
|
|
var trig = LorenzTrig.ar(0.1,20);
|
|
|
|
var son = (SinOsc.ar(freq:40)
|
|
+ Ringz.ar(in: trig, freq:1600, decaytime:0.05, mul: 0.1)
|
|
+ (WhiteNoise.ar() * 0.1)
|
|
)
|
|
* EnvGen.ar(
|
|
envelope: Env.perc(releaseTime:0.05),
|
|
gate: trig
|
|
).fold2(0.3) * 3;
|
|
|
|
son = RLPF.ar(in: son,
|
|
freq: 2000, rq: 0.4);
|
|
|
|
son = son ! 2; // duplicate to two buses;
|
|
Out.ar(out, son);
|
|
|
|
}).play;
|
|
)
|
|
|
|
|
|
|
|
{ LFTri.ar(LFTri.kr(0.02, iphase:3).range(100,15000)).dup}.play
|
|
|
|
|
|
(// Fhn - FitzHughNagumo Neuron Firing Oscillator
|
|
SynthDef(\fhn, {|out=0, pan=0, amp=0.2|
|
|
var sig, trig1, trig2, b0, b1;
|
|
trig1=FhnTrig.kr(5, 8, 0.3, 0.3, 1, 1);
|
|
trig2=FhnTrig.kr(8, 13, 0.27, 0.27, 0.6, 0.8);
|
|
b0=Fhn2DN.kr(3, 5, 0.29, 0.29, 0.5, 1.1, mul:0.23, add:0.25);
|
|
b1=Fhn2DN.kr(2, 3, 0.25, 0.25, 0.2, 1.5, mul:0.48, add:0.5);
|
|
sig=Fhn2DN.ar(210, 35650, TExpRand.kr(0.001, 0.3, trig1), TExpRand.kr(0.001, 0.3, trig2), b0, b1, mul:amp);
|
|
sig=LeakDC.ar(sig);
|
|
Out.ar(0,Pan2.ar(sig, pan))
|
|
}).add;
|
|
)
|
|
|
|
~fhn = Synth(\fhn);
|
|
~fhn.free
|
|
)
|
|
|
|
|
|
|
|
|
|
|
|
( // pure melody experiments
|
|
SynthDef("plucking", {arg out = 0, amp = 0.1, freq = 440, decay = 5, coef = 0.1;
|
|
var env, snd;
|
|
env = EnvGen.kr(Env.linen(0, decay, 0), doneAction: 2);
|
|
snd = Pluck.ar(
|
|
in: BrownNoise.ar(amp),
|
|
trig: Impulse.kr(0),
|
|
maxdelaytime: 0.1,
|
|
delaytime: freq.reciprocal,
|
|
decaytime: decay,
|
|
coef: coef);
|
|
snd = LeakDC.ar(snd).clip2;
|
|
Out.ar(out, snd * env);
|
|
}).add;
|
|
|
|
b = Bus.audio(s,1);
|
|
|
|
SynthDef("reverbBus", { arg outBus = 0, inBus, wet = 0.1;
|
|
var input, rev;
|
|
input = In.ar(inBus,1);
|
|
rev = JPverb.ar(input * wet, t60:4, damp:0.5);
|
|
DetectSilence.ar(rev, doneAction: Done.freeSelf);
|
|
Out.ar(outBus, input + (rev));
|
|
}).add;
|
|
|
|
r = Synth("reverbBus", [\inBus, b, \wet, 0.4]);
|
|
|
|
t = TempoClock.default;
|
|
|
|
Pbind(
|
|
\instrument, "plucking",
|
|
\scale, Scale.major.tuning_(\just),
|
|
\octave, 4,
|
|
//\degree, Pseq([1,3,7,8], inf), // four main notes
|
|
//\mtranspose, Pseq([Pseq([0],3),Pseq([-5],3)],inf), // switched mode every 3 notes (*2)
|
|
// results in:
|
|
// [1 3 7 8 1 3 7 8 1 3 7 8] 3 x 4
|
|
// [1, 3, 7, 3,-4,-2, 7, 8, 1,-2, 2, 3] 4 x 3
|
|
\degree, Pseq([1, 3, 7, 3,-4,-2, 7, 8, 1,-2, 2, 3], inf),
|
|
\mtranspose, Pseq([
|
|
//Pseq([0],144),
|
|
Pseq([0],48),Pseq([3],48),Pseq([4],48)], inf),
|
|
\gtranspose, Pseq([Pseq([0],36),Pseq([4],36),Pseq([[-3]],36),Pseq([2],36)],inf),
|
|
// \ctranspose, Pser([Pseries(-4,1,4) +.x Pseq([0], 144)],2),
|
|
|
|
\coef, Pseq(
|
|
[ Pseq([
|
|
Prand([0.2,0.3,0.4,0.5],1),
|
|
Prand([0.6,0.5],5),
|
|
Prand([0.2,0.3],1),
|
|
Prand([0.6,0.5],5)
|
|
], 1),
|
|
Prand([0.7,0.6],12)
|
|
],inf),
|
|
|
|
\dur, Pseq([Prand([0.25,0.25,0.24,0.245,0.255,0.25], 140),0.26,0.3,0.4,0.7], inf)
|
|
* Pseq([Pseq([0.8],110), Pgeom(0.8,1.002,34)],inf),
|
|
\decay, Pseq([8, Prand([1,2,3,4], 4),3,2,1], inf),
|
|
//\decay, 3,
|
|
\out, b, \amp, 0.4,
|
|
).play;
|
|
)
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
s.scope
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
// set reverb 'wetness'
|
|
~reverb.set(\wet,1);
|
|
|
|
( // set tempo
|
|
var bpm = 50;
|
|
t = TempoClock.default;
|
|
t.tempo_(bpm/60) // beats per minute
|
|
)
|
|
|
|
|
|
|
|
|
|
////////////////////////////////////////////////////////////////////////////////////////////////////////
|
|
(SynthDef("plck", {|out,freq,cf|Out.ar(out,LeakDC.ar(Pluck.ar(PinkNoise.ar(1),Impulse.kr(0),0.1,freq.reciprocal,5,cf))*EnvGen.kr(Env.linen(0,5,0),doneAction:2))}).add;b=Bus.audio();play({var in=In.ar(b);Out.ar(0,in+JPverb.ar(in*0.5,t60:4))});Pbind(\instrument,\plck,\out,b,\scale,Scale.major,\octave,4,\degree,Pseq([1,3,7,8,Prand([7,10,11,13,14]),8,7,3],inf),\dur,Pseq([Pwrand([Pseq([0.2,0.2]),0.4,Pseq([0.1],4),Pseq([0.05],4)],[0.5,0.3,0.1,0.1])], 240),\cf,{1.0.rand}).play)// #sctoot #SuperCollider
|
|
///////////////////////////////////////////////
|
|
|
|
|
|
|
|
// Melodic Minor Chords
|
|
(
|
|
Pbind(
|
|
\instrument, "plucking",
|
|
\scale, Scale.melodicMinor.tuning_(\just),
|
|
\octave, 5,
|
|
\degree, Prand([
|
|
[0, 1, 4, 6],
|
|
[0, 2, 5, 7],
|
|
[-4, 0, 4, 5]
|
|
], inf),
|
|
\amp, Pwhite(0.1, 0.2),
|
|
\decay, Pwhite(3, 1),
|
|
\coef, Pseq([0.2, 0.6, 0.4], inf),
|
|
//\dur, Pwrand([1/4, 18, 2/16, 1/2], [0.5, 0.29, 0.2, 0.01], inf)
|
|
\dur, Pseq((16..1).linexp(1,16,0.1,1), inf),
|
|
// \dur, Pgeom(1,0.9, 20),
|
|
).play(quant: Quant(0.0));
|
|
|
|
|
|
|
|
|
|
)
|
|
|
|
|
|
|
|
|
|
|
|
|
|
// SpruceBudworm /////////////////////////////////////////////////////////////////
|
|
|
|
(
|
|
SynthDef(\spruceB, {
|
|
var signal, envelope, reverb;
|
|
|
|
signal = SpruceBudworm.ar(
|
|
reset: 0.0,
|
|
rate: SinOsc.kr(0.1).linlin(-1, 1, 0.09, 0.1)
|
|
);
|
|
|
|
|
|
envelope = EnvGen.kr(
|
|
Env.pairs([[0,1],[0.005,1],[0.2,0]],\lin),
|
|
gate:LFPulse.kr(
|
|
freq:LFNoise0.kr(1).linlin(-1,1,0.001,10) ),
|
|
doneAction: Done.none
|
|
);
|
|
|
|
//signal = LeakDC.ar(signal);
|
|
|
|
//signal = signal * envelope;
|
|
//signal = Pan2.ar(signal, 1);
|
|
|
|
reverb = NHHall.ar(signal,
|
|
rt60: 1,
|
|
stereo: 0.2,
|
|
lowFreq: 200,
|
|
lowRatio: 0.5,
|
|
hiFreq: 4000,
|
|
hiRatio: 0.5,
|
|
earlyDiffusion: 0.5,
|
|
lateDiffusion: 0.5,
|
|
modRate: 0.2,
|
|
modDepth: 0.3);
|
|
|
|
|
|
|
|
Out.ar(0, Pan2.ar(signal*0.7));
|
|
}).add;
|
|
)
|
|
|
|
x = Synth(\spruceB);
|
|
|
|
(
|
|
{Out.ar(0,
|
|
LeakDC.ar(0.9 * SpruceBudworm.ar(
|
|
reset: 0.0,
|
|
|
|
//rate: MouseX.kr(0.09,0.1)
|
|
rate: [
|
|
SinOsc.kr(0.1).linlin(-1,1,0.09,0.1),
|
|
SinOsc.kr(0.4).linlin(-1,1,0.09,0.1)]
|
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//rate: LFNoise0.kr( freq: 8).linlin(-1,1,0.09,0.1)
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)
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)
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* EnvGen.kr(
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Env.pairs([[0,1],[0.005,1],[0.2,0]],\lin),
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gate:LFPulse.kr(
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freq:LFNoise0.kr(1).linlin(-1,1,0.001,10) ),
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doneAction: Done.none
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)
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)}.play
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)
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{ Pan2.ar(SpruceBudworm.ar( reset: 0.0, rate: SinOsc.kr(0.1).linlin(-1, 1, 0.09, 0.1)).dup, Line.kr(-1, 1, 5)) }.play
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(
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{Out.ar(0, Pan2.ar(
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HenonC.ar(SampleRate.ir/32, MouseX.kr(1,1.4), MouseY.kr(0,0.3)) * 0.2
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)
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)}.play
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){Out.ar(0, Pan2.ar(SinOsc.ar()))}.play
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// to be expanded //
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x = {Pulse.ar(freq:[50,51]) * 0.1 * LFPulse.kr(SinOsc.kr(0.1) + 1 * 20 )}.play
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x.free
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{SinOsc.ar}.play
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// Hello everyone!!! |