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bombinans:main
bombinans:feature-synchronisation
bombinans:feature-metronome
bombinans:bugfix-looptober-cleanup
bombinans:feature-multitrack
bombinans:feature-refactor-osc
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compare: bombinans:feature-refactor-osc
Branches Tags
bombinans:main
bombinans:feature-synchronisation
bombinans:feature-metronome
bombinans:bugfix-looptober-cleanup
bombinans:feature-multitrack
bombinans:feature-refactor-osc

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1
.gitignore vendored
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.DS_Store

54
NOTES.md
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# TODO TODO
- quantise playback speed to rational values - Convert the granulator (including the buffer stuff) to a class
- display the playback and harmonics when quantised
- multiple grain buffers - TouchOsc interface to select which to send to - Convert the TouchOSC interface library to a class
- play back all buffers?
- refactor for multitrack These will involve some disintermingling of code
- which controls are per-track and which are global? sort these out in the UI
- encapsulate a grainstrack in an object?
- auto-mix: base the mix level on how loud the incoming signal is so that tracks don't fade out Ideally I want to be able to use the granulator, TouchOSC and the
midi controller as part of the same session, so do stuff like
- fancier playback:
- intertwine different rates and directions
- rhythm controls t = TouchOSC("192.168.0.30")
- number of steps in step granulator
- modulate grain level in time with playback
- sync LFOs to playback
TODO list - touchosch g = Granulator()
URL TO SC k = MidiKnobs();
grains/buflen Y Y
grains/reset Y Y
grains/record0..3 Y Y
grains/mode0..3 Y Y
grains/speed0..3 Y Y
grains/dust Y Y
grains/slope Y Y
grains/back Y Y
grains/trigger Y Y
grains/speedlock
grains/speedquant
grains/mix0 Y
grains/mix1 Y
grains/mix2 Y
grains/mix3 Y
trackselect t.bind('/grain', 0, 1, 0.5, { |self| g.set("amp", self.v) });
track/record t.bind(
track/mode
track/speed
track/size
track/blur
track/mix
track/pan
track/track
track/jitter

44
TODO.md
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TODO TODO
==== ====
Monday-Tuesday to-do ## Basic interface stuff
Use server.sync to speed up booting Write default settings to the interface on startup <-- done
- re-route the effects so that it goes Try to get all the common interfaces on one page
input -> filter -> delay -> granulator -> reverb
not input -> granulator -> effects
Synchronise speeds across granulators
Quantise speeds
that's enough!
--
Later: ## Musical
vibrato and tremolo Test things like really rapid playback
more playback modes Pitch-shifting (tuned and untuned)
LFO Modulate the filter <-- done
LFO Modulate the granulator settings
Separate panel for input effects: distort and overdrive
Sync timining of granule playback to buffer length / speed
Timing based on beat detection
## Advanced interface
Save current patch / load patch <-- Done
Save the current buffer! - if this is incorporated with current settings, it's a way to save how the granulator is playing, and then resume. Which is good for live stuff and also for overdubbing
SuperCollider seems to have the ability to read and write files, but not scan directories, so the patch-saver will have to maintain its own index file
patch = file with settings, including a link to the buffer sample

32
control.scd
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(
//input mixing, effects and lfos
~inputb = Bus.audio(s, 1); // bypassing this one for now
~infxb = Bus.audio(s, 1);
~inmixer = SynthDef(
\input_null,
{
arg in1 = 2, in2 = 3, out = 4;
Out.ar(out, In.ar(in1) + In.ar(in2));
}
).play(s, [\in1, ~usbinput1, \in2, ~usbinput2, \out, ~infxb]);
// LFO buses and synths
~lfoab = Bus.control(s, 1);
~lfobb = Bus.control(s, 1);
~lfocb = Bus.control(s, 1);
~lfoa = Synth(\lfo, [\out, ~lfoab ]);
~lfob = Synth(\lfo, [\out, ~lfobb ]);
~lfoc = Synth(\lfo, [\out, ~lfocb ]);
"LFOs running".postln;
)

76
effects.scd
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// this is just output effects now
(
~outfxb = Bus.audio(s, 2);
~filterb = Bus.audio(s, 2);
~delayb = Bus.audio(s, 2);
~reverbb = Bus.audio(s, 2);
~grainmixer = SynthDef(
\grain_mixer,
{
arg in=2, grainb=4, out=0, passthrough=0.75, grains=1;
Out.ar(out, (grains * In.ar(grainb, 2)) + (passthrough * In.ar(in, 1) ! 2));
}
).play(s, [\in, ~infxb, \grainb, ~grainsb, \out, ~outfxb ], \addToTail);
// filter is after grains again
~filtermodb = Bus.control(s, 1);
~filtermod = SynthDef(
\filtermod, {
arg out, a = 1.0, b = 0.0, c = 0.0;
var siga, sigb, sigc;
siga = In.kr(~lfoab) * a;
sigb = In.kr(~lfobb) * b;
sigc = In.kr(~lfocb) * c;
Out.kr(out, Wrap.kr(siga + sigb + sigc, -1, 1));
}
).play(s, [\out, ~filtermodb, \a, 1, \b, 0, \c, 0 ]);
~filter = SynthDef(
\filter, {
arg in, out, mod, freq=10000, res=0.3, amp=1.0;
var filt, lfo;
lfo = LinExp.kr(In.kr(mod, 1), -1, 1, freq * 0.5, freq * 2);
filt = RLPF.ar(In.ar(in, 2) * amp, lfo, res);
Out.ar(out, filt);
}
).play(s, [ \in, ~outfxb, \out, ~filterb, \mod, ~filtermodb, \amp, 0.5], \addToTail);
// delay always passes through 100% of its input + amp % of the delay
~delay = SynthDef(
\delay, {
arg in, out, maxdelay=1, delaytime=0.2, decaytime=0.1, amp=0.5;
var sig = In.ar(in, 2), del;
del = CombC.ar(sig, maxdelay, delaytime, decaytime, amp);
Out.ar(out, sig + del);
}
).play(s, [ \in, ~filterb, \out, ~delayb ], \addToTail);
~reverb = SynthDef(
\reverb, {
arg in, out, mix=0.33, room=0.5, damp=0.5, amp=0.25;
var input = In.ar(in, 2);
Out.ar(out, input + FreeVerb2.ar(input[0], input[1], mix, room, damp, amp));
}
).play(s, [ \in, ~delayb, \out, 0 ], \addToTail);
"Effects running".postln;
)

363
grains.scd 100644
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Server.killAll
// Execute this before booting the server
Server.default.options.inDevice_("Scarlett 2i2 USB");
// TODO - FIXME
// [X] mode switching isn't working
// [ ] playback speed isn't working
// [ ] lfo filter modulation isn't working
// [ ] setting parameters from defaults at startup like passthrough
s.sampleRate
(
~to = TouchOSC("192.168.0.209", 9000);
~usbinput = 2;
~buflen = 4.0;
~beatsperbar = 4;
// trying setting the playback LFOs before the controls
// granulator playback modes
// each of these is a control bus with a synth that drives the pattern
// the granulator mode control switches between them
// more ideas for modules: scramble - do a permutation of ABCDEFGH slots
// todo - encapsulate these in a class
~grainsinb = Bus.control(s, 1);
~grainsin = SynthDef(
\grainsin,
{
arg out=5, speed=1;
Out.kr(out, 0.5 + SinOsc.kr(speed, 0, 0.5));
}
).play(s, [\out, ~grainsinb, \speed, 1]);
~grainsawb = Bus.control(s, 1);
~grainsaw = SynthDef(
\grainsaw,
{
arg out=5, speed=1;
Out.kr(out, 0.5 + LFSaw.kr(speed, 0, 0.5));
}
).play(s, [\out, ~grainsawb, \speed, 1]);
~grainreverseb = Bus.control(s, 1);
~grainreverse = SynthDef(
\grainreverse,
{
arg out=5, speed=1;
Out.kr(out, 0.5 - LFSaw.kr(speed, 0, 0.5));
}
).play(s, [\out, ~grainreverseb, \speed, 1]);
~graintrib = Bus.control(s, 1);
~graintri = SynthDef(
\graintri,
{
arg out=5, speed=1;
Out.kr(out, 0.5 + LFTri.kr(speed, 0, 0.5));
}
).play(s, [\out, ~graintrib, \speed, 1]);
~grainrandb = Bus.control(s, 1);
~grainrand = SynthDef(
\grainrand,
{
arg out=5, speed=1;
Out.kr(out, 0.5 + WhiteNoise.kr(0.5));
}
).play(s, [\out, ~grainrandb, \speed, 1]);
~modes = [
[ ~grainsaw, ~grainsawb, "saw" ],
[ ~grainreverse, ~grainreverseb, "reverse", ],
[ ~grainsin, ~grainsinb, "sine" ],
[ ~graintri, ~graintrib, "triangle" ],
[ ~grainrand, ~grainrandb, "random" ]
];
~playbacklfo = ~modes[0][0];
~playbacklfob = ~modes[0][1];
// audio buses
// recordb = input to bufrecorder
// granulatorb = output from granulator
~recordb = Bus.audio(s, 1);
~infilter = SynthDef(
\input_null,
{
arg in = 2, out = 4;
Out.ar(out, In.ar(in));
}
).play(s, [\in, ~usbinput, \out, ~recordb]);
~granulatorb = Bus.audio(s, 2);
// LFO bus and synth used to modulate the filter
~lfob = Bus.control(s, 1);
~lfo = SynthDef(
\lfo,
{
arg out=5, freq=1, amp=0;
Out.kr(out, SinOsc.kr(freq, 0, amp));
}
).play(s, [\out, ~lfob, \freq, 1, \amp, 0]);
// buffer recorder
~frippbuffer = Buffer.alloc(s, s.sampleRate * ~buflen, 1);
~bufrecorder = SynthDef(
\fripp_record,
{
arg in = 2, fb = 4, buffer = 0, mix = 0.25, record = 0.0, feedback = 0.0;
var insig, fbsig;
insig = record * In.ar(in, 1);
fbsig = feedback * Mix.ar(In.ar(fb, 2));
RecordBuf.ar(insig + fbsig, buffer, 0, mix, 1 - mix, loop: 1)
}
).play(s, [\in, ~recordb, \record, 1.0, \fb, ~granulatorb, \out, 0, \buffer, ~frippbuffer], \addToTail);
// the main granulator synth
// todo - different styles of trigger
~granulator = SynthDef(
\grainsynth,
{
arg out=0, modb, trate=120, size=12, rate=1, posb=5, amp=1.0, freq=10000, rq=0.3, pan=0, track=0.25, jitter=0, chorus=0.0, blur=0.0, dust = 0, buffer;
var dur, blen, clk, chor, pos, pans, grains, filtfreq;
dur = size / trate;
clk = (Impulse.kr(trate) * (1 - dust)) + (Dust.kr(trate) * dust);
chor = chorus * 2.pow((LFNoise0.kr(trate) + 0.5).floor) + (1 - chorus);
blen = BufDur.kr(buffer);
pos = Wrap.kr(In.kr(posb, 1) + WhiteNoise.kr(blur), 0, 1);
pans = pan + WhiteNoise.kr(jitter) + (track * (In.kr(posb, 1) - 1));
filtfreq = (In.kr(modb, 1) * freq * 0.5) + freq;
grains = TGrains.ar(2, clk, buffer, chor * rate, pos * blen, dur, pans, amp);
Out.ar(out, RLPF.ar(grains, filtfreq, rq));
}
).play(s, [\out, ~granulatorb, \buffer, ~frippbuffer, \posb, ~grainsawb, \modb, ~lfob]);
~mixerb = Bus.audio(s, 2); // this is what we will record from
~mixer = SynthDef(
\mixer_synth,
{
arg in = 2, gbus = 4, out = 0, amp = 1.0, passthrough = 0.0;
//Out.ar(out, In.ar(gbus, 2));
Out.ar(out, (amp * In.ar(gbus, 2)) + (passthrough * In.ar(~recordb, 1) ! 2));
}
).play(s, [\in, ~usbinput, \out, ~mixerb, \gbus, ~granulatorb, \amp, 1.0, \passthrough, 0.0], \addToTail);
~monitor = SynthDef(
\monitor_synth,
{
arg in=2, out=0;
Out.ar(out, In.ar(in, 2))
}
).play(s, [\in, ~mixerb, \out, 0 ], \addToTail);
// sync the server so that all the synths are ready for the touchosc stuff
)
// s.sync(); // this needs to be done in a routine because it calls yield
// sidebar -
ServerMeter.new(s, 8, 8);
~mixer.set(\in, 0);
~recordb;
~monitor.set(\in, ~usbinput);
~mixer.set(\in, 0);
(
OSCdef.freeAll;
~to.button('/record', 1, { | v | ~bufrecorder.set(\record, v) });
~to.button('/reset', 0, { | v |
if( v > 0, {
var sp = ~to.v('/grains/speed')[0];
~buflen = ~to.v('/grains/buflen');
[ "resetting buffer to", ~buflen ].postln;
~newbuffer = Buffer.alloc(s, s.sampleRate * ~buflen, 1);
~granulator.set(\buffer, ~newbuffer);
~bufrecorder.set(\buffer, ~newbuffer);
if( ~frippbuffer.isNil.not, { ~frippbuffer.free });
~frippbuffer = ~newbuffer;
~playbacklfo.set(\speed, sp / ~buflen);
});
});
~to.slider('/mix', 0.25, TouchOSCScale(0, 1), { |v| ~bufrecorder.set(\mix, v) } );
~to.slider('/gain', 0.5, TouchOSCScale(0, 1), { |v| ~granulator.set(\amp, v) } );
~to.slider('/passthrough', 0.5, TouchOSCScale(0, 1), { |v| ~mixer.set(\passthrough, v) } );
~to.slider('/feedback', 0, TouchOSCScale(0, 0.25), { |v|
~bufrecorder.set(\feedback, v) } );
~to.button('/grains/bpm', "~", {});
~tapper = TapBeats();
~to.button('/grains/tap', 0, { | v, t |
if( v > 0, {
~tapper.tap(t);
if( ~tapper.bpm.isNil.not, {
~to.v_('/grains/bpm', ~tapper.bpm.round(1));
})
})
});
~to.button('/grains/bpmsend', 0, { | v |
if( ~tapper.bpm.isNil.not, {
var bl = ~beatsperbar * ~tapper.bpm;
~to.v_('/grains/buflen', bl);
~to.v_('/reset', 1);
});
});
// note: ~buflen is the variable for buffer length, which only gets set to
// ~to.v('/grains/buflen') when the buffer is reset with the clear button
~to.slider('/grains/buflen', ~buflen, TouchOSCScale(0.1, 10.0), {});
// this is a write-only control to display where the buffer playback is at
~to.slider('/grains/buffer', 0, TouchOSCScale(0, 1), {});
~to.xy('/grains/speed', [ 1, 40 ], TouchOSCScale(0, 2), TouchOSCScale(0, 120), { | v |
~playbacklfo.set(\speed, v[0] / ~buflen);
~granulator.set(\trate, v[1] / ~buflen);
});
~to.button('/grains/mode', 0, { |v|
var mode = ~modes[v];
"mode".postln;
[ v, mode ].postln;
if( mode.isNil.not, {
~granulator.set(\posb, mode[1]);
~playbacklfo = mode[0];
~playbacklfob = mode[1];
~playbacklfo.set(\speed, ~to.v('/grains/speed')[0]);
}, {
[ "Bad mode index", v ].postln;
});
});
~to.button('/grains/dust', 0, { |v| ~granulator.set(\dust, v) });
~to.slider('/grainf/blur', 0, TouchOSCScale(0, 1), { |v| ~granulator.set(\blur, v) });
// todo vvv quantise speed should be swappable
// var trate, qspeed;
// qspeed = 2.pow(v[0].floor);
// ~playbacklfo.set(\speed, qspeed / ~buflen);
// [ "speed", v[0], qspeed, qspeed / ~buflen ].postln;
// trate = 2.pow(v[1].floor) / ~buflen;
// ~granulator.set(\trate, trate);
~to.slider('/grains/size', 12, TouchOSCScale(0, 20),{ |v| ~granulator.set(\size, v) });
// Page 2: grainfx
~to.slider('/grains/blur', 0, TouchOSCScale(0, 1), { |v| ~granulator.set(\blur, v) });
~to.button('/grainfx/back', 0, { |v| ~granulator.set(\rate, if( v > 0, { -1 }, { 1}))});
~to.button('/grainfx/slope', 1, { |v| });
~to.button('/grainfx/chorus', 0, { |v| ~granulator.set(\chorus, v) });
~to.slider('/grainfx/pan', 0, TouchOSCScale(-1, 1), { |v| ~granulator.set(\pan, v) });
~to.slider('/grainfx/track', 0, TouchOSCScale(-1, 1), { |v| ~granulator.set(\track, v) });
~to.slider('/grainfx/jitter', 0, TouchOSCScale(0, 1), { |v| ~granulator.set(\jitter, v) });
// pitch gets quantised to octaves from 3 below to 3 above.
// NOTE: the pitch TouchOSC control is -1 to 1, not 0 to 1
// min/max gets ignored because I'm overloading the ctrlset/get
// TODO: fixme,
// ~to.slider('/grainfx/pitch', -1, 1, 1,
// { |self| ~granulator.set("rate", self.v) },
// { |self, ctrlv | self.v = 2.pow((ctrlv * 3).floor) },
// { |self| self.v.log2.floor / 3; }
// );
~to.xy(
'/fx/filter',
[ 10000, 0.3 ],
TouchOSCScale(200, 10000),
TouchOSCScale(0.1, 1),
{ |v|
~granulator.set(\freq, v[0]);
~granulator.set(\res, v[1]);
}
);
~to.slider('/fx/lfofreq', 0.5,TouchOSCScale(0.001, 4), { |v| ~lfo.set(\freq, v) } );
~to.slider('/fx/lfoamp', 0, TouchOSCScale(0, 1), { |v| ~lfo.set(\amp, v) });
)
(
~posdisplay = Task.new({
{
~playbacklfob.get({ | v |
~to.v_('/grains/buffer', v)
});
0.02.wait;
}.loop;
});
~posdisplay.start;
)
~to.slider('/grains/blur', 0, TouchOSCScale(0, 1), { |v| ~granulator.set(\blur, v) });
~posdisplay.stop;
~playbacklfob;
~posb;

98
granulator.scd
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(
~modes = [
[ "saw", \pos_saw ],
[ "reverse", \pos_reverse ],
[ "sine", \pos_sine ],
[ "step", \pos_step ],
];
~outputDir = Platform.recordingsDir +/+ "GrainBuffers";
~grainsb = Bus.audio(s, 2);
~granulators = Array.new(4);
~grainmodes = [ 0, 0, 0, 0 ]; // keep track of mode so don't swap if not needed
~speeds = [ 1, 1, 1, 1 ]; // hacky speed quantisation
~posb = Array.new(4);
~rectriggerb = Array.new(4);
~patterns = [ nil, nil, nil, nil ];
~players = [ nil, nil, nil, nil ];
~loopsynths = [ nil, nil, nil, nil ];
// create the control busses
(0..3).do({
~posb.add(Bus.control(s, 1));
~rectriggerb.add(Bus.control(s, 1));
});
// start the granulators
(0..3).do({ |i|
var pb = ~posb[i], rtb = ~rectriggerb[i];
~granulators.add(Granulator.new(~buflen, ~infxb, ~grainsb, pb, rtb));
});
// set up the Patterns which drive the position synths
// (0..3).do({ |i|
// ~patterns.add(~makePattern.value(i, 0, ~speeds[i]));
// });
//
// (0..3).do({|i|
// ~players.add(~patterns[i].play(~tc, quant: ~beatsperbar))
// });
~setmode = {
arg track, mode;
~grainmodes[track] = mode;
if(~players[track].isNil.not,{
~players[track].stop;
~patterns[track].free;
});
~patterns[track] = ~makePattern.value(track, mode, ~speeds[track]);
~players[track] = ~patterns[track].play(~tc, quant: ~beatsperbar);
};
~setspeed = {
arg track, speed;
if( ~speeds[track] != speed, {
~speeds[track] = speed;
~players[track].stop;
~patterns[track].free;
~patterns[track] = ~makePattern.value(track, ~grainmodes[track], ~speeds[track]);
~players[track] = ~patterns[track].play(~tc, quant: ~beatsperbar);
});
};
~makePattern = {
arg track, mode, speed;
var ptrig, ppos, synth = ~modes[mode][1];
// note: trigger is going off the base tempoclock, not the playback speed - I think this is
// the right thing to do but I'm not sure yet
ptrig = Pbind(
\instrument, \trigger,
\dur, ~beatsperbar,
\out, ~rectriggerb[track]
);
ppos = Pbind(
\instrument, synth,
\dur, ~beatsperbar / speed,
\length, ~buflen / speed,
\out, ~posb[track]
);
Ppar([ptrig, ppos]);
};
~dumpbuffers = { |prefix|
(0..3).do({|i|
var filename = ~outputDir +/+ prefix ++ 'buffer' ++ i.asString ++ '.aiff';
~granulators[i].buffer.write(filename);
});
}
)

53
input_effects.scd
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(
~fuzzbox = SynthDef(
\fuzzbox,
{
arg in=2, out=4, distort=0.1, decay=0.999;
var raw, cross, pf;
raw = In.ar(in, 1).softclip;
cross = CrossoverDistortion.ar(raw, 0.5, 0.5);
pf = PeakFollower.ar(raw, decay);
Out.ar(out, ((1 - distort) * raw) + (distort * pf * cross));
}
).play(s, [\in, ~usbinput, \out, ~recordb, \distort, 0 ]);
// ~decimator = SynthDef(
// \decimator,
// {
// arg in=2, out=4, modb, rate=10000, smooth=0.5;
// var raw, mod, decimated;
// raw = In.ar(in, 1);
// mod = In.kr (modb, 1);
// decimated = SmoothDecimator.ar(raw, rate + (0.2 * rate * mod), smooth);
// Out.ar(out, decimated);
// }
// ).play(s, [\in, ~usbinput, \out, ~recordb, \modb, ~lfob, \rate, 10000 ]);
//
// ~localmax = SynthDef(
// \localmax,
// {
// arg in=2, out=4, threshold=25;
// var chain;
// chain = FFT(LocalBuf(2048), In.ar(in, 1).distort);
// chain = PV_LocalMax(chain, threshold);
// Out.ar(out, IFFT.ar(chain));
// }
// ).play(s, [\in, ~usbinput, \out, ~recordb, \threshold, 25 ]);
//
// ~scramble = SynthDef(
// \scramble,
// {
// arg in=2, out=4, shift=1;
// var chain;
// chain = FFT(LocalBuf(2048), In.ar(in, 1).distort);
// chain = PV_BinScramble(chain, 0.5, 0.2, Impulse.kr(shift));
// Out.ar(out, IFFT.ar(chain));
// }
// ).play(s, [\in, ~usbinput, \out, ~recordb, \shift, 1 ]);
//
)

200
interface.scd
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(
~to = TouchOSC(~touchosc_ip, 9000);
~tracknum = 0;
~granulator = ~granulators[0];
~speedlock = 0;
~speedquant = 0;
OSCdef.freeAll;
~to.button('/grains/reset', 0, { | v |
if( v > 0, {
~buflen = ~to.v('/grains/buflen');
(0..3).do({|i|
~granulators[i].reset(~buflen);
});
});
});
~quantspeed = { |v| 2.pow((v * 4 + 0.5).round - 5) };
~quantharmonics = {
arg f, quantise=0;
if(quantise != 0, {
var fraction = f.asFraction(7, false);
fraction[0] / fraction[1];
},
{ f }
);
};
// setrecord: toggles record on (1) or off (0) for a track, and also sets the
// track's input mix to 0 so that it doesn't start fadeing out. If the track
// is the currently selected track, set its touchosc control to 0.
// keeps the level for each track in an array and resets it
~mixlevel = Array.new(4);
(0..3).do({~mixlevel.add(0.25)});
~setrecord = { | track, v |
~granulators[track].record_(v);
if(v == 0, {
~mixlevel[track] = ~granulators[track].mix;
~granulators[track].mix_(0);
},
{
~granulators[track].mix_(~mixlevel[track]);
});
if( track == ~tracknum, { ~to.v_('/track/mix', ~granulators[track].mix); })
};
// note: ~buflen is the variable for buffer length, which only gets set to
// ~to.v('/grains/buflen') when the buffer is reset with the clear button
~to.slider('/grains/buflen', ~buflen, TouchOSCScale(0.1, 10.0), {});
~to.button('/grains/mode0', 0, { |v| ~setmode.value(0, v) });
~to.button('/grains/mode1', 0, { |v| ~setmode.value(1, v) });
~to.button('/grains/mode2', 0, { |v| ~setmode.value(2, v) });
~to.button('/grains/mode3', 0, { |v| ~setmode.value(3, v) });
// needs work
~to.slider('/grains/speed0', 1, TouchOSCScale(0, 2), { |v| ~setspeed.value(0, ~quantspeed.value(v)) });
~to.slider('/grains/speed1', 1, TouchOSCScale(0, 2), { |v| ~setspeed.value(1, ~quantspeed.value(v)) });
~to.slider('/grains/speed2', 1, TouchOSCScale(0, 2), { |v| ~setspeed.value(2, ~quantspeed.value(v)) });
~to.slider('/grains/speed3', 1, TouchOSCScale(0, 2), { |v| ~setspeed.value(3, ~quantspeed.value(v)) });
~to.slider('/grains/passthrough', 0.75, TouchOSCScale(0, 1), { |v| ~grainmixer.set(\passthrough, v) });
~to.slider('/grains/mix0', 0.5, TouchOSCScale(0, 1), { | v | ~granulators[0].gain_(v) });
~to.slider('/grains/mix1', 0.5, TouchOSCScale(0, 1),{ | v | ~granulators[1].gain_(v) });
~to.slider('/grains/mix2', 0.5, TouchOSCScale(0, 1),{ | v | ~granulators[2].gain_(v) });
~to.slider('/grains/mix3', 0.5, TouchOSCScale(0, 1),{ | v | ~granulators[3].gain_(v) });
~to.button('/grains/lock', 0, { |v| ~speedlock = v });
~to.button('/grains/quant', 1, { |v| ~speedquant = v });
~to.button('/grains/metronome', 0, { |v|
if( v == 1, {
~bps = ~beatsperbar / ~buflen;
~tc.tempo_(~bps);
});
~metromix.set(\amp, v)
});
// Page 2: track
~to.xy('/track/triggersize', [ 100, 0.125 ], TouchOSCScale(0, 200), TouchOSCScale(0, 1), { |v|
~granulator.trigger_(v[0]);
~granulator.size_(v[1]);
});
~to.slider('/track/blur', 0, TouchOSCScale(0, 1.0), { |v| ~granulator.blur_(v) });
~to.button('/track/dust', 0, { |v| ~granulator.dust_(v) });
~to.button('/track/back', 0, { |v| ~granulator.back_(v)});
~to.button('/track/slope', 1, { |v| ~granulator.slope_(v) });
~to.button('/track/chorus', 0, { |v| ~granulator.chorus_(v) });
~to.slider('/track/harmonics', 2, TouchOSCScale(0.5, 3), { |v|
~granulator.harmonics_(~quantharmonics.value(v, 1))
});
~to.slider('/track/detune', 0, TouchOSCScale(0, 0.059), { |v| ~granulator.detune_(v) });
~to.slider('/track/pitch', 0, TouchOSCScale(-2, 2), { |v| ~granulator.pitch_(v.round) });
~to.slider('/track/mix', 0.25, TouchOSCScale(0, 1), { |v| ~granulator.mix_(v); });
~to.slider('/track/pan', 0, TouchOSCScale(-1, 1), { |v| ~granulator.pan_(v) });
~to.slider('/track/track', 0.5, TouchOSCScale(-1, 1), { |v| ~granulator.track_(v) });
~to.slider('/track/jitter', 0.25, TouchOSCScale(0, 1), { |v| ~granulator.jitter_(v) });
~to.button('/trackselect', 0, { |v|
~tracknum = v.asInteger;
~granulator = ~granulators[~tracknum];
~to.v_('/track/triggersize', [~granulator.trigger, ~granulator.size]);
~to.v_('/track/blur', ~granulator.blur);
~to.v_('/track/mix', ~granulator.mix);
~to.v_('/track/pan', ~granulator.pan);
~to.v_('/track/track', ~granulator.track);
~to.v_('/track/jitter', ~granulator.jitter);
~to.v_('/track/dust', ~granulator.dust);
~to.v_('/track/slope', ~granulator.slope);
~to.v_('/track/back', ~granulator.back);
~to.v_('/track/chorus', ~granulator.chorus);
~to.v_('/track/harmonics', ~granulator.harmonics);
~to.v_('/track/detune', ~granulator.detune);
~to.v_('/track/pitch', ~granulator.pitch);
});
// set up the record buttons on the front page now because /track/mix has been defined
~to.button('/grains/record0', 0, { | v | ~setrecord.value(0, v) });
~to.button('/grains/record1', 0, { | v | ~setrecord.value(1, v) });
~to.button('/grains/record2', 0, { | v | ~setrecord.value(2, v) });
~to.button('/grains/record3', 0, { | v | ~setrecord.value(3, v) });
~to.slider(
'/fx/filterfreq',
10000, TouchOSCScaleExp(100, 10000), { |v| ~filter.set(\freq, v) }
);
~to.slider('/fx/grainmix', 1.0, TouchOSCScale(0, 1), { |v| ~grainmixer.set(\grains, v) } );
~to.slider('/fx/filtermix', 0.8, TouchOSCScale(0, 1), { |v| ~filter.set(\amp, v) } );
~to.button('/fx/filtermoda', 1, { |v| ~filtermod.set(\a, v) });
~to.button('/fx/filtermodb', 0, { |v| ~filtermod.set(\b, v) });
~to.button('/fx/filtermodc', 0, { |v| ~filtermod.set(\c, v) });
~to.slider('/fx/delay', 0.2,TouchOSCScale(0, 1), { |v| ~delay.set(\delaytime, v) } );
~to.slider('/fx/decay', 1, TouchOSCScale(0, 5), { |v| ~delay.set(\decaytime, v) } );
~to.slider('/fx/delaymix', 0.2, TouchOSCScale(0, 1), { |v| ~delay.set(\amp, v) } );
~to.slider('/fx/reverbwet', 0.33,TouchOSCScale(0, 1), { |v| ~reverb.set(\mix, v) } );
~to.slider('/fx/reverbroom', 0.5,TouchOSCScale(0, 1), { |v| ~reverb.set(\room, v) } );
~to.slider('/fx/reverbdamp', 0.5,TouchOSCScale(0, 1), { |v| ~reverb.set(\damp, v) } );
~to.slider('/fx/reverbmix', 0.2, TouchOSCScale(0, 1), { |v| ~reverb.set(\amp, v) } );
// note - the three LFOs have different rate ranges
~to.slider('/lfos/afreq', 0.5,TouchOSCScale(0.001, 2), { |v| ~lfoa.set(\freq, v) } );
~to.slider('/lfos/aamp', 0, TouchOSCScale(0, 1), { |v| ~lfoa.set(\amp, v) });
~to.slider('/lfos/bfreq', 0.5,TouchOSCScale(0.01, 20), { |v| ~lfob.set(\freq, v) } );
~to.slider('/lfos/bamp', 0, TouchOSCScale(0, 1), { |v| ~lfob.set(\amp, v) });
~to.slider('/lfos/cfreq', 0.5,TouchOSCScale(0.1, 200), { |v| ~lfoc.set(\freq, v) } );
~to.slider('/lfos/camp', 0, TouchOSCScale(0, 1), { |v| ~lfoc.set(\amp, v) });
)

46
main.scd
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@ -1,46 +0,0 @@
// Execute this before booting the server
(
Server.default.options.inDevice_("Scarlett 2i2 USB");
Server.default.options.hardwareBufferSize_(1024);
Server.default.options.outDevice_("Scarlett 2i2 USB");
//Server.default.options.outDevice_("External Headphones");
)
Server.killAll;
(
Routine.run({
~usbinput = 2;
~usbinput1 = 2;
~usbinput2 = 3;
~bpm = 90;
~bps = ~bpm / 60;
~beatsperbar = 4;
~buflen = ~beatsperbar / ~bps;
[ "bpm", ~bpm ].postln;
[ "buffer length", ~buflen ].postln;
~tc = TempoClock.new(~bps);
~touchosc_ip = "192.168.0.209";
("./synths.scd").loadRelative;
Granulator.init(s);
s.sync;
("./control.scd").loadRelative;
s.sync;
("./granulator.scd").loadRelative;
s.sync;
("./effects.scd").loadRelative;
s.sync;
("./sequencer.scd").loadRelative;
s.sync;
"please wait for the interface to load...".postln;
~buflen.sleep;
("./interface.scd").loadRelative;
"ok go!".postln;
});
)

36
monitor.scd
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@ -1,36 +0,0 @@
~frippbuffers[~currentfripp].write("/Users/mike/Music/SuperCollider Recordings/test.aiff");
~frippbuffer.write("/Users/mike/Music/SuperCollider Recordings/slow.aiff");
~frippbuffer.isNil;
(
~monitor = SynthDef(
\monitor_synth,
{
arg in=2, out=0;
Out.ar(out, In.ar(in, 2))
}
).play(s, [\in, ~fxb, \out, 0 ], \addToTail);
)
~monitor.set(\in, ~reverbb)
~monitor.free
~pitchb.scope()
~frippbuffers.plot;
~bufrecorder.set(\buffer, ~frippbuffers[1]);
~granulators[0].get(\buffer, {|v| v.postln});
(
~frippbuffers.do({
|b, i|
b.write("/Users/mike/Music/SuperCollider Recordings/buffer" ++ i.asString ++ ".aiff");
});
)

26
sequencer.scd
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@ -1,26 +0,0 @@
(
~metrob = Bus.audio(s, 2);
~metromix = SynthDef(\metromix, {
arg in=1, out=0, amp=1;
Out.ar(out, amp * In.ar(in, 2));
}).play(s, [\in, ~metrob, \out, 0, \amp, 0]);
~metronome = Pbind(
\instrument, \metronome,
\dur, ~beatsperbar,
\amp, 0.5,
\pan, 0,
\out, ~metrob
).play(~tc);
)

45
synths.scd
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@ -1,45 +0,0 @@
(
SynthDef(\pos_saw, {
arg out, length=1;
Out.kr(out, EnvGen.kr(Env([0, 1], length), doneAction: Done.freeSelf))
}).add();
SynthDef(\pos_sine, {
arg out, length=1;
Out.kr(out, EnvGen.kr(Env.sine(length, 1), doneAction: Done.freeSelf))
}).add();
SynthDef(\pos_reverse, {
arg out, length=1;
Out.kr(out, EnvGen.kr(Env([1, 0], length), doneAction: Done.freeSelf))
}).add();
SynthDef(\pos_step, {
arg out, length=1;
var levels = (0..8) / 8, times = (length / 8) ! 7;
Out.kr(out, EnvGen.kr(Env(levels: levels, times: times, curve: \hold), doneAction: Done.freeSelf));
}).add();
SynthDef(\lfo, {
arg out, freq=1, amp=0;
Out.kr(out, SinOsc.kr(freq, 0, amp));
}).add;
SynthDef(\trigger, {
arg out=1;
Out.kr(out, EnvGen.kr(Env.perc(0.001, 0.2, 2), levelScale:2.0, levelBias:-1,doneAction:Done.freeSelf));
}).add;
SynthDef(\metronome, {
arg out=0, amp=1, pan=0, filter=1000, atk=0.01, rel=0.1;
var sig, env;
env = EnvGen.kr(Env.perc(atk, rel, amp), doneAction: Done.freeSelf);
sig = HPF.ar(WhiteNoise.ar(), filter);
Out.ar(out, Pan2.ar(sig * env, pan));
}
).add;
)