Sweetcorn fritters

Got rid of the big LFO type effect, made it quite a bit higher added triangles
3 yıl önce · bd4b975642
--- a/audio.scd
+++ b/audio.scd
@@ -18,23 +18,25 @@ s.waitForBoot {
        lagtime = 100 / (2**octave);

        // Oscillator/filter frequency
        frequency = notefreq * (1 + (hue*0.01));
        // frequency = notefreq * (1 + (hue*0.1));
        frequency = notefreq * (1 + (hue*5)) * (2**(octave-2));
        //frequency = (130 + (hue * 130)) * (2 ** octave);
        //frequency = 130 * Scale.major.ratios[(hue * 12).asInteger];
        //frequency = (130 * frequency) * (2**octave);
        frequency = Lag.kr(frequency, lagtime/100);
        frequency = Lag.kr(frequency, lagtime/10);
        
        // Filtered saw oscillator
        oscillator = Mix.ar([SawDPW.ar(frequency), SawDPW.ar(frequency/2+0.5)]);
        // oscillator = Mix.ar([SawDPW.ar(frequency), SawDPW.ar(frequency/2+0.5)]);
        oscillator = Mix.ar([DPW3Tri.ar(frequency), DPW3Tri.ar(frequency/2+0.5)]);
        filter = DFM1.ar(oscillator, frequency, saturation/2, 1.0, 0.0, 0.0006);

        // Noise
        qfactor = Lag.kr((1 - saturation)**4, lagtime);
        noise = Crackle.ar(1.99, 1.0);
        qfactor = Lag.kr((1 - saturation)**2, lagtime);
        noise = Crackle.ar(1.9, 1.0);
        noise = BPF.ar(noise, frequency, qfactor);

        // Mix noise and saw
        mixer = Mix.ar([filter * saturation.sqrt(), 0.5 * noise*(1-saturation)]);
        mixer = Mix.ar([filter * saturation.sqrt(), 3* noise*(1-saturation)]);

        // Apply pan
        panner = LinPan2.ar(mixer, pan);
@@ -46,8 +48,11 @@ s.waitForBoot {
        // Compress
        output = Compander.ar(output, output, 0.5, 0.3, 0.3, 0.1, lagtime);

        // Fade in on boot
        output = output * Lag.kr(gain, lagtime);

        // Crank everything down
        output = output * 0.1; 
        output = output * 0.3; 

        Out.ar(0, output);
    });
@@ -63,11 +68,26 @@ s.waitForBoot {
            octave = (2 - (index / 4).floor);
            "Module %: Pan %, octave %\n".postf(index, pan.round(1e-1), octave.round(1e-1));
            Synth.new(\module, 
                [\hue, 0.5, \saturation, 0.1, \value, 0.5, \pan, pan, \gain, 0.9, \octave, octave, \notefreq, Scale.major.degreeToFreq(index, 48.midicps, octave)]
                [\hue, 0.5, \saturation, 0.1, \value, 0.5, \pan, pan, \gain, 0.0, \octave, octave, \notefreq, Scale.major.degreeToFreq(index, 48.midicps, octave)]
            )
        }
    );

    // Turn up gain after some time
    SystemClock.schedAbs(8, {modules[0].set(\gain, 1)});
    SystemClock.schedAbs(8, {modules[1].set(\gain, 1)});
    SystemClock.schedAbs(8, {modules[2].set(\gain, 1)});
    SystemClock.schedAbs(8, {modules[3].set(\gain, 1)});
    SystemClock.schedAbs(16, {modules[4].set(\gain, 1)});
    SystemClock.schedAbs(16, {modules[5].set(\gain, 1)});
    SystemClock.schedAbs(16, {modules[6].set(\gain, 1)});
    SystemClock.schedAbs(16, {modules[7].set(\gain, 1)});
    SystemClock.schedAbs(32, {modules[8].set(\gain, 1)});
    SystemClock.schedAbs(32, {modules[9].set(\gain, 1)});
    SystemClock.schedAbs(32, {modules[10].set(\gain, 1)});
    SystemClock.schedAbs(32, {modules[11].set(\gain, 1)});
    SystemClock.schedAbs(32, {modules[12].set(\gain, 1)});

    // Hook up OSC
    f = { |msg, time, addr|
        if(msg[0] == '/radio') {