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@@ -18,25 +18,23 @@ s.waitForBoot { |
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lagtime = 100 / (2**octave); |
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lagtime = 100 / (2**octave); |
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// Oscillator/filter frequency |
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// Oscillator/filter frequency |
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// frequency = notefreq * (1 + (hue*0.1)); |
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frequency = notefreq * (1 + (hue*5)) * (2**(octave-2)); |
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frequency = (notefreq * (1 + (hue*0.1))) * (2**(octave)); |
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//frequency = (130 + (hue * 130)) * (2 ** octave); |
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//frequency = (130 + (hue * 130)) * (2 ** octave); |
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//frequency = 130 * Scale.major.ratios[(hue * 12).asInteger]; |
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//frequency = 130 * Scale.major.ratios[(hue * 12).asInteger]; |
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//frequency = (130 * frequency) * (2**octave); |
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//frequency = (130 * frequency) * (2**octave); |
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frequency = Lag.kr(frequency, lagtime/10); |
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frequency = Lag.kr(frequency, lagtime/10); |
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// Filtered saw oscillator |
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// Filtered saw oscillator |
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// oscillator = Mix.ar([SawDPW.ar(frequency), SawDPW.ar(frequency/2+0.5)]); |
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oscillator = Mix.ar([DPW3Tri.ar(frequency), DPW3Tri.ar(frequency/2+0.5)]); |
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oscillator = Mix.ar([SawDPW.ar(frequency), SawDPW.ar(frequency/2+value*(1-saturation)*50)]); |
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filter = DFM1.ar(oscillator, frequency, saturation/2, 1.0, 0.0, 0.0006); |
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filter = DFM1.ar(oscillator, frequency, saturation/2, 1.0, 0.0, 0.0006); |
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// Noise |
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// Noise |
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qfactor = Lag.kr((1 - saturation)**2, lagtime); |
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noise = Crackle.ar(1.9, 1.0); |
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qfactor = Lag.kr((1 - saturation)**4, lagtime); |
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noise = Crackle.ar(1.99, 1.0); |
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noise = BPF.ar(noise, frequency, qfactor); |
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noise = BPF.ar(noise, frequency, qfactor); |
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// Mix noise and saw |
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// Mix noise and saw |
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mixer = Mix.ar([filter * saturation.sqrt(), 3* noise*(1-saturation)]); |
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mixer = Mix.ar([filter * saturation.sqrt(), 1 * noise*(1-saturation)]); |
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// Apply pan |
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// Apply pan |
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panner = LinPan2.ar(mixer, pan); |
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panner = LinPan2.ar(mixer, pan); |
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@@ -48,11 +46,8 @@ s.waitForBoot { |
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// Compress |
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// Compress |
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output = Compander.ar(output, output, 0.5, 0.3, 0.3, 0.1, lagtime); |
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output = Compander.ar(output, output, 0.5, 0.3, 0.3, 0.1, lagtime); |
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// Fade in on boot |
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output = output * Lag.kr(gain, lagtime); |
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// Crank everything down |
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// Crank everything down |
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output = output * 0.3; |
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output = output * 0.9; |
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Out.ar(0, output); |
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Out.ar(0, output); |
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}); |
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}); |
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@@ -68,26 +63,11 @@ s.waitForBoot { |
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octave = (2 - (index / 4).floor); |
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octave = (2 - (index / 4).floor); |
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"Module %: Pan %, octave %\n".postf(index, pan.round(1e-1), octave.round(1e-1)); |
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"Module %: Pan %, octave %\n".postf(index, pan.round(1e-1), octave.round(1e-1)); |
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Synth.new(\module, |
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Synth.new(\module, |
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[\hue, 0.5, \saturation, 0.1, \value, 0.5, \pan, pan, \gain, 0.0, \octave, octave, \notefreq, Scale.major.degreeToFreq(index, 48.midicps, octave)] |
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[\hue, 0.5, \saturation, 0.1, \value, 0.5, \pan, pan, \gain, 0.9, \octave, octave, \notefreq, Scale.major.degreeToFreq(index, 48.midicps, octave)] |
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) |
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) |
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} |
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} |
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); |
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); |
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// Turn up gain after some time |
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SystemClock.schedAbs(8, {modules[0].set(\gain, 1)}); |
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SystemClock.schedAbs(8, {modules[1].set(\gain, 1)}); |
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SystemClock.schedAbs(8, {modules[2].set(\gain, 1)}); |
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SystemClock.schedAbs(8, {modules[3].set(\gain, 1)}); |
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SystemClock.schedAbs(16, {modules[4].set(\gain, 1)}); |
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SystemClock.schedAbs(16, {modules[5].set(\gain, 1)}); |
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SystemClock.schedAbs(16, {modules[6].set(\gain, 1)}); |
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SystemClock.schedAbs(16, {modules[7].set(\gain, 1)}); |
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SystemClock.schedAbs(32, {modules[8].set(\gain, 1)}); |
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SystemClock.schedAbs(32, {modules[9].set(\gain, 1)}); |
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SystemClock.schedAbs(32, {modules[10].set(\gain, 1)}); |
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SystemClock.schedAbs(32, {modules[11].set(\gain, 1)}); |
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SystemClock.schedAbs(32, {modules[12].set(\gain, 1)}); |
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// Hook up OSC |
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// Hook up OSC |
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f = { |msg, time, addr| |
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f = { |msg, time, addr| |
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if(msg[0] == '/radio') { |
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if(msg[0] == '/radio') { |
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