/** * @license Highcharts JS v6.0.4 (2017-12-15) * * (c) 2016 Highsoft AS * Authors: Jon Arild Nygard * * License: www.highcharts.com/license */ 'use strict'; (function(factory) { if (typeof module === 'object' && module.exports) { module.exports = factory; } else { factory(Highcharts); } }(function(Highcharts) { (function(H) { /** * (c) 2010-2017 Torstein Honsi * * License: www.highcharts.com/license */ var deg2rad = H.deg2rad, isNumber = H.isNumber, pick = H.pick, relativeLength = H.relativeLength; H.CenteredSeriesMixin = { /** * Get the center of the pie based on the size and center options relative to the * plot area. Borrowed by the polar and gauge series types. */ getCenter: function() { var options = this.options, chart = this.chart, slicingRoom = 2 * (options.slicedOffset || 0), handleSlicingRoom, plotWidth = chart.plotWidth - 2 * slicingRoom, plotHeight = chart.plotHeight - 2 * slicingRoom, centerOption = options.center, positions = [pick(centerOption[0], '50%'), pick(centerOption[1], '50%'), options.size || '100%', options.innerSize || 0], smallestSize = Math.min(plotWidth, plotHeight), i, value; for (i = 0; i < 4; ++i) { value = positions[i]; handleSlicingRoom = i < 2 || (i === 2 && /%$/.test(value)); // i == 0: centerX, relative to width // i == 1: centerY, relative to height // i == 2: size, relative to smallestSize // i == 3: innerSize, relative to size positions[i] = relativeLength(value, [plotWidth, plotHeight, smallestSize, positions[2]][i]) + (handleSlicingRoom ? slicingRoom : 0); } // innerSize cannot be larger than size (#3632) if (positions[3] > positions[2]) { positions[3] = positions[2]; } return positions; }, /** * getStartAndEndRadians - Calculates start and end angles in radians. * Used in series types such as pie and sunburst. * * @param {Number} start Start angle in degrees. * @param {Number} end Start angle in degrees. * @return {object} Returns an object containing start and end angles as * radians. */ getStartAndEndRadians: function getStartAndEndRadians(start, end) { var startAngle = isNumber(start) ? start : 0, // must be a number endAngle = ( ( isNumber(end) && // must be a number end > startAngle && // must be larger than the start angle // difference must be less than 360 degrees (end - startAngle) < 360 ) ? end : startAngle + 360 ), correction = -90; return { start: deg2rad * (startAngle + correction), end: deg2rad * (endAngle + correction) }; } }; }(Highcharts)); var draw = (function() { var isFn = function(x) { return typeof x === 'function'; }; /** * draw - Handles the drawing of a point. * TODO: add type checking. * * @param {object} params Parameters. * @return {undefined} Returns undefined. */ var draw = function draw(params) { var point = this, graphic = point.graphic, animate = params.animate, attr = params.attr, onComplete = params.onComplete, css = params.css, group = params.group, renderer = params.renderer, shape = params.shapeArgs, type = params.shapeType; if (point.shouldDraw()) { if (!graphic) { point.graphic = graphic = renderer[type](shape).add(group); } graphic.css(css).attr(attr).animate(animate, undefined, onComplete); } else if (graphic) { graphic.animate(animate, undefined, function() { point.graphic = graphic = graphic.destroy(); if (isFn(onComplete)) { onComplete(); } }); } if (graphic) { graphic.addClass(point.getClassName(), true); } }; return draw; }()); var result = (function(H) { var each = H.each, extend = H.extend, isBoolean = function(x) { return typeof x === 'boolean'; }, isFn = function(x) { return typeof x === 'function'; }, pick = H.pick; // TODO Combine buildTree and buildNode with setTreeValues // TODO Remove logic from Treemap and make it utilize this mixin. var setTreeValues = function setTreeValues(tree, options) { var before = options.before, idRoot = options.idRoot, mapIdToNode = options.mapIdToNode, nodeRoot = mapIdToNode[idRoot], levelIsConstant = ( isBoolean(options.levelIsConstant) ? options.levelIsConstant : true ), points = options.points, point = points[tree.i], optionsPoint = point && point.options || {}, childrenTotal = 0, children = [], value; extend(tree, { levelDynamic: tree.level - (levelIsConstant ? 0 : nodeRoot.level), name: pick(point && point.name, ''), visible: ( idRoot === tree.id || (isBoolean(options.visible) ? options.visible : false) ) }); if (isFn(before)) { tree = before(tree, options); } // First give the children some values each(tree.children, function(child, i) { var newOptions = extend({}, options); extend(newOptions, { index: i, siblings: tree.children.length, visible: tree.visible }); child = setTreeValues(child, newOptions); children.push(child); if (child.visible) { childrenTotal += child.val; } }); tree.visible = childrenTotal > 0 || tree.visible; // Set the values value = pick(optionsPoint.value, childrenTotal); extend(tree, { children: children, childrenTotal: childrenTotal, isLeaf: tree.visible && !childrenTotal, val: value }); return tree; }; var getColor = function getColor(node, options) { var index = options.index, levelMap = options.levelMap, parentColor = options.parentColor, parentColorIndex = options.parentColorIndex, series = options.series, colors = options.colors, siblings = options.siblings, points = series.points, getColorByPoint, point, level, colorByPoint, colorIndexByPoint, color, colorIndex; function variation(color) { var colorVariation = level && level.colorVariation; if (colorVariation) { if (colorVariation.key === 'brightness') { return H.color(color).brighten( colorVariation.to * (index / siblings) ).get(); } } return color; } if (node) { point = points[node.i]; level = levelMap[node.levelDynamic] || {}; getColorByPoint = ( point && ( isBoolean(level.colorByPoint) ? level.colorByPoint : !!series.options.colorByPoint ) ); if (getColorByPoint) { colorIndexByPoint = point.index % (colors ? colors.length : series.chart.options.chart.colorCount); colorByPoint = colors && colors[colorIndexByPoint]; } // Select either point color, level color or inherited color. color = pick( point && point.options.color, level && level.color, colorByPoint, parentColor && variation(parentColor), series.color ); colorIndex = pick( point && point.options.colorIndex, level && level.colorIndex, colorIndexByPoint, parentColorIndex, options.colorIndex ); } return { color: color, colorIndex: colorIndex }; }; var result = { getColor: getColor, setTreeValues: setTreeValues }; return result; }(Highcharts)); (function(H, mixinTreeSeries) { /** * (c) 2014 Highsoft AS * Authors: Jon Arild Nygard / Oystein Moseng * * License: www.highcharts.com/license */ var seriesType = H.seriesType, seriesTypes = H.seriesTypes, map = H.map, merge = H.merge, extend = H.extend, noop = H.noop, each = H.each, getColor = mixinTreeSeries.getColor, grep = H.grep, isBoolean = function(x) { return typeof x === 'boolean'; }, isNumber = H.isNumber, isString = H.isString, pick = H.pick, Series = H.Series, stableSort = H.stableSort, color = H.Color, eachObject = function(list, func, context) { context = context || this; H.objectEach(list, function(val, key) { func.call(context, val, key, list); }); }, reduce = H.reduce, // @todo find correct name for this function. // @todo Similar to reduce, this function is likely redundant recursive = function(item, func, context) { var next; context = context || this; next = func.call(context, item); if (next !== false) { recursive(next, func, context); } }; /** * A treemap displays hierarchical data using nested rectangles. The data can be * laid out in varying ways depending on options. * * @sample highcharts/demo/treemap-large-dataset/ Treemap * * @extends {plotOptions.scatter} * @excluding marker * @product highcharts * @optionparent plotOptions.treemap */ seriesType('treemap', 'scatter', { /** * When enabled the user can click on a point which is a parent and * zoom in on its children. * * @type {Boolean} * @sample {highcharts} highcharts/plotoptions/treemap-allowdrilltonode/ Enabled * @default false * @since 4.1.0 * @product highcharts * @apioption plotOptions.treemap.allowDrillToNode */ /** * When the series contains less points than the crop threshold, all * points are drawn, event if the points fall outside the visible plot * area at the current zoom. The advantage of drawing all points (including * markers and columns), is that animation is performed on updates. * On the other hand, when the series contains more points than the * crop threshold, the series data is cropped to only contain points * that fall within the plot area. The advantage of cropping away invisible * points is to increase performance on large series. * * @type {Number} * @default 300 * @since 4.1.0 * @product highcharts * @apioption plotOptions.treemap.cropThreshold */ /** * This option decides if the user can interact with the parent nodes * or just the leaf nodes. When this option is undefined, it will be * true by default. However when allowDrillToNode is true, then it will * be false by default. * * @type {Boolean} * @sample {highcharts} highcharts/plotoptions/treemap-interactbyleaf-false/ False * @sample {highcharts} highcharts/plotoptions/treemap-interactbyleaf-true-and-allowdrilltonode/ InteractByLeaf and allowDrillToNode is true * @since 4.1.2 * @product highcharts * @apioption plotOptions.treemap.interactByLeaf */ /** * The sort index of the point inside the treemap level. * * @type {Number} * @sample {highcharts} highcharts/plotoptions/treemap-sortindex/ Sort by years * @since 4.1.10 * @product highcharts * @apioption plotOptions.treemap.sortIndex */ /** * When using automatic point colors pulled from the `options.colors` * collection, this option determines whether the chart should receive * one color per series or one color per point. * * @type {Boolean} * @see [series colors](#plotOptions.treemap.colors) * @default false * @since 2.0 * @apioption plotOptions.treemap.colorByPoint */ /** * A series specific or series type specific color set to apply instead * of the global [colors](#colors) when [colorByPoint](#plotOptions. * treemap.colorByPoint) is true. * * @type {Array} * @since 3.0 * @apioption plotOptions.treemap.colors */ /** * Whether to display this series type or specific series item in the * legend. * * @type {Boolean} * @default false * @product highcharts */ showInLegend: false, /** * @ignore */ marker: false, /** * @extends plotOptions.heatmap.dataLabels * @since 4.1.0 * @product highcharts */ dataLabels: { enabled: true, defer: false, verticalAlign: 'middle', formatter: function() { // #2945 return this.point.name || this.point.id; }, inside: true }, tooltip: { headerFormat: '', pointFormat: '{point.name}: {point.value}
' }, /** * Whether to ignore hidden points when the layout algorithm runs. * If `false`, hidden points will leave open spaces. * * @type {Boolean} * @default true * @since 5.0.8 * @product highcharts */ ignoreHiddenPoint: true, /** * This option decides which algorithm is used for setting position * and dimensions of the points. Can be one of `sliceAndDice`, `stripes`, * `squarified` or `strip`. * * @validvalue ["sliceAndDice", "stripes", "squarified", "strip"] * @type {String} * @see [How to write your own algorithm](http://www.highcharts.com/docs/chart- * and-series-types/treemap) * @sample {highcharts} highcharts/plotoptions/treemap-layoutalgorithm-sliceanddice/ SliceAndDice by default * @sample {highcharts} highcharts/plotoptions/treemap-layoutalgorithm-stripes/ Stripes * @sample {highcharts} highcharts/plotoptions/treemap-layoutalgorithm-squarified/ Squarified * @sample {highcharts} highcharts/plotoptions/treemap-layoutalgorithm-strip/ Strip * @default sliceAndDice * @since 4.1.0 * @product highcharts */ layoutAlgorithm: 'sliceAndDice', /** * Defines which direction the layout algorithm will start drawing. * Possible values are "vertical" and "horizontal". * * @validvalue ["vertical", "horizontal"] * @type {String} * @default vertical * @since 4.1.0 * @product highcharts */ layoutStartingDirection: 'vertical', /** * Enabling this option will make the treemap alternate the drawing * direction between vertical and horizontal. The next levels starting * direction will always be the opposite of the previous. * * @type {Boolean} * @sample {highcharts} highcharts/plotoptions/treemap-alternatestartingdirection-true/ Enabled * @default false * @since 4.1.0 * @product highcharts */ alternateStartingDirection: false, /** * Used together with the levels and allowDrillToNode options. When * set to false the first level visible when drilling is considered * to be level one. Otherwise the level will be the same as the tree * structure. * * @type {Boolean} * @default true * @since 4.1.0 * @product highcharts */ levelIsConstant: true, /** * Options for the button appearing when drilling down in a treemap. */ drillUpButton: { /** * The position of the button. */ position: { /** * Horizontal alignment of the button. * @validvalue ["left", "center", "right"] */ align: 'right', /** * Horizontal offset of the button. * @default -10 * @type {Number} */ x: -10, /** * Vertical offset of the button. */ y: 10 /** * Vertical alignment of the button. * * @default top * @validvalue ["top", "middle", "bottom"] * @apioption plotOptions.treemap.drillUpButton.position.verticalAlign */ } }, // Presentational options /** * The color of the border surrounding each tree map item. * * @type {Color} * @default #e6e6e6 * @product highcharts */ borderColor: '#e6e6e6', /** * The width of the border surrounding each tree map item. */ borderWidth: 1, /** * The opacity of a point in treemap. When a point has children, the * visibility of the children is determined by the opacity. * * @type {Number} * @default 0.15 * @since 4.2.4 * @product highcharts */ opacity: 0.15, /** * A wrapper object for all the series options in specific states. * * @extends plotOptions.heatmap.states * @product highcharts */ states: { /** * Options for the hovered series * * @extends plotOptions.heatmap.states.hover * @excluding halo * @product highcharts */ hover: { /** * The border color for the hovered state. */ borderColor: '#999999', /** * Brightness for the hovered point. Defaults to 0 if the heatmap * series is loaded, otherwise 0.1. * * @default null * @type {Number} */ brightness: seriesTypes.heatmap ? 0 : 0.1, /** * @extends plotOptions.heatmap.states.hover.halo */ halo: false, /** * The opacity of a point in treemap. When a point has children, * the visibility of the children is determined by the opacity. * * @type {Number} * @default 0.75 * @since 4.2.4 * @product highcharts */ opacity: 0.75, /** * The shadow option for hovered state. */ shadow: false } } /** * Set options on specific levels. Takes precedence over series options, * but not point options. * * @type {Array} * @sample {highcharts} highcharts/plotoptions/treemap-levels/ * Styling dataLabels and borders * @sample {highcharts} highcharts/demo/treemap-with-levels/ * Different layoutAlgorithm * @since 4.1.0 * @product highcharts * @apioption plotOptions.treemap.levels */ /** * Can set a `borderColor` on all points which lies on the same level. * * @type {Color} * @since 4.1.0 * @product highcharts * @apioption plotOptions.treemap.levels.borderColor */ /** * Set the dash style of the border of all the point which lies on the * level. See * plotOptions.scatter.dashStyle for possible options. * * @type {String} * @since 4.1.0 * @product highcharts * @apioption plotOptions.treemap.levels.borderDashStyle */ /** * Can set the borderWidth on all points which lies on the same level. * * @type {Number} * @since 4.1.0 * @product highcharts * @apioption plotOptions.treemap.levels.borderWidth */ /** * Can set a color on all points which lies on the same level. * * @type {Color} * @since 4.1.0 * @product highcharts * @apioption plotOptions.treemap.levels.color */ /** * A configuration object to define how the color of a child varies from the * parent's color. The variation is distributed among the children of node. * For example when setting brightness, the brightness change will range * from the parent's original brightness on the first child, to the amount * set in the `to` setting on the last node. This allows a gradient-like * color scheme that sets children out from each other while highlighting * the grouping on treemaps and sectors on sunburst charts. * * @type {Object} * @sample highcharts/demo/sunburst/ Sunburst with color variation * @since 6.0.0 * @product highcharts * @apioption plotOptions.treemap.levels.colorVariation */ /** * The key of a color variation. Currently supports `brightness` only. * * @type {String} * @validvalue ["brightness"] * @since 6.0.0 * @product highcharts * @apioption plotOptions.treemap.levels.colorVariation.key */ /** * The ending value of a color variation. The last sibling will receive this * value. * * @type {Number} * @since 6.0.0 * @product highcharts * @apioption plotOptions.treemap.levels.colorVariation.to */ /** * Can set the options of dataLabels on each point which lies on the * level. [plotOptions.treemap.dataLabels](#plotOptions.treemap.dataLabels) * for possible values. * * @type {Object} * @default undefined * @since 4.1.0 * @product highcharts * @apioption plotOptions.treemap.levels.dataLabels */ /** * Can set the layoutAlgorithm option on a specific level. * * @validvalue ["sliceAndDice", "stripes", "squarified", "strip"] * @type {String} * @since 4.1.0 * @product highcharts * @apioption plotOptions.treemap.levels.layoutAlgorithm */ /** * Can set the layoutStartingDirection option on a specific level. * * @validvalue ["vertical", "horizontal"] * @type {String} * @since 4.1.0 * @product highcharts * @apioption plotOptions.treemap.levels.layoutStartingDirection */ /** * Decides which level takes effect from the options set in the levels * object. * * @type {Number} * @sample {highcharts} highcharts/plotoptions/treemap-levels/ * Styling of both levels * @since 4.1.0 * @product highcharts * @apioption plotOptions.treemap.levels.level */ // Prototype members }, { pointArrayMap: ['value'], axisTypes: seriesTypes.heatmap ? ['xAxis', 'yAxis', 'colorAxis'] : ['xAxis', 'yAxis'], directTouch: true, optionalAxis: 'colorAxis', getSymbol: noop, parallelArrays: ['x', 'y', 'value', 'colorValue'], colorKey: 'colorValue', // Point color option key translateColors: ( seriesTypes.heatmap && seriesTypes.heatmap.prototype.translateColors ), colorAttribs: ( seriesTypes.heatmap && seriesTypes.heatmap.prototype.colorAttribs ), trackerGroups: ['group', 'dataLabelsGroup'], /** * Creates an object map from parent id to childrens index. * @param {Array} data List of points set in options. * @param {string} data[].parent Parent id of point. * @param {Array} ids List of all point ids. * @return {Object} Map from parent id to children index in data. */ getListOfParents: function(data, ids) { var listOfParents = reduce(data || [], function(prev, curr, i) { var parent = pick(curr.parent, ''); if (prev[parent] === undefined) { prev[parent] = []; } prev[parent].push(i); return prev; }, {}); // If parent does not exist, hoist parent to root of tree. eachObject(listOfParents, function(children, parent, list) { if ((parent !== '') && (H.inArray(parent, ids) === -1)) { each(children, function(child) { list[''].push(child); }); delete list[parent]; } }); return listOfParents; }, /** * Creates a tree structured object from the series points */ getTree: function() { var series = this, allIds = map(this.data, function(d) { return d.id; }), parentList = series.getListOfParents(this.data, allIds); series.nodeMap = []; return series.buildNode('', -1, 0, parentList, null); }, init: function(chart, options) { var series = this; Series.prototype.init.call(series, chart, options); if (series.options.allowDrillToNode) { H.addEvent(series, 'click', series.onClickDrillToNode); } }, buildNode: function(id, i, level, list, parent) { var series = this, children = [], point = series.points[i], height = 0, node, child; // Actions each((list[id] || []), function(i) { child = series.buildNode(series.points[i].id, i, (level + 1), list, id); height = Math.max(child.height + 1, height); children.push(child); }); node = { id: id, i: i, children: children, height: height, level: level, parent: parent, visible: false // @todo move this to better location }; series.nodeMap[node.id] = node; if (point) { point.node = node; } return node; }, setTreeValues: function(tree) { var series = this, options = series.options, idRoot = series.rootNode, mapIdToNode = series.nodeMap, nodeRoot = mapIdToNode[idRoot], levelIsConstant = ( isBoolean(options.levelIsConstant) ? options.levelIsConstant : true ), childrenTotal = 0, children = [], val, point = series.points[tree.i]; // First give the children some values each(tree.children, function(child) { child = series.setTreeValues(child); children.push(child); if (!child.ignore) { childrenTotal += child.val; } }); // Sort the children stableSort(children, function(a, b) { return a.sortIndex - b.sortIndex; }); // Set the values val = pick(point && point.options.value, childrenTotal); if (point) { point.value = val; } extend(tree, { children: children, childrenTotal: childrenTotal, // Ignore this node if point is not visible ignore: !(pick(point && point.visible, true) && (val > 0)), isLeaf: tree.visible && !childrenTotal, levelDynamic: tree.level - (levelIsConstant ? 0 : nodeRoot.level), name: pick(point && point.name, ''), sortIndex: pick(point && point.sortIndex, -val), val: val }); return tree; }, /** * Recursive function which calculates the area for all children of a node. * @param {Object} node The node which is parent to the children. * @param {Object} area The rectangular area of the parent. */ calculateChildrenAreas: function(parent, area) { var series = this, options = series.options, level = this.levelMap[parent.levelDynamic + 1], algorithm = pick((series[level && level.layoutAlgorithm] && level.layoutAlgorithm), options.layoutAlgorithm), alternate = options.alternateStartingDirection, childrenValues = [], children; // Collect all children which should be included children = grep(parent.children, function(n) { return !n.ignore; }); if (level && level.layoutStartingDirection) { area.direction = level.layoutStartingDirection === 'vertical' ? 0 : 1; } childrenValues = series[algorithm](area, children); each(children, function(child, index) { var values = childrenValues[index]; child.values = merge(values, { val: child.childrenTotal, direction: (alternate ? 1 - area.direction : area.direction) }); child.pointValues = merge(values, { x: (values.x / series.axisRatio), width: (values.width / series.axisRatio) }); // If node has children, then call method recursively if (child.children.length) { series.calculateChildrenAreas(child, child.values); } }); }, setPointValues: function() { var series = this, xAxis = series.xAxis, yAxis = series.yAxis; each(series.points, function(point) { var node = point.node, values = node.pointValues, x1, x2, y1, y2, crispCorr = 0; // Get the crisp correction in classic mode. For this to work in // styled mode, we would need to first add the shape (without x, y, // width and height), then read the rendered stroke width using // point.graphic.strokeWidth(), then modify and apply the shapeArgs. // This applies also to column series, but the downside is // performance and code complexity. crispCorr = ( (series.pointAttribs(point)['stroke-width'] || 0) % 2 ) / 2; // Points which is ignored, have no values. if (values && node.visible) { x1 = Math.round(xAxis.translate(values.x, 0, 0, 0, 1)) - crispCorr; x2 = Math.round(xAxis.translate(values.x + values.width, 0, 0, 0, 1)) - crispCorr; y1 = Math.round(yAxis.translate(values.y, 0, 0, 0, 1)) - crispCorr; y2 = Math.round(yAxis.translate(values.y + values.height, 0, 0, 0, 1)) - crispCorr; // Set point values point.shapeType = 'rect'; point.shapeArgs = { x: Math.min(x1, x2), y: Math.min(y1, y2), width: Math.abs(x2 - x1), height: Math.abs(y2 - y1) }; point.plotX = point.shapeArgs.x + (point.shapeArgs.width / 2); point.plotY = point.shapeArgs.y + (point.shapeArgs.height / 2); } else { // Reset visibility delete point.plotX; delete point.plotY; } }); }, /** * Set the node's color recursively, from the parent down. */ setColorRecursive: function(node, parentColor, colorIndex, index, siblings) { var series = this, chart = series && series.chart, colors = chart && chart.options && chart.options.colors, colorInfo, point; if (node) { colorInfo = getColor(node, { colors: colors, index: index, levelMap: series.levelMap, parentColor: parentColor, parentColorIndex: colorIndex, series: series, siblings: siblings }); point = series.points[node.i]; if (point) { point.color = colorInfo.color; point.colorIndex = colorInfo.colorIndex; } // Do it all again with the children each(node.children || [], function(child, i) { series.setColorRecursive( child, colorInfo.color, colorInfo.colorIndex, i, node.children.length ); }); } }, algorithmGroup: function(h, w, d, p) { this.height = h; this.width = w; this.plot = p; this.direction = d; this.startDirection = d; this.total = 0; this.nW = 0; this.lW = 0; this.nH = 0; this.lH = 0; this.elArr = []; this.lP = { total: 0, lH: 0, nH: 0, lW: 0, nW: 0, nR: 0, lR: 0, aspectRatio: function(w, h) { return Math.max((w / h), (h / w)); } }; this.addElement = function(el) { this.lP.total = this.elArr[this.elArr.length - 1]; this.total = this.total + el; if (this.direction === 0) { // Calculate last point old aspect ratio this.lW = this.nW; this.lP.lH = this.lP.total / this.lW; this.lP.lR = this.lP.aspectRatio(this.lW, this.lP.lH); // Calculate last point new aspect ratio this.nW = this.total / this.height; this.lP.nH = this.lP.total / this.nW; this.lP.nR = this.lP.aspectRatio(this.nW, this.lP.nH); } else { // Calculate last point old aspect ratio this.lH = this.nH; this.lP.lW = this.lP.total / this.lH; this.lP.lR = this.lP.aspectRatio(this.lP.lW, this.lH); // Calculate last point new aspect ratio this.nH = this.total / this.width; this.lP.nW = this.lP.total / this.nH; this.lP.nR = this.lP.aspectRatio(this.lP.nW, this.nH); } this.elArr.push(el); }; this.reset = function() { this.nW = 0; this.lW = 0; this.elArr = []; this.total = 0; }; }, algorithmCalcPoints: function(directionChange, last, group, childrenArea) { var pX, pY, pW, pH, gW = group.lW, gH = group.lH, plot = group.plot, keep, i = 0, end = group.elArr.length - 1; if (last) { gW = group.nW; gH = group.nH; } else { keep = group.elArr[group.elArr.length - 1]; } each(group.elArr, function(p) { if (last || (i < end)) { if (group.direction === 0) { pX = plot.x; pY = plot.y; pW = gW; pH = p / pW; } else { pX = plot.x; pY = plot.y; pH = gH; pW = p / pH; } childrenArea.push({ x: pX, y: pY, width: pW, height: pH }); if (group.direction === 0) { plot.y = plot.y + pH; } else { plot.x = plot.x + pW; } } i = i + 1; }); // Reset variables group.reset(); if (group.direction === 0) { group.width = group.width - gW; } else { group.height = group.height - gH; } plot.y = plot.parent.y + (plot.parent.height - group.height); plot.x = plot.parent.x + (plot.parent.width - group.width); if (directionChange) { group.direction = 1 - group.direction; } // If not last, then add uncalculated element if (!last) { group.addElement(keep); } }, algorithmLowAspectRatio: function(directionChange, parent, children) { var childrenArea = [], series = this, pTot, plot = { x: parent.x, y: parent.y, parent: parent }, direction = parent.direction, i = 0, end = children.length - 1, group = new this.algorithmGroup(parent.height, parent.width, direction, plot); // eslint-disable-line new-cap // Loop through and calculate all areas each(children, function(child) { pTot = (parent.width * parent.height) * (child.val / parent.val); group.addElement(pTot); if (group.lP.nR > group.lP.lR) { series.algorithmCalcPoints(directionChange, false, group, childrenArea, plot); } // If last child, then calculate all remaining areas if (i === end) { series.algorithmCalcPoints(directionChange, true, group, childrenArea, plot); } i = i + 1; }); return childrenArea; }, algorithmFill: function(directionChange, parent, children) { var childrenArea = [], pTot, direction = parent.direction, x = parent.x, y = parent.y, width = parent.width, height = parent.height, pX, pY, pW, pH; each(children, function(child) { pTot = (parent.width * parent.height) * (child.val / parent.val); pX = x; pY = y; if (direction === 0) { pH = height; pW = pTot / pH; width = width - pW; x = x + pW; } else { pW = width; pH = pTot / pW; height = height - pH; y = y + pH; } childrenArea.push({ x: pX, y: pY, width: pW, height: pH }); if (directionChange) { direction = 1 - direction; } }); return childrenArea; }, strip: function(parent, children) { return this.algorithmLowAspectRatio(false, parent, children); }, squarified: function(parent, children) { return this.algorithmLowAspectRatio(true, parent, children); }, sliceAndDice: function(parent, children) { return this.algorithmFill(true, parent, children); }, stripes: function(parent, children) { return this.algorithmFill(false, parent, children); }, translate: function() { var series = this, rootId = series.rootNode = pick(series.rootNode, series.options.rootId, ''), rootNode, pointValues, seriesArea, tree, val; // Call prototype function Series.prototype.translate.call(series); // Create a object map from level to options series.levelMap = reduce(series.options.levels || [], function(arr, item) { arr[item.level] = item; return arr; }, {}); tree = series.tree = series.getTree(); // @todo Only if series.isDirtyData is true rootNode = series.nodeMap[rootId]; if ( rootId !== '' && (!rootNode || !rootNode.children.length) ) { series.drillToNode('', false); rootId = series.rootNode; rootNode = series.nodeMap[rootId]; } // Parents of the root node is by default visible recursive(series.nodeMap[series.rootNode], function(node) { var next = false, p = node.parent; node.visible = true; if (p || p === '') { next = series.nodeMap[p]; } return next; }); // Children of the root node is by default visible recursive(series.nodeMap[series.rootNode].children, function(children) { var next = false; each(children, function(child) { child.visible = true; if (child.children.length) { next = (next || []).concat(child.children); } }); return next; }); series.setTreeValues(tree); // Calculate plotting values. series.axisRatio = (series.xAxis.len / series.yAxis.len); series.nodeMap[''].pointValues = pointValues = { x: 0, y: 0, width: 100, height: 100 }; series.nodeMap[''].values = seriesArea = merge(pointValues, { width: (pointValues.width * series.axisRatio), direction: (series.options.layoutStartingDirection === 'vertical' ? 0 : 1), val: tree.val }); series.calculateChildrenAreas(tree, seriesArea); // Logic for point colors if (series.colorAxis) { series.translateColors(); } else if (!series.options.colorByPoint) { series.setColorRecursive(series.tree); } // Update axis extremes according to the root node. if (series.options.allowDrillToNode) { val = rootNode.pointValues; series.xAxis.setExtremes(val.x, val.x + val.width, false); series.yAxis.setExtremes(val.y, val.y + val.height, false); series.xAxis.setScale(); series.yAxis.setScale(); } // Assign values to points. series.setPointValues(); }, /** * Extend drawDataLabels with logic to handle custom options related to the treemap series: * - Points which is not a leaf node, has dataLabels disabled by default. * - Options set on series.levels is merged in. * - Width of the dataLabel is set to match the width of the point shape. */ drawDataLabels: function() { var series = this, points = grep(series.points, function(n) { return n.node.visible; }), options, level; each(points, function(point) { level = series.levelMap[point.node.levelDynamic]; // Set options to new object to avoid problems with scope options = { style: {} }; // If not a leaf, then label should be disabled as default if (!point.node.isLeaf) { options.enabled = false; } // If options for level exists, include them as well if (level && level.dataLabels) { options = merge(options, level.dataLabels); series._hasPointLabels = true; } // Set dataLabel width to the width of the point shape. if (point.shapeArgs) { options.style.width = point.shapeArgs.width; if (point.dataLabel) { point.dataLabel.css({ width: point.shapeArgs.width + 'px' }); } } // Merge custom options with point options point.dlOptions = merge(options, point.options.dataLabels); }); Series.prototype.drawDataLabels.call(this); }, /** * Over the alignment method by setting z index */ alignDataLabel: function(point) { seriesTypes.column.prototype.alignDataLabel.apply(this, arguments); if (point.dataLabel) { // point.node.zIndex could be undefined (#6956) point.dataLabel.attr({ zIndex: (point.node.zIndex || 0) + 1 }); } }, /** * Get presentational attributes */ pointAttribs: function(point, state) { var level = point && this.levelMap[point.node.levelDynamic] || {}, options = this.options, attr, stateOptions = (state && options.states[state]) || {}, className = (point && point.getClassName()) || '', opacity; // Set attributes by precedence. Point trumps level trumps series. Stroke width uses pick // because it can be 0. attr = { 'stroke': (point && point.borderColor) || level.borderColor || stateOptions.borderColor || options.borderColor, 'stroke-width': pick( point && point.borderWidth, level.borderWidth, stateOptions.borderWidth, options.borderWidth ), 'dashstyle': (point && point.borderDashStyle) || level.borderDashStyle || stateOptions.borderDashStyle || options.borderDashStyle, 'fill': (point && point.color) || this.color }; // Hide levels above the current view if (className.indexOf('highcharts-above-level') !== -1) { attr.fill = 'none'; attr['stroke-width'] = 0; // Nodes with children that accept interaction } else if (className.indexOf('highcharts-internal-node-interactive') !== -1) { opacity = pick(stateOptions.opacity, options.opacity); attr.fill = color(attr.fill).setOpacity(opacity).get(); attr.cursor = 'pointer'; // Hide nodes that have children } else if (className.indexOf('highcharts-internal-node') !== -1) { attr.fill = 'none'; } else if (state) { // Brighten and hoist the hover nodes attr.fill = color(attr.fill).brighten(stateOptions.brightness).get(); } return attr; }, /** * Extending ColumnSeries drawPoints */ drawPoints: function() { var series = this, points = grep(series.points, function(n) { return n.node.visible; }); each(points, function(point) { var groupKey = 'level-group-' + point.node.levelDynamic; if (!series[groupKey]) { series[groupKey] = series.chart.renderer.g(groupKey) .attr({ zIndex: 1000 - point.node.levelDynamic // @todo Set the zIndex based upon the number of levels, instead of using 1000 }) .add(series.group); } point.group = series[groupKey]; }); // Call standard drawPoints seriesTypes.column.prototype.drawPoints.call(this); // If drillToNode is allowed, set a point cursor on clickables & add drillId to point if (series.options.allowDrillToNode) { each(points, function(point) { if (point.graphic) { point.drillId = series.options.interactByLeaf ? series.drillToByLeaf(point) : series.drillToByGroup(point); } }); } }, /** * Add drilling on the suitable points */ onClickDrillToNode: function(event) { var series = this, point = event.point, drillId = point && point.drillId; // If a drill id is returned, add click event and cursor. if (isString(drillId)) { point.setState(''); // Remove hover series.drillToNode(drillId); } }, /** * Finds the drill id for a parent node. * Returns false if point should not have a click event * @param {Object} point * @return {String|Boolean} Drill to id or false when point should not have a click event */ drillToByGroup: function(point) { var series = this, drillId = false; if ((point.node.level - series.nodeMap[series.rootNode].level) === 1 && !point.node.isLeaf) { drillId = point.id; } return drillId; }, /** * Finds the drill id for a leaf node. * Returns false if point should not have a click event * @param {Object} point * @return {String|Boolean} Drill to id or false when point should not have a click event */ drillToByLeaf: function(point) { var series = this, drillId = false, nodeParent; if ((point.node.parent !== series.rootNode) && (point.node.isLeaf)) { nodeParent = point.node; while (!drillId) { nodeParent = series.nodeMap[nodeParent.parent]; if (nodeParent.parent === series.rootNode) { drillId = nodeParent.id; } } } return drillId; }, drillUp: function() { var series = this, node = series.nodeMap[series.rootNode]; if (node && isString(node.parent)) { series.drillToNode(node.parent); } }, drillToNode: function(id, redraw) { var series = this, nodeMap = series.nodeMap, node = nodeMap[id]; series.idPreviousRoot = series.rootNode; series.rootNode = id; if (id === '') { series.drillUpButton = series.drillUpButton.destroy(); } else { series.showDrillUpButton((node && node.name || id)); } this.isDirty = true; // Force redraw if (pick(redraw, true)) { this.chart.redraw(); } }, showDrillUpButton: function(name) { var series = this, backText = (name || '< Back'), buttonOptions = series.options.drillUpButton, attr, states; if (buttonOptions.text) { backText = buttonOptions.text; } if (!this.drillUpButton) { attr = buttonOptions.theme; states = attr && attr.states; this.drillUpButton = this.chart.renderer.button( backText, null, null, function() { series.drillUp(); }, attr, states && states.hover, states && states.select ) .addClass('highcharts-drillup-button') .attr({ align: buttonOptions.position.align, zIndex: 7 }) .add() .align(buttonOptions.position, false, buttonOptions.relativeTo || 'plotBox'); } else { this.drillUpButton.placed = false; this.drillUpButton.attr({ text: backText }) .align(); } }, buildKDTree: noop, drawLegendSymbol: H.LegendSymbolMixin.drawRectangle, getExtremes: function() { // Get the extremes from the value data Series.prototype.getExtremes.call(this, this.colorValueData); this.valueMin = this.dataMin; this.valueMax = this.dataMax; // Get the extremes from the y data Series.prototype.getExtremes.call(this); }, getExtremesFromAll: true, bindAxes: function() { var treeAxis = { endOnTick: false, gridLineWidth: 0, lineWidth: 0, min: 0, dataMin: 0, minPadding: 0, max: 100, dataMax: 100, maxPadding: 0, startOnTick: false, title: null, tickPositions: [] }; Series.prototype.bindAxes.call(this); H.extend(this.yAxis.options, treeAxis); H.extend(this.xAxis.options, treeAxis); }, utils: { recursive: recursive, reduce: reduce } // Point class }, { getClassName: function() { var className = H.Point.prototype.getClassName.call(this), series = this.series, options = series.options; // Above the current level if (this.node.level <= series.nodeMap[series.rootNode].level) { className += ' highcharts-above-level'; } else if (!this.node.isLeaf && !pick(options.interactByLeaf, !options.allowDrillToNode)) { className += ' highcharts-internal-node-interactive'; } else if (!this.node.isLeaf) { className += ' highcharts-internal-node'; } return className; }, /** * A tree point is valid if it has han id too, assume it may be a parent * item. */ isValid: function() { return this.id || isNumber(this.value); }, setState: function(state) { H.Point.prototype.setState.call(this, state); // Graphic does not exist when point is not visible. if (this.graphic) { this.graphic.attr({ zIndex: state === 'hover' ? 1 : 0 }); } }, setVisible: seriesTypes.pie.prototype.pointClass.prototype.setVisible }); /** * A `treemap` series. If the [type](#series.treemap.type) option is * not specified, it is inherited from [chart.type](#chart.type). * * For options that apply to multiple series, it is recommended to add * them to the [plotOptions.series](#plotOptions.series) options structure. * To apply to all series of this specific type, apply it to [plotOptions. * treemap](#plotOptions.treemap). * * @type {Object} * @extends series,plotOptions.treemap * @excluding dataParser,dataURL,stack * @product highcharts * @apioption series.treemap */ /** * An array of data points for the series. For the `treemap` series * type, points can be given in the following ways: * * 1. An array of numerical values. In this case, the numerical values * will be interpreted as `value` options. Example: * * ```js * data: [0, 5, 3, 5] * ``` * * 2. An array of objects with named values. The objects are point * configuration objects as seen below. If the total number of data * points exceeds the series' [turboThreshold](#series.treemap.turboThreshold), * this option is not available. * * ```js * data: [{ * value: 9, * name: "Point2", * color: "#00FF00" * }, { * value: 6, * name: "Point1", * color: "#FF00FF" * }] * ``` * * @type {Array} * @extends series.heatmap.data * @excluding x,y * @sample {highcharts} highcharts/chart/reflow-true/ Numerical values * @sample {highcharts} highcharts/series/data-array-of-arrays/ Arrays of numeric x and y * @sample {highcharts} highcharts/series/data-array-of-arrays-datetime/ Arrays of datetime x and y * @sample {highcharts} highcharts/series/data-array-of-name-value/ Arrays of point.name and y * @sample {highcharts} highcharts/series/data-array-of-objects/ Config objects * @product highcharts * @apioption series.treemap.data */ /** * The value of the point, resulting in a relative area of the point * in the treemap. * * @type {Number} * @product highcharts * @apioption series.treemap.data.value */ /** * Serves a purpose only if a `colorAxis` object is defined in the chart * options. This value will decide which color the point gets from the * scale of the colorAxis. * * @type {Number} * @default undefined * @since 4.1.0 * @product highcharts * @apioption series.treemap.data.colorValue */ /** * Only for treemap. Use this option to build a tree structure. The * value should be the id of the point which is the parent. If no points * has a matching id, or this option is undefined, then the parent will * be set to the root. * * @type {String} * @sample {highcharts} highcharts/point/parent/ Point parent * @sample {highcharts} highcharts/demo/treemap-with-levels/ Example where parent id is not matching * @default undefined * @since 4.1.0 * @product highcharts * @apioption series.treemap.data.parent */ }(Highcharts, result)); (function(H, drawPoint, mixinTreeSeries) { /** * (c) 2016 Highsoft AS * Authors: Jon Arild Nygard * * License: www.highcharts.com/license * * This is an experimental Highcharts module which enables visualization * of a word cloud. */ var CenteredSeriesMixin = H.CenteredSeriesMixin, Series = H.Series, each = H.each, extend = H.extend, getCenter = CenteredSeriesMixin.getCenter, getColor = mixinTreeSeries.getColor, getStartAndEndRadians = CenteredSeriesMixin.getStartAndEndRadians, grep = H.grep, isBoolean = function(x) { return typeof x === 'boolean'; }, isNumber = H.isNumber, isObject = H.isObject, isString = H.isString, merge = H.merge, noop = H.noop, pick = H.pick, rad2deg = 180 / Math.PI, seriesType = H.seriesType, seriesTypes = H.seriesTypes, setTreeValues = mixinTreeSeries.setTreeValues, reduce = H.reduce; /** * getEndPoint - Find a set of coordinates given a start coordinates, an angle, * and a distance. * * @param {number} x Start coordinate x * @param {number} y Start coordinate y * @param {number} angle Angle in radians * @param {number} distance Distance from start to end coordinates * @return {object} Returns the end coordinates, x and y. */ var getEndPoint = function getEndPoint(x, y, angle, distance) { return { x: x + (Math.cos(angle) * distance), y: y + (Math.sin(angle) * distance) }; }; var layoutAlgorithm = function layoutAlgorithm(parent, children, options) { var startAngle = parent.start, range = parent.end - startAngle, total = parent.val, x = parent.x, y = parent.y, innerRadius = parent.r, outerRadius = innerRadius + parent.radius, slicedOffset = isNumber(options.slicedOffset) ? options.slicedOffset : 0; return reduce(children || [], function(arr, child) { var percentage = (1 / total) * child.val, radians = percentage * range, radiansCenter = startAngle + (radians / 2), offsetPosition = getEndPoint(x, y, radiansCenter, slicedOffset), values = { x: child.sliced && child.id !== options.idRoot ? offsetPosition.x : x, y: child.sliced && child.id !== options.idRoot ? offsetPosition.y : y, innerR: innerRadius, r: outerRadius, radius: parent.radius, start: startAngle, end: startAngle + radians }; arr.push(values); startAngle = values.end; return arr; }, []); }; var getDlOptions = function getDlOptions(params) { // Set options to new object to avoid problems with scope var shape = isObject(params.shapeArgs) ? params.shapeArgs : {}, optionsSeries = ( isObject(params.optionsSeries) ? params.optionsSeries.dataLabels : {} ), optionsPoint = ( isObject(params.optionsPoint) ? params.optionsPoint.dataLabels : {} ), optionsLevel = ( isObject(params.level) ? params.level.dataLabels : {} ), options = merge({ rotationMode: 'perpendicular', style: { width: shape.radius } }, optionsSeries, optionsLevel, optionsPoint), rotationRad, rotation; if (!isNumber(options.rotation)) { rotationRad = (shape.end - (shape.end - shape.start) / 2); rotation = (rotationRad * rad2deg) % 180; if (options.rotationMode === 'parallel') { rotation -= 90; } // Data labels should not rotate beyond 90 degrees, for readability. if (rotation > 90) { rotation -= 180; } options.rotation = rotation; } // NOTE: alignDataLabel positions the data label differntly when rotation is // 0. Avoiding this by setting rotation to a small number. if (options.rotation === 0) { options.rotation = 0.001; } return options; }; var getAnimation = function getAnimation(shape, params) { var point = params.point, radians = params.radians, innerR = params.innerR, idRoot = params.idRoot, idPreviousRoot = params.idPreviousRoot, shapeExisting = params.shapeExisting, shapeRoot = params.shapeRoot, shapePreviousRoot = params.shapePreviousRoot, visible = params.visible, from = {}, to = { end: shape.end, start: shape.start, innerR: shape.innerR, r: shape.r, x: shape.x, y: shape.y }; if (visible) { // Animate points in if (!point.graphic && shapePreviousRoot) { if (idRoot === point.id) { from = { start: radians.start, end: radians.end }; } else { from = (shapePreviousRoot.end <= shape.start) ? { start: radians.end, end: radians.end } : { start: radians.start, end: radians.start }; } // Animate from center and outwards. from.innerR = from.r = innerR; } } else { // Animate points out if (point.graphic) { if (idPreviousRoot === point.id) { to = { innerR: innerR, r: innerR }; } else if (shapeRoot) { to = (shapeRoot.end <= shapeExisting.start) ? { innerR: innerR, r: innerR, start: radians.end, end: radians.end } : { innerR: innerR, r: innerR, start: radians.start, end: radians.start }; } } } return { from: from, to: to }; }; var getDrillId = function getDrillId(point, idRoot, mapIdToNode) { var drillId, node = point.node, nodeRoot; if (!node.isLeaf) { // When it is the root node, the drillId should be set to parent. if (idRoot === point.id) { nodeRoot = mapIdToNode[idRoot]; drillId = nodeRoot.parent; } else { drillId = point.id; } } return drillId; }; var cbSetTreeValuesBefore = function before(node, options) { var mapIdToNode = options.mapIdToNode, nodeParent = mapIdToNode[node.parent], series = options.series, chart = series.chart, points = series.points, point = points[node.i], colorInfo = getColor(node, { colors: chart && chart.options && chart.options.colors, colorIndex: series.colorIndex, colorByPoint: series.colorByPoint, index: options.index, levelMap: options.levelMap, parentColor: nodeParent && nodeParent.color, parentColorIndex: nodeParent && nodeParent.colorIndex, series: options.series, siblings: options.siblings }); node.color = colorInfo.color; node.colorIndex = colorInfo.colorIndex; if (point) { point.color = node.color; point.colorIndex = node.colorIndex; node.sliced = point.sliced; } return node; }; /** * A Sunburst displays hierarchical data, where a level in the hierarchy is represented by a circle. * The center represents the root node of the tree. * The visualization bears a resemblance to both treemap and pie charts. * * @extends {plotOptions.pie} * @sample highcharts/demo/sunburst Sunburst chart * @excluding allAreas, center, clip, colorAxis, compare, compareBase, * dataGrouping, depth, endAngle, gapSize, gapUnit, * ignoreHiddenPoint, innerSize, joinBy, legendType, linecap, * minSize, navigatorOptions, pointRange * @product highcharts * @optionparent plotOptions.sunburst */ var sunburstOptions = { /** * The center of the sunburst chart relative to the plot area. Can be * percentages or pixel values. * * @type {Array} * @sample {highcharts} highcharts/plotoptions/pie-center/ Centered at 100, 100 * @product highcharts */ center: ['50%', '50%'], /** * @extends plotOptions.series.dataLabels * @excluding align,allowOverlap,staggerLines,step */ dataLabels: { defer: true, style: { textOverflow: 'ellipsis' }, /** * Decides how the data label will be rotated according to the perimeter * of the sunburst. It can either be parallel or perpendicular to the * perimeter. * `series.rotation` takes precedence over `rotationMode`. * @since 6.0.0 * @validvalue ["perpendicular", "parallel"] */ rotationMode: 'perpendicular' }, /** * Which point to use as a root in the visualization. * * @type {String|undefined} * @default undefined */ rootId: undefined, /** * Used together with the levels and `allowDrillToNode` options. When * set to false the first level visible when drilling is considered * to be level one. Otherwise the level will be the same as the tree * structure. */ levelIsConstant: true, slicedOffset: 10 /** * Set options on specific levels. Takes precedence over series options, * but not point options. * * @type {Array} * @sample highcharts/demo/sunburst Sunburst chart * @apioption plotOptions.sunburst.levels */ /** * Can set a `borderColor` on all points which lies on the same level. * * @type {Color} * @apioption plotOptions.sunburst.levels.borderColor */ /** * Can set a `borderWidth` on all points which lies on the same level. * * @type {Number} * @apioption plotOptions.sunburst.levels.borderWidth */ /** * Can set a `borderDashStyle` on all points which lies on the same level. * * @type {String} * @apioption plotOptions.sunburst.levels.borderDashStyle */ /** * Can set a `color` on all points which lies on the same level. * * @type {Color} * @apioption plotOptions.sunburst.levels.color */ /** * Can set a `colorVariation` on all points which lies on the same level. * * @type {Object} * @apioption plotOptions.sunburst.levels.colorVariation */ /** * The key of a color variation. Currently supports `brightness` only. * * @type {String} * @apioption plotOptions.sunburst.levels.colorVariation.key */ /** * The ending value of a color variation. The last sibling will receive this * value. * * @type {Number} * @apioption plotOptions.sunburst.levels.colorVariation.to */ /** * Can set a `dataLabels` on all points which lies on the same level. * * @type {Object} * @apioption plotOptions.sunburst.levels.dataLabels */ /** * Can set a `rotation` on all points which lies on the same level. * * @type {Number} * @apioption plotOptions.sunburst.levels.rotation */ /** * Can set a `rotationMode` on all points which lies on the same level. * * @type {String} * @apioption plotOptions.sunburst.levels.rotationMode */ /** * When enabled the user can click on a point which is a parent and * zoom in on its children. * * @sample highcharts/demo/sunburst * Allow drill to node * @type {Boolean} * @default false * @apioption plotOptions.sunburst.allowDrillToNode */ }; /** * Properties of the Sunburst series. */ var sunburstSeries = { drawDataLabels: noop, // drawDataLabels is called in drawPoints drawPoints: function drawPoints() { var series = this, levelMap = series.levelMap, shapeRoot = series.shapeRoot, group = series.group, hasRendered = series.hasRendered, idRoot = series.rootNode, idPreviousRoot = series.idPreviousRoot, nodeMap = series.nodeMap, nodePreviousRoot = nodeMap[idPreviousRoot], shapePreviousRoot = nodePreviousRoot && nodePreviousRoot.shapeArgs, points = series.points, radians = series.startAndEndRadians, chart = series.chart, optionsChart = chart && chart.options && chart.options.chart || {}, animation = ( isBoolean(optionsChart.animation) ? optionsChart.animation : true ), positions = series.center, center = { x: positions[0], y: positions[1] }, innerR = positions[3] / 2, renderer = series.chart.renderer, animateLabels, animateLabelsCalled = false, addedHack = false, hackDataLabelAnimation = !!( animation && hasRendered && idRoot !== idPreviousRoot && series.dataLabelsGroup ); if (hackDataLabelAnimation) { series.dataLabelsGroup.attr({ opacity: 0 }); animateLabels = function() { var s = series; animateLabelsCalled = true; if (s.dataLabelsGroup) { s.dataLabelsGroup.animate({ opacity: 1, visibility: 'visible' }); } }; } each(points, function(point) { var node = point.node, level = levelMap[node.levelDynamic], shapeExisting = point.shapeExisting || {}, shape = node.shapeArgs || {}, animationInfo, onComplete, visible = !!(node.visible && node.shapeArgs); if (hasRendered && animation) { animationInfo = getAnimation(shape, { center: center, point: point, radians: radians, innerR: innerR, idRoot: idRoot, idPreviousRoot: idPreviousRoot, shapeExisting: shapeExisting, shapeRoot: shapeRoot, shapePreviousRoot: shapePreviousRoot, visible: visible }); } else { // When animation is disabled, attr is called from animation. animationInfo = { to: shape, from: {} }; } extend(point, { shapeExisting: shape, // Store for use in animation tooltipPos: [shape.plotX, shape.plotY], drillId: getDrillId(point, idRoot, nodeMap), name: '' + (point.name || point.id || point.index), plotX: shape.plotX, // used for data label position plotY: shape.plotY, // used for data label position value: node.val, isNull: !visible // used for dataLabels & point.draw }); point.dlOptions = getDlOptions({ level: level, optionsPoint: point.options, optionsSeries: series.options, shapeArgs: shape }); if (!addedHack && visible) { addedHack = true; onComplete = animateLabels; } point.draw({ animate: animationInfo.to, attr: extend( animationInfo.from, series.pointAttribs && series.pointAttribs( point, point.selected && 'select' ) ), onComplete: onComplete, group: group, renderer: renderer, shapeType: 'arc', shapeArgs: shape }); }); // Draw data labels after points // TODO draw labels one by one to avoid addtional looping if (hackDataLabelAnimation && addedHack) { series.hasRendered = false; series.options.dataLabels.defer = true; Series.prototype.drawDataLabels.call(series); series.hasRendered = true; // If animateLabels is called before labels were hidden, then call // it again. if (animateLabelsCalled) { animateLabels(); } } else { Series.prototype.drawDataLabels.call(series); } }, pointAttribs: seriesTypes.column.prototype.pointAttribs, /* * The layout algorithm for the levels */ layoutAlgorithm: layoutAlgorithm, /* * Set the shape arguments on the nodes. Recursive from root down. */ setShapeArgs: function(parent, parentValues, options) { var childrenValues = [], // Collect all children which should be included children = grep(parent.children, function(n) { return n.visible; }); childrenValues = this.layoutAlgorithm(parentValues, children, options); each(children, function(child, index) { var values = childrenValues[index], angle = values.start + ((values.end - values.start) / 2), radius = values.innerR + ((values.r - values.innerR) / 2), isCircle = ( values.innerR === 0 && (values.end - values.start) > 6.28 ), center = ( isCircle ? { x: values.x, y: values.y } : getEndPoint(values.x, values.y, angle, radius) ), val = ( child.val ? ( child.childrenTotal > child.val ? child.childrenTotal : child.val ) : child.childrenTotal ), innerArcFraction = (values.end - values.start) / (2 * Math.PI), perimeter = 2 * Math.PI * values.innerR; // The inner arc length is a convenience for data label filters. if (this.points[child.i]) { this.points[child.i].innerArcLength = innerArcFraction * perimeter; } child.shapeArgs = merge(values, { plotX: center.x, plotY: center.y }); child.values = merge(values, { val: val }); // If node has children, then call method recursively if (child.children.length) { this.setShapeArgs(child, child.values, options); } }, this); }, translate: function translate() { var series = this, options = series.options, positions = series.center = getCenter.call(series), radians = series.startAndEndRadians = getStartAndEndRadians(options.startAngle, options.endAngle), innerRadius = positions[3] / 2, outerRadius = positions[2] / 2, idRoot = series.rootNode = pick(series.rootNode, options.rootId, ''), mapIdToNode = series.nodeMap, idTop, nodeRoot = mapIdToNode && mapIdToNode[idRoot], nodeTop, radiusPerLevel, tree, height, values; series.shapeRoot = nodeRoot && nodeRoot.shapeArgs; // Call prototype function Series.prototype.translate.call(series); // Create a object map from level to options series.levelMap = reduce(series.options.levels || [], function(arr, item) { arr[item.level] = item; return arr; }, {}); // @todo Only if series.isDirtyData is true tree = series.tree = series.getTree(); mapIdToNode = series.nodeMap; nodeRoot = mapIdToNode[idRoot]; idTop = isString(nodeRoot.parent) ? nodeRoot.parent : ''; nodeTop = mapIdToNode[idTop]; // TODO Try to combine setTreeValues & setColorRecursive to avoid // unnecessary looping. setTreeValues(tree, { before: cbSetTreeValuesBefore, idRoot: idRoot, levelIsConstant: options.levelIsConstant, levelMap: series.levelMap, mapIdToNode: mapIdToNode, points: series.points, series: series }); height = (idRoot === idTop) ? nodeRoot.height : nodeRoot.height + 1; radiusPerLevel = (outerRadius - innerRadius) / height; values = mapIdToNode[''].shapeArgs = { end: radians.end, r: innerRadius, radius: radiusPerLevel, start: radians.start, val: nodeTop.val, x: positions[0], y: positions[1] }; this.setShapeArgs(nodeTop, values, { idRoot: idRoot, slicedOffset: options.slicedOffset }); }, /** * Animate the slices in. Similar to the animation of polar charts. */ animate: function(init) { var chart = this.chart, center = [ chart.plotWidth / 2, chart.plotHeight / 2 ], plotLeft = chart.plotLeft, plotTop = chart.plotTop, attribs, group = this.group; // Initialize the animation if (init) { // Scale down the group and place it in the center attribs = { translateX: center[0] + plotLeft, translateY: center[1] + plotTop, scaleX: 0.001, // #1499 scaleY: 0.001, rotation: 10, opacity: 0.01 }; group.attr(attribs); // Run the animation } else { attribs = { translateX: plotLeft, translateY: plotTop, scaleX: 1, scaleY: 1, rotation: 0, opacity: 1 }; group.animate(attribs, this.options.animation); // Delete this function to allow it only once this.animate = null; } } }; /** * Properties of the Sunburst series. */ var sunburstPoint = { draw: drawPoint, shouldDraw: function shouldDraw() { var point = this; return !point.isNull; } }; /** * A `sunburst` series. If the [type](#series.sunburst.type) option is * not specified, it is inherited from [chart.type](#chart.type). * * For options that apply to multiple series, it is recommended to add * them to the [plotOptions.series](#plotOptions.series) options structure. * To apply to all series of this specific type, apply it to [plotOptions. * sunburst](#plotOptions.sunburst). * * @type {Object} * @extends series,plotOptions.sunburst * @excluding dataParser,dataURL,stack * @product highcharts * @apioption series.sunburst */ /** * @type {Array} * @extends series.treemap.data * @excluding x,y * @product highcharts * @apioption series.sunburst.data */ /** * The value of the point, resulting in a relative area of the point * in the sunburst. * * @type {Number} * @default undefined * @since 6.0.0 * @product highcharts * @apioption series.sunburst.data.value */ /** * Use this option to build a tree structure. The value should be the id of the * point which is the parent. If no points has a matching id, or this option is * undefined, then the parent will be set to the root. * * @type {String|undefined} * @default undefined * @since 6.0.0 * @product highcharts * @apioption series.treemap.data.parent */ /** * Whether to display a slice offset from the center. * * @type {Boolean} * @default false * @since 6.0.4 * @product highcharts * @apioption series.sunburst.data.sliced */ seriesType( 'sunburst', 'treemap', sunburstOptions, sunburstSeries, sunburstPoint ); }(Highcharts, draw, result)); }));