s = Server.local; s.waitForBoot { var module, sound, msg, modules; // Connect to OSC thisProcess.openUDPPort(5005); n = NetAddr.new("0.0.0.0", 5005); o = OSCFunc({ arg msg, time, addr, recvPort; [msg, time, addr, recvPort].postln; }, '/radio', n); //OSCFunc.trace(true); // Create the synth definition and load it module = SynthDef.new("module", { arg hue, saturation, value, pan, gain; var oscillator, noise, filter, panner, mixer, frequency, qfactor, noise_level, osc_level; // Calculate some parameters frequency = 200 + 800*hue; qfactor = (1 - saturation)**4; osc_level = saturation; noise_level = 1 - osc_level; // Generate some sounds noise = WhiteNoise.ar(1); filter = BPF.ar(noise, frequency, qfactor) * noise_level; oscillator = SinOsc.ar(frequency) * osc_level; mixer = Mix.ar([filter, oscillator]); panner = LinPan2.ar(mixer, 2*pan - 1, gain); Out.ar(0, panner); }); module.load(s); s.sync; modules = []; // Create multiple sound generators modules = []; 5.do({ arg index; var synth; synth = Synth.new("module", [\hue, 0.5, \saturation, 0.1, \value, 0.5, \pan, 0.5, \gain, 0.2]); modules.add(synth); }); // Hook up OSC f = { |msg, time, addr| if(msg[0] == '/radio') { "Got data: % % % % %".postf(msg[1], msg[2], msg[3], msg[4], msg[5]); sound.set("hue", msg[1]); sound.set("saturation", msg[2]); sound.set("value", msg[3]); sound.set("pan", msg[4]); } }; thisProcess.addOSCRecvFunc(f); };