/** * @license Highstock JS v11.4.1 (2024-04-04) * * Indicator series type for Highcharts Stock * * (c) 2010-2024 Daniel Studencki * * License: www.highcharts.com/license */ (function (factory) { if (typeof module === 'object' && module.exports) { factory['default'] = factory; module.exports = factory; } else if (typeof define === 'function' && define.amd) { define('highcharts/indicators/acceleration-bands', ['highcharts', 'highcharts/modules/stock'], function (Highcharts) { factory(Highcharts); factory.Highcharts = Highcharts; return factory; }); } else { factory(typeof Highcharts !== 'undefined' ? Highcharts : undefined); } }(function (Highcharts) { 'use strict'; var _modules = Highcharts ? Highcharts._modules : {}; function _registerModule(obj, path, args, fn) { if (!obj.hasOwnProperty(path)) { obj[path] = fn.apply(null, args); if (typeof CustomEvent === 'function') { window.dispatchEvent(new CustomEvent( 'HighchartsModuleLoaded', { detail: { path: path, module: obj[path] } } )); } } } _registerModule(_modules, 'Stock/Indicators/MultipleLinesComposition.js', [_modules['Core/Series/SeriesRegistry.js'], _modules['Core/Utilities.js']], function (SeriesRegistry, U) { /** * * (c) 2010-2024 Wojciech Chmiel * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { sma: { prototype: smaProto } } = SeriesRegistry.seriesTypes; const { defined, error, merge } = U; /* * * * Composition * * */ var MultipleLinesComposition; (function (MultipleLinesComposition) { /* * * * Declarations * * */ /* * * * Constants * * */ /** * Additional lines DOCS names. Elements of linesApiNames array should * be consistent with DOCS line names defined in your implementation. * Notice that linesApiNames should have decreased amount of elements * relative to pointArrayMap (without pointValKey). * * @private * @type {Array} */ const linesApiNames = ['bottomLine']; /** * Lines ids. Required to plot appropriate amount of lines. * Notice that pointArrayMap should have more elements than * linesApiNames, because it contains main line and additional lines ids. * Also it should be consistent with amount of lines calculated in * getValues method from your implementation. * * @private * @type {Array} */ const pointArrayMap = ['top', 'bottom']; /** * Names of the lines, between which the area should be plotted. * If the drawing of the area should * be disabled for some indicators, leave this option as an empty array. * Names should be the same as the names in the pointArrayMap. * * @private * @type {Array} */ const areaLinesNames = ['top']; /** * Main line id. * * @private * @type {string} */ const pointValKey = 'top'; /* * * * Functions * * */ /** * Composition useful for all indicators that have more than one line. * Compose it with your implementation where you will provide the * `getValues` method appropriate to your indicator and `pointArrayMap`, * `pointValKey`, `linesApiNames` properties. Notice that `pointArrayMap` * should be consistent with the amount of lines calculated in the * `getValues` method. * * @private */ function compose(IndicatorClass) { const proto = IndicatorClass.prototype; proto.linesApiNames = (proto.linesApiNames || linesApiNames.slice()); proto.pointArrayMap = (proto.pointArrayMap || pointArrayMap.slice()); proto.pointValKey = (proto.pointValKey || pointValKey); proto.areaLinesNames = (proto.areaLinesNames || areaLinesNames.slice()); proto.drawGraph = indicatorDrawGraph; proto.getGraphPath = indicatorGetGraphPath; proto.toYData = indicatorToYData; proto.translate = indicatorTranslate; return IndicatorClass; } MultipleLinesComposition.compose = compose; /** * Generate the API name of the line * * @private * @param propertyName name of the line */ function getLineName(propertyName) { return ('plot' + propertyName.charAt(0).toUpperCase() + propertyName.slice(1)); } /** * Create translatedLines Collection based on pointArrayMap. * * @private * @param {string} [excludedValue] * Main line id * @return {Array} * Returns translated lines names without excluded value. */ function getTranslatedLinesNames(indicator, excludedValue) { const translatedLines = []; (indicator.pointArrayMap || []).forEach((propertyName) => { if (propertyName !== excludedValue) { translatedLines.push(getLineName(propertyName)); } }); return translatedLines; } /** * Draw main and additional lines. * * @private */ function indicatorDrawGraph() { const indicator = this, pointValKey = indicator.pointValKey, linesApiNames = indicator.linesApiNames, areaLinesNames = indicator.areaLinesNames, mainLinePoints = indicator.points, mainLineOptions = indicator.options, mainLinePath = indicator.graph, gappedExtend = { options: { gapSize: mainLineOptions.gapSize } }, // Additional lines point place holders: secondaryLines = [], secondaryLinesNames = getTranslatedLinesNames(indicator, pointValKey); let pointsLength = mainLinePoints.length, point; // Generate points for additional lines: secondaryLinesNames.forEach((plotLine, index) => { // Create additional lines point place holders secondaryLines[index] = []; while (pointsLength--) { point = mainLinePoints[pointsLength]; secondaryLines[index].push({ x: point.x, plotX: point.plotX, plotY: point[plotLine], isNull: !defined(point[plotLine]) }); } pointsLength = mainLinePoints.length; }); // Modify options and generate area fill: if (indicator.userOptions.fillColor && areaLinesNames.length) { const index = secondaryLinesNames.indexOf(getLineName(areaLinesNames[0])), secondLinePoints = secondaryLines[index], firstLinePoints = areaLinesNames.length === 1 ? mainLinePoints : secondaryLines[secondaryLinesNames.indexOf(getLineName(areaLinesNames[1]))], originalColor = indicator.color; indicator.points = firstLinePoints; indicator.nextPoints = secondLinePoints; indicator.color = indicator.userOptions.fillColor; indicator.options = merge(mainLinePoints, gappedExtend); indicator.graph = indicator.area; indicator.fillGraph = true; smaProto.drawGraph.call(indicator); indicator.area = indicator.graph; // Clean temporary properties: delete indicator.nextPoints; delete indicator.fillGraph; indicator.color = originalColor; } // Modify options and generate additional lines: linesApiNames.forEach((lineName, i) => { if (secondaryLines[i]) { indicator.points = secondaryLines[i]; if (mainLineOptions[lineName]) { indicator.options = merge(mainLineOptions[lineName].styles, gappedExtend); } else { error('Error: "There is no ' + lineName + ' in DOCS options declared. Check if linesApiNames' + ' are consistent with your DOCS line names."'); } indicator.graph = indicator['graph' + lineName]; smaProto.drawGraph.call(indicator); // Now save lines: indicator['graph' + lineName] = indicator.graph; } else { error('Error: "' + lineName + ' doesn\'t have equivalent ' + 'in pointArrayMap. To many elements in linesApiNames ' + 'relative to pointArrayMap."'); } }); // Restore options and draw a main line: indicator.points = mainLinePoints; indicator.options = mainLineOptions; indicator.graph = mainLinePath; smaProto.drawGraph.call(indicator); } /** * Create the path based on points provided as argument. * If indicator.nextPoints option is defined, create the areaFill. * * @private * @param points Points on which the path should be created */ function indicatorGetGraphPath(points) { let areaPath, path = [], higherAreaPath = []; points = points || this.points; // Render Span if (this.fillGraph && this.nextPoints) { areaPath = smaProto.getGraphPath.call(this, this.nextPoints); if (areaPath && areaPath.length) { areaPath[0][0] = 'L'; path = smaProto.getGraphPath.call(this, points); higherAreaPath = areaPath.slice(0, path.length); // Reverse points, so that the areaFill will start from the end: for (let i = higherAreaPath.length - 1; i >= 0; i--) { path.push(higherAreaPath[i]); } } } else { path = smaProto.getGraphPath.apply(this, arguments); } return path; } /** * @private * @param {Highcharts.Point} point * Indicator point * @return {Array} * Returns point Y value for all lines */ function indicatorToYData(point) { const pointColl = []; (this.pointArrayMap || []).forEach((propertyName) => { pointColl.push(point[propertyName]); }); return pointColl; } /** * Add lines plot pixel values. * * @private */ function indicatorTranslate() { const pointArrayMap = this.pointArrayMap; let LinesNames = [], value; LinesNames = getTranslatedLinesNames(this); smaProto.translate.apply(this, arguments); this.points.forEach((point) => { pointArrayMap.forEach((propertyName, i) => { value = point[propertyName]; // If the modifier, like for example compare exists, // modified the original value by that method, #15867. if (this.dataModify) { value = this.dataModify.modifyValue(value); } if (value !== null) { point[LinesNames[i]] = this.yAxis.toPixels(value, true); } }); }); } })(MultipleLinesComposition || (MultipleLinesComposition = {})); /* * * * Default Export * * */ return MultipleLinesComposition; }); _registerModule(_modules, 'Stock/Indicators/ABands/ABandsIndicator.js', [_modules['Stock/Indicators/MultipleLinesComposition.js'], _modules['Core/Series/SeriesRegistry.js'], _modules['Core/Utilities.js']], function (MultipleLinesComposition, SeriesRegistry, U) { /* * * * License: www.highcharts.com/license * * !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!! * * */ const { sma: SMAIndicator } = SeriesRegistry.seriesTypes; const { correctFloat, extend, merge } = U; /* * * * Functions * * */ /** * @private */ function getBaseForBand(low, high, factor) { return (((correctFloat(high - low)) / ((correctFloat(high + low)) / 2)) * 1000) * factor; } /** * @private */ function getPointUB(high, base) { return high * (correctFloat(1 + 2 * base)); } /** * @private */ function getPointLB(low, base) { return low * (correctFloat(1 - 2 * base)); } /* * * * Class * * */ /** * The ABands series type * * @private * @class * @name Highcharts.seriesTypes.abands * * @augments Highcharts.Series */ class ABandsIndicator extends SMAIndicator { /* * * * Functions * * */ getValues(series, params) { const period = params.period, factor = params.factor, index = params.index, xVal = series.xData, yVal = series.yData, yValLen = yVal ? yVal.length : 0, // Upperbands UB = [], // Lowerbands LB = [], // ABANDS array structure: // 0-date, 1-top line, 2-middle line, 3-bottom line ABANDS = [], low = 2, high = 1, xData = [], yData = []; // Middle line, top line and bottom line let ML, TL, BL, date, bandBase, pointSMA, ubSMA, lbSMA, slicedX, slicedY, i; if (yValLen < period) { return; } for (i = 0; i <= yValLen; i++) { // Get UB and LB values of every point. This condition // is necessary, because there is a need to calculate current // UB nad LB values simultaneously with given period SMA // in one for loop. if (i < yValLen) { bandBase = getBaseForBand(yVal[i][low], yVal[i][high], factor); UB.push(getPointUB(yVal[i][high], bandBase)); LB.push(getPointLB(yVal[i][low], bandBase)); } if (i >= period) { slicedX = xVal.slice(i - period, i); slicedY = yVal.slice(i - period, i); ubSMA = super.getValues.call(this, { xData: slicedX, yData: UB.slice(i - period, i) }, { period: period }); lbSMA = super.getValues.call(this, { xData: slicedX, yData: LB.slice(i - period, i) }, { period: period }); pointSMA = super.getValues.call(this, { xData: slicedX, yData: slicedY }, { period: period, index: index }); date = pointSMA.xData[0]; TL = ubSMA.yData[0]; BL = lbSMA.yData[0]; ML = pointSMA.yData[0]; ABANDS.push([date, TL, ML, BL]); xData.push(date); yData.push([TL, ML, BL]); } } return { values: ABANDS, xData: xData, yData: yData }; } } /* * * * Static Properties * * */ /** * Acceleration bands (ABANDS). This series requires the `linkedTo` option * to be set and should be loaded after the * `stock/indicators/indicators.js`. * * @sample {highstock} stock/indicators/acceleration-bands * Acceleration Bands * * @extends plotOptions.sma * @mixes Highcharts.MultipleLinesMixin * @since 7.0.0 * @product highstock * @excluding allAreas, colorAxis, compare, compareBase, joinBy, keys, * navigatorOptions, pointInterval, pointIntervalUnit, * pointPlacement, pointRange, pointStart, showInNavigator, * stacking, * @requires stock/indicators/indicators * @requires stock/indicators/acceleration-bands * @optionparent plotOptions.abands */ ABandsIndicator.defaultOptions = merge(SMAIndicator.defaultOptions, { /** * Option for fill color between lines in Accelleration bands Indicator. * * @sample {highstock} stock/indicators/indicator-area-fill * Background fill between lines. * * @type {Highcharts.Color} * @since 9.3.2 * @apioption plotOptions.abands.fillColor * */ params: { period: 20, /** * The algorithms factor value used to calculate bands. * * @product highstock */ factor: 0.001, index: 3 }, lineWidth: 1, topLine: { styles: { /** * Pixel width of the line. */ lineWidth: 1 } }, bottomLine: { styles: { /** * Pixel width of the line. */ lineWidth: 1 } }, dataGrouping: { approximation: 'averages' } }); extend(ABandsIndicator.prototype, { areaLinesNames: ['top', 'bottom'], linesApiNames: ['topLine', 'bottomLine'], nameBase: 'Acceleration Bands', nameComponents: ['period', 'factor'], pointArrayMap: ['top', 'middle', 'bottom'], pointValKey: 'middle' }); MultipleLinesComposition.compose(ABandsIndicator); SeriesRegistry.registerSeriesType('abands', ABandsIndicator); /* * * * Default Export * * */ /* * * * API Options * * */ /** * An Acceleration bands indicator. If the [type](#series.abands.type) option is not * specified, it is inherited from [chart.type](#chart.type). * * @extends series,plotOptions.abands * @since 7.0.0 * @product highstock * @excluding allAreas, colorAxis, compare, compareBase, dataParser, dataURL, * joinBy, keys, navigatorOptions, pointInterval, * pointIntervalUnit, pointPlacement, pointRange, pointStart, * stacking, showInNavigator, * @requires stock/indicators/indicators * @requires stock/indicators/acceleration-bands * @apioption series.abands */ ''; // To include the above in jsdoc return ABandsIndicator; }); _registerModule(_modules, 'masters/indicators/acceleration-bands.src.js', [_modules['Core/Globals.js']], function (Highcharts) { return Highcharts; }); }));