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@ -38,7 +38,7 @@ frNearestInList = {arg frComp, frDict;
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frDict.reject({arg item;
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(item[\root][0] == frComp[1]) ||
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(item[\fr] == frComp[1])
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}).keys.asList.sort({arg a, b; a.asString < b.asString}).do({arg fr;
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}).keys.asList.sort({arg a, b; harmonicDistance.value(a) < harmonicDistance.value(b)}).do({arg fr;
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var diff = abs(frToFloat.value(fr) - frToFloat.value(frComp[0]));
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if(diff < diffNearest, {diffNearest = diff; frNearest = fr});
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});
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@ -82,10 +82,13 @@ hdChoose = {arg mode, exp = 1, weights = [1, 1, 1, 1, 1, 1, 1];
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mode.wchoose(probs.normalizeSum)
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};
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//faster sorting algorithm?
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wchooseDict = {arg dict, exp = 1, limit = 0;
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wchooseDict = {arg dict, exp = 1, limit = 0, isFR = true;
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var keyList, probs;
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keyList = dict.keys.asList.sort({arg a, b; a.asString < b.asString});
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keyList = if(isFR, {
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dict.keys.asList.sort({arg a, b; harmonicDistance.value(a) < harmonicDistance.value(b)});
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}, {
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dict.keys.asList.sort({arg a, b; a.convertDigits(2) < b.convertDigits(2)});
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});
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probs = keyList.collect({arg key;
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var count = dict[key][\count];
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if(count < limit, {0}, {count})
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@ -95,7 +98,7 @@ wchooseDict = {arg dict, exp = 1, limit = 0;
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};
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collectRoots = {arg dict; dict.keys.collect({arg fr;
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dict[fr][\root][0]}).asList.sort({arg a, b; a.asString < b.asString})
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dict[fr][\root][0]}).asList.sort({arg a, b; harmonicDistance.value(a) < harmonicDistance.value(b)});
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};
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@ -192,7 +195,7 @@ genTemporalData = {arg lastTupleState, modeState, cadenceOverride, noParts = 4;
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cadence = if(collectRoots.value(modeState).size == 1, {cadenceOverride.not}, {false});
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curTupleState = lastTupleState.deepCopy;
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timeToNextEvent = (64 + 50.rand + if(cadence, {50}, {0})).round(16);
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tuple = wchooseDict.value(curTupleState);
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tuple = wchooseDict.value(curTupleState, isFR: false);
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if(cadence, {tuple = [1, 1, 1]});
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curTupleState = curTupleState.keysValuesDo({arg key, val;
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curTupleState[key][\count] = val[\count] + 1});
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