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Fork Code: CloundGenMiniFMproper
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( //Some superficial bits have been changed and added to original // CloudGenMini is based on CloudGenerator, a granular synthesis program // by Curtis Roads and John Alexander. // This partial miniature version was implemented by Alberto de Campo, 2007. // figure 8.23 - some granular synthdefs and tests ( // a gabor (approx. gaussian-shaped) grain SynthDef(\pmGab, { |out, amp=0.1, carr=440, mod=880, index=0, sustain=0.01, pan| var snd = PMOsc.ar(carr, mod, index); var env = EnvGen.ar(Env.sine(sustain, amp * 0.5), doneAction: 2); OffsetOut.ar(out, Pan2.ar(snd * env, pan)); }, \ir ! 5).add; // wider, quasi-gaussian envelope, with a hold time in the middle. SynthDef(\pmWide, { |out, amp=0.1, carr=440, mod=880, index=0, sustain=0.01, pan, width=0.5| var holdT = sustain * width; var fadeT = 1 - width * sustain * 0.5; var snd = PMOsc.ar(carr, mod, index); var env = EnvGen.ar(Env([0, 1, 1, 0], [fadeT, holdT, fadeT], \sin), levelScale: amp * 0.5, doneAction: 2); OffsetOut.ar(out, Pan2.ar(snd * env, pan)); }, \ir ! 5).add; // a simple percussive envelope SynthDef(\pmPerc, { |out, amp=0.1, carr=440, mod=880, index=0, sustain=0.01, pan| var snd = PMOsc.ar(carr, mod, index); var env = EnvGen.ar( Env.perc(0.1, 0.9, amp * 0.5), timeScale: sustain, doneAction: 2 ); OffsetOut.ar(out, Pan2.ar(snd * env, pan)); }, \ir ! 5).add; // a reversed percussive envelope SynthDef(\pmPercRev, { |out, amp=0.1, carr=440, mod=880, index=0, sustain=0.01, pan| var snd = PMOsc.ar(carr, mod, index); var env = EnvGen.ar( Env.perc(0.9, 0.1, amp * 0.5, 4), timeScale: sustain, doneAction: 2 ); OffsetOut.ar(out, Pan2.ar(snd * env, pan)); }, \ir ! 5).add; /* // tests for the synthdefs: Synth(\gab1st); Synth(\gabWide); Synth(\percSin); Synth(\percSinRev); Synth(\percSin, [\amp, 0.2, \sustain, 0.1]); Synth(\percNoise, [\amp, 0.2, \sustain, 0.1]); Synth(\pmGab, [\out, 0, \amp, 0.2, \freq, 2000, \sustain, 0.05, \pan, 0.5] ); */ ); // figure 8.24 - global setup and a player Tdef for the cloud. ( q = q ? (); // some globals q.paramRNames = [\carrRange, \modRange, \indRange, \durRange, \densRange, \ampRange, \panRange]; q.paramNames = [\carr, \mod, \index, \grDur, \dens, \amp, \pan]; q.syndefNames = [\pmGab, \pmWide, \pmPerc, \pmPercRev]; // specs for some parameters Spec.add(\xfadeTime, [0.001, 1000, \exp]); Spec.add(\ring, [0.03, 30, \exp]); Spec.add(\grDur, [0.0001, 1, \exp]); Spec.add(\dens, [1, 1000, \exp]); Spec.add(\index, [0, 20, \lin, 0.001]); Spec.add(\carr, \freq); Spec.add(\mod, \freq); // make an empty tdef that plays it, // and put the cloud parameter ranges in the tdef's environment Tdef(\cloud0) .set( \synName, \pmGab, \vol, 0.7, \current, ( carrRange: [200, 2000], modRange: [400, 4000], indRange: [5, 12], ampRange: [0.5, 1], durRange: [0.001, 0.01], densRange: [10, 1000], panRange: [-1.0, 1.0] ) ); // make the tdef that plays the cloud of sound particles here, // based on parameter range settings. Tdef(\cloud0, { |e| loop { s.sendBundle(s.latency, [ "/s_new", e.synName ? \pmGab, -1, 0, 0, \carr, exprand(e.current.carrRange[0], e.current.carrRange[1]), \mod, exprand(e.current.modRange[0], e.current.modRange[1]), \index, rrand(e.current.indRange[0], e.current.indRange[1]), \amp, exprand(e.current.ampRange[0], e.current.ampRange[1]) * e.vol, \sustain, exprand(e.current.durRange[0], e.current.durRange[1]), \pan, rrand(e.current.panRange[0], e.current.panRange[1]) ]); exprand(e.current.densRange[0].reciprocal, e.current.densRange[1].reciprocal).wait; } }).quant_(0); ); /* // figure 8.25 - tests for the cloud Tdef(\cloud0).play; // try changing various things from outside the loop. // change its playing settings Tdef(\cloud0).envir.current.put('densRange', [ 50, 200 ]); // dense, async Tdef(\cloud0).envir.current.put('densRange', [ 1, 10 ]); // sparse, async Tdef(\cloud0).envir.current.put('densRange', [ 30, 30 ]); // synchronous // for faster access, call the tdef's envir d d = Tdef(\cloud0).envir; d.current.put('freqRange', [ 800, 1200 ]); d.current.put('durRange', [ 0.02, 0.02 ]); d.current.put('ampRange', [ 0.1, 0.1 ]); d.current.put('panRange', [ 1.0, 1.0 ]); d.current.put('panRange', [ -1.0, 1.0 ]); d.current.put('densRange', [ 30, 60 ]); d.synName = \percSin; d.synName = \gab1st; d.synName = \gabWide; d.synName = \percSinRev; d.synName = \percNoise; d.synName = \percSinRev; d.synName = \gab1st; d.current.put('durRange', [ 0.001, 0.08 ]); */ // figure 8.26 - making random settings, and 8 random presets to switch between ( // make the Tdef's envir a global variable for easier experimenting d = Tdef(\cloud0).envir; // a pseudo-method to make random settings, kept in the Tdef's environment // randomize could also do limited variation on existing setting. d.randSet = { |d| var randSet = (); q.paramRNames.do { |pName, i| randSet.put(pName, q.paramNames[i].asSpec.map([1.0.rand, 1.0.rand].sort) ); }; randSet; }; /* test randSet: d.current = d.randSet; */ // make 8 sets of parameter range settings: d.setNames = (1..8).collect { |i| ("set" ++ i).asSymbol }; d.setNames.do { |key| d[key] = d.randSet; } /* test switching to the random presets d.current = d.set1.copy; // copy to avoid writing into a stored setting when it is current. d.current = d.set3.copy; d.current = d.set8.copy; */ ); // ex. 8.27 - crossfading between different settings with a taskproxy ( // and some parameters for controlling the fade d.stopAfterFade = false; d.xfadeTime = 3; d.morphtask = TaskProxy({ var startSet = d[\current], endSet = d[\target]; var stepsPerSec = 20; var numSteps = d.xfadeTime * stepsPerSec; var blendVal, morphSettings; if (d.target.notNil) { (numSteps).do { |i| // ["numSteps", i].postln; blendVal = (i + 1) / numSteps; morphSettings = endSet.collect({ |val, key| (startSet[key] ? val).blend(val, blendVal) }); d.current_(morphSettings); (1/stepsPerSec).wait; }; d.current_(d.target.copy); "morph done.".postln; if (d.stopAfterFade) { Tdef(\cloud0).stop; }; }; }).quant_(0); // no quantization so the task starts immediately /* test morphing ( Tdef(\cloud0).play; d.target = d.set6.copy; d.morphtask.play; ) Tdef(\cloud0).stop; // playing a a finite cloud with tendency mask: ( Tdef(\cloud0).play; // begin playing d.stopAfterFade = true; // end cloud when crossfade ends d.xfadeTime = 10; // set fade time d.target = d.set8.copy; // and target d.morphtask.play; // and start crossfade. ) */ // put fading into its own method, with optional stop. d.fadeTo = { |d, start, end, time, autoStop| d.current = d[start] ? d.current; d.target = d[end]; d.xfadeTime = time ? d.xfadeTime; if (autoStop.notNil) { d.stopAfterFade = autoStop }; d.morphtask.stop.play; }; /* // tests fadeTo: Tdef(\cloud0).play; d.fadeTo(\current, \set2, 20); d.fadeTo(\current, \set6, 10); d.fadeTo(\current, \set5, 3, true); Tdef(\cloud0).play; d.fadeTo(\current, \set1, 3, false); */ ); // figure 8.28 is an image, the CloudGenMini GUI // // figure 8.29 - a lightweight graphical user interface for CloudGenMini ( q.makeCloudGui = { |q, tdef, posPoint| var w, ezRangers, fdBox; var setMinis, skipjack; posPoint = posPoint ? 400@400; // where to put the gui window w = Window.new("CloudGenMiniFM", Rect.fromPoints(posPoint, (posPoint + (400@360)))).front; w.view.decorator_(FlowLayout(w.bounds.copy.moveTo(0, 0))); w.view.decorator.nextLine; // a just in time - gui for the Tdef z = TdefGui(tdef, parent: w); fdBox = EZNumber.new(w, 78@18, \Fade, ControlSpec(0.01, 100.0, \exp, 0.01, 3, nil), { |nbx| tdef.envir.xfadeTime = nbx.value }, tdef.envir.xfadeTime, false, 35); ~recordButton = Button(w, 51@19); ~recordButton.states_([["rec", Color.black, Color.white],["rec", Color.white, Color.red]]); ~recordButton.action = {|view| if (view.value==1) {s.record} {s.stopRecording}}; ~recordButton.value=0; w.view.decorator.nextLine; // the range sliders display the current values ezRangers = (); q.paramRNames.do { |name, i| ezRangers.put(name, EZRanger(w, 400@20, name, q.paramNames[i], { |sl| tdef.envir.current[name] = sl.value; }, tdef.envir.current[name], labelWidth: 70, numberWidth: 50, unitWidth: 10) .round_([0.1, 0.1, 0.01, 0.00001, 0.0001, 0.0001, 0.01][i]) ); }; Button.new(w, 126@20).states_([[\randomize]]) .action_({ tdef.envir.target_(d.randSet); tdef.envir.morphtask.stop.play; }); Button.new(w, 126@20).states_([[\continuous], [\fadeStops]]) .value_(tdef.envir.stopAfterFade.binaryValue) .action_({ |btn| tdef.set(\stopAfterFade, btn.value == 1) }); Button.new(w, 126@20).states_([[\skipWatching], [\skipWaiting]]) .action_({ |btn| [ { skipjack.play }, { skipjack.stop }][btn.value].value }); w.view.decorator.nextLine; // skipjack is a task that survives cmd-period: // used here for lazy-updating the control views. skipjack = SkipJack({ q.paramRNames.do { |name| ezRangers[name].value_(tdef.envir.current[name]) }; fdBox.value_(tdef.envir.xfadeTime); // mark last settings that were used by color? // a separate color when changed? }, 0.5, { w.isClosed }, name: tdef.key); w.view.decorator.nextLine; // make a new layoutView for the 8 presets; // put button to switch to that preset, // a button to save current settings to that place, // and a miniview of the settings as a visual reminder in it. // make 8 setButtons tdef.envir.setNames.do { |setname, i| var minisliders, setMinis; var zone = CompositeView.new(w, Rect(0,0,45, 96)); zone.decorator = FlowLayout(zone.bounds, 0@0, 5@0); zone.background_(Color.white); Button.new(zone, Rect(0,0,45,20)).states_([[setname]]) .action_({ // just switch: // tdef.envir.current.putAll(d[setname] ? ()) tdef.envir.target = tdef.envir[setname]; tdef.envir.morphtask.stop.play; }); Button.new(zone, Rect(0,0,45,20)) .states_([["save" ++ (i + 1)]]) .action_({ d[setname] = tdef.envir.current.copy; setMinis.value; }); minisliders = q.paramRNames.collect { |paramRname| RangeSlider.new(zone, 45@8).enabled_(false); }; setMinis = { q.paramRNames.do { |paramRname, i| var paramName = q.paramNames[i]; var myrange = d[setname][paramRname]; var unmapped = paramName.asSpec.unmap(myrange); minisliders[i].lo_(unmapped[0]).hi_(unmapped[1]); } }; setMinis.value; }; /* Some extras: a volume slider for simple mixing, a popup menu for switching syndefnames; a button to stop/start the skipjack for refreshing, so one can use numberboxes to enter values. */ EZSlider(w, 225@20, "vol", \amp, { |sl|tdef.set(\vol, sl.value) }, 0.7, false, 20, 36); StaticText.new(w, 60@20).string_("synthdef:").align_(\right); PopUpMenu.new(w, Rect(0,0,95,20)) .items_([\pmGab, \pmWide, \pmPerc, \pmPercRev]) .action_({ |pop| tdef.envir.synName = pop.items[pop.value] }); }; q.makeCloudGui(Tdef(\cloud0)) ); )
code description
last one was just extended synthDefs - this is the FM version I meant to put up....
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