/** * @class Ext.chart.series.Pie * * Creates a Pie Chart. A Pie Chart is a useful visualization technique to display quantitative information for different * categories that also have a meaning as a whole. * As with all other series, the Pie Series must be appended in the *series* Chart array configuration. See the Chart * documentation for more information. A typical configuration object for the pie series could be: * * @example * var store = Ext.create('Ext.data.JsonStore', { * fields: ['name', 'data'], * data: [ * { 'name': 'metric one', 'data': 10 }, * { 'name': 'metric two', 'data': 7 }, * { 'name': 'metric three', 'data': 5 }, * { 'name': 'metric four', 'data': 2 }, * { 'name': 'metric five', 'data': 27 } * ] * }); * * Ext.create('Ext.chart.Chart', { * renderTo: Ext.getBody(), * width: 500, * height: 350, * animate: true, * store: store, * theme: 'Base:gradients', * series: [{ * type: 'pie', * angleField: 'data', * showInLegend: true, * tips: { * trackMouse: true, * width: 140, * height: 28, * renderer: function(storeItem, item) { * // calculate and display percentage on hover * var total = 0; * store.each(function(rec) { * total += rec.get('data'); * }); * this.setTitle(storeItem.get('name') + ': ' + Math.round(storeItem.get('data') / total * 100) + '%'); * } * }, * highlight: { * segment: { * margin: 20 * } * }, * label: { * field: 'name', * display: 'rotate', * contrast: true, * font: '18px Arial' * } * }] * }); * * In this configuration we set `pie` as the type for the series, set an object with specific style properties for highlighting options * (triggered when hovering elements). We also set true to `showInLegend` so all the pie slices can be represented by a legend item. * * We set `data` as the value of the field to determine the angle span for each pie slice. We also set a label configuration object * where we set the field name of the store field to be renderer as text for the label. The labels will also be displayed rotated. * * We set `contrast` to `true` to flip the color of the label if it is to similar to the background color. Finally, we set the font family * and size through the `font` parameter. * * @xtype pie */ Ext.define('Ext.chart.series.Pie', { /* Begin Definitions */ alternateClassName: ['Ext.chart.PieSeries', 'Ext.chart.PieChart'], extend: 'Ext.chart.series.Series', /* End Definitions */ type: "pie", alias: 'series.pie', accuracy: 100000, rad: Math.PI * 2 / 100000, /** * @cfg {Number} highlightDuration * The duration for the pie slice highlight effect. */ highlightDuration: 150, /** * @cfg {String} angleField (required) * The store record field name to be used for the pie angles. * The values bound to this field name must be positive real numbers. */ angleField: false, /** * @cfg {String} field * Alias for {@link #angleField}. */ /** * @cfg {String} xField * Alias for {@link #angleField}. */ /** * @cfg {String} lengthField * The store record field name to be used for the pie slice lengths. * The values bound to this field name must be positive real numbers. */ lengthField: false, /** * @cfg {Boolean/Number} donut * Whether to set the pie chart as donut chart. * Default's false. Can be set to a particular percentage to set the radius * of the donut chart. */ donut: false, /** * @cfg {Boolean} showInLegend * Whether to add the pie chart elements as legend items. Default's false. */ showInLegend: false, /** * @cfg {Array} colorSet * An array of color values which will be used, in order, as the pie slice fill colors. */ /** * @cfg {Object} style * An object containing styles for overriding series styles from Theming. */ style: {}, constructor: function(config) { this.callParent(arguments); var me = this, chart = me.chart, surface = chart.surface, store = chart.store, shadow = chart.shadow, i, l, cfg; config.highlightCfg = Ext.merge({ segment: { margin: 20 } }, config.highlightCfg); Ext.apply(me, config, { shadowAttributes: [{ "stroke-width": 6, "stroke-opacity": 1, stroke: 'rgb(200, 200, 200)', translate: { x: 1.2, y: 2 } }, { "stroke-width": 4, "stroke-opacity": 1, stroke: 'rgb(150, 150, 150)', translate: { x: 0.9, y: 1.5 } }, { "stroke-width": 2, "stroke-opacity": 1, stroke: 'rgb(100, 100, 100)', translate: { x: 0.6, y: 1 } }] }); me.group = surface.getGroup(me.seriesId); if (shadow) { for (i = 0, l = me.shadowAttributes.length; i < l; i++) { me.shadowGroups.push(surface.getGroup(me.seriesId + '-shadows' + i)); } } surface.customAttributes.segment = function(opt) { //Browsers will complain if we create a path //element that has no path commands. So ensure a dummy //path command for an empty path. var ans = me.getSegment(opt); if (!ans.path || ans.path.length === 0) { ans.path = ['M', 0, 0]; } return ans; }; me.__excludes = me.__excludes || []; }, // @private updates some onbefore render parameters. initialize: function() { var me = this, store = me.chart.getChartStore(), data = store.data.items, i, ln, rec; //Add yFields to be used in Legend.js me.yField = []; if (me.label.field) { for (i = 0, ln = data.length; i < ln; i++) { rec = data[i]; me.yField.push(rec.get(me.label.field)); } } }, // @private returns an object with properties for a PieSlice. getSegment: function(opt) { var me = this, rad = me.rad, cos = Math.cos, sin = Math.sin, x = me.centerX, y = me.centerY, x1 = 0, x2 = 0, x3 = 0, x4 = 0, y1 = 0, y2 = 0, y3 = 0, y4 = 0, x5 = 0, y5 = 0, x6 = 0, y6 = 0, delta = 1e-2, startAngle = opt.startAngle, endAngle = opt.endAngle, midAngle = (startAngle + endAngle) / 2 * rad, margin = opt.margin || 0, a1 = Math.min(startAngle, endAngle) * rad, a2 = Math.max(startAngle, endAngle) * rad, c1 = cos(a1), s1 = sin(a1), c2 = cos(a2), s2 = sin(a2), cm = cos(midAngle), sm = sin(midAngle), flag = 0, hsqr2 = 0.7071067811865476; // sqrt(0.5) if (a2 - a1 < delta) { return {path: ""}; } if (margin !== 0) { x += margin * cm; y += margin * sm; } x2 = x + opt.endRho * c1; y2 = y + opt.endRho * s1; x4 = x + opt.endRho * c2; y4 = y + opt.endRho * s2; x6 = x + opt.endRho * cm; y6 = y + opt.endRho * sm; if (opt.startRho !== 0) { x1 = x + opt.startRho * c1; y1 = y + opt.startRho * s1; x3 = x + opt.startRho * c2; y3 = y + opt.startRho * s2; x5 = x + opt.startRho * cm; y5 = y + opt.startRho * sm; return { path: [ ["M", x2, y2], ["A", opt.endRho, opt.endRho, 0, 0, 1, x6, y6], ["L", x6, y6], ["A", opt.endRho, opt.endRho, 0, flag, 1, x4, y4], ["L", x4, y4], ["L", x3, y3], ["A", opt.startRho, opt.startRho, 0, flag, 0, x5, y5], ["L", x5, y5], ["A", opt.startRho, opt.startRho, 0, 0, 0, x1, y1], ["L", x1, y1], ["Z"] ] }; } else { return { path: [ ["M", x, y], ["L", x2, y2], ["A", opt.endRho, opt.endRho, 0, 0, 1, x6, y6], ["L", x6, y6], ["A", opt.endRho, opt.endRho, 0, flag, 1, x4, y4], ["L", x4, y4], ["L", x, y], ["Z"] ] }; } }, // @private utility function to calculate the middle point of a pie slice. calcMiddle: function(item) { var me = this, rad = me.rad, slice = item.slice, x = me.centerX, y = me.centerY, startAngle = slice.startAngle, endAngle = slice.endAngle, donut = +me.donut, midAngle = -(startAngle + endAngle) * rad / 2, r = (item.endRho + item.startRho) / 2, xm = x + r * Math.cos(midAngle), ym = y - r * Math.sin(midAngle); item.middle = { x: xm, y: ym }; }, /** * Draws the series for the current chart. */ drawSeries: function() { var me = this, store = me.chart.getChartStore(), data = store.data.items, record, group = me.group, animate = me.chart.animate, field = me.angleField || me.field || me.xField, lenField = [].concat(me.lengthField), totalLenField = 0, chart = me.chart, surface = chart.surface, chartBBox = chart.chartBBox, enableShadows = chart.shadow, shadowGroups = me.shadowGroups, shadowAttributes = me.shadowAttributes, lnsh = shadowGroups.length, layers = lenField.length, rhoAcum = 0, donut = +me.donut, layerTotals = [], items = [], totalField = 0, maxLenField = 0, angle = 0, seriesStyle = me.seriesStyle, colorArrayStyle = me.colorArrayStyle, colorArrayLength = colorArrayStyle && colorArrayStyle.length || 0, rendererAttributes, shadowAttr, shadows, shadow, shindex, centerX, centerY, deltaRho, first = 0, slice, slices, sprite, value, item, lenValue, ln, i, j, endAngle, path, p, spriteOptions, bbox; Ext.apply(seriesStyle, me.style || {}); me.setBBox(); bbox = me.bbox; //override theme colors if (me.colorSet) { colorArrayStyle = me.colorSet; colorArrayLength = colorArrayStyle.length; } //if not store or store is empty then there's nothing to draw if (!store || !store.getCount() || me.seriesIsHidden) { me.hide(); me.items = []; return; } me.unHighlightItem(); me.cleanHighlights(); centerX = me.centerX = chartBBox.x + (chartBBox.width / 2); centerY = me.centerY = chartBBox.y + (chartBBox.height / 2); me.radius = Math.min(centerX - chartBBox.x, centerY - chartBBox.y); me.slices = slices = []; me.items = items = []; for (i = 0, ln = data.length; i < ln; i++) { record = data[i]; if (this.__excludes && this.__excludes[i]) { //hidden series continue; } totalField += +record.get(field); if (lenField[0]) { for (j = 0, totalLenField = 0; j < layers; j++) { totalLenField += +record.get(lenField[j]); } layerTotals[i] = totalLenField; maxLenField = Math.max(maxLenField, totalLenField); } } totalField = totalField || 1; for (i = 0, ln = data.length; i < ln; i++) { record = data[i]; if (this.__excludes && this.__excludes[i]) { value = 0; } else { value = record.get(field); if (first == 0) { first = 1; } } // First slice if (first == 1) { first = 2; me.firstAngle = angle = me.accuracy * value / totalField / 2; for (j = 0; j < i; j++) { slices[j].startAngle = slices[j].endAngle = me.firstAngle; } } endAngle = angle - me.accuracy * value / totalField; slice = { series: me, value: value, startAngle: angle, endAngle: endAngle, storeItem: record }; if (lenField[0]) { lenValue = +layerTotals[i]; //removing the floor will break Opera 11.6* slice.rho = Math.floor(me.radius / maxLenField * lenValue); } else { slice.rho = me.radius; } slices[i] = slice; // Do not remove this closure for the sake of https://sencha.jira.com/browse/EXTJSIV-5836 (function () { angle = endAngle; })(); } //do all shadows first. if (enableShadows) { for (i = 0, ln = slices.length; i < ln; i++) { slice = slices[i]; slice.shadowAttrs = []; for (j = 0, rhoAcum = 0, shadows = []; j < layers; j++) { sprite = group.getAt(i * layers + j); deltaRho = lenField[j] ? store.getAt(i).get(lenField[j]) / layerTotals[i] * slice.rho: slice.rho; //set pie slice properties rendererAttributes = { segment: { startAngle: slice.startAngle, endAngle: slice.endAngle, margin: 0, rho: slice.rho, startRho: rhoAcum + (deltaRho * donut / 100), endRho: rhoAcum + deltaRho }, hidden: !slice.value && (slice.startAngle % me.accuracy) == (slice.endAngle % me.accuracy) }; //create shadows for (shindex = 0, shadows = []; shindex < lnsh; shindex++) { shadowAttr = shadowAttributes[shindex]; shadow = shadowGroups[shindex].getAt(i); if (!shadow) { shadow = chart.surface.add(Ext.apply({}, { type: 'path', group: shadowGroups[shindex], strokeLinejoin: "round" }, rendererAttributes, shadowAttr)); } if (animate) { shadowAttr = me.renderer(shadow, store.getAt(i), Ext.apply({}, rendererAttributes, shadowAttr), i, store); me.onAnimate(shadow, { to: shadowAttr }); } else { shadowAttr = me.renderer(shadow, store.getAt(i), shadowAttr, i, store); shadow.setAttributes(shadowAttr, true); } shadows.push(shadow); } slice.shadowAttrs[j] = shadows; } } } //do pie slices after. for (i = 0, ln = slices.length; i < ln; i++) { slice = slices[i]; for (j = 0, rhoAcum = 0; j < layers; j++) { sprite = group.getAt(i * layers + j); deltaRho = lenField[j] ? store.getAt(i).get(lenField[j]) / layerTotals[i] * slice.rho: slice.rho; //set pie slice properties rendererAttributes = Ext.apply({ segment: { startAngle: slice.startAngle, endAngle: slice.endAngle, margin: 0, rho: slice.rho, startRho: rhoAcum + (deltaRho * donut / 100), endRho: rhoAcum + deltaRho }, hidden: (!slice.value && (slice.startAngle % me.accuracy) == (slice.endAngle % me.accuracy)) }, Ext.apply(seriesStyle, colorArrayStyle && { fill: colorArrayStyle[(layers > 1? j : i) % colorArrayLength] } || {})); item = Ext.apply({}, rendererAttributes.segment, { slice: slice, series: me, storeItem: slice.storeItem, index: i }); me.calcMiddle(item); if (enableShadows) { item.shadows = slice.shadowAttrs[j]; } items[i] = item; // Create a new sprite if needed (no height) if (!sprite) { spriteOptions = Ext.apply({ type: "path", group: group, middle: item.middle }, Ext.apply(seriesStyle, colorArrayStyle && { fill: colorArrayStyle[(layers > 1? j : i) % colorArrayLength] } || {})); sprite = surface.add(Ext.apply(spriteOptions, rendererAttributes)); } slice.sprite = slice.sprite || []; item.sprite = sprite; slice.sprite.push(sprite); slice.point = [item.middle.x, item.middle.y]; if (animate) { rendererAttributes = me.renderer(sprite, store.getAt(i), rendererAttributes, i, store); sprite._to = rendererAttributes; sprite._animating = true; me.onAnimate(sprite, { to: rendererAttributes, listeners: { afteranimate: { fn: function() { this._animating = false; }, scope: sprite } } }); } else { rendererAttributes = me.renderer(sprite, store.getAt(i), Ext.apply(rendererAttributes, { hidden: false }), i, store); sprite.setAttributes(rendererAttributes, true); } rhoAcum += deltaRho; } } // Hide unused bars ln = group.getCount(); for (i = 0; i < ln; i++) { if (!slices[(i / layers) >> 0] && group.getAt(i)) { group.getAt(i).hide(true); } } if (enableShadows) { lnsh = shadowGroups.length; for (shindex = 0; shindex < ln; shindex++) { if (!slices[(shindex / layers) >> 0]) { for (j = 0; j < lnsh; j++) { if (shadowGroups[j].getAt(shindex)) { shadowGroups[j].getAt(shindex).hide(true); } } } } } me.renderLabels(); me.renderCallouts(); }, // @private callback for when creating a label sprite. onCreateLabel: function(storeItem, item, i, display) { var me = this, group = me.labelsGroup, config = me.label, centerX = me.centerX, centerY = me.centerY, middle = item.middle, endLabelStyle = Ext.apply(me.seriesLabelStyle || {}, config || {}); return me.chart.surface.add(Ext.apply({ 'type': 'text', 'text-anchor': 'middle', 'group': group, 'x': middle.x, 'y': middle.y }, endLabelStyle)); }, // @private callback for when placing a label sprite. onPlaceLabel: function(label, storeItem, item, i, display, animate, index) { var me = this, chart = me.chart, resizing = chart.resizing, config = me.label, format = config.renderer, field = [].concat(config.field), centerX = me.centerX, centerY = me.centerY, middle = item.middle, opt = { x: middle.x, y: middle.y }, x = middle.x - centerX, y = middle.y - centerY, from = {}, rho = 1, theta = Math.atan2(y, x || 1), dg = theta * 180 / Math.PI, prevDg; opt.hidden = false; if (this.__excludes && this.__excludes[i]) { opt.hidden = true; } function fixAngle(a) { if (a < 0) { a += 360; } return a % 360; } label.setAttributes({ text: format(storeItem.get(field[index])) }, true); switch (display) { case 'outside': rho = Math.sqrt(x * x + y * y) * 2; //update positions opt.x = rho * Math.cos(theta) + centerX; opt.y = rho * Math.sin(theta) + centerY; break; case 'rotate': dg = fixAngle(dg); dg = (dg > 90 && dg < 270) ? dg + 180: dg; prevDg = label.attr.rotation.degrees; if (prevDg != null && Math.abs(prevDg - dg) > 180 * 0.5) { if (dg > prevDg) { dg -= 360; } else { dg += 360; } dg = dg % 360; } else { dg = fixAngle(dg); } //update rotation angle opt.rotate = { degrees: dg, x: opt.x, y: opt.y }; break; default: break; } //ensure the object has zero translation opt.translate = { x: 0, y: 0 }; if (animate && !resizing && (display != 'rotate' || prevDg != null)) { me.onAnimate(label, { to: opt }); } else { label.setAttributes(opt, true); } label._from = from; }, // @private callback for when placing a callout sprite. onPlaceCallout: function(callout, storeItem, item, i, display, animate, index) { var me = this, chart = me.chart, centerX = me.centerX, centerY = me.centerY, middle = item.middle, opt = { x: middle.x, y: middle.y }, x = middle.x - centerX, y = middle.y - centerY, rho = 1, rhoCenter, theta = Math.atan2(y, x || 1), bbox = callout.label.getBBox(), offsetFromViz = 20, offsetToSide = 10, offsetBox = 10, p; //should be able to config this. rho = item.endRho + offsetFromViz; rhoCenter = (item.endRho + item.startRho) / 2 + (item.endRho - item.startRho) / 3; //update positions opt.x = rho * Math.cos(theta) + centerX; opt.y = rho * Math.sin(theta) + centerY; x = rhoCenter * Math.cos(theta); y = rhoCenter * Math.sin(theta); if (chart.animate) { //set the line from the middle of the pie to the box. me.onAnimate(callout.lines, { to: { path: ["M", x + centerX, y + centerY, "L", opt.x, opt.y, "Z", "M", opt.x, opt.y, "l", x > 0 ? offsetToSide: -offsetToSide, 0, "z"] } }); //set box position me.onAnimate(callout.box, { to: { x: opt.x + (x > 0 ? offsetToSide: -(offsetToSide + bbox.width + 2 * offsetBox)), y: opt.y + (y > 0 ? ( - bbox.height - offsetBox / 2) : ( - bbox.height - offsetBox / 2)), width: bbox.width + 2 * offsetBox, height: bbox.height + 2 * offsetBox } }); //set text position me.onAnimate(callout.label, { to: { x: opt.x + (x > 0 ? (offsetToSide + offsetBox) : -(offsetToSide + bbox.width + offsetBox)), y: opt.y + (y > 0 ? -bbox.height / 4: -bbox.height / 4) } }); } else { //set the line from the middle of the pie to the box. callout.lines.setAttributes({ path: ["M", x + centerX, y + centerY, "L", opt.x, opt.y, "Z", "M", opt.x, opt.y, "l", x > 0 ? offsetToSide: -offsetToSide, 0, "z"] }, true); //set box position callout.box.setAttributes({ x: opt.x + (x > 0 ? offsetToSide: -(offsetToSide + bbox.width + 2 * offsetBox)), y: opt.y + (y > 0 ? ( - bbox.height - offsetBox / 2) : ( - bbox.height - offsetBox / 2)), width: bbox.width + 2 * offsetBox, height: bbox.height + 2 * offsetBox }, true); //set text position callout.label.setAttributes({ x: opt.x + (x > 0 ? (offsetToSide + offsetBox) : -(offsetToSide + bbox.width + offsetBox)), y: opt.y + (y > 0 ? -bbox.height / 4: -bbox.height / 4) }, true); } for (p in callout) { callout[p].show(true); } }, // @private handles sprite animation for the series. onAnimate: function(sprite, attr) { sprite.show(); return this.callParent(arguments); }, isItemInPoint: function(x, y, item, i) { var me = this, cx = me.centerX, cy = me.centerY, abs = Math.abs, dx = abs(x - cx), dy = abs(y - cy), startAngle = item.startAngle, endAngle = item.endAngle, rho = Math.sqrt(dx * dx + dy * dy), angle = Math.atan2(y - cy, x - cx) / me.rad; // normalize to the same range of angles created by drawSeries if (angle > me.firstAngle) { angle -= me.accuracy; } return (angle <= startAngle && angle > endAngle && rho >= item.startRho && rho <= item.endRho); }, // @private hides all elements in the series. hideAll: function(index) { var i, l, shadow, shadows, sh, lsh, sprite; index = (isNaN(this._index) ? index : this._index) || 0; this.__excludes = this.__excludes || []; this.__excludes[index] = true; sprite = this.slices[index].sprite; for (sh = 0, lsh = sprite.length; sh < lsh; sh++) { sprite[sh].setAttributes({ hidden: true }, true); } if (this.slices[index].shadowAttrs) { for (i = 0, shadows = this.slices[index].shadowAttrs, l = shadows.length; i < l; i++) { shadow = shadows[i]; for (sh = 0, lsh = shadow.length; sh < lsh; sh++) { shadow[sh].setAttributes({ hidden: true }, true); } } } this.drawSeries(); }, // @private shows all elements in the series. showAll: function(index) { index = (isNaN(this._index) ? index : this._index) || 0; this.__excludes[index] = false; this.drawSeries(); }, /** * Highlight the specified item. If no item is provided the whole series will be highlighted. * @param item {Object} Info about the item; same format as returned by #getItemForPoint */ highlightItem: function(item) { var me = this, rad = me.rad, highlightSegment, animate, attrs, i, shadows, shadow, ln, to, itemHighlightSegment, prop, group, display, label, middle, r, x, y; item = item || this.items[this._index]; //TODO(nico): sometimes in IE itemmouseover is triggered //twice without triggering itemmouseout in between. This //fixes the highlighting bug. Eventually, events should be //changed to trigger one itemmouseout between two itemmouseovers. this.unHighlightItem(); if (!item || item.sprite && item.sprite._animating) { return; } me.callParent([item]); if (!me.highlight) { return; } if ('segment' in me.highlightCfg) { highlightSegment = me.highlightCfg.segment; animate = me.chart.animate; //animate labels if (me.labelsGroup) { group = me.labelsGroup; display = me.label.display; label = group.getAt(item.index); middle = (item.startAngle + item.endAngle) / 2 * rad; r = highlightSegment.margin || 0; x = r * Math.cos(middle); y = r * Math.sin(middle); //TODO(nico): rounding to 1e-10 //gives the right translation. Translation //was buggy for very small numbers. In this //case we're not looking to translate to very small //numbers but not to translate at all. if (Math.abs(x) < 1e-10) { x = 0; } if (Math.abs(y) < 1e-10) { y = 0; } if (animate) { label.stopAnimation(); label.animate({ to: { translate: { x: x, y: y } }, duration: me.highlightDuration }); } else { label.setAttributes({ translate: { x: x, y: y } }, true); } } //animate shadows if (me.chart.shadow && item.shadows) { i = 0; shadows = item.shadows; ln = shadows.length; for (; i < ln; i++) { shadow = shadows[i]; to = {}; itemHighlightSegment = item.sprite._from.segment; for (prop in itemHighlightSegment) { if (! (prop in highlightSegment)) { to[prop] = itemHighlightSegment[prop]; } } attrs = { segment: Ext.applyIf(to, me.highlightCfg.segment) }; if (animate) { shadow.stopAnimation(); shadow.animate({ to: attrs, duration: me.highlightDuration }); } else { shadow.setAttributes(attrs, true); } } } } }, /** * Un-highlights the specified item. If no item is provided it will un-highlight the entire series. * @param item {Object} Info about the item; same format as returned by #getItemForPoint */ unHighlightItem: function() { var me = this, items, animate, shadowsEnabled, group, len, i, j, display, shadowLen, p, to, ihs, hs, sprite, shadows, shadow, item, label, attrs; if (!me.highlight) { return; } if (('segment' in me.highlightCfg) && me.items) { items = me.items; animate = me.chart.animate; shadowsEnabled = !!me.chart.shadow; group = me.labelsGroup; len = items.length; i = 0; j = 0; display = me.label.display; for (; i < len; i++) { item = items[i]; if (!item) { continue; } sprite = item.sprite; if (sprite && sprite._highlighted) { //animate labels if (group) { label = group.getAt(item.index); attrs = Ext.apply({ translate: { x: 0, y: 0 } }, display == 'rotate' ? { rotate: { x: label.attr.x, y: label.attr.y, degrees: label.attr.rotation.degrees } }: {}); if (animate) { label.stopAnimation(); label.animate({ to: attrs, duration: me.highlightDuration }); } else { label.setAttributes(attrs, true); } } if (shadowsEnabled) { shadows = item.shadows; shadowLen = shadows.length; for (; j < shadowLen; j++) { to = {}; ihs = item.sprite._to.segment; hs = item.sprite._from.segment; Ext.apply(to, hs); for (p in ihs) { if (! (p in hs)) { to[p] = ihs[p]; } } shadow = shadows[j]; if (animate) { shadow.stopAnimation(); shadow.animate({ to: { segment: to }, duration: me.highlightDuration }); } else { shadow.setAttributes({ segment: to }, true); } } } } } } me.callParent(arguments); }, /** * Returns the color of the series (to be displayed as color for the series legend item). * @param item {Object} Info about the item; same format as returned by #getItemForPoint */ getLegendColor: function(index) { var me = this; return (me.colorSet && me.colorSet[index % me.colorSet.length]) || me.colorArrayStyle[index % me.colorArrayStyle.length]; } });