/*
Copyright (c) 2004-2011, The Dojo Foundation All Rights Reserved.
Available via Academic Free License >= 2.1 OR the modified BSD license.
see: http://dojotoolkit.org/license for details
*/
if(!dojo._hasResource["dojox.charting.Chart"]){ //_hasResource checks added by build. Do not use _hasResource directly in your code.
dojo._hasResource["dojox.charting.Chart"] = true;
dojo.provide("dojox.charting.Chart");
dojo.require("dojox.gfx");
dojo.require("dojox.lang.functional");
dojo.require("dojox.lang.functional.fold");
dojo.require("dojox.lang.functional.reversed");
dojo.require("dojox.charting.Element");
dojo.require("dojox.charting.Theme");
dojo.require("dojox.charting.Series");
dojo.require("dojox.charting.axis2d.common");
/*=====
dojox.charting.__ChartCtorArgs = function(margins, stroke, fill, delayInMs){
// summary:
// The keyword arguments that can be passed in a Chart constructor.
//
// margins: Object?
// Optional margins for the chart, in the form of { l, t, r, b}.
// stroke: dojox.gfx.Stroke?
// An optional outline/stroke for the chart.
// fill: dojox.gfx.Fill?
// An optional fill for the chart.
// delayInMs: Number
// Delay in ms for delayedRender(). Default: 200.
this.margins = margins;
this.stroke = stroke;
this.fill = fill;
this.delayInMs = delayInMs;
}
=====*/
(function(){
var df = dojox.lang.functional, dc = dojox.charting, g = dojox.gfx,
clear = df.lambda("item.clear()"),
purge = df.lambda("item.purgeGroup()"),
destroy = df.lambda("item.destroy()"),
makeClean = df.lambda("item.dirty = false"),
makeDirty = df.lambda("item.dirty = true"),
getName = df.lambda("item.name");
dojo.declare("dojox.charting.Chart", null, {
// summary:
// The main chart object in dojox.charting. This will create a two dimensional
// chart based on dojox.gfx.
//
// description:
// dojox.charting.Chart is the primary object used for any kind of charts. It
// is simple to create--just pass it a node reference, which is used as the
// container for the chart--and a set of optional keyword arguments and go.
//
// Note that like most of dojox.gfx, most of dojox.charting.Chart's methods are
// designed to return a reference to the chart itself, to allow for functional
// chaining. This makes defining everything on a Chart very easy to do.
//
// example:
// Create an area chart, with smoothing.
// | new dojox.charting.Chart(node))
// | .addPlot("default", { type: "Areas", tension: "X" })
// | .setTheme(dojox.charting.themes.Shrooms)
// | .addSeries("Series A", [1, 2, 0.5, 1.5, 1, 2.8, 0.4])
// | .addSeries("Series B", [2.6, 1.8, 2, 1, 1.4, 0.7, 2])
// | .addSeries("Series C", [6.3, 1.8, 3, 0.5, 4.4, 2.7, 2])
// | .render();
//
// example:
// The form of data in a data series can take a number of forms: a simple array,
// an array of objects {x,y}, or something custom (as determined by the plot).
// Here's an example of a Candlestick chart, which expects an object of
// { open, high, low, close }.
// | new dojox.charting.Chart(node))
// | .addPlot("default", {type: "Candlesticks", gap: 1})
// | .addAxis("x", {fixLower: "major", fixUpper: "major", includeZero: true})
// | .addAxis("y", {vertical: true, fixLower: "major", fixUpper: "major", natural: true})
// | .addSeries("Series A", [
// | { open: 20, close: 16, high: 22, low: 8 },
// | { open: 16, close: 22, high: 26, low: 6, mid: 18 },
// | { open: 22, close: 18, high: 22, low: 11, mid: 21 },
// | { open: 18, close: 29, high: 32, low: 14, mid: 27 },
// | { open: 29, close: 24, high: 29, low: 13, mid: 27 },
// | { open: 24, close: 8, high: 24, low: 5 },
// | { open: 8, close: 16, high: 22, low: 2 },
// | { open: 16, close: 12, high: 19, low: 7 },
// | { open: 12, close: 20, high: 22, low: 8 },
// | { open: 20, close: 16, high: 22, low: 8 },
// | { open: 16, close: 22, high: 26, low: 6, mid: 18 },
// | { open: 22, close: 18, high: 22, low: 11, mid: 21 },
// | { open: 18, close: 29, high: 32, low: 14, mid: 27 },
// | { open: 29, close: 24, high: 29, low: 13, mid: 27 },
// | { open: 24, close: 8, high: 24, low: 5 },
// | { open: 8, close: 16, high: 22, low: 2 },
// | { open: 16, close: 12, high: 19, low: 7 },
// | { open: 12, close: 20, high: 22, low: 8 },
// | { open: 20, close: 16, high: 22, low: 8 },
// | { open: 16, close: 22, high: 26, low: 6 },
// | { open: 22, close: 18, high: 22, low: 11 },
// | { open: 18, close: 29, high: 32, low: 14 },
// | { open: 29, close: 24, high: 29, low: 13 },
// | { open: 24, close: 8, high: 24, low: 5 },
// | { open: 8, close: 16, high: 22, low: 2 },
// | { open: 16, close: 12, high: 19, low: 7 },
// | { open: 12, close: 20, high: 22, low: 8 },
// | { open: 20, close: 16, high: 22, low: 8 }
// | ],
// | { stroke: { color: "green" }, fill: "lightgreen" }
// | )
// | .render();
//
// theme: dojox.charting.Theme?
// An optional theme to use for styling the chart.
// axes: dojox.charting.Axis{}?
// A map of axes for use in plotting a chart.
// stack: dojox.charting.plot2d.Base[]
// A stack of plotters.
// plots: dojox.charting.plot2d.Base{}
// A map of plotter indices
// series: dojox.charting.Series[]
// The stack of data runs used to create plots.
// runs: dojox.charting.Series{}
// A map of series indices
// margins: Object?
// The margins around the chart. Default is { l:10, t:10, r:10, b:10 }.
// stroke: dojox.gfx.Stroke?
// The outline of the chart (stroke in vector graphics terms).
// fill: dojox.gfx.Fill?
// The color for the chart.
// node: DOMNode
// The container node passed to the constructor.
// surface: dojox.gfx.Surface
// The main graphics surface upon which a chart is drawn.
// dirty: Boolean
// A boolean flag indicating whether or not the chart needs to be updated/re-rendered.
// coords: Object
// The coordinates on a page of the containing node, as returned from dojo.coords.
constructor: function(/* DOMNode */node, /* dojox.charting.__ChartCtorArgs? */kwArgs){
// summary:
// The constructor for a new Chart. Initializes all parameters used for a chart.
// returns: dojox.charting.Chart
// The newly created chart.
// initialize parameters
if(!kwArgs){ kwArgs = {}; }
this.margins = kwArgs.margins ? kwArgs.margins : {l: 10, t: 10, r: 10, b: 10};
this.stroke = kwArgs.stroke;
this.fill = kwArgs.fill;
this.delayInMs = kwArgs.delayInMs || 200;
this.title = kwArgs.title;
this.titleGap = kwArgs.titleGap;
this.titlePos = kwArgs.titlePos;
this.titleFont = kwArgs.titleFont;
this.titleFontColor = kwArgs.titleFontColor;
this.chartTitle = null;
// default initialization
this.theme = null;
this.axes = {}; // map of axes
this.stack = []; // stack of plotters
this.plots = {}; // map of plotter indices
this.series = []; // stack of data runs
this.runs = {}; // map of data run indices
this.dirty = true;
this.coords = null;
// create a surface
this.node = dojo.byId(node);
var box = dojo.marginBox(node);
this.surface = g.createSurface(this.node, box.w || 400, box.h || 300);
},
destroy: function(){
// summary:
// Cleanup when a chart is to be destroyed.
// returns: void
dojo.forEach(this.series, destroy);
dojo.forEach(this.stack, destroy);
df.forIn(this.axes, destroy);
if(this.chartTitle && this.chartTitle.tagName){
// destroy title if it is a DOM node
dojo.destroy(this.chartTitle);
}
this.surface.destroy();
},
getCoords: function(){
// summary:
// Get the coordinates and dimensions of the containing DOMNode, as
// returned by dojo.coords.
// returns: Object
// The resulting coordinates of the chart. See dojo.coords for details.
if(!this.coords){
this.coords = dojo.coords(this.node, true);
}
return this.coords; // Object
},
setTheme: function(theme){
// summary:
// Set a theme of the chart.
// theme: dojox.charting.Theme
// The theme to be used for visual rendering.
// returns: dojox.charting.Chart
// A reference to the current chart for functional chaining.
this.theme = theme.clone();
this.dirty = true;
return this; // dojox.charting.Chart
},
addAxis: function(name, kwArgs){
// summary:
// Add an axis to the chart, for rendering.
// name: String
// The name of the axis.
// kwArgs: dojox.charting.axis2d.__AxisCtorArgs?
// An optional keyword arguments object for use in defining details of an axis.
// returns: dojox.charting.Chart
// A reference to the current chart for functional chaining.
var axis, axisType = kwArgs && kwArgs.type || "Default";
if(typeof axisType == "string"){
if(!dc.axis2d || !dc.axis2d[axisType]){
throw Error("Can't find axis: " + axisType + " - didn't you forget to dojo" + ".require() it?");
}
axis = new dc.axis2d[axisType](this, kwArgs);
}else{
axis = new axisType(this, kwArgs);
}
axis.name = name;
axis.dirty = true;
if(name in this.axes){
this.axes[name].destroy();
}
this.axes[name] = axis;
this.dirty = true;
return this; // dojox.charting.Chart
},
getAxis: function(name){
// summary:
// Get the given axis, by name.
// name: String
// The name the axis was defined by.
// returns: dojox.charting.axis2d.Default
// The axis as stored in the chart's axis map.
return this.axes[name]; // dojox.charting.axis2d.Default
},
removeAxis: function(name){
// summary:
// Remove the axis that was defined using name.
// name: String
// The axis name, as defined in addAxis.
// returns: dojox.charting.Chart
// A reference to the current chart for functional chaining.
if(name in this.axes){
// destroy the axis
this.axes[name].destroy();
delete this.axes[name];
// mark the chart as dirty
this.dirty = true;
}
return this; // dojox.charting.Chart
},
addPlot: function(name, kwArgs){
// summary:
// Add a new plot to the chart, defined by name and using the optional keyword arguments object.
// Note that dojox.charting assumes the main plot to be called "default"; if you do not have
// a plot called "default" and attempt to add data series to the chart without specifying the
// plot to be rendered on, you WILL get errors.
// name: String
// The name of the plot to be added to the chart. If you only plan on using one plot, call it "default".
// kwArgs: dojox.charting.plot2d.__PlotCtorArgs
// An object with optional parameters for the plot in question.
// returns: dojox.charting.Chart
// A reference to the current chart for functional chaining.
var plot, plotType = kwArgs && kwArgs.type || "Default";
if(typeof plotType == "string"){
if(!dc.plot2d || !dc.plot2d[plotType]){
throw Error("Can't find plot: " + plotType + " - didn't you forget to dojo" + ".require() it?");
}
plot = new dc.plot2d[plotType](this, kwArgs);
}else{
plot = new plotType(this, kwArgs);
}
plot.name = name;
plot.dirty = true;
if(name in this.plots){
this.stack[this.plots[name]].destroy();
this.stack[this.plots[name]] = plot;
}else{
this.plots[name] = this.stack.length;
this.stack.push(plot);
}
this.dirty = true;
return this; // dojox.charting.Chart
},
removePlot: function(name){
// summary:
// Remove the plot defined using name from the chart's plot stack.
// name: String
// The name of the plot as defined using addPlot.
// returns: dojox.charting.Chart
// A reference to the current chart for functional chaining.
if(name in this.plots){
// get the index and remove the name
var index = this.plots[name];
delete this.plots[name];
// destroy the plot
this.stack[index].destroy();
// remove the plot from the stack
this.stack.splice(index, 1);
// update indices to reflect the shift
df.forIn(this.plots, function(idx, name, plots){
if(idx > index){
plots[name] = idx - 1;
}
});
// remove all related series
var ns = dojo.filter(this.series, function(run){ return run.plot != name; });
if(ns.length < this.series.length){
// kill all removed series
dojo.forEach(this.series, function(run){
if(run.plot == name){
run.destroy();
}
});
// rebuild all necessary data structures
this.runs = {};
dojo.forEach(ns, function(run, index){
this.runs[run.plot] = index;
}, this);
this.series = ns;
}
// mark the chart as dirty
this.dirty = true;
}
return this; // dojox.charting.Chart
},
getPlotOrder: function(){
// summary:
// Returns an array of plot names in the current order
// (the top-most plot is the first).
// returns: Array
return df.map(this.stack, getName); // Array
},
setPlotOrder: function(newOrder){
// summary:
// Sets new order of plots. newOrder cannot add or remove
// plots. Wrong names, or dups are ignored.
// newOrder: Array:
// Array of plot names compatible with getPlotOrder().
// returns: dojox.charting.Chart
// A reference to the current chart for functional chaining.
var names = {},
order = df.filter(newOrder, function(name){
if(!(name in this.plots) || (name in names)){
return false;
}
names[name] = 1;
return true;
}, this);
if(order.length < this.stack.length){
df.forEach(this.stack, function(plot){
var name = plot.name;
if(!(name in names)){
order.push(name);
}
});
}
var newStack = df.map(order, function(name){
return this.stack[this.plots[name]];
}, this);
df.forEach(newStack, function(plot, i){
this.plots[plot.name] = i;
}, this);
this.stack = newStack;
this.dirty = true;
return this; // dojox.charting.Chart
},
movePlotToFront: function(name){
// summary:
// Moves a given plot to front.
// name: String:
// Plot's name to move.
// returns: dojox.charting.Chart
// A reference to the current chart for functional chaining.
if(name in this.plots){
var index = this.plots[name];
if(index){
var newOrder = this.getPlotOrder();
newOrder.splice(index, 1);
newOrder.unshift(name);
return this.setPlotOrder(newOrder); // dojox.charting.Chart
}
}
return this; // dojox.charting.Chart
},
movePlotToBack: function(name){
// summary:
// Moves a given plot to back.
// name: String:
// Plot's name to move.
// returns: dojox.charting.Chart
// A reference to the current chart for functional chaining.
if(name in this.plots){
var index = this.plots[name];
if(index < this.stack.length - 1){
var newOrder = this.getPlotOrder();
newOrder.splice(index, 1);
newOrder.push(name);
return this.setPlotOrder(newOrder); // dojox.charting.Chart
}
}
return this; // dojox.charting.Chart
},
addSeries: function(name, data, kwArgs){
// summary:
// Add a data series to the chart for rendering.
// name: String:
// The name of the data series to be plotted.
// data: Array|Object:
// The array of data points (either numbers or objects) that
// represents the data to be drawn. Or it can be an object. In
// the latter case, it should have a property "data" (an array),
// destroy(), and setSeriesObject().
// kwArgs: dojox.charting.__SeriesCtorArgs?:
// An optional keyword arguments object that will be mixed into
// the resultant series object.
// returns: dojox.charting.Chart:
// A reference to the current chart for functional chaining.
var run = new dc.Series(this, data, kwArgs);
run.name = name;
if(name in this.runs){
this.series[this.runs[name]].destroy();
this.series[this.runs[name]] = run;
}else{
this.runs[name] = this.series.length;
this.series.push(run);
}
this.dirty = true;
// fix min/max
if(!("ymin" in run) && "min" in run){ run.ymin = run.min; }
if(!("ymax" in run) && "max" in run){ run.ymax = run.max; }
return this; // dojox.charting.Chart
},
removeSeries: function(name){
// summary:
// Remove the series defined by name from the chart.
// name: String
// The name of the series as defined by addSeries.
// returns: dojox.charting.Chart
// A reference to the current chart for functional chaining.
if(name in this.runs){
// get the index and remove the name
var index = this.runs[name];
delete this.runs[name];
// destroy the run
this.series[index].destroy();
// remove the run from the stack of series
this.series.splice(index, 1);
// update indices to reflect the shift
df.forIn(this.runs, function(idx, name, runs){
if(idx > index){
runs[name] = idx - 1;
}
});
this.dirty = true;
}
return this; // dojox.charting.Chart
},
updateSeries: function(name, data){
// summary:
// Update the given series with a new set of data points.
// name: String
// The name of the series as defined in addSeries.
// data: Array|Object:
// The array of data points (either numbers or objects) that
// represents the data to be drawn. Or it can be an object. In
// the latter case, it should have a property "data" (an array),
// destroy(), and setSeriesObject().
// returns: dojox.charting.Chart
// A reference to the current chart for functional chaining.
if(name in this.runs){
var run = this.series[this.runs[name]];
run.update(data);
this._invalidateDependentPlots(run.plot, false);
this._invalidateDependentPlots(run.plot, true);
}
return this; // dojox.charting.Chart
},
getSeriesOrder: function(plotName){
// summary:
// Returns an array of series names in the current order
// (the top-most series is the first) within a plot.
// plotName: String:
// Plot's name.
// returns: Array
return df.map(df.filter(this.series, function(run){
return run.plot == plotName;
}), getName);
},
setSeriesOrder: function(newOrder){
// summary:
// Sets new order of series within a plot. newOrder cannot add
// or remove series. Wrong names, or dups are ignored.
// newOrder: Array:
// Array of series names compatible with getPlotOrder(). All
// series should belong to the same plot.
// returns: dojox.charting.Chart
// A reference to the current chart for functional chaining.
var plotName, names = {},
order = df.filter(newOrder, function(name){
if(!(name in this.runs) || (name in names)){
return false;
}
var run = this.series[this.runs[name]];
if(plotName){
if(run.plot != plotName){
return false;
}
}else{
plotName = run.plot;
}
names[name] = 1;
return true;
}, this);
df.forEach(this.series, function(run){
var name = run.name;
if(!(name in names) && run.plot == plotName){
order.push(name);
}
});
var newSeries = df.map(order, function(name){
return this.series[this.runs[name]];
}, this);
this.series = newSeries.concat(df.filter(this.series, function(run){
return run.plot != plotName;
}));
df.forEach(this.series, function(run, i){
this.runs[run.name] = i;
}, this);
this.dirty = true;
return this; // dojox.charting.Chart
},
moveSeriesToFront: function(name){
// summary:
// Moves a given series to front of a plot.
// name: String:
// Series' name to move.
// returns: dojox.charting.Chart
// A reference to the current chart for functional chaining.
if(name in this.runs){
var index = this.runs[name],
newOrder = this.getSeriesOrder(this.series[index].plot);
if(name != newOrder[0]){
newOrder.splice(index, 1);
newOrder.unshift(name);
return this.setSeriesOrder(newOrder); // dojox.charting.Chart
}
}
return this; // dojox.charting.Chart
},
moveSeriesToBack: function(name){
// summary:
// Moves a given series to back of a plot.
// name: String:
// Series' name to move.
// returns: dojox.charting.Chart
// A reference to the current chart for functional chaining.
if(name in this.runs){
var index = this.runs[name],
newOrder = this.getSeriesOrder(this.series[index].plot);
if(name != newOrder[newOrder.length - 1]){
newOrder.splice(index, 1);
newOrder.push(name);
return this.setSeriesOrder(newOrder); // dojox.charting.Chart
}
}
return this; // dojox.charting.Chart
},
resize: function(width, height){
// summary:
// Resize the chart to the dimensions of width and height.
// description:
// Resize the chart and its surface to the width and height dimensions.
// If no width/height or box is provided, resize the surface to the marginBox of the chart.
// width: Number
// The new width of the chart.
// height: Number
// The new height of the chart.
// returns: dojox.charting.Chart
// A reference to the current chart for functional chaining.
var box;
switch(arguments.length){
// case 0, do not resize the div, just the surface
case 1:
// argument, override node box
box = dojo.mixin({}, width);
dojo.marginBox(this.node, box);
break;
case 2:
box = {w: width, h: height};
// argument, override node box
dojo.marginBox(this.node, box);
break;
}
// in all cases take back the computed box
box = dojo.marginBox(this.node);
// and set it on the surface
this.surface.setDimensions(box.w, box.h);
this.dirty = true;
this.coords = null;
return this.render(); // dojox.charting.Chart
},
getGeometry: function(){
// summary:
// Returns a map of information about all axes in a chart and what they represent
// in terms of scaling (see dojox.charting.axis2d.Default.getScaler).
// returns: Object
// An map of geometry objects, a one-to-one mapping of axes.
var ret = {};
df.forIn(this.axes, function(axis){
if(axis.initialized()){
ret[axis.name] = {
name: axis.name,
vertical: axis.vertical,
scaler: axis.scaler,
ticks: axis.ticks
};
}
});
return ret; // Object
},
setAxisWindow: function(name, scale, offset, zoom){
// summary:
// Zooms an axis and all dependent plots. Can be used to zoom in 1D.
// name: String
// The name of the axis as defined by addAxis.
// scale: Number
// The scale on the target axis.
// offset: Number
// Any offest, as measured by axis tick
// zoom: Boolean|Object?
// The chart zooming animation trigger. This is null by default,
// e.g. {duration: 1200}, or just set true.
// returns: dojox.charting.Chart
// A reference to the current chart for functional chaining.
var axis = this.axes[name];
if(axis){
axis.setWindow(scale, offset);
dojo.forEach(this.stack,function(plot){
if(plot.hAxis == name || plot.vAxis == name){
plot.zoom = zoom;
}
})
}
return this; // dojox.charting.Chart
},
setWindow: function(sx, sy, dx, dy, zoom){
// summary:
// Zooms in or out any plots in two dimensions.
// sx: Number
// The scale for the x axis.
// sy: Number
// The scale for the y axis.
// dx: Number
// The pixel offset on the x axis.
// dy: Number
// The pixel offset on the y axis.
// zoom: Boolean|Object?
// The chart zooming animation trigger. This is null by default,
// e.g. {duration: 1200}, or just set true.
// returns: dojox.charting.Chart
// A reference to the current chart for functional chaining.
if(!("plotArea" in this)){
this.calculateGeometry();
}
df.forIn(this.axes, function(axis){
var scale, offset, bounds = axis.getScaler().bounds,
s = bounds.span / (bounds.upper - bounds.lower);
if(axis.vertical){
scale = sy;
offset = dy / s / scale;
}else{
scale = sx;
offset = dx / s / scale;
}
axis.setWindow(scale, offset);
});
dojo.forEach(this.stack, function(plot){ plot.zoom = zoom; });
return this; // dojox.charting.Chart
},
zoomIn: function(name, range){
// summary:
// Zoom the chart to a specific range on one axis. This calls render()
// directly as a convenience method.
// name: String
// The name of the axis as defined by addAxis.
// range: Array
// The end points of the zoom range, measured in axis ticks.
var axis = this.axes[name];
if(axis){
var scale, offset, bounds = axis.getScaler().bounds;
var lower = Math.min(range[0],range[1]);
var upper = Math.max(range[0],range[1]);
lower = range[0] < bounds.lower ? bounds.lower : lower;
upper = range[1] > bounds.upper ? bounds.upper : upper;
scale = (bounds.upper - bounds.lower) / (upper - lower);
offset = lower - bounds.lower;
this.setAxisWindow(name, scale, offset);
this.render();
}
},
calculateGeometry: function(){
// summary:
// Calculate the geometry of the chart based on the defined axes of
// a chart.
// returns: dojox.charting.Chart
// A reference to the current chart for functional chaining.
if(this.dirty){
return this.fullGeometry();
}
// calculate geometry
var dirty = dojo.filter(this.stack, function(plot){
return plot.dirty ||
(plot.hAxis && this.axes[plot.hAxis].dirty) ||
(plot.vAxis && this.axes[plot.vAxis].dirty);
}, this);
calculateAxes(dirty, this.plotArea);
return this; // dojox.charting.Chart
},
fullGeometry: function(){
// summary:
// Calculate the full geometry of the chart. This includes passing
// over all major elements of a chart (plots, axes, series, container)
// in order to ensure proper rendering.
// returns: dojox.charting.Chart
// A reference to the current chart for functional chaining.
this._makeDirty();
// clear old values
dojo.forEach(this.stack, clear);
// rebuild new connections, and add defaults
// set up a theme
if(!this.theme){
this.setTheme(new dojox.charting.Theme(dojox.charting._def));
}
// assign series
dojo.forEach(this.series, function(run){
if(!(run.plot in this.plots)){
if(!dc.plot2d || !dc.plot2d.Default){
throw Error("Can't find plot: Default - didn't you forget to dojo" + ".require() it?");
}
var plot = new dc.plot2d.Default(this, {});
plot.name = run.plot;
this.plots[run.plot] = this.stack.length;
this.stack.push(plot);
}
this.stack[this.plots[run.plot]].addSeries(run);
}, this);
// assign axes
dojo.forEach(this.stack, function(plot){
if(plot.hAxis){
plot.setAxis(this.axes[plot.hAxis]);
}
if(plot.vAxis){
plot.setAxis(this.axes[plot.vAxis]);
}
}, this);
// calculate geometry
// 1st pass
var dim = this.dim = this.surface.getDimensions();
dim.width = g.normalizedLength(dim.width);
dim.height = g.normalizedLength(dim.height);
df.forIn(this.axes, clear);
calculateAxes(this.stack, dim);
// assumption: we don't have stacked axes yet
var offsets = this.offsets = { l: 0, r: 0, t: 0, b: 0 };
df.forIn(this.axes, function(axis){
df.forIn(axis.getOffsets(), function(o, i){ offsets[i] += o; });
});
// add title area
if(this.title){
this.titleGap = (this.titleGap==0) ? 0 : this.titleGap || this.theme.chart.titleGap || 20;
this.titlePos = this.titlePos || this.theme.chart.titlePos || "top";
this.titleFont = this.titleFont || this.theme.chart.titleFont;
this.titleFontColor = this.titleFontColor || this.theme.chart.titleFontColor || "black";
var tsize = g.normalizedLength(g.splitFontString(this.titleFont).size);
offsets[this.titlePos=="top" ? "t":"b"] += (tsize + this.titleGap);
}
// add margins
df.forIn(this.margins, function(o, i){ offsets[i] += o; });
// 2nd pass with realistic dimensions
this.plotArea = {
width: dim.width - offsets.l - offsets.r,
height: dim.height - offsets.t - offsets.b
};
df.forIn(this.axes, clear);
calculateAxes(this.stack, this.plotArea);
return this; // dojox.charting.Chart
},
render: function(){
// summary:
// Render the chart according to the current information defined. This should
// be the last call made when defining/creating a chart, or if data within the
// chart has been changed.
// returns: dojox.charting.Chart
// A reference to the current chart for functional chaining.
if(this.theme){
this.theme.clear();
}
if(this.dirty){
return this.fullRender();
}
this.calculateGeometry();
// go over the stack backwards
df.forEachRev(this.stack, function(plot){ plot.render(this.dim, this.offsets); }, this);
// go over axes
df.forIn(this.axes, function(axis){ axis.render(this.dim, this.offsets); }, this);
this._makeClean();
// BEGIN FOR HTML CANVAS
if(this.surface.render){ this.surface.render(); };
// END FOR HTML CANVAS
return this; // dojox.charting.Chart
},
fullRender: function(){
// summary:
// Force a full rendering of the chart, including full resets on the chart itself.
// You should not call this method directly unless absolutely necessary.
// returns: dojox.charting.Chart
// A reference to the current chart for functional chaining.
// calculate geometry
this.fullGeometry();
var offsets = this.offsets, dim = this.dim, rect;
// get required colors
//var requiredColors = df.foldl(this.stack, "z + plot.getRequiredColors()", 0);
//this.theme.defineColors({num: requiredColors, cache: false});
// clear old shapes
dojo.forEach(this.series, purge);
df.forIn(this.axes, purge);
dojo.forEach(this.stack, purge);
if(this.chartTitle && this.chartTitle.tagName){
// destroy title if it is a DOM node
dojo.destroy(this.chartTitle);
}
this.surface.clear();
this.chartTitle = null;
// generate shapes
// draw a plot background
var t = this.theme,
fill = t.plotarea && t.plotarea.fill,
stroke = t.plotarea && t.plotarea.stroke,
rect = {
x: offsets.l - 1, y: offsets.t - 1,
width: dim.width - offsets.l - offsets.r + 2,
height: dim.height - offsets.t - offsets.b + 2
};
if(fill){
fill = dc.Element.prototype._shapeFill(dc.Element.prototype._plotFill(fill, dim, offsets), rect);
this.surface.createRect(rect).setFill(fill);
}
if(stroke){
this.surface.createRect({
x: offsets.l, y: offsets.t,
width: dim.width - offsets.l - offsets.r + 1,
height: dim.height - offsets.t - offsets.b + 1
}).setStroke(stroke);
}
// go over the stack backwards
df.foldr(this.stack, function(z, plot){ return plot.render(dim, offsets), 0; }, 0);
// pseudo-clipping: matting
fill = this.fill !== undefined ? this.fill : (t.chart && t.chart.fill);
stroke = this.stroke !== undefined ? this.stroke : (t.chart && t.chart.stroke);
// TRT: support for "inherit" as a named value in a theme.
if(fill == "inherit"){
// find the background color of the nearest ancestor node, and use that explicitly.
var node = this.node, fill = new dojo.Color(dojo.style(node, "backgroundColor"));
while(fill.a==0 && node!=document.documentElement){
fill = new dojo.Color(dojo.style(node, "backgroundColor"));
node = node.parentNode;
}
}
if(fill){
fill = dc.Element.prototype._plotFill(fill, dim, offsets);
if(offsets.l){ // left
rect = {
width: offsets.l,
height: dim.height + 1
};
this.surface.createRect(rect).setFill(dc.Element.prototype._shapeFill(fill, rect));
}
if(offsets.r){ // right
rect = {
x: dim.width - offsets.r,
width: offsets.r + 1,
height: dim.height + 2
};
this.surface.createRect(rect).setFill(dc.Element.prototype._shapeFill(fill, rect));
}
if(offsets.t){ // top
rect = {
width: dim.width + 1,
height: offsets.t
};
this.surface.createRect(rect).setFill(dc.Element.prototype._shapeFill(fill, rect));
}
if(offsets.b){ // bottom
rect = {
y: dim.height - offsets.b,
width: dim.width + 1,
height: offsets.b + 2
};
this.surface.createRect(rect).setFill(dc.Element.prototype._shapeFill(fill, rect));
}
}
if(stroke){
this.surface.createRect({
width: dim.width - 1,
height: dim.height - 1
}).setStroke(stroke);
}
//create title: Whether to make chart title as a widget which extends dojox.charting.Element?
if(this.title){
var forceHtmlLabels = (g.renderer == "canvas"),
labelType = forceHtmlLabels || !dojo.isIE && !dojo.isOpera ? "html" : "gfx",
tsize = g.normalizedLength(g.splitFontString(this.titleFont).size);
this.chartTitle = dc.axis2d.common.createText[labelType](
this,
this.surface,
dim.width/2,
this.titlePos=="top" ? tsize + this.margins.t : dim.height - this.margins.b,
"middle",
this.title,
this.titleFont,
this.titleFontColor
);
}
// go over axes
df.forIn(this.axes, function(axis){ axis.render(dim, offsets); });
this._makeClean();
// BEGIN FOR HTML CANVAS
if(this.surface.render){ this.surface.render(); };
// END FOR HTML CANVAS
return this; // dojox.charting.Chart
},
delayedRender: function(){
// summary:
// Delayed render, which is used to collect multiple updates
// within a delayInMs time window.
// returns: dojox.charting.Chart
// A reference to the current chart for functional chaining.
if(!this._delayedRenderHandle){
this._delayedRenderHandle = setTimeout(
dojo.hitch(this, function(){
clearTimeout(this._delayedRenderHandle);
this._delayedRenderHandle = null;
this.render();
}),
this.delayInMs
);
}
return this; // dojox.charting.Chart
},
connectToPlot: function(name, object, method){
// summary:
// A convenience method to connect a function to a plot.
// name: String
// The name of the plot as defined by addPlot.
// object: Object
// The object to be connected.
// method: Function
// The function to be executed.
// returns: Array
// A handle to the connection, as defined by dojo.connect (see dojo.connect).
return name in this.plots ? this.stack[this.plots[name]].connect(object, method) : null; // Array
},
fireEvent: function(seriesName, eventName, index){
// summary:
// Fires a synthetic event for a series item.
// seriesName: String:
// Series name.
// eventName: String:
// Event name to simulate: onmouseover, onmouseout, onclick.
// index: Number:
// Valid data value index for the event.
// returns: dojox.charting.Chart
// A reference to the current chart for functional chaining.
if(seriesName in this.runs){
var plotName = this.series[this.runs[seriesName]].plot;
if(plotName in this.plots){
var plot = this.stack[this.plots[plotName]];
if(plot){
plot.fireEvent(seriesName, eventName, index);
}
}
}
return this; // dojox.charting.Chart
},
_makeClean: function(){
// reset dirty flags
dojo.forEach(this.axes, makeClean);
dojo.forEach(this.stack, makeClean);
dojo.forEach(this.series, makeClean);
this.dirty = false;
},
_makeDirty: function(){
// reset dirty flags
dojo.forEach(this.axes, makeDirty);
dojo.forEach(this.stack, makeDirty);
dojo.forEach(this.series, makeDirty);
this.dirty = true;
},
_invalidateDependentPlots: function(plotName, /* Boolean */ verticalAxis){
if(plotName in this.plots){
var plot = this.stack[this.plots[plotName]], axis,
axisName = verticalAxis ? "vAxis" : "hAxis";
if(plot[axisName]){
axis = this.axes[plot[axisName]];
if(axis && axis.dependOnData()){
axis.dirty = true;
// find all plots and mark them dirty
dojo.forEach(this.stack, function(p){
if(p[axisName] && p[axisName] == plot[axisName]){
p.dirty = true;
}
});
}
}else{
plot.dirty = true;
}
}
}
});
function hSection(stats){
return {min: stats.hmin, max: stats.hmax};
}
function vSection(stats){
return {min: stats.vmin, max: stats.vmax};
}
function hReplace(stats, h){
stats.hmin = h.min;
stats.hmax = h.max;
}
function vReplace(stats, v){
stats.vmin = v.min;
stats.vmax = v.max;
}
function combineStats(target, source){
if(target && source){
target.min = Math.min(target.min, source.min);
target.max = Math.max(target.max, source.max);
}
return target || source;
}
function calculateAxes(stack, plotArea){
var plots = {}, axes = {};
dojo.forEach(stack, function(plot){
var stats = plots[plot.name] = plot.getSeriesStats();
if(plot.hAxis){
axes[plot.hAxis] = combineStats(axes[plot.hAxis], hSection(stats));
}
if(plot.vAxis){
axes[plot.vAxis] = combineStats(axes[plot.vAxis], vSection(stats));
}
});
dojo.forEach(stack, function(plot){
var stats = plots[plot.name];
if(plot.hAxis){
hReplace(stats, axes[plot.hAxis]);
}
if(plot.vAxis){
vReplace(stats, axes[plot.vAxis]);
}
plot.initializeScalers(plotArea, stats);
});
}
})();
}