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fixed spatialisation and tuned pitch transpositions Dseq

master
Rob Canning 2022-09-13 13:00:57 +02:00
parent 199c07c246
commit 69fc075715
1 changed files with 37 additions and 34 deletions
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71
gtr.scd
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@ -1,4 +1,5 @@
(
s.reboot{
s.options.numBuffers = 1024 * 256; // increase this if you need to load more samples
@ -36,6 +37,7 @@ thisProcess.openUDPPort(57121);
// RUNME 2 ==========================================
// -------------------------------------------------
( // DEFINE SYNTHS --------------------------------- <--
// -------------------------------------------------
( // direct signal + reverb -------------------------
@ -49,7 +51,6 @@ SynthDef("dryIn", { arg in=0, instrPanModeIndex=0, out=0, sensorInstrPan=0;
instrPanMode4 = LFSaw.kr(0.33).bipolar.range(-1,1);
instrPanMode5 = LFNoise1.kr(10).range(-1, 1);
instrPan = Select.kr(instrPanModeIndex,
[instrPanMode0, instrPanMode1, instrPanMode2, instrPanMode3, instrPanMode4, instrPanMode5, sensorInstrPan]);
@ -91,19 +92,20 @@ SynthDef("recBuf",{
// ~rndpos = LFNoise2.kr(0.1).range(0, 1);
SynthDef(\buf_grain, { | out, gate = 1, amp = 0.5,
sndbuf, envbuf, pan=0, imp=30,
sndbuf, envbuf, pan=0, imp=50,
pitchmodeindex=0, sensorpitch=1, sensorgdur=0.1, sensorgpan=0,
positionmodeindex=0, gdurmodeindex=0, gpanmodeindex=0,
sensorposition=0, impulsemodeindex=0, sensorimpulse=0,
signalChannelIndex=0, dseqarrayIndex=1,
signalChannelIndex=1, dseqarrayIndex=1,
rlow= -1, rhigh=10 |
var signal, env, freqdev, pos,
pitchmode0, pitchmode1, pitchmode2,pitchmode3,pitchmode4,pitchmode5, pitchmode6, pitch,
gdurmode0, gdurmode1, gdurmode2, gdurmode3, gdurmode4, gdurmode5, gdurmode6, gdur,
gpanmode0, gpanmode1, gpanmode2, gpan,
positionmode0, positionmode1, positionmode2, positionmode3, position,
impulsemode0, impulsemode1, impulse, dseq, dseq_array1, dseq_array2, dseq_array3, dseq_array4, dseq_array5, dseq_array6, stereosignal, quadsignalL, quadsignalR, quadsignal, signalchannels;
impulsemode0, impulsemode1, impulse, xdseq, dseq_array1, dseq_array2, dseq_array3, dseq_array4, dseq_array5, dseq_array6, stereosignal, quadsignalL, quadsignalR, quadsignal, signalchannels;
// grain duration mode -untransposed, random, or sensor controlled
gdurmode0 = 0.2;
@ -124,31 +126,35 @@ SynthDef(\buf_grain, { | out, gate = 1, amp = 0.5,
gpan = Select.kr(gpanmodeindex,
[gpanmode0, gpanmode1, gpanmode2, sensorgpan]);
// grain pitch mode -untransposed, random, or sensor controlled
// grain pitch mode -untransposed, random, or sensor controlled
dseq_array1 = Dseq([1,-1, 2, 1, -1.5, 1, 1.33, 1, -0.5, 1, 3, 1, 2.37, 1, -0.33, 1], inf);
dseq_array2 = Dseq([1,-1, -0.5, 1, 1.33, 1], inf);
dseq_array3 = Drand([(1..5).mirror.midiratio], inf);
dseq_array4 = Drand([1,-1, 2, 1, -1.5, 1, 1.33, 1, -0.5, 1, 3, 1, 2.37, 1, -0.33, 1], inf);
dseq_array5 = Dseq([1,-1, -0.5, 1, 1.33, 1], inf);
Scale.minor.degrees.midiratio;
dseq = [dseq_array1, dseq_array2,dseq_array3, dseq_array4, dseq_array5];
dseq_array1 = Dseq([1,-1, 2, 1, -1.5, 1, 1.33, 1, -0.5, 1, 3, 1, 2.37, 1, -0.33, 1], inf);
dseq_array2 = Dseq([1,-1, -0.5, 1, 1.33, 1], inf);
dseq_array3 = Drand([(1..5).mirror.midiratio], inf);
dseq_array4 = Drand(Scale.minor.degrees.midiratio, inf);
dseq_array5 = Dseq([1,-1, -0.5, 1, 1.33, 1], inf);
//
//
// xdseq = [dseq_array1, dseq_array2,dseq_array3, dseq_array4, dseq_array5];
dseqarrayIndex =1;
pitchmode0 = 1;
pitchmode1 = Demand.kr(Impulse.kr(imp), 0, dseq[0]);
pitchmode2 = Demand.kr(Impulse.kr(imp), 0, dseq[1]);
pitchmode3 = Demand.kr(Impulse.kr(imp), 0, dseq[2]);
pitchmode4 = Demand.kr(Impulse.kr(imp), 0, dseq[3]);
pitchmode5 = Demand.kr(Impulse.kr(imp), 0, dseq[4]);
pitchmode1 = Demand.kr(Impulse.kr(imp), 0, Dseq([1,-1, 2, 1, -1.5, 1, 1.33, 1, -0.5, 1, 3, 1, 2.37, 1, -0.33, 1], inf));
pitchmode2 = Demand.kr(Impulse.kr(imp), 0, Drand(Scale.minor.degrees.midiratio, inf) * Drand([0.5, 0.25,1,2], inf));
pitchmode3 = Demand.kr(Impulse.kr(imp), 0, Dseq([1,-1, -0.5, 1, 1.33, 1], inf));
pitchmode4 = Demand.kr(Impulse.kr(imp), 0, Drand([0.5, 0.25,1,2], inf));
pitchmode5 = Demand.kr(Impulse.kr(imp), 0, Drand(Scale.diminished.degrees.midiratio, inf));
pitchmode6 = LFNoise1.kr(imp).range(rlow, rhigh);
pitch = Select.kr(pitchmodeindex,
[pitchmode0, sensorpitch, pitchmode1, pitchmode2 ,pitchmode3, pitchmode4, pitchmode5, pitchmode6]);
// granular playhead mode - fixed random or sensor controlled
positionmode0 = 0.2;
positionmode1 = (Phasor.ar(0.01, 1 * BufRateScale.ir(b), 0, BufSamples.ir(b)) + LFNoise1.ar(100).bipolar(0.1 * SampleRate.ir) ) / BufSamples.ir(b);
@ -161,7 +167,6 @@ SynthDef(\buf_grain, { | out, gate = 1, amp = 0.5,
// grain impulse frequency mode - random, metric or sensor based impulse modes
impulsemode0 = Impulse.kr(imp);
impulsemode1 = Dust.kr(imp);
impulse = Select.kr(impulsemodeindex,
[impulsemode0, impulsemode1, sensorimpulse]);
@ -169,16 +174,6 @@ SynthDef(\buf_grain, { | out, gate = 1, amp = 0.5,
signal = TGrains.ar(4, impulse, b, pitch, position, gdur, gpan, amp, 4) * env;
////////stereosignal = signal;
//quadsignalL = PanAz.ar(4, signal[0], MouseX.kr(0,2));
//quadsignalR = PanAz.ar(4, signal[1], MouseX.kr(0,2).range(2,0));
////////quadsignal = signal; //Mix.ar([quadsignalL, quadsignalR]);
////////signalchannels = Select.ar(signalChannelIndex, [stereosignal, quadsignal]);
//signal = signalchannels;
Out.ar(0, signal);
}).add;
@ -194,7 +189,7 @@ SynthDef(\buf_grain, { | out, gate = 1, amp = 0.5,
// TODO NO EPRAND IN INSTR!
r = Synth(\recBuf, [\in, 0, \out, 0, \bufnum, b, \t_trig, 0]); // recorder
~g1 = Synth(\buf_grain, [\sndbuf, b, \amp, 0.6, \envbuf, -1, \gate, 1, doneAction: 2]); // granulate
~g1 = Synth(\buf_grain, [\sndbuf, b, \amp, 0.5, \envbuf, -1, \gate, 1, doneAction: 2]); // granulate
~gtrIn = Synth(\dryIn); // dry audio signaL
));
@ -203,11 +198,12 @@ SynthDef(\buf_grain, { | out, gate = 1, amp = 0.5,
// ----------------------------------------------------
(( // OSC Receivers // ENABLE SENSOR AND SWITCH VALUES <--
// ----------------------------------------------------
~pitchmode = 0; ~positionmode = 0; ~impulsemode = 1;
~gdurmode=0; ~gpanmode=1; ~channelmode=0;
~instrPanMode =0;
~gdurmode=0; ~gpanmode=0; ~channelmode=0;
~instrPanMode=0;
~btnstate = [];
~btnsA = [];
@ -254,7 +250,7 @@ SynthDef(\buf_grain, { | out, gate = 1, amp = 0.5,
//~g1.set(\sensorgpan, msg[2].linlin(-1, 1, -1, 1));
//~g1.set(\signalChannelIndex, ~channelmode );
~gtrIn.set(\instrPan, msg[2].linlin(-1, 1, -1, 1));
~gtrIn.set(\sensorInstrPan, msg[2].wrap(0, 5).linlin(0, 5, -1, 1));
~gtrIn.set(\instrPanModeIndex, ~instrPanMode);
//msg.postln;
@ -373,7 +369,7 @@ p = OSCdef(\keys, { arg msg, time, addr, recvPort;
// GTR INPUT =======================
if (msg[11]==1,
{
( ~btn10val = (~btn10val + 1) % 7 ) ;
( ~btn10val = (~btn10val + 1) % 9 ) ;
switch(~btn10val,
@ -384,6 +380,9 @@ p = OSCdef(\keys, { arg msg, time, addr, recvPort;
4, { ~gtrIn.set(\in, 0 ); ~instrPanMode=3; "DRY L/R PAN {STEREO}".postln; },
5, { ~gtrIn.set(\in, 0 ); ~instrPanMode=4; "DRY ROTATE {QUAD}".postln; },
6, { ~gtrIn.set(\in, 0 ); ~instrPanMode=5; "DRY RaND {QUAD}".postln; },
7, { ~gtrIn.set(\in, 0 ); ~instrPanMode=6; "DRY SENSOR {QUAD}".postln; },
8, { ~gtrIn.set(\in, 0 ); ~instrPanMode=7; "DRY SENSOR {QUAD}".postln; },
)
});
@ -426,7 +425,7 @@ p = OSCdef(\keys, { arg msg, time, addr, recvPort;
{
( ~btn14val = (~btn14val + 1) % 7 ) ;
switch(~btn14val,
0, { ~gdurmode = 0; ~g1.set(\imp, 40); "DURATION MODE 0".postln; },
0, { ~gdurmode = 0; ~g1.set(\imp, 64); "DURATION MODE 0".postln; },
1, { ~gdurmode = 1; ~g1.set(\imp, 30); "DURATION MODE 1".postln; },
2, { ~gdurmode = 2; ~g1.set(\imp, 20); "DURATION MODE 2".postln; },
3, { ~gdurmode = 3; ~g1.set(\imp, 15); "DURATION MODE 3".postln; },
@ -524,6 +523,9 @@ r.set(\overdub, 0); // off
~g1.set(\gate, 1); // granulator on
~g1.set(\gate, 0); // granulator off
~g1.set(\amp, 0.5); // granulator off
a = Scale.major;
@ -545,3 +547,4 @@ a = Scale.major;
//n = NetAddr.new("224.0.1.9", 6696);