633 lines
20 KiB
JavaScript
633 lines
20 KiB
JavaScript
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//>>built
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define("dojox/charting/plot2d/Spider", ["dojo/_base/lang", "dojo/_base/declare", "dojo/_base/connect", "dojo/_base/html", "dojo/_base/array",
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"dojo/dom-geometry", "dojo/_base/fx", "dojo/fx", "dojo/_base/sniff",
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"../Element", "./_PlotEvents", "dojo/_base/Color", "dojox/color/_base", "./common", "../axis2d/common",
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"../scaler/primitive", "dojox/gfx", "dojox/gfx/matrix", "dojox/gfx/fx", "dojox/lang/functional",
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"dojox/lang/utils", "dojo/fx/easing"],
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function(lang, declare, hub, html, arr, domGeom, baseFx, coreFx, has,
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Element, PlotEvents, Color, dxcolor, dc, da, primitive,
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g, m, gfxfx, df, du, easing){
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/*=====
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var Element = dojox.charting.Element;
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var PlotEvents = dojox.charting.plot2d._PlotEvents;
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=====*/
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var FUDGE_FACTOR = 0.2; // use to overlap fans
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var Spider = declare("dojox.charting.plot2d.Spider", [Element, PlotEvents], {
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// summary:
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// The plot that represents a typical Spider chart.
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defaultParams: {
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labels: true,
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ticks: false,
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fixed: true,
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precision: 1,
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labelOffset: -10,
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labelStyle: "default", // default/rows/auto
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htmlLabels: true, // use HTML to draw labels
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startAngle: -90, // start angle for slices in degrees
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divisions: 3, // radius tick count
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axisColor: "", // spider axis color
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axisWidth: 0, // spider axis stroke width
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spiderColor: "", // spider web color
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spiderWidth: 0, // spider web stroke width
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seriesWidth: 0, // plot border with
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seriesFillAlpha: 0.2, // plot fill alpha
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spiderOrigin: 0.16,
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markerSize: 3, // radius of plot vertex (px)
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spiderType: "polygon", //"circle"
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animationType: easing.backOut,
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axisTickFont: "",
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axisTickFontColor: "",
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axisFont: "",
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axisFontColor: ""
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},
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optionalParams: {
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radius: 0,
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font: "",
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fontColor: ""
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},
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constructor: function(chart, kwArgs){
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// summary:
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// Create a Spider plot.
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this.opt = lang.clone(this.defaultParams);
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du.updateWithObject(this.opt, kwArgs);
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du.updateWithPattern(this.opt, kwArgs, this.optionalParams);
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this.series = [];
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this.dyn = [];
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this.datas = {};
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this.labelKey = [];
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this.oldSeriePoints = {};
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this.animations = {};
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},
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clear: function(){
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// summary:
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// Clear out all of the information tied to this plot.
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// returns: dojox.charting.plot2d.Spider
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// A reference to this plot for functional chaining.
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this.dirty = true;
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this.dyn = [];
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this.series = [];
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this.datas = {};
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this.labelKey = [];
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this.oldSeriePoints = {};
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this.animations = {};
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return this; // dojox.charting.plot2d.Spider
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},
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setAxis: function(axis){
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// summary:
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// Dummy method, since axes are irrelevant with a Spider chart.
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// returns: dojox.charting.plot2d.Spider
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// The reference to this plot for functional chaining.
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return this; // dojox.charting.plot2d.Spider
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},
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addSeries: function(run){
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// summary:
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// Add a data series to this plot.
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// run: dojox.charting.Series
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// The series to be added.
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// returns: dojox.charting.plot2d.Base
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// A reference to this plot for functional chaining.
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var matched = false;
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this.series.push(run);
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for(var key in run.data){
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var val = run.data[key],
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data = this.datas[key];
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if(data){
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data.vlist.push(val);
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data.min = Math.min(data.min, val);
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data.max = Math.max(data.max, val);
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}else{
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this.datas[key] = {min: val, max: val, vlist: [val]};
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}
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}
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if (this.labelKey.length <= 0) {
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for (var key in run.data) {
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this.labelKey.push(key);
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}
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}
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return this; // dojox.charting.plot2d.Base
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},
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getSeriesStats: function(){
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// summary:
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// Calculate the min/max on all attached series in both directions.
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// returns: Object
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// {hmin, hmax, vmin, vmax} min/max in both directions.
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return dc.collectSimpleStats(this.series);
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},
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calculateAxes: function(dim){
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// summary:
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// Stub function for running the axis calculations (depricated).
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// dim: Object
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// An object of the form { width, height }
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// returns: dojox.charting.plot2d.Base
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// A reference to this plot for functional chaining.
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this.initializeScalers(dim, this.getSeriesStats());
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return this; // dojox.charting.plot2d.Base
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},
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getRequiredColors: function(){
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// summary:
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// Get how many data series we have, so we know how many colors to use.
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// returns: Number
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// The number of colors needed.
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return this.series.length; // Number
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},
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initializeScalers: function(dim, stats){
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// summary:
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// Initializes scalers using attached axes.
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// dim: Object:
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// Size of a plot area in pixels as {width, height}.
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// stats: Object:
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// Min/max of data in both directions as {hmin, hmax, vmin, vmax}.
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// returns: dojox.charting.plot2d.Base
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// A reference to this plot for functional chaining.
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if(this._hAxis){
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if(!this._hAxis.initialized()){
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this._hAxis.calculate(stats.hmin, stats.hmax, dim.width);
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}
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this._hScaler = this._hAxis.getScaler();
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}else{
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this._hScaler = primitive.buildScaler(stats.hmin, stats.hmax, dim.width);
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}
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if(this._vAxis){
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if(!this._vAxis.initialized()){
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this._vAxis.calculate(stats.vmin, stats.vmax, dim.height);
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}
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this._vScaler = this._vAxis.getScaler();
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}else{
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this._vScaler = primitive.buildScaler(stats.vmin, stats.vmax, dim.height);
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}
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return this; // dojox.charting.plot2d.Base
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},
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render: function(dim, offsets){
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// summary:
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// Render the plot on the chart.
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// dim: Object
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// An object of the form { width, height }.
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// offsets: Object
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// An object of the form { l, r, t, b }.
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// returns: dojox.charting.plot2d.Spider
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// A reference to this plot for functional chaining.
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if(!this.dirty){ return this; }
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this.dirty = false;
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this.cleanGroup();
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var s = this.group, t = this.chart.theme;
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this.resetEvents();
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if(!this.series || !this.series.length){
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return this;
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}
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// calculate the geometry
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var o = this.opt, ta = t.axis,
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rx = (dim.width - offsets.l - offsets.r) / 2,
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ry = (dim.height - offsets.t - offsets.b) / 2,
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r = Math.min(rx, ry),
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axisTickFont = o.font || (ta.majorTick && ta.majorTick.font) || (ta.tick && ta.tick.font) || "normal normal normal 7pt Tahoma",
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axisFont = o.axisFont || (ta.tick && ta.tick.titleFont) || "normal normal normal 11pt Tahoma",
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axisTickFontColor = o.axisTickFontColor || (ta.majorTick && ta.majorTick.fontColor) || (ta.tick && ta.tick.fontColor) || "silver",
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axisFontColor = o.axisFontColor || (ta.tick && ta.tick.titleFontColor) || "black",
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axisColor = o.axisColor || (ta.tick && ta.tick.axisColor) || "silver",
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spiderColor = o.spiderColor || (ta.tick && ta.tick.spiderColor) || "silver",
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axisWidth = o.axisWidth || (ta.stroke && ta.stroke.width) || 2,
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spiderWidth = o.spiderWidth || (ta.stroke && ta.stroke.width) || 2,
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seriesWidth = o.seriesWidth || (ta.stroke && ta.stroke.width) || 2,
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asize = g.normalizedLength(g.splitFontString(axisFont).size),
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startAngle = m._degToRad(o.startAngle),
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start = startAngle, step, filteredRun, slices, labels, shift, labelR,
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outerPoints, innerPoints, divisionPoints, divisionRadius, labelPoints,
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ro = o.spiderOrigin, dv = o.divisions >= 3 ? o.divisions : 3, ms = o.markerSize,
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spt = o.spiderType, at = o.animationType, lboffset = o.labelOffset < -10 ? o.labelOffset : -10,
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axisExtra = 0.2;
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if(o.labels){
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labels = arr.map(this.series, function(s){
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return s.name;
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}, this);
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shift = df.foldl1(df.map(labels, function(label, i){
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var font = t.series.font;
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return g._base._getTextBox(label, {
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font: font
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}).w;
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}, this), "Math.max(a, b)") / 2;
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r = Math.min(rx - 2 * shift, ry - asize) + lboffset;
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labelR = r - lboffset;
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}
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if ("radius" in o) {
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r = o.radius;
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labelR = r - lboffset;
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}
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r /= (1+axisExtra);
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var circle = {
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cx: offsets.l + rx,
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cy: offsets.t + ry,
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r: r
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};
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for (var i = this.series.length - 1; i >= 0; i--) {
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var serieEntry = this.series[i];
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if (!this.dirty && !serieEntry.dirty) {
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t.skip();
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continue;
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}
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serieEntry.cleanGroup();
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var run = serieEntry.data;
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if (run !== null) {
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var len = this._getObjectLength(run);
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//construct connect points
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if (!outerPoints || outerPoints.length <= 0) {
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outerPoints = [], innerPoints = [], labelPoints = [];
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this._buildPoints(outerPoints, len, circle, r, start, true);
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this._buildPoints(innerPoints, len, circle, r*ro, start, true);
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this._buildPoints(labelPoints, len, circle, labelR, start);
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if(dv > 2){
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divisionPoints = [], divisionRadius = [];
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for (var j = 0; j < dv - 2; j++) {
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divisionPoints[j] = [];
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this._buildPoints(divisionPoints[j], len, circle, r*(ro + (1-ro)*(j+1)/(dv-1)), start, true);
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divisionRadius[j] = r*(ro + (1-ro)*(j+1)/(dv-1));
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}
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}
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}
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}
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}
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//draw Spider
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//axis
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var axisGroup = s.createGroup(), axisStroke = {color: axisColor, width: axisWidth},
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spiderStroke = {color: spiderColor, width: spiderWidth};
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for (var j = outerPoints.length - 1; j >= 0; --j) {
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var point = outerPoints[j],
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st = {
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x: point.x + (point.x - circle.cx) * axisExtra,
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y: point.y + (point.y - circle.cy) * axisExtra
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},
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nd = {
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x: point.x + (point.x - circle.cx) * axisExtra / 2,
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y: point.y + (point.y - circle.cy) * axisExtra / 2
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};
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axisGroup.createLine({
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x1: circle.cx,
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y1: circle.cy,
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x2: st.x,
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y2: st.y
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}).setStroke(axisStroke);
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//arrow
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this._drawArrow(axisGroup, st, nd, axisStroke);
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}
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// draw the label
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var labelGroup = s.createGroup();
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for (var j = labelPoints.length - 1; j >= 0; --j) {
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var point = labelPoints[j],
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fontWidth = g._base._getTextBox(this.labelKey[j], {font: axisFont}).w || 0,
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render = this.opt.htmlLabels && g.renderer != "vml" ? "html" : "gfx",
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elem = da.createText[render](this.chart, labelGroup, (!domGeom.isBodyLtr() && render == "html") ? (point.x + fontWidth - dim.width) : point.x, point.y,
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"middle", this.labelKey[j], axisFont, axisFontColor);
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if (this.opt.htmlLabels) {
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this.htmlElements.push(elem);
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}
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}
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//spider web: polygon or circle
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var spiderGroup = s.createGroup();
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if(spt == "polygon"){
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spiderGroup.createPolyline(outerPoints).setStroke(spiderStroke);
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spiderGroup.createPolyline(innerPoints).setStroke(spiderStroke);
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if (divisionPoints.length > 0) {
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for (var j = divisionPoints.length - 1; j >= 0; --j) {
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spiderGroup.createPolyline(divisionPoints[j]).setStroke(spiderStroke);
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}
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}
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}else{//circle
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var ccount = this._getObjectLength(this.datas);
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spiderGroup.createCircle({cx: circle.cx, cy: circle.cy, r: r}).setStroke(spiderStroke);
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spiderGroup.createCircle({cx: circle.cx, cy: circle.cy, r: r*ro}).setStroke(spiderStroke);
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if (divisionRadius.length > 0) {
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for (var j = divisionRadius.length - 1; j >= 0; --j) {
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spiderGroup.createCircle({cx: circle.cx, cy: circle.cy, r: divisionRadius[j]}).setStroke(spiderStroke);
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}
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}
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}
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//text
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var textGroup = s.createGroup(), len = this._getObjectLength(this.datas), k = 0;
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for(var key in this.datas){
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var data = this.datas[key], min = data.min, max = data.max, distance = max - min,
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end = start + 2 * Math.PI * k / len;
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for (var i = 0; i < dv; i++) {
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var text = min + distance*i/(dv-1), point = this._getCoordinate(circle, r*(ro + (1-ro)*i/(dv-1)), end);
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text = this._getLabel(text);
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var fontWidth = g._base._getTextBox(text, {font: axisTickFont}).w || 0,
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render = this.opt.htmlLabels && g.renderer != "vml" ? "html" : "gfx";
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if (this.opt.htmlLabels) {
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this.htmlElements.push(da.createText[render]
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(this.chart, textGroup, (!domGeom.isBodyLtr() && render == "html") ? (point.x + fontWidth - dim.width) : point.x, point.y,
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"start", text, axisTickFont, axisTickFontColor));
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}
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}
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k++;
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}
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//draw series (animation)
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this.chart.seriesShapes = {};
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var animationConnections = [];
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for (var i = this.series.length - 1; i >= 0; i--) {
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var serieEntry = this.series[i], run = serieEntry.data;
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if (run !== null) {
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//series polygon
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var seriePoints = [], k = 0, tipData = [];
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for(var key in run){
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var data = this.datas[key], min = data.min, max = data.max, distance = max - min,
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entry = run[key], end = start + 2 * Math.PI * k / len,
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point = this._getCoordinate(circle, r*(ro + (1-ro)*(entry-min)/distance), end);
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seriePoints.push(point);
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tipData.push({sname: serieEntry.name, key: key, data: entry});
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k++;
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}
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seriePoints[seriePoints.length] = seriePoints[0];
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tipData[tipData.length] = tipData[0];
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var polygonBoundRect = this._getBoundary(seriePoints),
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theme = t.next("spider", [o, serieEntry]), ts = serieEntry.group,
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f = g.normalizeColor(theme.series.fill), sk = {color: theme.series.fill, width: seriesWidth};
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f.a = o.seriesFillAlpha;
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serieEntry.dyn = {fill: f, stroke: sk};
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var osps = this.oldSeriePoints[serieEntry.name];
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var cs = this._createSeriesEntry(ts, (osps || innerPoints), seriePoints, f, sk, r, ro, ms, at);
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this.chart.seriesShapes[serieEntry.name] = cs;
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this.oldSeriePoints[serieEntry.name] = seriePoints;
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var po = {
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element: "spider_poly",
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index: i,
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id: "spider_poly_"+serieEntry.name,
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run: serieEntry,
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plot: this,
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shape: cs.poly,
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parent: ts,
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brect: polygonBoundRect,
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cx: circle.cx,
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cy: circle.cy,
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cr: r,
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f: f,
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s: s
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};
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this._connectEvents(po);
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||
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|
||
|
var so = {
|
||
|
element: "spider_plot",
|
||
|
index: i,
|
||
|
id: "spider_plot_"+serieEntry.name,
|
||
|
run: serieEntry,
|
||
|
plot: this,
|
||
|
shape: serieEntry.group
|
||
|
};
|
||
|
this._connectEvents(so);
|
||
|
|
||
|
arr.forEach(cs.circles, function(c, i){
|
||
|
var shape = c.getShape(),
|
||
|
co = {
|
||
|
element: "spider_circle",
|
||
|
index: i,
|
||
|
id: "spider_circle_"+serieEntry.name+i,
|
||
|
run: serieEntry,
|
||
|
plot: this,
|
||
|
shape: c,
|
||
|
parent: ts,
|
||
|
tdata: tipData[i],
|
||
|
cx: seriePoints[i].x,
|
||
|
cy: seriePoints[i].y,
|
||
|
f: f,
|
||
|
s: s
|
||
|
};
|
||
|
this._connectEvents(co);
|
||
|
}, this);
|
||
|
}
|
||
|
}
|
||
|
return this; // dojox.charting.plot2d.Spider
|
||
|
},
|
||
|
_createSeriesEntry: function(ts, osps, sps, f, sk, r, ro, ms, at){
|
||
|
//polygon
|
||
|
var spoly = ts.createPolyline(osps).setFill(f).setStroke(sk), scircle = [];
|
||
|
for (var j = 0; j < osps.length; j++) {
|
||
|
var point = osps[j], cr = ms;
|
||
|
var circle = ts.createCircle({cx: point.x, cy: point.y, r: cr}).setFill(f).setStroke(sk);
|
||
|
scircle.push(circle);
|
||
|
}
|
||
|
|
||
|
var anims = arr.map(sps, function(np, j){
|
||
|
// create animation
|
||
|
var sp = osps[j],
|
||
|
anim = new baseFx.Animation({
|
||
|
duration: 1000,
|
||
|
easing: at,
|
||
|
curve: [sp.y, np.y]
|
||
|
});
|
||
|
var spl = spoly, sc = scircle[j];
|
||
|
hub.connect(anim, "onAnimate", function(y){
|
||
|
//apply poly
|
||
|
var pshape = spl.getShape();
|
||
|
pshape.points[j].y = y;
|
||
|
spl.setShape(pshape);
|
||
|
//apply circle
|
||
|
var cshape = sc.getShape();
|
||
|
cshape.cy = y;
|
||
|
sc.setShape(cshape);
|
||
|
});
|
||
|
return anim;
|
||
|
});
|
||
|
|
||
|
var anims1 = arr.map(sps, function(np, j){
|
||
|
// create animation
|
||
|
var sp = osps[j],
|
||
|
anim = new baseFx.Animation({
|
||
|
duration: 1000,
|
||
|
easing: at,
|
||
|
curve: [sp.x, np.x]
|
||
|
});
|
||
|
var spl = spoly, sc = scircle[j];
|
||
|
hub.connect(anim, "onAnimate", function(x){
|
||
|
//apply poly
|
||
|
var pshape = spl.getShape();
|
||
|
pshape.points[j].x = x;
|
||
|
spl.setShape(pshape);
|
||
|
//apply circle
|
||
|
var cshape = sc.getShape();
|
||
|
cshape.cx = x;
|
||
|
sc.setShape(cshape);
|
||
|
});
|
||
|
return anim;
|
||
|
});
|
||
|
var masterAnimation = coreFx.combine(anims.concat(anims1)); //dojo.fx.chain(anims);
|
||
|
masterAnimation.play();
|
||
|
return {group :ts, poly: spoly, circles: scircle};
|
||
|
},
|
||
|
plotEvent: function(o){
|
||
|
// summary:
|
||
|
// Stub function for use by specific plots.
|
||
|
// o: Object
|
||
|
// An object intended to represent event parameters.
|
||
|
var runName = o.id ? o.id : "default", a;
|
||
|
if (runName in this.animations) {
|
||
|
a = this.animations[runName];
|
||
|
a.anim && a.anim.stop(true);
|
||
|
} else {
|
||
|
a = this.animations[runName] = {};
|
||
|
}
|
||
|
if(o.element == "spider_poly"){
|
||
|
if(!a.color){
|
||
|
var color = o.shape.getFill();
|
||
|
if(!color || !(color instanceof Color)){
|
||
|
return;
|
||
|
}
|
||
|
a.color = {
|
||
|
start: color,
|
||
|
end: transColor(color)
|
||
|
};
|
||
|
}
|
||
|
var start = a.color.start, end = a.color.end;
|
||
|
if(o.type == "onmouseout"){
|
||
|
// swap colors
|
||
|
var t = start; start = end; end = t;
|
||
|
}
|
||
|
a.anim = gfxfx.animateFill({
|
||
|
shape: o.shape,
|
||
|
duration: 800,
|
||
|
easing: easing.backOut,
|
||
|
color: {start: start, end: end}
|
||
|
});
|
||
|
a.anim.play();
|
||
|
}else if(o.element == "spider_circle"){
|
||
|
var init, scale, defaultScale = 1.5;
|
||
|
if(o.type == "onmouseover"){
|
||
|
init = m.identity;
|
||
|
scale = defaultScale;
|
||
|
//show tooltip
|
||
|
var aroundRect = {type: "rect"};
|
||
|
aroundRect.x = o.cx;
|
||
|
aroundRect.y = o.cy;
|
||
|
aroundRect.width = aroundRect.height = 1;
|
||
|
var lt = html.coords(this.chart.node, true);
|
||
|
aroundRect.x += lt.x;
|
||
|
aroundRect.y += lt.y;
|
||
|
aroundRect.x = Math.round(aroundRect.x);
|
||
|
aroundRect.y = Math.round(aroundRect.y);
|
||
|
aroundRect.width = Math.ceil(aroundRect.width);
|
||
|
aroundRect.height = Math.ceil(aroundRect.height);
|
||
|
this.aroundRect = aroundRect;
|
||
|
var position = ["after", "before"];
|
||
|
dc.doIfLoaded("dijit/Tooltip", dojo.hitch(this, function(Tooltip){
|
||
|
Tooltip.show(o.tdata.sname + "<br/>" + o.tdata.key + "<br/>" + o.tdata.data, this.aroundRect, position);
|
||
|
}));
|
||
|
}else{
|
||
|
init = m.scaleAt(defaultScale, o.cx, o.cy);
|
||
|
scale = 1/defaultScale;
|
||
|
dc.doIfLoaded("dijit/Tooltip", dojo.hitch(this, function(Tooltip){
|
||
|
this.aroundRect && Tooltip.hide(this.aroundRect);
|
||
|
}));
|
||
|
}
|
||
|
var cs = o.shape.getShape(),
|
||
|
init = m.scaleAt(defaultScale, cs.cx, cs.cy),
|
||
|
kwArgs = {
|
||
|
shape: o.shape,
|
||
|
duration: 200,
|
||
|
easing: easing.backOut,
|
||
|
transform: [
|
||
|
{name: "scaleAt", start: [1, cs.cx, cs.cy], end: [scale, cs.cx, cs.cy]},
|
||
|
init
|
||
|
]
|
||
|
};
|
||
|
a.anim = gfxfx.animateTransform(kwArgs);
|
||
|
a.anim.play();
|
||
|
}else if(o.element == "spider_plot"){
|
||
|
//dojo gfx function "moveToFront" not work in IE
|
||
|
if (o.type == "onmouseover" && !has("ie")) {
|
||
|
o.shape.moveToFront();
|
||
|
}
|
||
|
}
|
||
|
},
|
||
|
_getBoundary: function(points){
|
||
|
var xmax = points[0].x,
|
||
|
xmin = points[0].x,
|
||
|
ymax = points[0].y,
|
||
|
ymin = points[0].y;
|
||
|
for(var i = 0; i < points.length; i++){
|
||
|
var point = points[i];
|
||
|
xmax = Math.max(point.x, xmax);
|
||
|
ymax = Math.max(point.y, ymax);
|
||
|
xmin = Math.min(point.x, xmin);
|
||
|
ymin = Math.min(point.y, ymin);
|
||
|
}
|
||
|
return {
|
||
|
x: xmin,
|
||
|
y: ymin,
|
||
|
width: xmax - xmin,
|
||
|
height: ymax - ymin
|
||
|
};
|
||
|
},
|
||
|
|
||
|
_drawArrow: function(s, start, end, stroke){
|
||
|
var len = Math.sqrt(Math.pow(end.x - start.x, 2) + Math.pow(end.y - start.y, 2)),
|
||
|
sin = (end.y - start.y)/len, cos = (end.x - start.x)/len,
|
||
|
point2 = {x: end.x + (len/3)*(-sin), y: end.y + (len/3)*cos},
|
||
|
point3 = {x: end.x + (len/3)*sin, y: end.y + (len/3)*(-cos)};
|
||
|
s.createPolyline([start, point2, point3]).setFill(stroke.color).setStroke(stroke);
|
||
|
},
|
||
|
|
||
|
_buildPoints: function(points, count, circle, radius, angle, recursive){
|
||
|
for (var i = 0; i < count; i++) {
|
||
|
var end = angle + 2 * Math.PI * i / count;
|
||
|
points.push(this._getCoordinate(circle, radius, end));
|
||
|
}
|
||
|
if(recursive){
|
||
|
points.push(this._getCoordinate(circle, radius, angle + 2 * Math.PI));
|
||
|
}
|
||
|
},
|
||
|
|
||
|
_getCoordinate: function(circle, radius, angle){
|
||
|
return {
|
||
|
x: circle.cx + radius * Math.cos(angle),
|
||
|
y: circle.cy + radius * Math.sin(angle)
|
||
|
}
|
||
|
},
|
||
|
|
||
|
_getObjectLength: function(obj){
|
||
|
var count = 0;
|
||
|
if(lang.isObject(obj)){
|
||
|
for(var key in obj){
|
||
|
count++;
|
||
|
}
|
||
|
}
|
||
|
return count;
|
||
|
},
|
||
|
|
||
|
// utilities
|
||
|
_getLabel: function(number){
|
||
|
return dc.getLabel(number, this.opt.fixed, this.opt.precision);
|
||
|
}
|
||
|
});
|
||
|
|
||
|
function transColor(color){
|
||
|
var a = new dxcolor.Color(color),
|
||
|
x = a.toHsl();
|
||
|
if(x.s == 0){
|
||
|
x.l = x.l < 50 ? 100 : 0;
|
||
|
}else{
|
||
|
x.s = 100;
|
||
|
if(x.l < 50){
|
||
|
x.l = 75;
|
||
|
}else if(x.l > 75){
|
||
|
x.l = 50;
|
||
|
}else{
|
||
|
x.l = x.l - 50 > 75 - x.l ?
|
||
|
50 : 75;
|
||
|
}
|
||
|
}
|
||
|
var color = dxcolor.fromHsl(x);
|
||
|
color.a = 0.7;
|
||
|
return color;
|
||
|
}
|
||
|
|
||
|
return Spider; // dojox.plot2d.Spider
|
||
|
});
|