@stringsync/vexml/dist/cjs/rendering/curve.js

MusicXML to Vexflow

"use strict";
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    Object.defineProperty(o, "default", { enumerable: true, value: v });
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var __importStar = (this && this.__importStar) || (function () {
    var ownKeys = function(o) {
        ownKeys = Object.getOwnPropertyNames || function (o) {
            var ar = [];
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})();
Object.defineProperty(exports, "__esModule", { value: true });
exports.Curve = void 0;
const vexflow = __importStar(require("vexflow"));
const util = __importStar(require("../util"));
const spatial_1 = require("../spatial");
class Curve {
    config;
    log;
    document;
    key;
    registry;
    constructor(config, log, document, key, registry) {
        this.config = config;
        this.log = log;
        this.document = document;
        this.key = key;
        this.registry = registry;
    }
    render() {
        const curve = this.document.getCurve(this.key);
        const noteRenders = this.registry.get(curve.id).filter((r) => r.type === 'note');
        const curveNotes = this.getCurveNotes(noteRenders);
        // TODO: Figure out when the curve spans systems.
        const vexflowCurves = this.renderVexflowCurves(curveNotes);
        // Use getBoundingBox when it works.
        // See https://github.com/vexflow/vexflow/issues/252
        const rect = spatial_1.Rect.empty();
        return {
            type: 'curve',
            rect,
            key: this.key,
            vexflowElements: vexflowCurves,
        };
    }
    renderVexflowCurves(curveNotes) {
        const curve = this.document.getCurve(this.key);
        if (curveNotes.length < 2) {
            this.log.warn('Curve has less than 2 notes, rendering nothing.', { curveId: curve.id });
            return [];
        }
        const first = curveNotes.at(0);
        const last = curveNotes.at(-1);
        if (first.key.systemIndex !== last.key.systemIndex) {
            return this.renderVexflowCurvesAcrossSystems(curveNotes);
        }
        return [this.renderSingleVexflowCurve(curveNotes)];
    }
    renderSingleVexflowCurve(curveNotes) {
        const curve = this.document.getCurve(this.key);
        const firstCurveNote = curveNotes.at(0);
        const lastCurveNote = curveNotes.at(-1);
        if (firstCurveNote.vexflowNote instanceof vexflow.TabNote && lastCurveNote.vexflowNote instanceof vexflow.TabNote) {
            if (curve.articulation === 'slide') {
                return new vexflow.TabSlide({ firstNote: firstCurveNote.vexflowNote, lastNote: lastCurveNote.vexflowNote });
            }
            else {
                return new vexflow.TabTie({ firstNote: firstCurveNote.vexflowNote, lastNote: lastCurveNote.vexflowNote }, this.inferTabTieText(firstCurveNote.vexflowNote, lastCurveNote.vexflowNote));
            }
        }
        else {
            return new vexflow.Curve(firstCurveNote.vexflowNote, lastCurveNote.vexflowNote, this.getVexflowCurveNoteOptions(firstCurveNote, lastCurveNote));
        }
    }
    renderVexflowCurvesAcrossSystems(curveNotes) {
        const vexflowCurves = new Array();
        const systemIndexes = util.unique(curveNotes.map((note) => note.key.systemIndex));
        for (let index = 0; index < systemIndexes.length - 1; index++) {
            const systemIndex = systemIndexes[index];
            const isFirst = index === 0;
            const isLast = index === systemIndexes.length - 1;
            const systemCurveNotes = curveNotes.filter((note) => note.key.systemIndex === systemIndex);
            const firstCurveNote = systemCurveNotes.at(0);
            const lastCurveNote = systemCurveNotes.at(-1);
            if (isFirst) {
                const vexflowCurve = new vexflow.Curve(firstCurveNote.vexflowNote, undefined, this.getVexflowCurveNoteOptions(firstCurveNote, undefined));
                vexflowCurves.push(vexflowCurve);
            }
            else if (isLast) {
                const vexflowCurve = new vexflow.Curve(undefined, lastCurveNote.vexflowNote, this.getVexflowCurveNoteOptions(undefined, lastCurveNote));
                vexflowCurves.push(vexflowCurve);
            }
            else {
                // It's an exceptional case when a curve spans more than 2 systems. For now, we'll just render a curve that
                // starts and ends on the entire system.
                // TODO: Render the curve from the beginning of the stave to the end of the stave instead of using the
                // notes as anchor points.
                const vexflowCurve = new vexflow.Curve(firstCurveNote.vexflowNote, lastCurveNote.vexflowNote, this.getVexflowCurveNoteOptions(firstCurveNote, lastCurveNote));
                vexflowCurves.push(vexflowCurve);
            }
        }
        return vexflowCurves;
    }
    getVexflowCurveNoteOptions(first, last) {
        if (!first && !last) {
            return {};
        }
        if (first && !last) {
            return { position: vexflow.CurvePosition.NEAR_HEAD };
        }
        if (!first && last) {
            return { positionEnd: vexflow.CurvePosition.NEAR_HEAD };
        }
        util.assertDefined(first);
        util.assertDefined(last);
        const prescribedPlacement = this.document.getCurve(this.key).placement;
        const entry1 = this.document.getVoiceEntry(first.key);
        const entry2 = this.document.getVoiceEntry(last.key);
        const isTie = entry1.type === 'note' &&
            entry2.type === 'note' &&
            entry1.pitch.step === entry2.pitch.step &&
            entry1.pitch.octave === entry2.pitch.octave;
        if (isTie && prescribedPlacement === 'auto') {
            return {
                position: vexflow.CurvePosition.NEAR_HEAD,
                positionEnd: vexflow.CurvePosition.NEAR_HEAD,
                openingDirection: 'auto',
            };
        }
        const placement = this.getCurvePlacement(prescribedPlacement, first);
        const position = this.getVexflowCurvePosition(placement, first);
        const positionEnd = this.getVexflowCurvePosition(placement, last);
        const openingDirection = this.getOpeningDirection(placement);
        return { position, positionEnd, openingDirection };
    }
    inferTabTieText(firstTabNote, lastTabNote) {
        const firstPositions = firstTabNote.getPositions();
        const lastPositions = lastTabNote.getPositions();
        if (firstPositions.length !== 1 || lastPositions.length !== 1) {
            return '';
        }
        const firstFret = parseInt(firstPositions[0].fret.toString(), 10);
        const lastFret = parseInt(lastPositions[0].fret.toString(), 10);
        if (Number.isNaN(firstFret) || Number.isNaN(lastFret)) {
            return '';
        }
        if (firstFret < lastFret) {
            return 'H';
        }
        else if (firstFret > lastFret) {
            return 'P';
        }
        else {
            return '';
        }
    }
    getOpeningDirection(placement) {
        const opening = this.document.getCurve(this.key).opening;
        if (opening !== 'auto') {
            return opening;
        }
        if (placement === 'above') {
            return 'down';
        }
        if (placement === 'below') {
            return 'up';
        }
        return 'auto';
    }
    getVexflowCurvePosition(placement, curveNote) {
        if (placement === 'above' && curveNote.stem === 'up') {
            return vexflow.CurvePosition.NEAR_TOP;
        }
        if (placement === 'above' && curveNote.stem === 'down') {
            return vexflow.CurvePosition.NEAR_HEAD;
        }
        if (placement === 'below' && curveNote.stem === 'up') {
            return vexflow.CurvePosition.NEAR_HEAD;
        }
        if (placement === 'below' && curveNote.stem === 'down') {
            return vexflow.CurvePosition.NEAR_TOP;
        }
        if (curveNote.stem === 'none') {
            return vexflow.CurvePosition.NEAR_HEAD;
        }
        return undefined;
    }
    getCurvePlacement(prescribedPlacement, first) {
        if (prescribedPlacement !== 'auto') {
            return prescribedPlacement;
        }
        // Transform the 'auto' to a concrete placement.
        // If the first note has a stem, we use that to determine the placement.
        switch (first.stem) {
            case 'up':
                return 'above';
            case 'down':
                return 'below';
        }
        // Otherwise, we use positioning on the stave to determine placement.
        const lineCount = this.document.getStave(first.key).signature.lineCount;
        if (first.line > lineCount / 2) {
            // The note is above the halfway point on the stave.
            return 'above';
        }
        else {
            // The note is at or below the halfway point on the stave.
            return 'below';
        }
    }
    getCurveNotes(noteRenders) {
        const curveNotes = new Array();
        for (const noteRender of noteRenders) {
            curveNotes.push({
                stem: this.getStem(noteRender.vexflowNote),
                rect: noteRender.rect,
                key: noteRender.key,
                line: noteRender.vexflowNote.getLineNumber(),
                vexflowNote: noteRender.vexflowNote,
            });
            const vexflowGraceNotes = noteRender.vexflowGraceNoteGroup?.getGraceNotes() ?? [];
            for (const graceCurve of noteRender.graceCurves) {
                const vexflowGraceNote = vexflowGraceNotes.at(graceCurve.graceEntryIndex);
                if (!vexflowGraceNote) {
                    this.log.warn('grace note not found for curve, continuing', { curveId: this.key.curveIndex });
                    continue;
                }
                if (vexflowGraceNote instanceof vexflow.GraceNote || vexflowGraceNote instanceof vexflow.GraceTabNote) {
                    curveNotes.push({
                        stem: this.getStem(vexflowGraceNote),
                        rect: noteRender.rect,
                        key: noteRender.key,
                        line: vexflowGraceNote.getLineNumber(),
                        vexflowNote: vexflowGraceNote,
                    });
                }
            }
        }
        return curveNotes;
    }
    /**
     * Returns the actual stem direction of the note, including the concrete resulting stem when using auto-stem.
     */
    getStem(vexflowStaveNote) {
        // Calling getStemDirection will throw if there is no stem.
        // https://github.com/vexflow/vexflow/blob/d602715b1c05e21d3498f78b8b5904cb47ad3795/src/stemmablenote.ts#L123
        try {
            const stem = vexflowStaveNote.getStemDirection();
            switch (stem) {
                case 1:
                    return 'up';
                case -1:
                    return 'down';
                default:
                    return 'none';
            }
            // eslint-disable-next-line @typescript-eslint/no-unused-vars
        }
        catch (e) {
            return 'none';
        }
    }
}
exports.Curve = Curve;