270 lines
7 KiB
Text
270 lines
7 KiB
Text
CLASS::Scale
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summary::represents a musical scale
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related::Classes/Tuning
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categories::Math, Tuning
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DESCRIPTION::
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Scale supports arbitrary octave divisions and ratios, and (in conjunction with link::Classes/Tuning::) can generate pitch information in various ways, including as input to Patterns.
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code::
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s.boot;
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a = Scale.major;
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a.degrees; // [ 0, 2, 4, 5, 7, 9, 11 ]
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a.semitones; // [ 0, 2, 4, 5, 7, 9, 11 ]
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a.cents; // [ 0, 200, 300, 500, 700, 900, 1100 ]
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a.ratios; // [ 1, 1.1224620483089, 1.2599210498937, 1.3348398541685, etc. ]
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Pbind(\scale, a, \degree, Pseq((0..7) ++ (6..0) ++ [\rest], 1), \dur, 0.25).play;
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// use non-standard tuning
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a.tuning_(\just);
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a.degrees; // no change; degrees are independent of tuning
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a.semitones; // [ 0, 2.0391000173077, 3.1564128700055, 4.9804499913461, etc. ]
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a.ratios.collect(_.round(0.001)); // [ 1, 1.125, 1.2, 1.333, 1.5, 1.667, 1.875 ]
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Pbind(\scale, a, \degree, Pseq((0..7) ++ (6..0) ++ [\rest], 1), \dur, 0.25).play;
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::
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subsection::Creation
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strong::*major, *minor, *dorian, *chromatic, *todi, *hijaz, *partch_o1, etc.::
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Creates a scale from the library stored in the instance variable "all". Each scale comes with an appropriate default link::Classes/Tuning::, but alternate tunings can be specified at creation time:
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code::
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Scale.phrygian(\pythagorean)
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::
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If the tuning size does not match the scale's link::#-pitchesPerOctave::, a warning will be thrown, and the scale will use its default tuning.
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For a complete list of available scales, execute
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code::
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Scale.directory
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::
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CLASSMETHODS::
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method::all
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The scale repository, to which new scales can be added.
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code::
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Scale.all.put(\catastrophic, Scale([0, 0.01, 0.04, 11.2]));
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Scale.at(\catastrophic); // access the scale
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::
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method::at
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Access from the scale repository.
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code::
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Scale.all.put(\catastrophic, Scale([0, 0.01, 0.04, 11.2]));
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Scale.at(\ionian);
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Scale.newFromKey(\ionian); // access a copy of the scale for modification
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::
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method::choose
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Creates a random scale from the library, constrained by size and pitchsPerOctave if desired.
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code::
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Scale.choose; // could be anything
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Scale.choose(7); // will be a seven-note scale in its default tuning (could be any)
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Scale.choose(7, 12); // will be a seven-note scale in a twelve-tone tuning (usually ET!2)
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// Random seven-note scale in random twelve-tone tuning
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a = Scale.choose(7, 12).tuning_(Tuning.choose(12));
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a.tuning.name;
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::
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method::new
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Creates a Scale from scratch. strong::degrees:: should be an array of Integers or scale name. If strong::pitchesPerOctave:: is nil, will guess the most appropriate number based on degrees. strong::tuning:: can be an instance of link::Classes/Tuning:: or a symbol; if nil, will be equal temperament of pitchesPerOctave. Specify strong::descDegrees:: if the Scale should play differently when descending than when ascending; otherwise it should be nil.
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code::
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Scale.new(#[0, 1, 3, 6, 8, 10, 11], name: "My ET12"); // will be in ET12
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Scale.new(#[0, 3, 7, 10, 15, 19, 22], name: "My Quarter-Tone"); // will be in ET24
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Scale.new(#[0, 6, 17, 21, 30, 39], 43, \partch, "My Partch");
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::
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method::chromatic
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Returns a chromatic scale for a specific tuning.
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INSTANCEMETHODS::
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private::storeOn, storedKey, storeArgs, printOn
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method::tuning
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Sets or gets the tuning of the Scale.
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argument::inTuning
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can be either an instance of link::Classes/Tuning:: or a symbol matching a library tuning.
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method::semitones
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Returns a tuned array of semitone values. link::#-as::(Array) is equivalent; link::#-as::(List) returns it as a list, etc.
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method::cents
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Returns a tuned array of cent values.
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method::ratios
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Returns a tuned array of ratios.
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method::as
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Converting. For example code::as(Array)::, code::as(List):: and code::as(LocalBuf):: which is useful for server-side work.
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code::
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(
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r = {
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var scale = Scale.choose.postln;
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SinOsc.ar(
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(
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DegreeToKey.kr(
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scale.as(LocalBuf),
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MouseX.kr(0,15), // mouse indexes into scale
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scale.stepsPerOctave,
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1, // mul = 1
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60 // offset by 72 notes
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)
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+ LFNoise1.kr([3,3], 0.04) // add some low freq stereo detuning
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).midicps, // convert midi notes to hertz
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0,
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0.25
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)
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}.play;
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)
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r.free;
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::
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method::size
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Returns the length of the scale.
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code::
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Scale.ionian.size; // 7
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Scale.minorPentatonic.size; // 5
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Scale.ajam.size; // 7
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Scale.partch_o1.size; // 6
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::
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method::pitchesPerOctave
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Returns the size of the pitch class set from which the tuning is drawn.
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code::
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Scale.ionian.pitchesPerOctave; // 12
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Scale.minorPentatonic.pitchesPerOctave; // 12
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Scale.ajam.pitchesPerOctave; // 24--this is a quarter-tone scale
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Scale.partch_o1.pitchesPerOctave; // 43
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::
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method::stepsPerOctave
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Usually 12, but may be different if the current tuning has a stretched or compressed octave. Needed for degreeToKey.
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code::
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Scale.new((0..14), 15, tuning: \wcAlpha).stepsPerOctave; // ~ 11.7
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Scale.new(#[0, 3, 6, 9, 12], 13, tuning: \bp).stepsPerOctave; // ~ 19.02
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::
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but note:
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code::
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Scale.ajam.stepsPerOctave; // 12 -- quarter-tone scales have normal octaves
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::
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method::at, wrapAt
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These access the array generated by semitones.
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code::
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a = Scale.major;
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a.wrapAt(4); // 7
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a.wrapAt(5); // 9
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a.wrapAt(6); // 11
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a.wrapAt(7); // 0
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::
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method::degreeToFreq
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Returns a frequency based on current tuning and rootFreq argument.
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code::
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Scale.major.degreeToFreq(2, 60.midicps, 1); // 659.25511...
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Scale.major(\just).degreeToFreq(2, 60.midicps, 1); // 654.06391...
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::
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method::degreeToRatio
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Returns a ratio based on current tuning.
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code::
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Scale.major.degreeToRatio(2, 1).round(0.001); // 2.52
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Scale.major(\just).degreeToRatio(2, 1).round(0.001); // 2.5
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::
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EXAMPLES::
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code::
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(
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s.waitForBoot({
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a = Scale.ionian;
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p = Pbind(
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\degree, Pseq([0, 1, 2, 3, 4, 5, 6, 7, 6, 5, 4, 3, 2, 1, 0, \rest], inf),
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\scale, Pfunc({ a }, inf),
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\dur, 0.25
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);
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q = p.play;
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})
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)
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// change scale
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a = Scale.phrygian;
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// change tuning
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a.tuning_(\just);
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// can also set tuning at creation time
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a = Scale.ionian(\pythagorean);
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// if you use a tuning with the wrong number of pitches per octave,
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// you get a warning and the scale reverts to default tuning
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a.tuning_(\partch);
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// random scale
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(
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a = Scale.choose(7, 12);
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[a.name, a.tuning.name].postln;
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)
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(
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// or make up your own arbitrary scales and tunings
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a = Scale.new(
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#[0, 2, 4, 5, 7, 9, 10],
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12,
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Tuning.new([0, 0.8, 2.1, 3, 4.05, 5.2, 6, 6.75, 8.3, 9, 10.08, 11.5]),
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"Custom"
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);
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)
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// tuning has its own class
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t = Tuning.werckmeister;
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a = Scale.lydian(t);
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q.stop;
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// getting info
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a.name;
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a.degrees;
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a.semitones;
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a.ratios;
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a.tuning.name;
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a.tuning.semitones;
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a.tuning.ratios;
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::
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code::
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// for ascending/descending scales, use Pavaroh
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(
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Pbind(\note, Pavaroh(
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Pseq([0, 1, 2, 3, 4, 5, 6, 7, 6, 5, 4, 3, 2, 1, 0, \rest], 2),
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Scale.melodicMinor,
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Scale.melodicMinorDesc
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),
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\dur, 0.25
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).play;
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)
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code::
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// note that the root pitch is not stored in the Scale (which should arguably be called a Mode for that reason)
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// instead you supply it at play time:
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// key of A
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Pbind(
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\degree, Pseq((0..7), inf), // your melody goes here
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\scale, Scale.major, // your scale goes here
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\root, -3 // semitones relative to 60.midicps, so this is A
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).play;
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::
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