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music21j-port

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A toolkit for computer-aided musicology, Javascript version

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/** * music21j -- Javascript reimplementation of Core music21p features. * music21/interval -- Interval routines * * Copyright (c) 2013-16, Michael Scott Cuthbert and cuthbertLab * Based on music21 (=music21p), Copyright (c) 2006-18, Michael Scott Cuthbert and cuthbertLab * */ import { common } from './common.js'; import { debug } from './debug.js'; import { note } from './note.js'; import { prebase } from './prebase.js'; import { pitch } from './pitch.js'; /** * interval module. See {@link music21.interval} for namespace * * @exports music21/interval */ /** * Interval related objects * * @namespace music21.interval * @memberof music21 * @requires music21/prebase * @requires music21/pitch */ export const interval = {}; /** * Interval Directions as an Object/map * * @memberof music21.interval * @example * if (music21.interval.Direction.OBLIQUE > * music21.interval.Direction.ASCENDING ) { * console.log(music21.interval.Direction.DESCENDING); * } * */ interval.Direction = { DESCENDING: -1, OBLIQUE: 0, ASCENDING: 1, }; /** * N.B. a dict in music21p -- the indexes here let Direction call them + 1 * * @memberof music21.interval * @example * console.log(music21.interval.IntervalDirectionTerms[music21l.interval.Direction.OBLIQUE + 1]) * // "Oblique" */ interval.IntervalDirectionTerms = ['Descending', 'Oblique', 'Ascending']; /** * ordinals for music terms... * * @memberof music21.interval * @example * for (var i = 1; // N.B. 0 = undefined * i < music21.interval.MusicOrdinals.length; * i++) { * console.log(i, music21.interval.MusicOrdinals[i]); * } * // 1, Unison * // 2, Second * // 3, Third * // ... * // 8, Octave * // ... * // 15, Double Octave */ interval.MusicOrdinals = [ undefined, 'Unison', 'Second', 'Third', 'Fourth', 'Fifth', 'Sixth', 'Seventh', 'Octave', 'Ninth', 'Tenth', 'Eleventh', 'Twelfth', 'Thirteenth', 'Fourteenth', 'Double Octave', ]; /** * Represents an interval such as unison, second, etc. * * Properties are demonstrated below. * * @class GenericInterval * @memberof music21.interval * @param {number} [gi=1] - generic interval (1 or higher, or -2 or lower) * @example * var gi = new music21.interval.GenericInterval(-14) * gi.value * // -14 * gi.directed * // -14 * gi.undirected * // 14 * gi.direction == music21.interval.Direction.DESCENDING * // true * gi.isSkip * // true * gi.isStep * // false * gi.isDiatonicStep * // false // augmented unisons are not diatonicSteps but can't tell yet.. * gi.isUnison * // false * gi.simpledDirected * // -7 * gi.simpleUndirected * // 7 * gi.undirectedOctaves * // 1 * gi.semiSimpleUndirected * // 7 -- semiSimple distinguishes between 8 and 1; that's all * gi.semiSimpleDirected * // 7 -- semiSimple distinguishes between 8 and 1; that's all * gi.perfectable * // false * gi.niceName * // "Fourteenth" * gi.directedNiceName * // "Descending Fourteenth" * gi.simpleNiceName * // "Seventh" * gi.staffDistance * // -13 * gi.mod7inversion * // 2 // sevenths invert to seconds * */ export class GenericInterval extends prebase.ProtoM21Object { constructor(gi) { super(); if (gi === undefined) { gi = 1; } this.value = gi; // todo: convertGeneric() from python this.directed = this.value; this.undirected = Math.abs(this.value); if (this.directed === 1) { this.direction = interval.Direction.OBLIQUE; } else if (this.directed < 0) { this.direction = interval.Direction.DESCENDING; } else if (this.directed > 1) { this.direction = interval.Direction.ASCENDING; } // else (raise exception) if (this.undirected > 2) { this.isSkip = true; } else { this.isSkip = false; } if (this.undirected === 2) { this.isDiatonicStep = true; } else { this.isDiatonicStep = false; } this.isStep = this.isDiatonicStep; if (this.undirected === 1) { this.isUnison = true; } else { this.isUnison = false; } let tempSteps = common.posMod(this.undirected, 7); let tempOctaves = parseInt(this.undirected / 7); if (tempSteps === 0) { tempOctaves -= 1; tempSteps = 7; } this.simpleUndirected = tempSteps; this.undirectedOctaves = tempOctaves; if (tempSteps === 1 && tempOctaves >= 1) { this.semiSimpleUndirected = 8; } else { this.semiSimpleUndirected = this.simpleUndirected; } if (this.direction === interval.Direction.DESCENDING) { this.octaves = -1 * tempOctaves; if (tempSteps !== 1) { this.simpleDirected = -1 * tempSteps; } else { this.simpleDirected = 1; // no descending unisons... } this.semiSimpleDirected = -1 * this.semiSimpleUndirected; } else { this.octaves = tempOctaves; this.simpleDirected = tempSteps; this.semiSimpleDirected = this.semiSimpleUndirected; } if ( this.simpleUndirected === 1 || this.simpleUndirected === 4 || this.simpleUndirected === 5 ) { this.perfectable = true; } else { this.perfectable = false; } if (this.undirected < interval.MusicOrdinals.length) { this.niceName = interval.MusicOrdinals[this.undirected]; } else { this.niceName = this.undirected.toString(); } this.simpleNiceName = interval.MusicOrdinals[this.simpleUndirected]; this.semiSimpleNiceName = interval.MusicOrdinals[this.semiSimpleUndirected]; if (Math.abs(this.directed) === 1) { this.staffDistance = 0; } else if (this.directed > 1) { this.staffDistance = this.directed - 1; } else if (this.directed < -1) { this.staffDistance = this.directed + 1; } // else: raise IntervalException("Non-integer, -1, or 0 not permitted as a diatonic interval") // 2 -> 7; 3 -> 6; 8 -> 1 etc. this.mod7inversion = 9 - this.semiSimpleUndirected; if (this.direction === interval.Direction.DESCENDING) { this.mod7 = this.mod7inversion; // see chord.semitonesFromChordStep for usage... } else { this.mod7 = this.simpleDirected; } } /** * Returns a new GenericInterval which is the mod7inversion; 3rds (and 10ths etc.) to 6ths, etc. * * @returns {music21.interval.GenericInterval} */ complement() { return new interval.GenericInterval(this.mod7inversion); } /** * Returns a new GenericInterval which has the opposite direction * (descending becomes ascending, etc.) * * @returns {music21.interval.GenericInterval} */ reverse() { if (this.undirected === 1) { return new interval.GenericInterval(1); } else { return new interval.GenericInterval( this.undirected * (-1 * this.direction) ); } } /** * Given a specifier, return a new DiatonicInterval with this generic. * * @param {string|number} specifier - a specifier such as "P", "m", "M", "A", "dd" etc. * @returns {music21.interval.DiatonicInterval} */ getDiatonic(specifier) { return new interval.DiatonicInterval(specifier, this); } /** * Transpose a pitch by this generic interval, maintaining accidentals * * @param {music21.pitch.Pitch} p * @returns {music21.pitch.Pitch} */ transposePitch(p) { const pitch2 = new pitch.Pitch(); pitch2.step = p.step; pitch2.octave = p.octave; const oldDiatonicNum = p.diatonicNoteNum; const distanceToMove = this.staffDistance; // if not reverse... const newDiatonicNumber = oldDiatonicNum + distanceToMove; const [newStep, newOctave] = interval.convertDiatonicNumberToStep( newDiatonicNumber ); pitch2.step = newStep; pitch2.octave = newOctave; if (p.accidental !== undefined) { pitch2.accidental = new pitch.Accidental(p.accidental.name); } return pitch2; } } interval.GenericInterval = GenericInterval; interval.IntervalSpecifiersEnum = { PERFECT: 1, MAJOR: 2, MINOR: 3, AUGMENTED: 4, DIMINISHED: 5, DBLAUG: 6, DBLDIM: 7, TRPAUG: 8, TRPDIM: 9, QUADAUG: 10, QUADDIM: 11, }; interval.IntervalNiceSpecNames = [ 'ERROR', 'Perfect', 'Major', 'Minor', 'Augmented', 'Diminished', 'Doubly-Augmented', 'Doubly-Diminished', 'Triply-Augmented', 'Triply-Diminished', 'Quadruply-Augmented', 'Quadruply-Diminished', ]; interval.IntervalPrefixSpecs = [ undefined, 'P', 'M', 'm', 'A', 'd', 'AA', 'dd', 'AAA', 'ddd', 'AAAA', 'dddd', ]; interval.IntervalOrderedPerfSpecs = [ 'dddd', 'ddd', 'dd', 'd', 'P', 'A', 'AA', 'AAA', 'AAAA', ]; interval.IntervalPerfSpecifiers = [ interval.IntervalSpecifiersEnum.QUADDMIN, interval.IntervalSpecifiersEnum.TRPDIM, interval.IntervalSpecifiersEnum.DBLDIM, interval.IntervalSpecifiersEnum.DIMINISHED, interval.IntervalSpecifiersEnum.PERFECT, interval.IntervalSpecifiersEnum.AUGMENTED, interval.IntervalSpecifiersEnum.DBLAUG, interval.IntervalSpecifiersEnum.TRPAUG, interval.IntervalSpecifiersEnum.QUADAUG, ]; interval.IntervalPerfOffset = 4; interval.IntervalOrderedImperfSpecs = [ 'dddd', 'ddd', 'dd', 'd', 'm', 'M', 'A', 'AA', 'AAA', 'AAAA', ]; interval.IntervalSpecifiers = [ interval.IntervalSpecifiersEnum.QUADDMIN, interval.IntervalSpecifiersEnum.TRPDIM, interval.IntervalSpecifiersEnum.DBLDIM, interval.IntervalSpecifiersEnum.DIMINISHED, interval.IntervalSpecifiersEnum.MINOR, interval.IntervalSpecifiersEnum.MAJOR, interval.IntervalSpecifiersEnum.AUGMENTED, interval.IntervalSpecifiersEnum.DBLAUG, interval.IntervalSpecifiersEnum.TRPAUG, interval.IntervalSpecifiersEnum.QUADAUG, ]; interval.IntervalMajOffset = 5; interval.IntervalSemitonesGeneric = { 1: 0, 2: 2, 3: 4, 4: 5, 5: 7, 6: 9, 7: 11, }; interval.IntervalAdjustPerfect = { P: 0, A: 1, AA: 2, AAA: 3, AAAA: 4, d: -1, dd: -2, ddd: -3, dddd: -4, }; // offset from Perfect interval.IntervalAdjustImperf = { M: 0, m: -1, A: 1, AA: 2, AAA: 3, AAAA: 4, d: -2, dd: -3, ddd: -4, dddd: -5, }; // offset from major /** * Represents a Diatonic interval. See example for usage. * * @class DiatonicInterval * @memberof music21.interval * @param {string|number|undefined} [specifier='P'] - a specifier such as "P", "d", "m", "M" etc. * @param {music21.interval.GenericInterval|number} [generic=1] - a `GenericInterval` * object or a number to be converted to one * @example * var di = new music21.interval.DiatonicInterval("M", 10); * di.generic.isClassOrSubclass('GenericInterval'); * // true * di.specifierAbbreviation; * // 'M' * di.name; * // 'M10' * di.direction == music21.interval.Direction.ASCENDING; * // true * di.niceName * // "Major Tenth" * * // See music21p for more possibilities. */ export class DiatonicInterval extends prebase.ProtoM21Object { constructor(specifier, generic) { super(); if (specifier === undefined) { specifier = 'P'; } if (generic === undefined) { generic = new interval.GenericInterval(1); } else if (typeof generic === 'number') { generic = new interval.GenericInterval(generic); } this.name = ''; if (typeof specifier === 'number') { this.specifier = specifier; } else { this.specifier = interval.IntervalPrefixSpecs.indexOf(specifier); // TODO: convertSpecifier(); } this.generic = generic; if ( generic.undirected !== 1 || specifier === interval.IntervalSpecifiersEnum.PERFECT ) { this.direction = generic.direction; } else if ( interval.IntervalPerfSpecifiers.indexOf(specifier) <= interval.IntervalPerfSpecifiers.indexOf( interval.IntervalSpecifiersEnum.DIMINISHED ) ) { // diminished unisons -- very controversial this.direction = interval.Direction.DESCENDING; } else { this.direction = interval.Direction.ASCENDING; } const diatonicDirectionNiceName = interval.IntervalDirectionTerms[this.direction + 1]; this.name = interval.IntervalPrefixSpecs[this.specifier] + generic.undirected.toString(); this.niceName = interval.IntervalNiceSpecNames[this.specifier] + ' ' + generic.niceName; this.simpleName = interval.IntervalPrefixSpecs[this.specifier] + generic.simpleUndirected.toString(); this.simpleNiceName = interval.IntervalNiceSpecNames[this.specifier] + ' ' + generic.simpleNiceName; this.semiSimpleName = interval.IntervalPrefixSpecs[this.specifier] + generic.semiSimpleUndirected.toString(); this.semiSimpleNiceName = interval.IntervalNiceSpecNames[this.specifier] + ' ' + generic.semiSimpleNiceName; this.directedName = interval.IntervalPrefixSpecs[this.specifier] + generic.directed.toString(); this.directedNiceName = diatonicDirectionNiceName + ' ' + this.niceName; this.directedSimpleName = interval.IntervalPrefixSpecs[this.specifier] + generic.simpleDirected.toString(); this.directedSimpleNiceName = diatonicDirectionNiceName + ' ' + this.simpleNiceName; this.directedSemiSimpleName = interval.IntervalPrefixSpecs[this.specifier] + generic.semiSimpleDirected.toString(); this.directedSemiSimpleNiceName = diatonicDirectionNiceName + ' ' + this.semiSimpleNameName; this.specificName = interval.IntervalNiceSpecNames[this.specifier]; this.perfectable = generic.perfectable; this.isDiatonicStep = generic.isDiatonicStep; this.isStep = generic.isStep; this.isSkip = generic.isSkip; // generate inversions if (this.perfectable) { this.orderedSpecifierIndex = interval.IntervalOrderedPerfSpecs.indexOf( interval.IntervalPrefixSpecs[this.specifier] ); this.invertedOrderedSpecIndex = interval.IntervalOrderedPerfSpecs.length - 1 - this.orderedSpecifierIndex; this.invertedOrderedSpecifier = interval.IntervalOrderedPerfSpecs[ this.invertedOrderedSpecIndex ]; } else { this.orderedSpecifierIndex = interval.IntervalOrderedImperfSpecs.indexOf( interval.IntervalPrefixSpecs[this.specifier] ); this.invertedOrderedSpecIndex = interval.IntervalOrderedImperfSpecs.length - 1 - this.orderedSpecifierIndex; this.invertedOrderedSpecifier = interval.IntervalOrderedImperfSpecs[ this.invertedOrderedSpecIndex ]; } this.mod7inversion = this.invertedOrderedSpecifier + generic.mod7inversion.toString(); /* ( if (this.direction == interval.Direction.DESCENDING) { this.mod7 = this.mod7inversion; } else { this.mod7 = this.simpleName; } */ // TODO: reverse() // TODO: property cents } /** * Returns a ChromaticInterval object of the same size. * * @returns {music21.interval.ChromaticInterval} */ getChromatic() { const octaveOffset = Math.floor( Math.abs(this.generic.staffDistance) / 7 ); const semitonesStart = interval.IntervalSemitonesGeneric[this.generic.simpleUndirected]; const specName = interval.IntervalPrefixSpecs[this.specifier]; let semitonesAdjust = 0; if (this.generic.perfectable) { semitonesAdjust = interval.IntervalAdjustPerfect[specName]; } else { semitonesAdjust = interval.IntervalAdjustImperf[specName]; } let semitones = octaveOffset * 12 + semitonesStart + semitonesAdjust; // direction should be same as original if (this.generic.direction === interval.Direction.DESCENDING) { semitones *= -1; } if (debug) { console.log( 'DiatonicInterval.getChromatic -- octaveOffset: ' + octaveOffset ); console.log( 'DiatonicInterval.getChromatic -- semitonesStart: ' + semitonesStart ); console.log( 'DiatonicInterval.getChromatic -- specName: ' + specName ); console.log( 'DiatonicInterval.getChromatic -- semitonesAdjust: ' + semitonesAdjust ); console.log( 'DiatonicInterval.getChromatic -- semitones: ' + semitones ); } return new interval.ChromaticInterval(semitones); } transposePitch(p) { const fullIntervalObject = new Interval(this, this.getChromatic()); return fullIntervalObject.transposePitch(p); } get specifierAbbreviation() { return interval.IntervalPrefixSpecs[this.specifier]; } get cents() { return this.getChromatic().cents; } } interval.DiatonicInterval = DiatonicInterval; /** * @class ChromaticInterval * @memberof music21.interval * @param {number} value - number of semitones (positive or negative) * @property {number} cents * @property {number} value * @property {number} undirected - absolute value of value * @property {number} mod12 - reduction to one octave * @property {number} intervalClass - reduction to within a tritone (11 = 1, etc.) * */ export class ChromaticInterval extends prebase.ProtoM21Object { constructor(value) { super(); this.semitones = value; this.cents = Math.round(value * 100.0, 5); this.directed = value; this.undirected = Math.abs(value); if (this.directed === 0) { this.direction = interval.Direction.OBLIQUE; } else if (this.directed === this.undirected) { this.direction = interval.Direction.ASCENDING; } else { this.direction = interval.Direction.DESCENDING; } this.mod12 = common.posMod(this.semitones, 12); this.simpleUndirected = common.posMod(this.undirected, 12); if (this.direction === interval.Direction.DESCENDING) { this.simpleDirected = -1 * this.simpleUndirected; } else { this.simpleDirected = this.simpleUndirected; } this.intervalClass = this.mod12; if (this.mod12 > 6) { this.intervalClass = 12 - this.mod12; } if (this.undirected === 1) { this.isChromaticStep = true; } else { this.isChromaticStep = false; } } reverse() { return new interval.ChromaticInterval( this.undirected * (-1 * this.direction) ); } // TODO: this.getDiatonic() /** * Transposes pitches but does not maintain accidentals, etc. * * @property {music21.pitch.Pitch} p - pitch to transpose * @returns {music21.pitch.Pitch} */ transposePitch(p) { let useImplicitOctave = false; if (p.octave === undefined) { // not yet implemented in m21j useImplicitOctave = true; } const pps = p.ps; const newPitch = new pitch.Pitch(); newPitch.ps = pps + this.semitones; if (useImplicitOctave) { newPitch.octave = undefined; } return newPitch; } } interval.ChromaticInterval = ChromaticInterval; interval.IntervalStepNames = ['C', 'D', 'E', 'F', 'G', 'A', 'B']; /** * @function music21.interval.convertDiatonicNumberToStep * @memberof music21.interval * @param {int} dn - diatonic number, where 29 = C4, C#4 etc. * @returns {Array} two element array of {string} stepName and {Int} octave */ interval.convertDiatonicNumberToStep = function convertDiatonicNumberToStep( dn ) { let stepNumber; let octave; if (dn === 0) { return ['B', -1]; } else if (dn > 0) { octave = Math.floor((dn - 1) / 7); stepNumber = dn - 1 - octave * 7; } else { // low notes... test, because js(floor) != py(int); octave = Math.floor(dn / 7); stepNumber = dn - 1 - (octave + 1) * 7; } const stepName = interval.IntervalStepNames[stepNumber]; return [stepName, octave]; }; /** * This is the main, powerful Interval class. * * Instantiate with either a string ("M3") or two {@link music21.pitch.Pitch} or two {@link music21.note.Note} * * See music21p instructions for usage. * * @class Interval * @memberof music21.interval * @example * var n1 = new music21.note.Note("C4"); * var n2 = new music21.note.Note("F#5"); * var iv = new music21.interval.Interval(n1, n2); * iv.isConsonant(); * // false * iv.semitones; * // 18 * iv.niceName * // "Augmented Eleventh" */ export class Interval extends prebase.ProtoM21Object { constructor(...restArgs) { super(); // todo: allow full range of ways of specifying as in m21p let noteStart; let noteEnd; if (restArgs.length === 1) { const arg0 = restArgs[0]; if (typeof arg0 === 'string') { // simple... const specifier = arg0.replace(/\d+/, '').replace(/-/, ''); let generic = parseInt(arg0.replace(/\D+/, '')); if (arg0.includes('-')) { generic *= -1; } const gI = new interval.GenericInterval(generic); const dI = new interval.DiatonicInterval(specifier, gI); this.diatonic = dI; this.chromatic = this.diatonic.getChromatic(); } else if (arg0.specifier !== undefined) { // assume diatonic... this.diatonic = arg0; this.chromatic = this.diatonic.getChromatic(); } else { console.error('cant parse string arguments to Interval yet'); } } else if (restArgs.length === 2) { if ( restArgs[0].pitch === undefined && restArgs[0].diatonicNoteNum === undefined ) { this.diatonic = restArgs[0]; this.chromatic = restArgs[1]; } else { let n1 = restArgs[0]; let n2 = restArgs[1]; if (n1.classes !== undefined && n1.classes.includes('Pitch')) { const p1 = n1; n1 = new note.Note(); n1.pitch = p1; } if (n2.classes !== undefined && n2.classes.includes('Pitch')) { const p2 = n2; n2 = new note.Note(); n2.pitch = p2; } const gInt = interval.notesToGeneric(n1, n2); const cInt = interval.notesToChromatic(n1, n2); this.diatonic = interval.intervalsToDiatonic(gInt, cInt); this.chromatic = cInt; noteStart = n1; noteEnd = n2; } } this._noteStart = noteStart; this._noteEnd = noteEnd; this.reinit(); } get complement() { return new interval.Interval(this.diatonic.mod7inversion); } reinit() { this.direction = this.chromatic.direction; this.specifier = this.diatonic.specifier; this.diatonicType = this.diatonic.specifier; // this.specificName = this.diatonic.specificName; this.generic = this.diatonic.generic; this.name = this.diatonic.name; this.niceName = this.diatonic.niceName; this.simpleName = this.diatonic.simpleName; this.simpleNiceName = this.diatonic.simpleNiceName; this.semiSimpleName = this.diatonic.semiSimpleName; this.semiSimpleNiceName = this.diatonic.semiSimpleNiceName; this.directedName = this.diatonic.directedName; this.directedNiceName = this.diatonic.directedNiceName; this.directedSimpleName = this.diatonic.directedSimpleName; this.directedSimpleNiceName = this.diatonic.directedSimpleNiceName; // other names... this.isDiatonicStep = this.diatonic.isDiatonicStep; this.isChromaticStep = this.chromatic.isChromaticStep; this.semitones = this.chromatic.semitones; this.intervalClass = this.chromatic.intervalClass; this.cents = this.chromatic.cents; this.isStep = this.isChromaticStep || this.isDiatonicStep; this.isSkip = this.diatonic.isSkip; } get noteStart() { return this._noteStart; } set noteStart(n) { this._noteStart = n; const p1 = n.pitch; const p2 = this.transposePitch(p1); this._noteEnd = n.clone(); this._noteEnd.pitch = p2; } get noteEnd() { return this._noteEnd; } set noteEnd(n) { this._noteEnd = n; const p1 = n.pitch; const p2 = this.transposePitch(p1, true); this._noteStart = n.clone(); this._noteStart.pitch = p2; } /** * @returns {Boolean} */ isConsonant() { const sn = this.simpleName; const consonantNames = ['P5', 'm3', 'M3', 'm6', 'M6', 'P1']; if (consonantNames.indexOf(sn) !== -1) { return true; } else { return false; } } // todo general: microtones /** * TODO: maxAccidental * * @param {music21.pitch.Pitch} p - pitch to transpose * @param {Object} config - configuration * @param {boolean} [config.reverse=false] -- reverse direction * @param {number} [config.maxAccidental=4] -- maximum accidentals to retain (unused) * @returns {music21.pitch.Pitch} */ transposePitch(p, { reverse=false, maxAccidental=4 }={}) { /* var useImplicitOctave = false; if (p.octave === undefined) { useImplicitOctave = true; } */ const pitch2 = this.diatonic.generic.transposePitch(p); pitch2.accidental = undefined; // step and octave are right now, but not necessarily accidental let halfStepsToFix; if (!reverse) { halfStepsToFix = this.chromatic.semitones - Math.floor(pitch2.ps - p.ps); } else { halfStepsToFix = (-1 * this.chromatic.semitones) - Math.floor(pitch2.ps - p.ps); } if (halfStepsToFix !== 0) { pitch2.accidental = new pitch.Accidental(halfStepsToFix); } if (debug) { console.log('Interval.transposePitch -- new step ' + pitch2.step); console.log( 'Interval.transposePitch -- new octave ' + pitch2.octave ); console.log( 'Interval.transposePitch -- fixing half steps for ' + halfStepsToFix ); } return pitch2; } } interval.Interval = Interval; interval.intervalFromGenericAndChromatic = function intervalFromGenericAndChromatic( gInt, cInt ) { if (typeof gInt === 'number') { gInt = new GenericInterval(gInt); } if (typeof cInt === 'number') { cInt = new ChromaticInterval(cInt); } const specifier = interval._getSpecifierFromGenericChromatic(gInt, cInt); const dInt = new DiatonicInterval(specifier, gInt); return new Interval(dInt, cInt); }; /** * Convert two notes or pitches to a GenericInterval; */ interval.notesToGeneric = function notesToGeneric(n1, n2) { let p1 = n1; if (n1.pitch !== undefined) { p1 = n1.pitch; } let p2 = n2; if (n2.pitch !== undefined) { p2 = n2.pitch; } const staffDist = p2.diatonicNoteNum - p1.diatonicNoteNum; const genDist = interval.convertStaffDistanceToInterval(staffDist); return new interval.GenericInterval(genDist); }; interval.convertStaffDistanceToInterval = function convertStaffDistanceToInterval( staffDist ) { if (staffDist === 0) { return 1; } else if (staffDist > 0) { return staffDist + 1; } else { return staffDist - 1; } }; interval.notesToChromatic = function notesToChromatic(n1, n2) { let p1 = n1; if (n1.pitch !== undefined) { p1 = n1.pitch; } let p2 = n2; if (n2.pitch !== undefined) { p2 = n2.pitch; } return new interval.ChromaticInterval(p2.ps - p1.ps); }; interval.intervalsToDiatonic = function intervalsToDiatonic(gInt, cInt) { const specifier = interval._getSpecifierFromGenericChromatic(gInt, cInt); // todo -- convert specifier... return new interval.DiatonicInterval(specifier, gInt); }; interval._getSpecifierFromGenericChromatic = function _getSpecifierFromGenericChromatic( gInt, cInt ) { const noteVals = [undefined, 0, 2, 4, 5, 7, 9, 11]; const normalSemis = noteVals[gInt.simpleUndirected] + 12 * gInt.undirectedOctaves; let theseSemis = 0; if ( gInt.direction !== cInt.direction && gInt.direction !== interval.Direction.OBLIQUE && cInt.direction !== interval.Direction.OBLIQUE ) { // intervals like d2 and dd2 etc. (the last test doesn't matter, since -1*0 === 0, but in theory it should be there) theseSemis = -1 * cInt.undirected; } else if (gInt.undirected === 1) { theseSemis = cInt.directed; // matters for unison } else { // all normal intervals theseSemis = cInt.undirected; } const semisRounded = Math.round(theseSemis); let specifier = ''; if (gInt.perfectable) { specifier = interval.IntervalPerfSpecifiers[ interval.IntervalPerfOffset + semisRounded - normalSemis ]; } else { specifier = interval.IntervalSpecifiers[ interval.IntervalMajOffset + semisRounded - normalSemis ]; } return specifier; };