/** * Charts provide a flexible way to achieve a wide range of data visualization capablitities. * Each Chart gets its data directly from a {@link Ext.data.Store Store}, and automatically * updates its display whenever data in the Store changes. In addition, the look and feel * of a Chart can be customized using {@link Ext.chart.theme.Theme Theme}s. * * ## Creating a Simple Chart * * Every Chart has three key parts - a {@link Ext.data.Store Store} that contains the data, * an array of {@link Ext.chart.axis.Axis Axes} which define the boundaries of the Chart, * and one or more {@link Ext.chart.series.Series Series} to handle the visual rendering of the data points. * * ### 1. Creating a Store * * The first step is to create a {@link Ext.data.Model Model} that represents the type of * data that will be displayed in the Chart. For example the data for a chart that displays * a weather forecast could be represented as a series of "WeatherPoint" data points with * two fields - "temperature", and "date": * * Ext.define('WeatherPoint', { * extend: 'Ext.data.Model', * fields: ['temperature', 'date'] * }); * * Next a {@link Ext.data.Store Store} must be created. The store contains a collection of "WeatherPoint" Model instances. * The data could be loaded dynamically, but for sake of ease this example uses inline data: * * var store = Ext.create('Ext.data.Store', { * model: 'WeatherPoint', * data: [ * { temperature: 58, date: new Date(2011, 1, 1, 8) }, * { temperature: 63, date: new Date(2011, 1, 1, 9) }, * { temperature: 73, date: new Date(2011, 1, 1, 10) }, * { temperature: 78, date: new Date(2011, 1, 1, 11) }, * { temperature: 81, date: new Date(2011, 1, 1, 12) } * ] * }); * * For additional information on Models and Stores please refer to the [Data Guide](#/guide/data). * * ### 2. Creating the Chart object * * Now that a Store has been created it can be used in a Chart: * * Ext.create('Ext.chart.Chart', { * renderTo: Ext.getBody(), * width: 400, * height: 300, * store: store * }); * * That's all it takes to create a Chart instance that is backed by a Store. * However, if the above code is run in a browser, a blank screen will be displayed. * This is because the two pieces that are responsible for the visual display, * the Chart's {@link #cfg-axes axes} and {@link #cfg-series series}, have not yet been defined. * * ### 3. Configuring the Axes * * {@link Ext.chart.axis.Axis Axes} are the lines that define the boundaries of the data points that a Chart can display. * This example uses one of the most common Axes configurations - a horizontal "x" axis, and a vertical "y" axis: * * Ext.create('Ext.chart.Chart', { * ... * axes: [ * { * title: 'Temperature', * type: 'Numeric', * position: 'left', * fields: ['temperature'], * minimum: 0, * maximum: 100 * }, * { * title: 'Time', * type: 'Time', * position: 'bottom', * fields: ['date'], * dateFormat: 'ga' * } * ] * }); * * The "Temperature" axis is a vertical {@link Ext.chart.axis.Numeric Numeric Axis} and is positioned on the left edge of the Chart. * It represents the bounds of the data contained in the "WeatherPoint" Model's "temperature" field that was * defined above. The minimum value for this axis is "0", and the maximum is "100". * * The horizontal axis is a {@link Ext.chart.axis.Time Time Axis} and is positioned on the bottom edge of the Chart. * It represents the bounds of the data contained in the "WeatherPoint" Model's "date" field. * The {@link Ext.chart.axis.Time#cfg-dateFormat dateFormat} * configuration tells the Time Axis how to format it's labels. * * Here's what the Chart looks like now that it has its Axes configured: * * {@img Ext.chart.Chart/Ext.chart.Chart1.png Chart Axes} * * ### 4. Configuring the Series * * The final step in creating a simple Chart is to configure one or more {@link Ext.chart.series.Series Series}. * Series are responsible for the visual representation of the data points contained in the Store. * This example only has one Series: * * Ext.create('Ext.chart.Chart', { * ... * axes: [ * ... * ], * series: [ * { * type: 'line', * xField: 'date', * yField: 'temperature' * } * ] * }); * * This Series is a {@link Ext.chart.series.Line Line Series}, and it uses the "date" and "temperature" fields * from the "WeatherPoint" Models in the Store to plot its data points: * * {@img Ext.chart.Chart/Ext.chart.Chart2.png Line Series} * * See the [Line Charts Example](#!/example/charts/Charts.html) for a live demo. * * ## Themes * * The color scheme for a Chart can be easily changed using the {@link #cfg-theme theme} configuration option: * * Ext.create('Ext.chart.Chart', { * ... * theme: 'Green', * ... * }); * * {@img Ext.chart.Chart/Ext.chart.Chart3.png Green Theme} * * For more information on Charts please refer to the [Drawing and Charting Guide](#/guide/drawing_and_charting). * */ Ext.define('Ext.chart.Chart', { /* Begin Definitions */ alias: 'widget.chart', extend: 'Ext.draw.Component', mixins: { themeManager: 'Ext.chart.theme.Theme', mask: 'Ext.chart.Mask', navigation: 'Ext.chart.Navigation', bindable: 'Ext.util.Bindable', observable: 'Ext.util.Observable' }, uses: [ 'Ext.chart.series.Series' ], requires: [ 'Ext.util.MixedCollection', 'Ext.data.StoreManager', 'Ext.chart.Legend', 'Ext.chart.theme.Base', 'Ext.chart.theme.Theme', 'Ext.util.DelayedTask' ], /* End Definitions */ // @private viewBox: false, /** * @cfg {String} theme * The name of the theme to be used. A theme defines the colors and other visual displays of tick marks * on axis, text, title text, line colors, marker colors and styles, etc. Possible theme values are 'Base', 'Green', * 'Sky', 'Red', 'Purple', 'Blue', 'Yellow' and also six category themes 'Category1' to 'Category6'. Default value * is 'Base'. */ /** * @cfg {Boolean/Object} animate * True for the default animation (easing: 'ease' and duration: 500) or a standard animation config * object to be used for default chart animations. Defaults to false. */ animate: false, /** * @cfg {Boolean/Object} legend * True for the default legend display or a legend config object. Defaults to false. */ legend: false, /** * @cfg {Number} insetPadding * The amount of inset padding in pixels for the chart. Defaults to 10. */ insetPadding: 10, /** * @cfg {String[]} enginePriority * Defines the priority order for which Surface implementation to use. The first one supported by the current * environment will be used. Defaults to `['Svg', 'Vml']`. */ enginePriority: ['Svg', 'Vml'], /** * @cfg {Object/Boolean} background * The chart background. This can be a gradient object, image, or color. Defaults to false for no * background. For example, if `background` were to be a color we could set the object as * * background: { * //color string * fill: '#ccc' * } * * You can specify an image by using: * * background: { * image: 'http://path.to.image/' * } * * Also you can specify a gradient by using the gradient object syntax: * * background: { * gradient: { * id: 'gradientId', * angle: 45, * stops: { * 0: { * color: '#555' * } * 100: { * color: '#ddd' * } * } * } * } */ background: false, /** * @cfg {Object[]} gradients * Define a set of gradients that can be used as `fill` property in sprites. The gradients array is an * array of objects with the following properties: * * - **id** - string - The unique name of the gradient. * - **angle** - number, optional - The angle of the gradient in degrees. * - **stops** - object - An object with numbers as keys (from 0 to 100) and style objects as values * * For example: * * gradients: [{ * id: 'gradientId', * angle: 45, * stops: { * 0: { * color: '#555' * }, * 100: { * color: '#ddd' * } * } * }, { * id: 'gradientId2', * angle: 0, * stops: { * 0: { * color: '#590' * }, * 20: { * color: '#599' * }, * 100: { * color: '#ddd' * } * } * }] * * Then the sprites can use `gradientId` and `gradientId2` by setting the fill attributes to those ids, for example: * * sprite.setAttributes({ * fill: 'url(#gradientId)' * }, true); */ /** * @cfg {Ext.data.Store} store * The store that supplies data to this chart. */ /** * @cfg {Ext.chart.series.Series[]} series * Array of {@link Ext.chart.series.Series Series} instances or config objects. For example: * * series: [{ * type: 'column', * axis: 'left', * listeners: { * 'afterrender': function() { * console('afterrender'); * } * }, * xField: 'category', * yField: 'data1' * }] */ /** * @cfg {Ext.chart.axis.Axis[]} axes * Array of {@link Ext.chart.axis.Axis Axis} instances or config objects. For example: * * axes: [{ * type: 'Numeric', * position: 'left', * fields: ['data1'], * title: 'Number of Hits', * minimum: 0, * //one minor tick between two major ticks * minorTickSteps: 1 * }, { * type: 'Category', * position: 'bottom', * fields: ['name'], * title: 'Month of the Year' * }] */ constructor: function(config) { var me = this, defaultAnim; config = Ext.apply({}, config); me.initTheme(config.theme || me.theme); if (me.gradients) { Ext.apply(config, { gradients: me.gradients }); } if (me.background) { Ext.apply(config, { background: me.background }); } if (config.animate) { defaultAnim = { easing: 'ease', duration: 500 }; if (Ext.isObject(config.animate)) { config.animate = Ext.applyIf(config.animate, defaultAnim); } else { config.animate = defaultAnim; } } me.mixins.observable.constructor.call(me, config); if (config.enableMask) { me.mixins.mask.constructor.call(me); } me.mixins.navigation.constructor.call(me); me.callParent([config]); }, getChartStore: function(){ return this.substore || this.store; }, initComponent: function() { var me = this, axes, series; me.callParent(); me.addEvents( 'itemmousedown', 'itemmouseup', 'itemmouseover', 'itemmouseout', 'itemclick', 'itemdblclick', 'itemdragstart', 'itemdrag', 'itemdragend', /** * @event beforerefresh * Fires before a refresh to the chart data is called. If the beforerefresh handler returns false the * {@link #event-refresh} action will be cancelled. * @param {Ext.chart.Chart} this */ 'beforerefresh', /** * @event refresh * Fires after the chart data has been refreshed. * @param {Ext.chart.Chart} this */ 'refresh' ); Ext.applyIf(me, { zoom: { width: 1, height: 1, x: 0, y: 0 } }); me.maxGutter = [0, 0]; me.store = Ext.data.StoreManager.lookup(me.store); axes = me.axes; me.axes = new Ext.util.MixedCollection(false, function(a) { return a.position; }); if (axes) { me.axes.addAll(axes); } series = me.series; me.series = new Ext.util.MixedCollection(false, function(a) { return a.seriesId || (a.seriesId = Ext.id(null, 'ext-chart-series-')); }); if (series) { me.series.addAll(series); } if (me.legend !== false) { me.legend = new Ext.chart.Legend(Ext.applyIf({chart:me}, me.legend)); } me.on({ mousemove: me.onMouseMove, mouseleave: me.onMouseLeave, mousedown: me.onMouseDown, mouseup: me.onMouseUp, click: me.onClick, dblclick: me.onDblClick, scope: me }); }, // @private overrides the component method to set the correct dimensions to the chart. afterComponentLayout: function(width, height) { var me = this; if (Ext.isNumber(width) && Ext.isNumber(height)) { if (width !== me.curWidth || height !== me.curHeight) { me.curWidth = width; me.curHeight = height; me.redraw(true); } else if (me.needsRedraw) { delete me.needsRedraw; me.redraw(); } } this.callParent(arguments); }, /** * Redraws the chart. If animations are set this will animate the chart too. * @param {Boolean} resize (optional) flag which changes the default origin points of the chart for animations. */ redraw: function(resize) { var me = this, seriesItems = me.series.items, seriesLen = seriesItems.length, axesItems = me.axes.items, axesLen = axesItems.length, i, chartBBox = me.chartBBox = { x: 0, y: 0, height: me.curHeight, width: me.curWidth }, legend = me.legend; me.surface.setSize(chartBBox.width, chartBBox.height); // Instantiate Series and Axes for (i = 0; i < seriesLen; i++) { me.initializeSeries(seriesItems[i],i); } for (i = 0; i < axesLen; i++) { me.initializeAxis(axesItems[i]); } //process all views (aggregated data etc) on stores //before rendering. for (i = 0; i < axesLen; i++) { axesItems[i].processView(); } for (i = 0; i < axesLen; i++) { axesItems[i].drawAxis(true); } // Create legend if not already created if (legend !== false && legend.visible) { if (legend.update || !legend.created) { legend.create(); } } // Place axes properly, including influence from each other me.alignAxes(); // Reposition legend based on new axis alignment if (legend !== false && legend.visible) { legend.updatePosition(); } // Find the max gutter me.getMaxGutter(); // Draw axes and series me.resizing = !!resize; for (i = 0; i < axesLen; i++) { axesItems[i].drawAxis(); } for (i = 0; i < seriesLen; i++) { me.drawCharts(seriesItems[i]); } me.resizing = false; }, // @private set the store after rendering the chart. afterRender: function() { var ref, me = this; this.callParent(); if (me.categoryNames) { me.setCategoryNames(me.categoryNames); } if (me.tipRenderer) { ref = me.getFunctionRef(me.tipRenderer); me.setTipRenderer(ref.fn, ref.scope); } me.bindStore(me.store, true); me.refresh(); if (me.surface.engine === 'Vml') { me.on('added', me.onAddedVml, me); me.mon(Ext.container.Container.hierarchyEventSource, 'added', me.onContainerAddedVml, me); } }, // When using a vml surface we need to redraw when this chart or one of its ancestors // is moved to a new container after render, because moving the vml chart causes the // vml elements to go haywire, some displaing incorrectly or not displaying at all. // This appears to be caused by the component being moved to the detached body element // before being added to the new container. onAddedVml: function() { this.needsRedraw = true; // redraw after component layout }, onContainerAddedVml: function(container) { if (this.isDescendantOf(container)) { this.needsRedraw = true; // redraw after component layout } }, // @private get x and y position of the mouse cursor. getEventXY: function(e) { var me = this, box = this.surface.getRegion(), pageXY = e.getXY(), x = pageXY[0] - box.left, y = pageXY[1] - box.top; return [x, y]; }, onClick: function(e) { this.handleClick('itemclick', e); }, onDblClick: function(e) { this.handleClick('itemdblclick', e); }, // @private wrap the mouse down position to delegate the event to the series. handleClick: function(name, e) { var me = this, position = me.getEventXY(e), seriesItems = me.series.items, i, ln, series, item; // Ask each series if it has an item corresponding to (not necessarily exactly // on top of) the current mouse coords. Fire itemclick event. for (i = 0, ln = seriesItems.length; i < ln; i++) { series = seriesItems[i]; if (Ext.draw.Draw.withinBox(position[0], position[1], series.bbox)) { if (series.getItemForPoint) { item = series.getItemForPoint(position[0], position[1]); if (item) { series.fireEvent(name, item); } } } } }, // @private wrap the mouse down position to delegate the event to the series. onMouseDown: function(e) { var me = this, position = me.getEventXY(e), seriesItems = me.series.items, i, ln, series, item; if (me.enableMask) { me.mixins.mask.onMouseDown.call(me, e); } // Ask each series if it has an item corresponding to (not necessarily exactly // on top of) the current mouse coords. Fire itemmousedown event. for (i = 0, ln = seriesItems.length; i < ln; i++) { series = seriesItems[i]; if (Ext.draw.Draw.withinBox(position[0], position[1], series.bbox)) { if (series.getItemForPoint) { item = series.getItemForPoint(position[0], position[1]); if (item) { series.fireEvent('itemmousedown', item); } } } } }, // @private wrap the mouse up event to delegate it to the series. onMouseUp: function(e) { var me = this, position = me.getEventXY(e), seriesItems = me.series.items, i, ln, series, item; if (me.enableMask) { me.mixins.mask.onMouseUp.call(me, e); } // Ask each series if it has an item corresponding to (not necessarily exactly // on top of) the current mouse coords. Fire itemmouseup event. for (i = 0, ln = seriesItems.length; i < ln; i++) { series = seriesItems[i]; if (Ext.draw.Draw.withinBox(position[0], position[1], series.bbox)) { if (series.getItemForPoint) { item = series.getItemForPoint(position[0], position[1]); if (item) { series.fireEvent('itemmouseup', item); } } } } }, // @private wrap the mouse move event so it can be delegated to the series. onMouseMove: function(e) { var me = this, position = me.getEventXY(e), seriesItems = me.series.items, i, ln, series, item, last, storeItem, storeField; if (me.enableMask) { me.mixins.mask.onMouseMove.call(me, e); } // Ask each series if it has an item corresponding to (not necessarily exactly // on top of) the current mouse coords. Fire itemmouseover/out events. for (i = 0, ln = seriesItems.length; i < ln; i++) { series = seriesItems[i]; if (Ext.draw.Draw.withinBox(position[0], position[1], series.bbox)) { if (series.getItemForPoint) { item = series.getItemForPoint(position[0], position[1]); last = series._lastItemForPoint; storeItem = series._lastStoreItem; storeField = series._lastStoreField; if (item !== last || item && (item.storeItem != storeItem || item.storeField != storeField)) { if (last) { series.fireEvent('itemmouseout', last); delete series._lastItemForPoint; delete series._lastStoreField; delete series._lastStoreItem; } if (item) { series.fireEvent('itemmouseover', item); series._lastItemForPoint = item; series._lastStoreItem = item.storeItem; series._lastStoreField = item.storeField; } } } } else { last = series._lastItemForPoint; if (last) { series.fireEvent('itemmouseout', last); delete series._lastItemForPoint; delete series._lastStoreField; delete series._lastStoreItem; } } } }, // @private handle mouse leave event. onMouseLeave: function(e) { var me = this, seriesItems = me.series.items, i, ln, series; if (me.enableMask) { me.mixins.mask.onMouseLeave.call(me, e); } for (i = 0, ln = seriesItems.length; i < ln; i++) { series = seriesItems[i]; delete series._lastItemForPoint; } }, // @private buffered refresh for when we update the store delayRefresh: function() { var me = this; if (!me.refreshTask) { me.refreshTask = new Ext.util.DelayedTask(me.refresh, me); } me.refreshTask.delay(me.refreshBuffer); }, // @private refresh: function() { var me = this; if (me.rendered && me.curWidth !== undefined && me.curHeight !== undefined) { if (!me.isVisible(true) && !me.refreshPending) { me.setShowListeners('mon'); me.refreshPending = true; return; } if (me.fireEvent('beforerefresh', me) !== false) { me.redraw(); me.fireEvent('refresh', me); } } }, onShow: function(){ var me = this; me.callParent(arguments); if (me.refreshPending) { me.delayRefresh(); me.setShowListeners('mun'); } delete me.refreshPending; }, setShowListeners: function(method){ var me = this; me[method](Ext.container.Container.hierarchyEventSource, { scope: me, single: true, show: me.forceRefresh, expand: me.forceRefresh }); }, forceRefresh: function(container) { var me = this; if (me.isDescendantOf(container) && me.refreshPending) { // Add unbind here, because either expand/show could be fired, // so be sure to unbind the listener that didn't me.setShowListeners('mun'); me.delayRefresh(); } delete me.refreshPending; }, bindStore: function(store, initial) { var me = this; me.mixins.bindable.bindStore.apply(me, arguments); if (me.store && !initial) { me.refresh(); } }, getStoreListeners: function() { var refresh = this.refresh, delayRefresh = this.delayRefresh; return { refresh: refresh, add: delayRefresh, remove: delayRefresh, update: delayRefresh, clear: refresh }; }, // @private Create Axis initializeAxis: function(axis) { var me = this, chartBBox = me.chartBBox, w = chartBBox.width, h = chartBBox.height, x = chartBBox.x, y = chartBBox.y, themeAttrs = me.themeAttrs, config = { chart: me }; if (themeAttrs) { config.axisStyle = Ext.apply({}, themeAttrs.axis); config.axisLabelLeftStyle = Ext.apply({}, themeAttrs.axisLabelLeft); config.axisLabelRightStyle = Ext.apply({}, themeAttrs.axisLabelRight); config.axisLabelTopStyle = Ext.apply({}, themeAttrs.axisLabelTop); config.axisLabelBottomStyle = Ext.apply({}, themeAttrs.axisLabelBottom); config.axisTitleLeftStyle = Ext.apply({}, themeAttrs.axisTitleLeft); config.axisTitleRightStyle = Ext.apply({}, themeAttrs.axisTitleRight); config.axisTitleTopStyle = Ext.apply({}, themeAttrs.axisTitleTop); config.axisTitleBottomStyle = Ext.apply({}, themeAttrs.axisTitleBottom); } switch (axis.position) { case 'top': Ext.apply(config, { length: w, width: h, x: x, y: y }); break; case 'bottom': Ext.apply(config, { length: w, width: h, x: x, y: h }); break; case 'left': Ext.apply(config, { length: h, width: w, x: x, y: h }); break; case 'right': Ext.apply(config, { length: h, width: w, x: w, y: h }); break; } if (!axis.chart) { Ext.apply(config, axis); axis = me.axes.replace(Ext.createByAlias('axis.' + axis.type.toLowerCase(), config)); } else { Ext.apply(axis, config); } }, /** * @private Adjust the dimensions and positions of each axis and the chart body area after accounting * for the space taken up on each side by the axes and legend. */ alignAxes: function() { var me = this, axes = me.axes, axesItems = axes.items, axis, legend = me.legend, edges = ['top', 'right', 'bottom', 'left'], edge, i, ln, chartBBox, insetPadding = me.insetPadding, insets = { top: insetPadding, right: insetPadding, bottom: insetPadding, left: insetPadding }, isVertical, bbox, pos; function getAxis(edge) { var i = axes.findIndex('position', edge); return (i < 0) ? null : axes.getAt(i); } // Find the space needed by axes and legend as a positive inset from each edge for (i = 0, ln = edges.length; i < ln; i++) { edge = edges[i]; isVertical = (edge === 'left' || edge === 'right'); axis = getAxis(edge); // Add legend size if it's on this edge if (legend !== false) { if (legend.position === edge) { bbox = legend.getBBox(); insets[edge] += (isVertical ? bbox.width : bbox.height) + insets[edge]; } } // Add axis size if there's one on this edge only if it has been //drawn before. if (axis && axis.bbox) { bbox = axis.bbox; insets[edge] += (isVertical ? bbox.width : bbox.height); } } // Build the chart bbox based on the collected inset values chartBBox = { x: insets.left, y: insets.top, width: me.curWidth - insets.left - insets.right, height: me.curHeight - insets.top - insets.bottom }; me.chartBBox = chartBBox; // Go back through each axis and set its length and position based on the // corresponding edge of the chartBBox for (i = 0, ln = axesItems.length; i < ln; i++) { axis = axesItems[i]; pos = axis.position; isVertical = (pos === 'left' || pos === 'right'); axis.x = (pos === 'right' ? chartBBox.x + chartBBox.width : chartBBox.x); axis.y = (pos === 'top' ? chartBBox.y : chartBBox.y + chartBBox.height); axis.width = (isVertical ? chartBBox.width : chartBBox.height); axis.length = (isVertical ? chartBBox.height : chartBBox.width); } }, // @private initialize the series. initializeSeries: function(series, idx) { var me = this, themeAttrs = me.themeAttrs, seriesObj, markerObj, seriesThemes, st, markerThemes, colorArrayStyle = [], i = 0, l, config = { chart: me, seriesId: series.seriesId }; if (themeAttrs) { seriesThemes = themeAttrs.seriesThemes; markerThemes = themeAttrs.markerThemes; seriesObj = Ext.apply({}, themeAttrs.series); markerObj = Ext.apply({}, themeAttrs.marker); config.seriesStyle = Ext.apply(seriesObj, seriesThemes[idx % seriesThemes.length]); config.seriesLabelStyle = Ext.apply({}, themeAttrs.seriesLabel); config.markerStyle = Ext.apply(markerObj, markerThemes[idx % markerThemes.length]); if (themeAttrs.colors) { config.colorArrayStyle = themeAttrs.colors; } else { colorArrayStyle = []; for (l = seriesThemes.length; i < l; i++) { st = seriesThemes[i]; if (st.fill || st.stroke) { colorArrayStyle.push(st.fill || st.stroke); } } if (colorArrayStyle.length) { config.colorArrayStyle = colorArrayStyle; } } config.seriesIdx = idx; } if (series instanceof Ext.chart.series.Series) { Ext.apply(series, config); } else { Ext.applyIf(config, series); series = me.series.replace(Ext.createByAlias('series.' + series.type.toLowerCase(), config)); } if (series.initialize) { series.initialize(); } }, // @private getMaxGutter: function() { var me = this, seriesItems = me.series.items, i, ln, series, maxGutter = [0, 0], gutter; for (i = 0, ln = seriesItems.length; i < ln; i++) { series = seriesItems[i]; gutter = series.getGutters && series.getGutters() || [0, 0]; maxGutter[0] = Math.max(maxGutter[0], gutter[0]); maxGutter[1] = Math.max(maxGutter[1], gutter[1]); } me.maxGutter = maxGutter; }, // @private draw axis. drawAxis: function(axis) { axis.drawAxis(); }, // @private draw series. drawCharts: function(series) { series.triggerafterrender = false; series.drawSeries(); if (!this.animate) { series.fireEvent('afterrender'); } }, /** * Saves the chart by either triggering a download or returning a string containing the chart data * as SVG. The action depends on the export type specified in the passed configuration. The chart * will be exported using either the {@link Ext.draw.engine.SvgExporter} or the {@link Ext.draw.engine.ImageExporter} * classes. * * Possible export types: * * - 'image/png' * - 'image/jpeg', * - 'image/svg+xml' * * If 'image/svg+xml' is specified, the SvgExporter will be used. * If 'image/png' or 'image/jpeg' are specified, the ImageExporter will be used. This exporter * must post the SVG data to a remote server to have the data processed, see the {@link Ext.draw.engine.ImageExporter} * for more details. * * Example usage: * * chart.save({ * type: 'image/png' * }); * * @param {Object} [config] The configuration to be passed to the exporter. * See the export method for the appropriate exporter for the relevant * configuration options * @return {Object} See the return types for the appropriate exporter */ save: function(config){ return Ext.draw.Surface.save(this.surface, config); }, // @private remove gently. destroy: function() { Ext.destroy(this.surface); this.bindStore(null); this.callParent(arguments); } });