import Vex = require("vexflow"); import {ClefEnum} from "../../VoiceData/Instructions/ClefInstruction"; import {ClefInstruction} from "../../VoiceData/Instructions/ClefInstruction"; import {Pitch} from "../../../Common/DataObjects/Pitch"; import {Fraction} from "../../../Common/DataObjects/Fraction"; import {RhythmInstruction} from "../../VoiceData/Instructions/RhythmInstruction"; import {RhythmSymbolEnum} from "../../VoiceData/Instructions/RhythmInstruction"; import {KeyInstruction} from "../../VoiceData/Instructions/KeyInstruction"; import {KeyEnum} from "../../VoiceData/Instructions/KeyInstruction"; import {AccidentalEnum} from "../../../Common/DataObjects/Pitch"; import {NoteEnum} from "../../../Common/DataObjects/Pitch"; import {VexFlowGraphicalNote} from "./VexFlowGraphicalNote"; import {GraphicalNote} from "../GraphicalNote"; import {SystemLinesEnum} from "../SystemLinesEnum"; import {FontStyles} from "../../../Common/Enums/FontStyles"; import {Fonts} from "../../../Common/Enums/Fonts"; import {OutlineAndFillStyleEnum, OUTLINE_AND_FILL_STYLE_DICT} from "../DrawingEnums"; import {Logging} from "../../../Common/Logging"; import { ArticulationEnum } from "../../VoiceData/VoiceEntry"; /** * Helper class, which contains static methods which actually convert * from OSMD objects to VexFlow objects. */ export class VexFlowConverter { /** * Mapping from numbers of alterations on the key signature to major keys * @type {[alterationsNo: number]: string; } */ private static majorMap: {[_: number]: string; } = { "-1": "F", "-2": "Bb", "-3": "Eb", "-4": "Ab", "-5": "Db", "-6": "Gb", "-7": "Cb", "-8": "Fb", "0": "C", "1": "G", "2": "D", "3": "A", "4": "E", "5": "B", "6": "F#", "7": "C#", "8": "G#" }; /** * Mapping from numbers of alterations on the key signature to minor keys * @type {[alterationsNo: number]: string; } */ private static minorMap: {[_: number]: string; } = { "-1": "D", "-2": "G", "-3": "C", "-4": "F", "-5": "Bb", "-6": "Eb", "-7": "Ab", "-8": "Db", "0": "A", "1": "E", "2": "B", "3": "F#", "4": "C#", "5": "G#", "6": "D#", "7": "A#", "8": "E#" }; /** * Convert a fraction to a string which represents a duration in VexFlow * @param fraction a fraction representing the duration of a note * @returns {string} */ public static duration(fraction: Fraction, isTuplet: boolean): string { const dur: number = fraction.RealValue; if (dur >= 1) { return "w"; } else if (dur < 1 && dur >= 0.5) { // change to the next higher straight note to get the correct note display type if (isTuplet) { return "w"; } return "h"; } else if (dur < 0.5 && dur >= 0.25) { // change to the next higher straight note to get the correct note display type if (isTuplet && dur > 0.25) { return "h"; } return "q"; } else if (dur < 0.25 && dur >= 0.125) { // change to the next higher straight note to get the correct note display type if (isTuplet && dur > 0.125) { return "q"; } return "8"; } else if (dur < 0.125 && dur >= 0.0625) { // change to the next higher straight note to get the correct note display type if (isTuplet && dur > 0.0625) { return "8"; } return "16"; } else if (dur < 0.0625 && dur >= 0.03125) { // change to the next higher straight note to get the correct note display type if (isTuplet && dur > 0.03125) { return "16"; } return "32"; } else if (dur < 0.03125 && dur >= 0.015625) { // change to the next higher straight note to get the correct note display type if (isTuplet && dur > 0.015625) { return "32"; } return "64"; } if (isTuplet) { return "64"; } return "128"; } /** * Takes a Pitch and returns a string representing a VexFlow pitch, * which has the form "b/4", plus its alteration (accidental) * @param pitch * @returns {string[]} */ public static pitch(pitch: Pitch, clef: ClefInstruction): [string, string, ClefInstruction] { const fund: string = NoteEnum[pitch.FundamentalNote].toLowerCase(); // The octave seems to need a shift of three FIXME? const octave: number = pitch.Octave - clef.OctaveOffset + 3; const acc: string = VexFlowConverter.accidental(pitch.Accidental); return [fund + "n/" + octave, acc, clef]; } /** * Converts AccidentalEnum to a string which represents an accidental in VexFlow * @param accidental * @returns {string} */ public static accidental(accidental: AccidentalEnum): string { let acc: string; switch (accidental) { case AccidentalEnum.NONE: acc = "n"; break; case AccidentalEnum.FLAT: acc = "b"; break; case AccidentalEnum.SHARP: acc = "#"; break; case AccidentalEnum.DOUBLESHARP: acc = "##"; break; case AccidentalEnum.DOUBLEFLAT: acc = "bb"; break; default: } return acc; } /** * Convert a set of GraphicalNotes to a VexFlow StaveNote * @param notes form a chord on the staff * @returns {Vex.Flow.StaveNote} */ public static StaveNote(notes: GraphicalNote[]): Vex.Flow.StaveNote { let keys: string[] = []; const accidentals: string[] = []; const frac: Fraction = notes[0].graphicalNoteLength; const isTuplet: boolean = notes[0].sourceNote.NoteTuplet !== undefined; const articulations: ArticulationEnum[] = notes[0].sourceNote.ParentVoiceEntry.Articulations; let duration: string = VexFlowConverter.duration(frac, isTuplet); let vfClefType: string = undefined; let numDots: number = 0; for (const note of notes) { const pitch: [string, string, ClefInstruction] = (note as VexFlowGraphicalNote).vfpitch; if (pitch === undefined) { // if it is a rest: keys = ["b/4"]; duration += "r"; break; } keys.push(pitch[0]); accidentals.push(pitch[1]); if (!vfClefType) { const vfClef: {type: string, annotation: string} = VexFlowConverter.Clef(pitch[2]); vfClefType = vfClef.type; } if (numDots < note.numberOfDots) { numDots = note.numberOfDots; } } for (let i: number = 0, len: number = numDots; i < len; ++i) { duration += "d"; } const vfnote: Vex.Flow.StaveNote = new Vex.Flow.StaveNote({ auto_stem: true, clef: vfClefType, duration: duration, keys: keys, }); const stemDirection: number = vfnote.getStemDirection(); for (let i: number = 0, len: number = notes.length; i < len; i += 1) { (notes[i] as VexFlowGraphicalNote).setIndex(vfnote, i); if (accidentals[i]) { vfnote.addAccidental(i, new Vex.Flow.Accidental(accidentals[i])); } } for (let i: number = 0, len: number = numDots; i < len; ++i) { vfnote.addDotToAll(); } // Articulations: let vfArtPosition: number = Vex.Flow.Modifier.Position.ABOVE; if (stemDirection === Vex.Flow.Stem.UP) { vfArtPosition = Vex.Flow.Modifier.Position.BELOW; } for (const articulation of articulations) { // tslint:disable-next-line:switch-default let vfArt: Vex.Flow.Articulation = undefined; switch (articulation) { case ArticulationEnum.accent: { vfArt = new Vex.Flow.Articulation("a>"); break; } case ArticulationEnum.downbow: { vfArt = new Vex.Flow.Articulation("am"); break; } case ArticulationEnum.fermata: { vfArt = new Vex.Flow.Articulation("a@a"); vfArtPosition = Vex.Flow.Modifier.Position.ABOVE; break; } case ArticulationEnum.invertedfermata: { vfArt = new Vex.Flow.Articulation("a@u"); vfArtPosition = Vex.Flow.Modifier.Position.BELOW; break; } case ArticulationEnum.lefthandpizzicato: { vfArt = new Vex.Flow.Articulation("a+"); break; } case ArticulationEnum.snappizzicato: { vfArt = new Vex.Flow.Articulation("ao"); break; } case ArticulationEnum.staccatissimo: { vfArt = new Vex.Flow.Articulation("av"); break; } case ArticulationEnum.staccato: { vfArt = new Vex.Flow.Articulation("a."); break; } case ArticulationEnum.tenuto: { vfArt = new Vex.Flow.Articulation("a-"); break; } case ArticulationEnum.upbow: { vfArt = new Vex.Flow.Articulation("a|"); break; } case ArticulationEnum.strongaccent: { vfArt = new Vex.Flow.Articulation("a^"); break; } default: { break; } } if (vfArt !== undefined) { vfArt.setPosition(vfArtPosition); vfnote.addModifier(0, vfArt); } } return vfnote; } /** * Convert a ClefInstruction to a string represention of a clef type in VexFlow. * * @param clef The OSMD object to be converted representing the clef * @param size The VexFlow size to be used. Can be `default` or `small`. As soon as * #118 is done, this parameter will be dispensable. * @returns A string representation of a VexFlow clef * @see https://github.com/0xfe/vexflow/blob/master/src/clef.js * @see https://github.com/0xfe/vexflow/blob/master/tests/clef_tests.js */ public static Clef(clef: ClefInstruction, size: string = "default"): { type: string, size: string, annotation: string } { let type: string; let annotation: string; // Make sure size is either "default" or "small" if (size !== "default" && size !== "small") { Logging.warn(`Invalid VexFlow clef size "${size}" specified. Using "default".`); size = "default"; } /* * For all of the following conversions, OSMD uses line numbers 1-5 starting from * the bottom, while VexFlow uses 0-4 starting from the top. */ switch (clef.ClefType) { // G Clef case ClefEnum.G: switch (clef.Line) { case 1: type = "french"; // VexFlow line 4 break; case 2: type = "treble"; // VexFlow line 3 break; default: type = "treble"; Logging.error(`Clef ${ClefEnum[clef.ClefType]} on line ${clef.Line} not supported by VexFlow. Using default value "${type}".`); } break; // F Clef case ClefEnum.F: switch (clef.Line) { case 4: type = "bass"; // VexFlow line 1 break; case 3: type = "baritone-f"; // VexFlow line 2 break; case 5: type = "subbass"; // VexFlow line 0 break; default: type = "bass"; Logging.error(`Clef ${ClefEnum[clef.ClefType]} on line ${clef.Line} not supported by VexFlow. Using default value "${type}".`); } break; // C Clef case ClefEnum.C: switch (clef.Line) { case 3: type = "alto"; // VexFlow line 2 break; case 4: type = "tenor"; // VexFlow line 1 break; case 1: type = "soprano"; // VexFlow line 4 break; case 2: type = "mezzo-soprano"; // VexFlow line 3 break; default: type = "alto"; Logging.error(`Clef ${ClefEnum[clef.ClefType]} on line ${clef.Line} not supported by VexFlow. Using default value "${type}".`); } break; // Percussion Clef case ClefEnum.percussion: type = "percussion"; break; // TAB Clef case ClefEnum.TAB: type = "tab"; break; default: } switch (clef.OctaveOffset) { case 1: annotation = "8va"; break; case -1: annotation = "8vb"; break; default: } return { type, size, annotation }; } /** * Convert a RhythmInstruction to a VexFlow TimeSignature object * @param rhythm * @returns {Vex.Flow.TimeSignature} * @constructor */ public static TimeSignature(rhythm: RhythmInstruction): Vex.Flow.TimeSignature { let timeSpec: string; switch (rhythm.SymbolEnum) { case RhythmSymbolEnum.NONE: timeSpec = rhythm.Rhythm.Numerator + "/" + rhythm.Rhythm.Denominator; break; case RhythmSymbolEnum.COMMON: timeSpec = "C"; break; case RhythmSymbolEnum.CUT: timeSpec = "C|"; break; default: } return new Vex.Flow.TimeSignature(timeSpec); } /** * Convert a KeyInstruction to a string representing in VexFlow a key * @param key * @returns {string} */ public static keySignature(key: KeyInstruction): string { if (key === undefined) { return undefined; } let ret: string; switch (key.Mode) { case KeyEnum.minor: ret = VexFlowConverter.minorMap[key.Key] + "m"; break; case KeyEnum.major: ret = VexFlowConverter.majorMap[key.Key]; break; case KeyEnum.none: default: ret = "C"; } return ret; } /** * Converts a lineType to a VexFlow StaveConnector type * @param lineType * @returns {any} */ public static line(lineType: SystemLinesEnum): any { switch (lineType) { case SystemLinesEnum.SingleThin: return Vex.Flow.StaveConnector.type.SINGLE; case SystemLinesEnum.DoubleThin: return Vex.Flow.StaveConnector.type.DOUBLE; case SystemLinesEnum.ThinBold: return Vex.Flow.StaveConnector.type.BOLD_DOUBLE_RIGHT; case SystemLinesEnum.BoldThinDots: return Vex.Flow.StaveConnector.type.BOLD_DOUBLE_LEFT; case SystemLinesEnum.DotsThinBold: return Vex.Flow.StaveConnector.type.BOLD_DOUBLE_RIGHT; case SystemLinesEnum.DotsBoldBoldDots: return Vex.Flow.StaveConnector.type.BOLD_DOUBLE_RIGHT; case SystemLinesEnum.None: return Vex.Flow.StaveConnector.type.NONE; default: } } /** * Construct a string which can be used in a CSS font property * @param fontSize * @param fontStyle * @param font * @returns {string} */ public static font(fontSize: number, fontStyle: FontStyles = FontStyles.Regular, font: Fonts = Fonts.TimesNewRoman): string { let style: string = "normal"; let weight: string = "normal"; const family: string = "'Times New Roman'"; switch (fontStyle) { case FontStyles.Bold: weight = "bold"; break; case FontStyles.Italic: style = "italic"; break; case FontStyles.BoldItalic: style = "italic"; weight = "bold"; break; case FontStyles.Underlined: // TODO break; default: break; } switch (font) { case Fonts.Kokila: // TODO Not Supported break; default: } return style + " " + weight + " " + Math.floor(fontSize) + "px " + family; } /** * Converts the style into a string that VexFlow RenderContext can understand * as the weight of the font */ public static fontStyle(style: FontStyles): string { switch (style) { case FontStyles.Bold: return "bold"; case FontStyles.Italic: return "italic"; case FontStyles.BoldItalic: return "italic bold"; default: return "normal"; } } /** * Convert OutlineAndFillStyle to CSS properties * @param styleId * @returns {string} */ public static style(styleId: OutlineAndFillStyleEnum): string { const ret: string = OUTLINE_AND_FILL_STYLE_DICT.getValue(styleId); return ret; } } export enum VexFlowRepetitionType { NONE = 1, // no coda or segno CODA_LEFT = 2, // coda at beginning of stave CODA_RIGHT = 3, // coda at end of stave SEGNO_LEFT = 4, // segno at beginning of stave SEGNO_RIGHT = 5, // segno at end of stave DC = 6, // D.C. at end of stave DC_AL_CODA = 7, // D.C. al coda at end of stave DC_AL_FINE = 8, // D.C. al Fine end of stave DS = 9, // D.S. at end of stave DS_AL_CODA = 10, // D.S. al coda at end of stave DS_AL_FINE = 11, // D.S. al Fine at end of stave FINE = 12, // Fine at end of stave } export enum VexFlowBarlineType { SINGLE = 1, DOUBLE = 2, END = 3, REPEAT_BEGIN = 4, REPEAT_END = 5, REPEAT_BOTH = 6, NONE = 7, }