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(
var formatPatternData;
//busses
~partStarBus = Bus.audio(s, 1);
~partIBus = Bus.audio(s, 1);
~partIIBus = Bus.audio(s, 1);
~partIIIBus = Bus.audio(s, 1);
~accompBus = Bus.audio(s, 1);
~clickBus = Bus.audio(s, 1);
~postampBusses = 7.collect({Bus.audio(s, 1)});
~preampBusses = 7.collect({Bus.audio(s, 1)});
SynthDef(\masterPlayerControl_ ++ ~hash, {
var sigs, sigsPanned, masterSig, imp;
sigs = ~postampBusses.collect({arg bus, i; In.ar(bus) * NamedControl.kr(\vol_ ++ i, 1, 0.1)});
sigsPanned = sigs.collect({arg sig, i; Pan2.ar(sig * NamedControl.kr(\mute_ ++ i, 1, 0.1), NamedControl.kr(\pan_ ++ i, 0.5, 0.1))});
masterSig = Mix.ar(sigsPanned.drop(-1)) * NamedControl.kr("vol_master" ++ i, 1, 0.1) * NamedControl.kr("mute_master" ++ i, 1, 0.1);
Out.ar(0, masterSig);
Out.ar(2, sigsPanned.last); //change this if you want the click to go somewhere else
imp = Impulse.kr(10);
SendReply.kr(imp, '/masterLevels_' ++ ~hash, values: [Amplitude.kr(masterSig)]);
sigs.collect({arg sig, i; SendReply.kr(imp, '/trackLevel_' ++ i ++ "_" ++ ~hash, values: [Amplitude.kr(sig)])});
}).add;
SynthDef(\transport_ ++ ~hash, {arg measure = 0, beat = 0, section = 0, subsection = 0, gate = 1, dur = 1;
SendReply.kr(Impulse.kr(0) * (measure > 0) * (beat > 0),'/measureClock_' ++ ~hash, values: [measure, beat, section, subsection]);
//SendReply.kr(Impulse.kr(0),'/nextSubsection_' ++ ~hash);
EnvGen.kr(Env.sine(dur), gate, doneAction: 2);
}).add;
SynthDef(\click_ ++ ~hash, {arg beat = 0, gate = 1, dur = 1;
Out.ar(~postampBusses[6], 10 * BPF.ar(WhiteNoise.ar * EnvGen.kr(Env.perc(0.01, 0.1), gate), 440 * ((beat <= 1) + 1), 0.02));
EnvGen.kr(Env.sine(dur), gate, doneAction: 2);
}).add;
//~~~~~~~~~~~~DEFINE SYNTHS~~~~~~~~~~~~
SynthDef(\amp_curve_ ++ ~hash, {arg amp = 0, dur = 0.1, gate = 1, bus = 0;
Out.kr(bus, amp)
}).add;
SynthDef(\ens_ ++ ~hash, {arg freq = 440, amp = 1, dur = 1, gate = 1, bus = 0, ampBus = 0;
Out.ar(bus, SinOsc.ar(freq, 2pi.rand, 0.1) * Latch.kr(In.kr(ampBus), Impulse.kr(0)) * EnvGen.kr(Env.asr(0.1, 1, 0.1), gate, doneAction: 2))
}).add;
SynthDef(\accomp_ ++ ~hash, {arg freq = 440, amp = 1, attack = 1, dur = 1, gate = 1, bout = 0, ampBus = 0;
Out.ar(bout, SinOsc.ar(freq, 2pi.rand, 1) * 0.01 * amp * Latch.kr(In.kr(ampBus), Impulse.kr(0)) * EnvGen.kr(Env.asr(attack, 1, 0.01), gate, doneAction: 2))
}).add;
SynthDef(\clip_ ++ ~hash, {arg dur = 1, gate = 1, bin = 0, bus = 0;
//Out.ar([0, 1], (In.ar(bin)).clip(0, 1) * pow(Line.kr(0, 1, 240), 2))
Out.ar(bus, (In.ar(bin)).clip(0, 1) * 50 * pow(Line.kr(0, 1, 10), 2))
}).add;
SynthDef(\bass_ ++ ~hash, {arg freq = 440, amp = 1, dur = 1, attack = 1, decay = 1, release = 1, gate = 1, direction = 1, bus = 0;
Out.ar(bus, (SinOsc.ar(freq) * 0.3 * amp * EnvGen.kr(Env.adsr(attack, decay, 0.5, release, curve: \sqr), gate, doneAction: 2)))
}).add;
SynthDef(\bass_mono_ ++ ~hash, {arg freq = 440, ampBus = 0, bus = 0;
Out.ar(bus, (SinOsc.ar(freq.poll) * 0.4 * In.kr(ampBus)))
}).add;
// group data by measures for navigation
formatPatternData = {arg musData, measureLen;
var dataLen;
dataLen = musData[0][0].size;
musData.collect({arg partData;
var res;
res = partData.flop;
res = res.add(res[1]);
res[1] = (res[1].differentiate.drop(1) ++ [10]);
res = res.flop ++ measureLen.collect({arg measure; dataLen.collect({0}) ++ [measure * 16]});
res = res.sort({arg a, b; a.last < b.last}).flop;
res = res.insert(1, (res.last.differentiate.drop(1) ++ [10])).flop;
res = res.separate({arg a, b; (a.last / 16).trunc != (b.last / 16).trunc});
res.collect({arg measureData; measureData.flop})
}).flop
};
//~~~~~~~~~~~~GENERATE PATTERNS~~~~~~~~~~~~
~genPatterns = {arg ensData, accompData, bassData, ampData, sectionData;
var measureLen, ensDataFormatted, accompDataFormatted, bassDataFormatted, ampDataFormatted,
dUnit, section, subsection, patterns;
"here5".postln;
measureLen = ((
ensData.collect({arg partData; partData.last[1]}) ++
accompData.flatten.collect({arg partData; partData.last[1]})
).maxItem.ceil(16) / 16).asInteger;
ensDataFormatted = formatPatternData.value(ensData, measureLen);
accompDataFormatted = formatPatternData.value(accompData.flatten, measureLen);
//bassDataFormatted = formatPatternData.value(bassData[..0], measureLen);
//ampDataFormatted = formatPatternData.value([ampData, ampData, ampData, ampData].postln, measureLen);
"here6".postln;
dUnit = 8.reciprocal;
patterns = measureLen.collect({arg measure;
if(sectionData[measure * 4] != nil, {
section = sectionData[measure * 4][2];
subsection = sectionData[measure * 4][3];
});
Ppar(
ensDataFormatted[measure].collect({arg musData, m;
Pbind(
\instrument, \ens_ ++ ~hash,
\freq, Pseq(musData[0].replace(0, Rest(0))),
\dur, Pseq(musData[1] * dUnit),
\sustain, Pseq(musData[2] * dUnit),
\amp, [0.5, 0.3, 0.3, 0.3][m],
//\amp, Pseq(musData[2].collect({arg item; [0, 0.25, 0.5, 0.75][item]}) * [1, 0.5, 0.25, 0.1][m] * 16);
// * musData[3].collect({arg val; if(val < 0.25, {0}, {0.5})}))
\ampBus, ~preampBusses[0].index,
\bus, ~postampBusses[m].index
)
}) ++
accompDataFormatted[measure].collect({arg musData, m;
//"--------".postln;
Pbind(
\instrument, \accomp_ ++ ~hash,
\freq, Pseq(musData[0].replace(0, Rest(0))),
\dur, Pseq(musData[1] * dUnit),
\sustain, Pseq(musData[2] * dUnit),
\amp, Pseq(musData[3].collect({arg item; [0, 2, 4, 8][item]}) * 0.0125 * 1),
//\attack, Pseq(musData[1] * abs(musData[3].clip(0, 0.25) * 2 - 1) * dUnit),
\attack, Pseq(musData[2] * 1 * dUnit),
\ampBus, ~preampBusses[0].index,
\bout, Pseq(musData[4] + 6)
)
}) ++
/*
bassDataFormatted[measure][..0].postln.collect({arg musData, m;
Pbind(
\instrument, \bass_ ++ ~hash,
\freq, Pseq(musData[0].replace(0, Rest(0)) * [2, 4, 8][m]),
\dur, Pseq(musData[1] * dUnit),
\sustain, Pseq(musData[3] + musData[4] * dUnit),
\attack, Pseq(musData[3] * dUnit),
\decay, Pseq(musData[4] * dUnit),
\release, Pseq(musData[5] * dUnit),
\amp, 1,
//\amp, Pseq(musData[2].collect({arg item; [0, 0.25, 0.5, 0.75][item]}) * [1, 0.5, 0.25, 0.1][m] * 16);
// * musData[3].collect({arg val; if(val < 0.25, {0}, {0.5})}))
\bus, ~postampBusses[4].index
)
}) ++
ampDataFormatted[measure].collect({arg musData, m;
Pbind(
\instrument, \amp_curve_ ++ ~hash,
\amp, Pseq(musData[0]),
\dur, Pseq(musData[1].replace(0, Rest(0)) * dUnit),
\bus, ~preampBusses[m].index
)
}) ++
*/
[
Pbind(
\instrument, \transport_ ++ ~hash,
\measure, measure + 1,
\beat, Pseq([1, 2]),
\section, section,
\subsection, subsection,
\dur, 8 * dUnit
),
Pbind(
\instrument, \click_ ++ ~hash,
\beat, Pseq([1, 2]),
\dur, 8 * dUnit
)
]
)
});
[patterns, bassData, ampData]
};
//~~~~gen music
/*
~genPatterns = {arg partStarSeqIn, accompLowSeqIn, partISeqIn, sectionSeqIn, beatFrac = 1/8;
var calcSustains, genSectionSec, sectionLimits, measureCount;
//~~~~helper sus function
calcSustains = {arg stringSeq, durSeq;
var res = [];
stringSeq.size.do({arg index;
var curString, dur, count;
if(stringSeq[index].isRest.not, {
curString = stringSeq[index];
dur = durSeq[index];
count = 1;
while({(stringSeq[(index + count).clip(0, stringSeq.size - 1)] != curString) &&
(dur < 16) && (count < 100)}, {
dur = dur + durSeq[(index + count).clip(0, durSeq.size - 1)];
count = count + 1;
});
res = res.add(dur.clip(0, 16));
}, {
res.add(Rest());
});
});
res
};
genSectionSec = {arg seq, startTime, endTime, type;
var durSum, resSeqs, inSecs, mult;
durSum = 0;
resSeqs = [];
seq.do({arg item;
if((durSum >= startTime) && (durSum < endTime), {
var dur = durSum - startTime;
if((resSeqs.size == 0) && (dur > 0), {
switch(type,
0, {resSeqs = resSeqs.add([Rest(-1), Rest(-1), dur])},
1, {resSeqs = resSeqs.add([Rest(-1), Rest(-1), dur])},
2, {resSeqs = resSeqs.add([Rest(-1), dur, dur])})
});
resSeqs = resSeqs.add(item);
});
durSum = durSum + if(type == 2, {item[1]}, {item[2]});
});
resSeqs
};
measureCount = 0;
sectionLimits = [];
sectionSeqIn.slice(nil, 0).add(100000).doAdjacentPairs({arg a, b; sectionLimits = sectionLimits.add([a, b])});
~sectionStartMeasure = [];
sectionLimits.collect({arg timePair, secIndex;
var startTime, endTime, beatLength, beatSeq, measureSeq,
partStarSecSeq, accompLowSecSeq, partISecSeq,
stringSeq, fretSeq, harmLimit, freqSeq, durSeq, susSeq, trigSeq, openStrings, pattern;
startTime = timePair[0];
endTime = timePair[1];
if((secIndex % 4) == 0, {measureCount = 0});
beatLength = (endTime - startTime) / 8;
beatSeq = ((beatLength / 2) - 1).asInteger.collect({[1, 2]});
beatSeq = if((beatLength % 2) == 0, {beatSeq.add([1, 2])}, {beatSeq.add([1, 2, 3])});
measureSeq = measureCount + beatSeq.collect({arg measure, mIndex; measure.collect({mIndex + 1})}).flat;
~sectionStartMeasure = ~sectionStartMeasure.add(measureCount + 1);
measureCount = measureSeq.last;
beatSeq = beatSeq.flat;
measureSeq = measureSeq.add(0);
beatSeq = beatSeq.add(0);
partStarSecSeq = genSectionSec.value(partStarSeqIn, startTime, endTime, 0);
accompLowSecSeq = genSectionSec.value(accompLowSeqIn, startTime, endTime, 1);
partISecSeq = genSectionSec.value(partISeqIn, startTime, endTime, 2);
if(partISecSeq == [], {partISecSeq = [[Rest(-1), 1, 0], [Rest(-1), 1, 0]]});
openStrings = [1/1, 3/2, 2/1, 5/2, 35/12, 7/2];
harmLimit = [9, 8, 7, 6, 5, 4];
stringSeq = partStarSecSeq.slice(nil, 0);
fretSeq = partStarSecSeq.slice(nil, 1);
durSeq = partStarSecSeq.slice(nil, 2);
susSeq = calcSustains.value(stringSeq, durSeq);
freqSeq = stringSeq.collect({arg string, index;
if(string.isRest, {Rest()}, {
var midi, freq;
//this is transposed up because karplus-strong does not really sound correctly in the partStar range
midi = (62.midicps * openStrings[string]).cpsmidi + fretSeq[index];
freq = midi.midicps * if((secIndex % 4) != 3, {1}, {[1, harmLimit[string].rand + 1].choose})})
});
pattern = EventPatternProxy.new;
pattern.source = Ppar([
Pbind(
\instrument, \karplus ++ ~hash,
\amp, 0.3,
\dur, Pseq(durSeq * beatFrac),
\sustain, Pseq(susSeq * beatFrac),
\freq, Pseq(freqSeq),
\bus, ~partStarBus.index),
if(accompLowSecSeq.size > 1, {
Pmono(
\accompBass ++ ~hash,
\amp, 0.5,
\freq1, Pseq(accompLowSecSeq.slice(nil, 0)),
\freq2, Pseq(accompLowSecSeq.slice(nil, 1)),
\dur, Pseq(accompLowSecSeq.slice(nil, 2)) * beatFrac,
\busLower, if(secIndex % 2 == 0, {~partIIBusA.index}, {~partIIBusB.index}),
\busUpper, if(secIndex % 2 == 0, {~partIIIBusA.index}, {~partIIIBusB.index}))
}, {
Pmono(
\accompBass ++ ~hash,
\amp, 0.5,
\freq1, Pseq([accompLowSecSeq[0][0]]),
\freq2, Pseq([accompLowSecSeq[0][1]]),
\dur, Pseq([accompLowSecSeq[0][2]]) * beatFrac,
\busLower, if(secIndex % 2 == 0, {~partIIBusA.index}, {~partIIBusB.index}),
\busUpper, if(secIndex % 2 == 0, {~partIIIBusA.index}, {~partIIIBusB.index}))
}),
Pbind(
\instrument, \accompTreble ++ ~hash,
//\freq, Pseq(partISecSeq.slice(nil, 0)),
\freq, Pseq(partISecSeq.slice(nil, 0).curdle(0.3).collect({arg item; item.cpsmidi - 0.16 + 0.32.rand}).midicps.flat),
\dur, Pseq(partISecSeq.slice(nil, 1) * beatFrac),
\sustain, Pseq(partISecSeq.slice(nil, 2) * beatFrac),
\amp, 0.5,
\bus, ~partIBus.index),
Pbind(
\instrument, \transport ++ ~hash,
\measure, Pseq(measureSeq),
\beat, Pseq(beatSeq),
\dur, beatFrac * 8
),
Pbind(
\instrument, \click ++ ~hash,
\beat, Pseq(beatSeq.drop(-1)),
\dur, beatFrac * 8
)
]);
pattern
});
};
*/
)