private static void reorderList(LinkedList<Double> list) {
if (GeneralTaskSettings.getSettings().getPlaytype() == PlayType.Harmonically
|| GeneralTaskSettings.getSettings().getMelPlayType() == PlayType.MelUp) return;
if (GeneralTaskSettings.getSettings().getMelPlayType() == PlayType.MelDown)
Collections.reverse(list);
else Collections.shuffle(list, random);
}
private static Pattern createFirstPattern(
IntervalComparatorElement element, String connector, double baseFreq) {
String pat = createPatternForInterval(element.getInterval(), connector, baseFreq);
Pattern p = new Pattern(pat);
p.setInstrument(GeneralTaskSettings.getSettings().getInstrumentIndex());
p.setTempo(GeneralTaskSettings.getSettings().getTempo());
return p;
}
private static Pattern createSecondPattern(
IntervalComparatorElement element, String connector, double baseOfSecond) {
double higherFreq =
calculateHigherFreq(baseOfSecond, element.getInterval().getJfugueRep(), element.getRatio());
String pat = buildPattern(Note.getFrequencyForNote((int) baseOfSecond), higherFreq, connector);
Pattern p = new Pattern(pat);
p.setInstrument(GeneralTaskSettings.getSettings().getInstrumentIndex());
p.setTempo(GeneralTaskSettings.getSettings().getTempo());
return p;
}
/**
* Gets the lowest.
*
* @return the lowest
*/
private static int getLowest() {
GeneralTaskSettings ps = GeneralTaskSettings.getSettings();
return random
.ints(ps.getLowestPitchRange()[0], ps.getLowestPitchRange()[1])
.findAny()
.getAsInt();
}
/**
* Creates the patterns for chords.
*
* @param structures the structures
* @return the linked list
*/
public static LinkedList<Pattern> createPatternsForChords(LinkedList<CustomChord> structures) {
LinkedList<Pattern> patterns = new LinkedList<>();
String connector =
GeneralTaskSettings.getSettings().getPlaytype() == PlayType.Harmonically
? StringConstants.HARM_CONNECTOR
: StringConstants.MEL_CONNECTOR;
structures.forEach(
struct -> {
String pat = createChordPattern(generateMidis(struct), connector);
if (pat == null)
throw new PatternCreationException("Method createPatternForStructure failed");
Pattern p = new Pattern(pat);
p.setInstrument(GeneralTaskSettings.getSettings().getInstrumentIndex());
p.setTempo(GeneralTaskSettings.getSettings().getTempo());
patterns.add(p);
});
return patterns;
}
private static void createPattern(IntervalComparatorElement element) {
String connector =
GeneralTaskSettings.getSettings().getPlaytype() == PlayType.Harmonically
? StringConstants.HARM_CONNECTOR
: StringConstants.MEL_CONNECTOR;
double baseOfFirst = getLowest();
double baseOfSecond;
if (IntervalComparatorSettings.getSettings().getSamePitchValue()) baseOfSecond = baseOfFirst;
else baseOfSecond = getLowest();
Pattern first = createFirstPattern(element, connector, baseOfFirst);
Pattern second;
if (element.getFirstCompareToSecond() == 0)
second = createFirstPattern(element, connector, baseOfSecond);
else {
second = createSecondPattern(element, connector, baseOfSecond);
}
if (element.getFirstCompareToSecond() > 0) element.setPatterns(new Pattern[] {second, first});
else element.setPatterns(new Pattern[] {first, second});
}