//>>built define("dojox/charting/plot2d/Scatter", ["dojo/_base/lang", "dojo/_base/array", "dojo/_base/declare", "./Base", "./common", "dojox/lang/functional", "dojox/lang/functional/reversed", "dojox/lang/utils", "dojox/gfx/fx", "dojox/gfx/gradutils"], function(lang, arr, declare, Base, dc, df, dfr, du, fx, gradutils){ /*===== var Base = dojox.charting.plot2d.Base; =====*/ var purgeGroup = dfr.lambda("item.purgeGroup()"); return declare("dojox.charting.plot2d.Scatter", Base, { // summary: // A plot object representing a typical scatter chart. defaultParams: { hAxis: "x", // use a horizontal axis named "x" vAxis: "y", // use a vertical axis named "y" shadows: null, // draw shadows animate: null // animate chart to place }, optionalParams: { // theme component markerStroke: {}, markerOutline: {}, markerShadow: {}, markerFill: {}, markerFont: "", markerFontColor: "" }, constructor: function(chart, kwArgs){ // summary: // Create the scatter plot. // chart: dojox.charting.Chart // The chart this plot belongs to. // kwArgs: dojox.charting.plot2d.__DefaultCtorArgs? // An optional keyword arguments object to help define this plot's parameters. this.opt = lang.clone(this.defaultParams); du.updateWithObject(this.opt, kwArgs); du.updateWithPattern(this.opt, kwArgs, this.optionalParams); this.series = []; this.hAxis = this.opt.hAxis; this.vAxis = this.opt.vAxis; this.animate = this.opt.animate; }, render: function(dim, offsets){ // summary: // Run the calculations for any axes for this plot. // dim: Object // An object in the form of { width, height } // offsets: Object // An object of the form { l, r, t, b}. // returns: dojox.charting.plot2d.Scatter // A reference to this plot for functional chaining. if(this.zoom && !this.isDataDirty()){ return this.performZoom(dim, offsets); } this.resetEvents(); this.dirty = this.isDirty(); if(this.dirty){ arr.forEach(this.series, purgeGroup); this._eventSeries = {}; this.cleanGroup(); var s = this.group; df.forEachRev(this.series, function(item){ item.cleanGroup(s); }); } var t = this.chart.theme, events = this.events(); for(var i = this.series.length - 1; i >= 0; --i){ var run = this.series[i]; if(!this.dirty && !run.dirty){ t.skip(); this._reconnectEvents(run.name); continue; } run.cleanGroup(); if(!run.data.length){ run.dirty = false; t.skip(); continue; } var theme = t.next("marker", [this.opt, run]), s = run.group, lpoly, ht = this._hScaler.scaler.getTransformerFromModel(this._hScaler), vt = this._vScaler.scaler.getTransformerFromModel(this._vScaler); if(typeof run.data[0] == "number"){ lpoly = arr.map(run.data, function(v, i){ return { x: ht(i + 1) + offsets.l, y: dim.height - offsets.b - vt(v) }; }, this); }else{ lpoly = arr.map(run.data, function(v, i){ return { x: ht(v.x) + offsets.l, y: dim.height - offsets.b - vt(v.y) }; }, this); } var shadowMarkers = new Array(lpoly.length), frontMarkers = new Array(lpoly.length), outlineMarkers = new Array(lpoly.length); arr.forEach(lpoly, function(c, i){ var finalTheme = typeof run.data[i] == "number" ? t.post(theme, "marker") : t.addMixin(theme, "marker", run.data[i], true), path = "M" + c.x + " " + c.y + " " + finalTheme.symbol; if(finalTheme.marker.shadow){ shadowMarkers[i] = s.createPath("M" + (c.x + finalTheme.marker.shadow.dx) + " " + (c.y + finalTheme.marker.shadow.dy) + " " + finalTheme.symbol). setStroke(finalTheme.marker.shadow).setFill(finalTheme.marker.shadow.color); if(this.animate){ this._animateScatter(shadowMarkers[i], dim.height - offsets.b); } } if(finalTheme.marker.outline){ var outline = dc.makeStroke(finalTheme.marker.outline); outline.width = 2 * outline.width + finalTheme.marker.stroke.width; outlineMarkers[i] = s.createPath(path).setStroke(outline); if(this.animate){ this._animateScatter(outlineMarkers[i], dim.height - offsets.b); } } var stroke = dc.makeStroke(finalTheme.marker.stroke), fill = this._plotFill(finalTheme.marker.fill, dim, offsets); if(fill && (fill.type === "linear" || fill.type == "radial")){ var color = gradutils.getColor(fill, {x: c.x, y: c.y}); if(stroke){ stroke.color = color; } frontMarkers[i] = s.createPath(path).setStroke(stroke).setFill(color); }else{ frontMarkers[i] = s.createPath(path).setStroke(stroke).setFill(fill); } if(this.animate){ this._animateScatter(frontMarkers[i], dim.height - offsets.b); } }, this); if(frontMarkers.length){ run.dyn.stroke = frontMarkers[frontMarkers.length - 1].getStroke(); run.dyn.fill = frontMarkers[frontMarkers.length - 1].getFill(); } if(events){ var eventSeries = new Array(frontMarkers.length); arr.forEach(frontMarkers, function(s, i){ var o = { element: "marker", index: i, run: run, shape: s, outline: outlineMarkers && outlineMarkers[i] || null, shadow: shadowMarkers && shadowMarkers[i] || null, cx: lpoly[i].x, cy: lpoly[i].y }; if(typeof run.data[0] == "number"){ o.x = i + 1; o.y = run.data[i]; }else{ o.x = run.data[i].x; o.y = run.data[i].y; } this._connectEvents(o); eventSeries[i] = o; }, this); this._eventSeries[run.name] = eventSeries; }else{ delete this._eventSeries[run.name]; } run.dirty = false; } this.dirty = false; return this; // dojox.charting.plot2d.Scatter }, _animateScatter: function(shape, offset){ fx.animateTransform(lang.delegate({ shape: shape, duration: 1200, transform: [ {name: "translate", start: [0, offset], end: [0, 0]}, {name: "scale", start: [0, 0], end: [1, 1]}, {name: "original"} ] }, this.animate)).play(); } }); });