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(
// helper funcs
var hsArrayToCents, pDist, hdSum, hsChordalDistance, hsArrayToFreq;
// score funcs
var isInRange, spacingScore, rangeScore, intervalScore, inclusionScore;
// subroutines
var genTuples, initVoices, genOrders, genSubMotif, updateVoices, genDurFunc;
// primary routines
var genMotif, genSecondarySeq;
// audition funcs
var genPatterns, genMidiPatterns;
// resource management funcs
var seedFunc, genUID, writeResources, stringifyToDepth, setSeeds, sanityCheck,
msgInterpret, loadLedgerFile, loadLedgerJSON, loadModelFile, loadModelJSON;
// model vars
//(model and global vars mostly set by OSC funcs
var curUID, refUID, orderSeed, durSeed, motifSeed,
entrancesProbVals, passagesProbVals, exitsProbVals,
ranges, orders, susWeights, passagesWeights, passagesSize, orderSize,
model;
// model aux vars
var entrancesDurFunc, passagesDurFunc, exitsDurFunc;
// other global vars
var lastXChanges, popSize, exPath, dir, primes, dims, tuples,
seq, group, player, ledgerPath, ledger, currentlyPlayingUID;
// install JSON quark
if(Quarks.isInstalled("JSONlib").not, {
Quarks.install("https://github.com/musikinformatik/JSONlib.git");
thisProcess.recompile;
//HelpBrowser.openHelpFor("Classes/JSONlib");
});
//------helper funcs
hsArrayToCents = {
arg hsArray;
hsArray.collect({arg dist, p; dist * 1200 * log2(primes[p][0]/primes[p][1])}).sum
};
pDist = {
arg array1, array2, signed = false;
var pDistance;
pDistance = hsArrayToCents.value(array1) - hsArrayToCents.value(array2);
if(signed, {pDistance}, {abs(pDistance)})
};
hdSum = {
arg hsArrays;
var size, distances, mean;
size = hsArrays.size;
distances = (size - 1).collect({arg i;
((i + 1)..(size - 1)).collect({arg j;
abs(hsArrays[i] - hsArrays[j]).collect({arg dist, p; dist * log2(primes[p].product)}).sum
});
}).flat;
mean = distances.sum / distances.size;
distances.sum
//mean + ((1 / sqrt((pow(distances - mean, 2)).sum / distances.size)) * mean)
};
hsChordalDistance = {
arg hsArrays1, hsArrays2;
var size, distances, mean;
size = hsArrays1.size;
distances = hsArrays1.size.collect({arg i;
hsArrays2.size.collect({arg j;
abs(hsArrays1[i] - hsArrays2[j]).collect({arg dist, p; dist * log2(primes[p].product)}).sum
});
}).flat;
mean = distances.sum / distances.size;
distances.sum
//mean + ((1 / sqrt((pow(distances - mean, 2)).sum / distances.size)) * mean)
};
hsArrayToFreq = {
arg array;
array.collect({arg dim, d; pow(primes[d][0]/primes[d][1], dim)}).product
};
//------score funcs
/*
isInRange = {
arg hsArray, min, max;
var cents;
cents = hsArrayToCents.value(hsArray);
(cents >= min) && (cents <= max)
};
*/
spacingScore = {
arg hsArrays, min;
var centsArray;
centsArray = hsArrays.collect({arg hsArray; hsArrayToCents.value(hsArray)}).sort({arg a, b; a < b});
centsArray.differentiate.drop(1).collect({arg pDistance; if(pDistance >= min, {1}, {0.01})}).sum;
};
rangeScore = {
arg hsArray1, hsArray2, min, max, low, signed = false;
var pDistance;
pDistance = pDist.value(hsArray1, hsArray2, signed);
if((pDistance >= min) && (pDistance <= max), {1}, {low});
};
intervalScore = {
arg hsArray1, hsArray2, mean, sd, signed = false;
var pDistance;
pDistance = pDist.value(hsArray1, hsArray2, signed);
pDistance.gaussCurve(1, mean, sd)
};
inclusionScore = {
arg array, test, min = 0.01;
if(array.collect({arg v; v.hash}).includes(test.hash), {min}, {1});
};
//------subroutines
genTuples = {
var tuples;
tuples = dims.collect({[-1, 0, 1]}).allTuples.select({arg tuple; (abs(tuple.drop(1)).sum <= 1) && (tuple[0] == 0)});
tuples = tuples ++ tuples.collect({arg tuple; [-3, -2, -1, 1, 2, 3].collect({arg octTrans; tuple.deepCopy.put(0, octTrans)})}).flatten;
};
initVoices = {
var init, voicesInit;
voicesInit = popSize.collect({dims.collect({0})});
/*
voicesInit = [dims.collect({0})];
(popSize - 1).do({
arg rep, new;
rep = dims.rand;
new = voicesInit.last.deepCopy;
new[rep] = new[rep] + [-1, 1].choose();
voicesInit = voicesInit.add(new);
});
*/
voicesInit.deepCopy;
};
genDurFunc = {arg chordProb, min, max, envData, seed;
var env, pTable, durFunc;
env = Env.pairs([[0, 0]] ++ envData.clump(2) ++ [[1, 0]]).asSignal(256).asList.asArray;
pTable = env.asRandomTable;
durFunc = {arg allowChord;
var res;
res = if(allowChord.not, {
pTable.tableRand * (max - min) + min
}, {
if(1.0.rand < chordProb, {0}, {pTable.tableRand * (max - min) + min});
}).round(0.125);
if(res.asInteger == res, {res = res.asInteger});
res
};
seedFunc.value(durFunc, model["dur_seed"]);
};
genOrders = {arg minMotifLength = 1, maxMotifLength = 5, minProgLength = 0, maxProgLength = 5;
((maxMotifLength - minMotifLength).rand + minMotifLength).collect({
var noProgIns, noSusIns, noSilentIns, prog, sus, silent;
noSusIns = [1, 2, 3].wchoose(susWeights.normalizeSum);
noProgIns = (popSize - noSusIns).rand + 1;
noSilentIns = popSize - noSusIns - noProgIns;
# prog, sus, silent = (0..(popSize-1)).scramble.clumps([noProgIns, noSusIns, noSilentIns]);
prog = (prog.scramble ++ ((maxProgLength - minProgLength).rand + minProgLength).collect({prog.choose}).scramble);
if(silent == nil, {silent = []});
[sus.scramble, prog, silent.scramble]
});
};
updateVoices = {arg ins, sus;
var voices, candidates, nWeights, nProbs, sel;
voices = lastXChanges.deepCopy.last;
candidates = sus.collect({arg v; tuples.collect({arg t; voices[v] + t})}).flatten;
candidates = difference(candidates.asSet, voices.asSet).asList;
nProbs = candidates.collect({arg candidate;
var ranges, stepScore, recentlySoundedScore, isInRangeScore, regScore, hdScore;
ranges = model["ranges"];
//stepScore = intervalScore.value(voices[ins], candidate, 30, 400, 0.1);
stepScore = intervalScore.value(voices[ins], candidate, 100, 100);
recentlySoundedScore = inclusionScore.value(lastXChanges.flop[ins], candidate, 0);
isInRangeScore = rangeScore.value(candidate, candidate.collect({0}), ranges[ins][0], ranges[ins][1], 0, true);
regScore = spacingScore.value(voices.deepCopy.put(ins, candidate), 300);
hdScore = 1/pow(hdSum.value(voices.deepCopy.put(ins, candidate)), 2);
//maybe what you want here is a vector to another root and then favoring movement towards it.
//distScore = pow(hsChordalDistance.value(voices, voices.put(ins, candidate)), 2);
[stepScore, recentlySoundedScore, isInRangeScore, regScore, hdScore]
});
nWeights = model["passages_weights"];
//this handles nWeights of 0; mainly for testing
nProbs = nProbs.flop.select({arg scores, s; nWeights[s] != 0}).flop;
nWeights = nWeights.select({arg weight; weight != 0});
nProbs = nProbs.flop.collect({arg scores, s;
if(scores.sum == 0, {scores}, {scores.normalizeSum * nWeights[s]})
});
nProbs = nProbs.flop.collect({arg scores, s; scores.product}).normalizeSum;
sel = candidates.wchoose(nProbs);
voices[ins] = sel;
lastXChanges = lastXChanges.add(voices).keep(-5);
};
genSubMotif = {arg order, lastState, repeatLast = false, startFromLast = false, isLastOrder = false;
var sus, prog, silent, flatOrder, res, isInChord, allowChord, lastXChangesHold, voices, adder;
# sus, prog, silent = order;
flatOrder = silent ++ sus ++ prog;
lastXChangesHold = lastXChanges.deepCopy;
voices = lastState.deepCopy;
isInChord = popSize.collect({false});
allowChord = false;
res = [];
"------generating motif".postln;
//need to figure out here if voices move between motifs
flatOrder.do({arg ins, i;
if(prog.includes(ins) && repeatLast.not, {updateVoices.value(ins, sus)});
adder = if(silent.includes(ins), {["Rest"]}, {lastXChanges.last.deepCopy[ins]});
if(voices[ins] != adder, {
var dur;
allowChord = if((sus ++ silent).includes(ins), {
(sus ++ silent).includes(ins) && (ins != sus.last);
}, {
if(i < (flatOrder.size - 1), {(isInChord[flatOrder[i + 1]] || (ins == flatOrder[i + 1])).not}, {false});
});
dur = passagesDurFunc.value(allowChord);
if(dur == 0, {isInChord[ins] = true}, {isInChord = popSize.collect({false})});
voices[ins] = adder;
res = res.add([voices.deepCopy.postln, dur]);
});
});
// pad ending
if(isLastOrder, {
(0..(popSize-1)).scramble.do({arg ins;
if(res.last.first[ins] != ["Rest"], {
var dur;
voices[ins] = ["Rest"];
allowChord = (voices != popSize.collect({["Rest"]}));
dur = passagesDurFunc.value(allowChord);
res = res.add([voices.deepCopy.postln, dur]);
});
});
});
//format and return
if(startFromLast, {lastXChanges = lastXChangesHold});
res;
};
//------primary routines
genMotif = {
var repeats, fSeq;
repeats = 1;
fSeq = [];
repeats.do({arg index;
var motif;
motif = [];
model["orders"].do({arg order, o;
var lastState, subMotif;
lastState = if(o == 0, {popSize.collect({["Rest"]})}, {motif.last.last.first});
subMotif = genSubMotif.value(order, lastState, isLastOrder: o == (orders.size - 1));
motif = motif.add(subMotif);
});
sanityCheck.value(motif, index);
fSeq = fSeq.add(motif);
});
fSeq
};
genSecondarySeq = {arg seq;
var curdles, fSeq;
curdles = [];
while({curdles.sum < seq.size}, {curdles = curdles ++ [3.rand + 1]});
fSeq = seq.clumps(curdles).collect({arg clump, m;
var repeats, paddedSeq;
//add rest
paddedSeq = clump.add([[[popSize.collect({["Rest"]}), 0.5.rand]]]);
//implement repeats
repeats = [0.rand + 1, 1].wchoose([1, 0].normalizeSum);
repeats.collect({paddedSeq});
});
fSeq
};
//------audition funcs
Event.addEventType(\osc, {
if (~addr.postln.notNil) {
~addr.sendMsg(~indexPath, ~indexMsg);
~addr.sendMsg(~seqPath, stringifyToDepth.value(~seqMsg, 3));
//~addr.sendMsg("/STATE/OPEN", (dir.replace("supercollider", "resources") +/+ ~idMsg +/+ ~idMsg ++ "_gui_state" ++ ".state").standardizePath.postln);
};
});
genPatterns = {arg inSeq, addr;
var voices, durs, patterns, res, indices, sectionDurs, ids, seq;
seq = inSeq.collect({arg mSeq; mSeq[0]});
# voices, durs = seq.flatten2(seq.maxDepth - 5).flop;
indices = inSeq.collect({arg mSeq, m; mSeq[1]});
ids = inSeq.collect({arg mSeq, m; mSeq[2]});
sectionDurs = seq.collect({arg mSeq; mSeq.flatten2(mSeq.maxDepth - 5).flop[1].sum});
res = Ppar(
voices.flop.collect({arg voice;
var clumps, hdScores, freqs, fDurs;
clumps = voice.separate({arg a, b; a != b });
freqs = clumps.collect({arg clump; if(clump[0] != ["Rest"], {(60.midicps * hsArrayToFreq.value(clump[0]))}, {Rest(0)})});
fDurs = durs.clumps(clumps.collect({arg clump; clump.size})).collect({arg clump; clump.sum});
Pbind(
\instrument, \test,
\group, group,
\freq, Pseq(freqs, 1),
\dur, Pseq(fDurs, 1),
\sustain, Pseq(fDurs, 1)
)
}) ++
[
Pbind(
\type, \osc,
\addr, addr,
\indexPath, "/cur_play_index",
\indexMsg, Pseq(indices.postln, 1),
\seqPath, "/mus_seq",
\seqMsg, Pseq(seq, 1),
\dur, Pseq(sectionDurs, 1)
);
]
);
res
};
/*
genMidiPatterns = {arg seq;
var voices, durs, patterns, res, mOut, pbRange;
pbRange = 1; //semitones - change this as needed for your situation
mOut = MIDIOut.newByName("TiMidity", "TiMidity port 0").latency_(Server.default.latency);
# voices, durs = seq.flatten2(seq.maxDepth - 5).flop;
res = Ppar(
voices.flop.collect({arg voice, v;
var clumps, hdScores, freqs, fDurs;
mOut.program(v, 70);
clumps = voice.separate({arg a, b; a != b });
freqs = clumps.collect({arg clump; if(clump[0] != ["Rest"], {(60.midicps * hsArrayToFreq.value(clump[0]))}, {Rest(0)})});
fDurs = durs.clumps(clumps.collect({arg clump; clump.size})).collect({arg clump; clump.sum});
Pbind(
\type, \midi,
\chan, v,
\noteval, Pseq(freqs.cpsmidi - 24, 1),
\note, Pfunc({ | event | event[\noteval].floor }),
\dur, Pseq(fDurs, 1),
\midiout, mOut,
\amp, 1,
\bend, Pfunc({
| event |
if (event[\note].isRest.not) {
var pitchbendvalue = event[\noteval].frac.linlin(0, pbRange, 8192, 8192*2).asInteger;
m.bend(v, pitchbendvalue);
};
0; // return something other than nil to avoid stopping the pattern
}),
);
});
);
res
};
*/
//------resource management funcs
genUID = {Date.seed.asHexString.toLower};
seedFunc = {arg func, seed;
var funcArgs, next;
next = Routine({loop{func.valueArray(funcArgs).yield }});
next.randSeed_(seed);
{arg ...args; funcArgs = args; next.value}
};
stringifyToDepth = {arg data, maxDepth = 1;
var prettyString = "", rCount = 0, writeArray, indent;
if(maxDepth == 0, {
data.asCompileString
}, {
indent = {arg size; size.collect({" "}).join("")};
writeArray = {arg array;
prettyString = prettyString ++ indent.value(rCount) ++ "[\n";
rCount = rCount + 1;
if(rCount < maxDepth, {
array.do({arg subArray; writeArray.value(subArray)});
}, {
prettyString = prettyString ++ array.collect({arg subArray;
indent.value(rCount + 1) ++ subArray.asCompileString
}).join(",\n");
});
rCount = rCount - 1;
prettyString = prettyString ++ "\n" ++ indent.value(rCount) ++ "],\n";
};
writeArray.value(data);
prettyString.replace(",\n\n", "\n").drop(-2);
})
};
sanityCheck = {arg motif, index;
//print functions = very helpful
("----------" + index + "------------").postln;
motif.flatten.do({arg val, v;
if(v > 0, {
if(motif.flatten[v-1][0].hammingDistance(val[0]) > 1, {"problem 1".postln});
if(motif.flatten[v-1][0].hammingDistance(val[0]) == 0, {"problem 2".postln});
});
val.postln
});
"***********".postln;
};
msgInterpret = {arg in, escapeDoubleQuotes = true, escapeSingleQuotes = true;
var res;
res = in;
if(res.isNil.not, {
if((res.isArray && res.isString.not), {
res = res.asCompileString;
res = res.replace(" ", "").replace("\n", "").replace("\t", "");
if(escapeSingleQuotes, {res = res.replace("\'", "")});
if(escapeDoubleQuotes, {res = res.replace("\"", "")});
res = res.replace("Rest", "\"Rest\"");
res = res.interpret;
}, {
//res.postln;
if(res.every({arg char; char.isDecDigit}), {res = res.asInteger});
});
});
res
};
writeResources = {arg path;
var file, nameSpaces, modelItems, resString;
file = File(path,"w");
nameSpaces = [
"music_data", "last_changes",
"cur_uid", "ref_uid", "order_seed", "dur_seed", "motifs_seed",
"entrances_probs_vals","passages_probs_vals", "exits_probs_vals",
"ranges", "passages_weights", "order", "sus_weights", "order_size", "passages_size"
];
modelItems = [
seq, lastXChanges,
curUID, refUID, orderSeed, durSeed, motifSeed,
entrancesProbVals, passagesProbVals, exitsProbVals,
ranges, passagesWeights, orders, susWeights, orderSize, passagesSize
];
resString = [nameSpaces, modelItems].flop.collect({arg item;
var nameSpace, modelItem, depth = 0, insert = " ";
# nameSpace, modelItem = item;
if(nameSpace == "music_data", {depth = 3; insert = "\n"});
if(nameSpace == "last_changes", {depth = 1; insert = "\n"});
if(nameSpace == "order", {depth = 1; insert = "\n"});
"\"" ++ nameSpace ++ "\":" ++ insert ++ stringifyToDepth.value(modelItem.postln, depth).postln
}).join(",\n");
resString = "{\n" ++ resString ++ "\n}";
file.write(resString);
file.close;
resString
};
loadModelFile = {arg path; loadModelJSON.value(File(path, "r").readAllString.parseJSON)};
loadModelJSON = {arg jsonObject;
var nameSpaces, data;
//model = File(path, "r").readAllString.parseJSON;
nameSpaces = [
"cur_uid", "ref_uid", "order_seed", "dur_seed", "motifs_seed",
"entrances_probs_vals","passages_probs_vals", "exits_probs_vals",
"ranges", "passages_weights", "order", "sus_weights", "order_size", "passages_size"
];
//data = nameSpaces.collect({arg nS; msgInterpret.value(jsonObject[nS]).postln});
model = Dictionary.with(*nameSpaces.collect({arg nS; nS -> msgInterpret.value(jsonObject[nS]).postln}));
data.postln;
# curUID, refUID, orderSeed, durSeed, motifSeed,
entrancesProbVals, passagesProbVals, exitsProbVals,
ranges, passagesWeights, orders, susWeights, orderSize, passagesSize = data;
popSize = ranges.size;
};
loadLedgerFile = {arg path;
ledgerPath = path;
loadLedgerJSON.value(File(ledgerPath, "r").readAllString.parseJSON)
};
loadLedgerJSON = {arg jsonObject; ledger = jsonObject["ledger"]};
//------global vars
primes = [[2, 1], [3, 2], [5, 4], [7, 4], [11, 8], [13, 8]];
//ranges = [[-2400, 0], [-1200, 1200], [0, 2400], [0, 2400]];
exPath = thisProcess.nowExecutingPath;
dir = exPath.dirname;
//popSize = 4;
dims = primes.size;
tuples = genTuples.value();
//refUID = nil;
group = Group.new;
loadLedgerFile.value(dir +/+ ".." +/+ "resources" +/+ "piece_ledger.json");
//passagesWeights = [1, 1, 1, 1, 1];
//susWeights = [1, 1, 1];
//------OSC funcs
OSCdef(\load_ledger, {arg msg, time, addr, port;
loadLedgerFile.value(msg[1].asString);
}, \load_ledger);
OSCdef(\load_model, {arg msg, time, addr, port;
loadModelFile.value(msg[1].asString);
}, \load_model);
OSCdef(\generate, {arg msg, time, addr, port;
var path, refUID, musPath, modelString;
msg.postln;
path = msg[1].asString;
loadModelFile.value(path);
//refUID.postln;
refUID = model["ref_uid"];
loadLedgerFile.value(ledgerPath);
if(ledger == nil, {ledger = ["tmp"]});
if(ledger.last != "tmp", {ledger = ledger.add("tmp")});
lastXChanges = if(refUID == nil, {
[initVoices.value().deepCopy];
}, {
var file;
file = File((dir +/+ ".." +/+ "resources" +/+ refUID +/+ refUID ++ "_mus_model" ++ ".json").standardizePath, "r");
msgInterpret.value(file.readAllString.parseJSON["last_changes"]);
});
# entrancesDurFunc, passagesDurFunc, exitsDurFunc = ["entrances", "passages", "exits"].collect({arg nsPre;
var probsVals = model[nsPre + "_probs_vals"];
genDurFunc.valueArray(probsVals[..2] ++ [probsVals[3..]]);
});
/*
entrancesDurFunc = genDurFunc.valueArray(entrancesProbVals[..2] ++ [entrancesProbVals[3..]]);
passagesDurFunc = genDurFunc.valueArray(passagesProbVals[..2] ++ [passagesProbVals[3..]]);
exitsDurFunc = genDurFunc.valueArray(exitsProbVals[..2] ++ [exitsProbVals[3..]]);
*/
if(orders == nil, {
orders = seedFunc.value(genOrders, model["order_seed"]).valueArray(orderSize ++ passagesSize);
//addr.sendMsg("/order", stringifyToDepth.value(orders, 1));
});
seq = seedFunc.value(genMotif, model["motif_seed"]).value;
modelString = writeResources.value(path);
//addr.sendMsg("/generated", musPath, stringifyToDepth.value(seq, 3));
addr.sendMsg("/generated", path, modelString);
}, \generate);
OSCdef(\commit, {arg msg, time, addr, port;
var newLedger, modelPath, musString, musFile, test1, test2;
msg.postln;
/*
test1 = msg[1].asString.parseJSON;
test2 = (dir +/+ ".." +/+ "resources/tmp/tmp_music" ++ ".json").standardizePath.parseJSONFile;
msgInterpret.value(test1["music"])[0][0][0][1].class.postln;
msgInterpret.value(test2["music_data"])[0][0][0][1].class.postln;
(test1["music"] == test2["music_data"]).postln;
*/
curUID = genUID.value;
model["cur_uid"] = curUID;
File.mkdir((dir +/+ ".." +/+ "resources" +/+ curUID).standardizePath);
File.copy(exPath, (dir +/+ ".." +/+ "resources" +/+ curUID +/+ curUID ++ "_code" ++ ".scd").standardizePath);
modelPath = (dir +/+ ".." +/+ "resources" +/+ curUID +/+ curUID ++ "_mus_model" ++ ".json").standardizePath;
writeResources.value(modelPath);
File.delete(ledgerPath.postln ++ "_bak");
File.copy(ledgerPath, ledgerPath ++ "_bak");
File.delete(ledgerPath);
newLedger = File(ledgerPath.postln, "w");
ledger = ledger.postln.drop(-1).add(curUID);
newLedger.write("{\n\"ledger\":\n" ++ stringifyToDepth.value(ledger, 1) ++ "\n}");
newLedger.close;
addr.sendMsg("/committed", curUID, ledgerPath);
//refUID = curUID;
}, \commit);
OSCdef(\transport, {arg msg, time, addr, port;
msg.postln;
if(msg[1] == 0, {
player.stop;
group.set(\gate, 0);
}, {
// the cued sequence can now be read from file, so this can be cleaned up
var cSize, patterns, pSeq, cuedSeek, indexStart, indexEnd, tmpLedger;
pSeq = [];
cuedSeek = (seq != nil);
indexStart = msg[2].asInteger;
indexEnd = ledger.size - if(cuedSeek, {2}, {1});
ledger.postln;
if(((indexStart == (ledger.size - 1)) && cuedSeek).not, {
ledger[indexStart..indexEnd].do({arg uid, index;
var file;
(indexStart + index).postln;
file = File((dir +/+ ".." +/+ "resources" +/+ uid +/+ uid ++ "_mus_model" ++ ".json").standardizePath, "r");
pSeq = pSeq.add([msgInterpret.value(file.readAllString.parseJSON["music_data"]), indexStart + index, uid]);
file.close;
});
});
if(cuedSeek, {pSeq = pSeq.add([seq, ledger.size - 1])});
patterns = genPatterns.value(pSeq, addr);
player = Pfset(pattern: patterns, cleanupFunc: {
addr.sendMsg("/transport", 0);
});
player = player.play
});
}, \transport);
)
(
SynthDef(\test, {arg freq, gate = 1, sustain, amp, dur;
var trig, exc, sig1, sig2, noHarms;
noHarms = 30;
exc = Saw.ar(freq, TRand.ar(0.5, 1, Impulse.ar(freq))) * 0.001 + Dust.ar(10000, 0.01);
sig1 = (Klank.ar(`[ Array.series(noHarms, freq, freq),
Array.geom(noHarms, 1, 0.2) + Array.fill(noHarms, {rrand(0.01, 0.03)}),
Array.fill(noHarms, {rrand(1, 2)}) ], exc) * 0.5).softclip;
sig1 = HPF.ar(sig1, 300);
Out.ar([0, 1], sig1 * EnvGen.kr(Env.adsr(0.3, 0.3, 0.9, 0.5, 0.9), gate, doneAction: 2));
}).add;
)
(
SynthDef(\test, {arg freq, gate = 1, sustain, amp, dur;
var trig, exc, sig1, sig2, noHarms, freqFinal, start, end;
noHarms = 30;
freq = WhiteNoise.ar * 3 + freq;
freqFinal = Duty.ar((1/freq), 0, freq);
trig = Changed.ar(freqFinal);
start = Demand.ar(trig, 0, Dwhite(-1, -0.75));
end = Demand.ar(trig, 0, Dwhite(0.75, 1));
exc = Phasor.ar(trig, (end - start) * freqFinal / SampleRate.ir, start, end, 0) * 0.001 + Dust.ar(10000, 0.01);
sig1 = (Klank.ar(`[ Array.series(noHarms, freq, freq),
Array.geom(noHarms, 1, 0.2) + Array.fill(noHarms, {rrand(0.01, 0.03)}),
Array.fill(noHarms, {rrand(2, 3)}) ], exc) * 0.5).softclip;
sig1 = HPF.ar(sig1, 300);
Out.ar([0, 1], sig1 * EnvGen.kr(Env.adsr(0.3, 0.3, 0.9, 0.5, 0.9), gate, doneAction: 2));
}).add;
)
"{\"a\": 1}".parseYAML["a"].asInteger;
"{\"a\": 1}".parseJSON["a"].isNumber;
1223423434123.asHexString.toLower
Date.getDate.rawSeconds
Date.seed.asHexString.toLower
n = NetAddr("localhost", 8080);
n.sendMsg("/GET/#", (NetAddr.localAddr.hostname ++ ":" ++ NetAddr.localAddr.port), "/passage_probs_vals");