/**
* PieSeries visualizes data as a circular chart divided into wedges which represent data as a
* percentage of a whole.
*
* @module charts
* @submodule charts-base
* @class PieSeries
* @constructor
* @extends MarkerSeries
*/
Y.PieSeries = Y.Base.create("pieSeries", Y.MarkerSeries, [], {
/**
* Image map used for interactivity when rendered with canvas.
*
* @property _map
* @type HTMLElement
* @private
*/
_map: null,
/**
* Image used for image map when rendered with canvas.
*
* @property _image
* @type HTMLElement
* @private
*/
_image: null,
/**
* Creates or updates the image map when rendered with canvas.
*
* @method _setMap
* @private
*/
_setMap: function()
{
var id = "pieHotSpotMapi_" + Math.round(100000 * Math.random()),
cb = this.get("graph").get("contentBox"),
areaNode;
if(this._image)
{
cb.removeChild(this._image);
while(this._areaNodes && this._areaNodes.length > 0)
{
areaNode = this._areaNodes.shift();
this._map.removeChild(areaNode);
}
cb.removeChild(this._map);
}
this._image = DOCUMENT.createElement("img");
this._image.src = "data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAAYAAAABCAYAAAD9yd/wAAAAGXRFWHRTb2Z0d2FyZQBBZG9iZSBJbWFnZVJlYWR5ccllPAAAABJJREFUeNpiZGBgSGPAAgACDAAIkABoFyloZQAAAABJRU5ErkJggg==";
cb.appendChild(this._image);
this._image.setAttribute("usemap", "#" + id);
this._image.style.zIndex = 3;
this._image.style.opacity = 0;
this._image.setAttribute("alt", "imagemap");
this._map = DOCUMENT.createElement("map");
this._map.style.zIndex = 5;
cb.appendChild(this._map);
this._map.setAttribute("name", id);
this._map.setAttribute("id", id);
this._areaNodes = [];
},
/**
* Storage for `categoryDisplayName` attribute.
*
* @property _categoryDisplayName
* @private
*/
_categoryDisplayName: null,
/**
* Storage for `valueDisplayName` attribute.
*
* @property _valueDisplayName
* @private
*/
_valueDisplayName: null,
/**
* Adds event listeners.
*
* @method addListeners
* @private
*/
addListeners: function()
{
var categoryAxis = this.get("categoryAxis"),
valueAxis = this.get("valueAxis");
if(categoryAxis)
{
categoryAxis.after("dataReady", Y.bind(this._categoryDataChangeHandler, this));
categoryAxis.after("dataUpdate", Y.bind(this._categoryDataChangeHandler, this));
}
if(valueAxis)
{
valueAxis.after("dataReady", Y.bind(this._valueDataChangeHandler, this));
valueAxis.after("dataUpdate", Y.bind(this._valueDataChangeHandler, this));
}
this.after("categoryAxisChange", this.categoryAxisChangeHandler);
this.after("valueAxisChange", this.valueAxisChangeHandler);
this.after("stylesChange", this._updateHandler);
},
/**
* Draws the series.
*
* @method validate
* @private
*/
validate: function()
{
this.draw();
this._renderered = true;
},
/**
* Event handler for the categoryAxisChange event.
*
* @method _categoryAxisChangeHandler
* @param {Object} e Event object.
* @private
*/
_categoryAxisChangeHandler: function(e)
{
var categoryAxis = this.get("categoryAxis");
categoryAxis.after("dataReady", Y.bind(this._categoryDataChangeHandler, this));
categoryAxis.after("dataUpdate", Y.bind(this._categoryDataChangeHandler, this));
},
/**
* Event handler for the valueAxisChange event.
*
* @method _valueAxisChangeHandler
* @param {Object} e Event object.
* @private
*/
_valueAxisChangeHandler: function(e)
{
var valueAxis = this.get("valueAxis");
valueAxis.after("dataReady", Y.bind(this._valueDataChangeHandler, this));
valueAxis.after("dataUpdate", Y.bind(this._valueDataChangeHandler, this));
},
/**
* Constant used to generate unique id.
*
* @property GUID
* @type String
* @private
*/
GUID: "pieseries",
/**
* Event handler for categoryDataChange event.
*
* @method _categoryDataChangeHandler
* @param {Object} event Event object.
* @private
*/
_categoryDataChangeHandler: function(event)
{
if(this._rendered && this.get("categoryKey") && this.get("valueKey"))
{
this.draw();
}
},
/**
* Event handler for valueDataChange event.
*
* @method _valueDataChangeHandler
* @param {Object} event Event object.
* @private
*/
_valueDataChangeHandler: function(event)
{
if(this._rendered && this.get("categoryKey") && this.get("valueKey"))
{
this.draw();
}
},
/**
* Draws the series. Overrides the base implementation.
*
* @method draw
* @protected
*/
draw: function()
{
var graph = this.get("graph"),
w = graph.get("width"),
h = graph.get("height");
if(isFinite(w) && isFinite(h) && w > 0 && h > 0)
{
this._rendered = true;
if(this._drawing)
{
this._callLater = true;
return;
}
this._drawing = true;
this._callLater = false;
this.drawSeries();
this._drawing = false;
if(this._callLater)
{
this.draw();
}
else
{
this.fire("drawingComplete");
}
}
},
/**
* Draws the markers
*
* @method drawPlots
* @protected
*/
drawPlots: function()
{
var values = this.get("valueAxis").getDataByKey(this.get("valueKey")).concat(),
catValues = this.get("categoryAxis").getDataByKey(this.get("categoryKey")).concat(),
totalValue = 0,
itemCount = values.length,
styles = this.get("styles").marker,
fillColors = styles.fill.colors,
fillAlphas = styles.fill.alphas || ["1"],
borderColors = styles.border.colors,
borderWeights = [styles.border.weight],
borderAlphas = [styles.border.alpha],
tbw = borderWeights.concat(),
tbc = borderColors.concat(),
tba = borderAlphas.concat(),
tfc,
tfa,
padding = styles.padding,
graph = this.get("graph"),
minDimension = Math.min(graph.get("width"), graph.get("height")),
w = minDimension - (padding.left + padding.right),
h = minDimension - (padding.top + padding.bottom),
startAngle = -90,
halfWidth = w / 2,
halfHeight = h / 2,
radius = Math.min(halfWidth, halfHeight),
i = 0,
value,
angle = 0,
lc,
la,
lw,
wedgeStyle,
marker,
graphOrder = this.get("graphOrder"),
isCanvas = Y.Graphic.NAME == "canvasGraphic";
for(; i < itemCount; ++i)
{
value = parseFloat(values[i]);
values.push(value);
if(!isNaN(value))
{
totalValue += value;
}
}
tfc = fillColors ? fillColors.concat() : null;
tfa = fillAlphas ? fillAlphas.concat() : null;
this._createMarkerCache();
if(isCanvas)
{
this._setMap();
this._image.width = w;
this._image.height = h;
}
for(i = 0; i < itemCount; i++)
{
value = values[i];
if(totalValue === 0)
{
angle = 360 / values.length;
}
else
{
angle = 360 * (value / totalValue);
}
if(tfc && tfc.length < 1)
{
tfc = fillColors.concat();
}
if(tfa && tfa.length < 1)
{
tfa = fillAlphas.concat();
}
if(tbw && tbw.length < 1)
{
tbw = borderWeights.concat();
}
if(tbw && tbc.length < 1)
{
tbc = borderColors.concat();
}
if(tba && tba.length < 1)
{
tba = borderAlphas.concat();
}
lw = tbw ? tbw.shift() : null;
lc = tbc ? tbc.shift() : null;
la = tba ? tba.shift() : null;
startAngle += angle;
wedgeStyle = {
border: {
color:lc,
weight:lw,
alpha:la
},
fill: {
color:tfc ? tfc.shift() : this._getDefaultColor(i, "slice"),
alpha:tfa ? tfa.shift() : null
},
type: "pieslice",
arc: angle,
radius: radius,
startAngle: startAngle,
cx: halfWidth,
cy: halfHeight,
width: w,
height: h
};
marker = this.getMarker(wedgeStyle, graphOrder, i);
if(isCanvas)
{
this._addHotspot(wedgeStyle, graphOrder, i);
}
}
this._clearMarkerCache();
},
/**
* Adds an interactive map when rendering in canvas.
*
* @method _addHotspot
* @param {Object} cfg Object containing data used to draw the hotspot
* @param {Number} seriesIndex Index of series in the `seriesCollection`.
* @param {Number} index Index of the marker using the hotspot.
* @private
*/
_addHotspot: function(cfg, seriesIndex, index)
{
var areaNode = DOCUMENT.createElement("area"),
i = 1,
x = cfg.cx,
y = cfg.cy,
arc = cfg.arc,
startAngle = cfg.startAngle - arc,
endAngle = cfg.startAngle,
radius = cfg.radius,
ax = x + Math.cos(startAngle / 180 * Math.PI) * radius,
ay = y + Math.sin(startAngle / 180 * Math.PI) * radius,
bx = x + Math.cos(endAngle / 180 * Math.PI) * radius,
by = y + Math.sin(endAngle / 180 * Math.PI) * radius,
numPoints = Math.floor(arc/10) - 1,
divAngle = (arc/(Math.floor(arc/10)) / 180) * Math.PI,
angleCoord = Math.atan((ay - y)/(ax - x)),
pts = x + ", " + y + ", " + ax + ", " + ay,
cosAng,
sinAng,
multDivAng;
for(i = 1; i <= numPoints; ++i)
{
multDivAng = divAngle * i;
cosAng = Math.cos(angleCoord + multDivAng);
sinAng = Math.sin(angleCoord + multDivAng);
if(startAngle <= 90)
{
pts += ", " + (x + (radius * Math.cos(angleCoord + (divAngle * i))));
pts += ", " + (y + (radius * Math.sin(angleCoord + (divAngle * i))));
}
else
{
pts += ", " + (x - (radius * Math.cos(angleCoord + (divAngle * i))));
pts += ", " + (y - (radius * Math.sin(angleCoord + (divAngle * i))));
}
}
pts += ", " + bx + ", " + by;
pts += ", " + x + ", " + y;
this._map.appendChild(areaNode);
areaNode.setAttribute("class", SERIES_MARKER);
areaNode.setAttribute("id", "hotSpot_" + seriesIndex + "_" + index);
areaNode.setAttribute("shape", "polygon");
areaNode.setAttribute("coords", pts);
this._areaNodes.push(areaNode);
},
/**
* Resizes and positions markers based on a mouse interaction.
*
* @method updateMarkerState
* @param {String} type state of the marker
* @param {Number} i index of the marker
* @protected
*/
updateMarkerState: function(type, i)
{
if(this._markers[i])
{
var state = this._getState(type),
markerStyles,
indexStyles,
marker = this._markers[i],
styles = this.get("styles").marker;
markerStyles = state == "off" || !styles[state] ? styles : styles[state];
indexStyles = this._mergeStyles(markerStyles, {});
indexStyles.fill.color = indexStyles.fill.colors[i % indexStyles.fill.colors.length];
indexStyles.fill.alpha = indexStyles.fill.alphas[i % indexStyles.fill.alphas.length];
marker.set(indexStyles);
}
},
/**
* Creates a shape to be used as a marker.
*
* @method _createMarker
* @param {Object} styles Hash of style properties.
* @param {Number} order Order of the series.
* @param {Number} index Index within the series associated with the marker.
* @return Shape
* @private
*/
_createMarker: function(styles, order, index)
{
var graphic = this.get("graphic"),
marker,
cfg = Y.clone(styles);
graphic.set("autoDraw", false);
marker = graphic.addShape(cfg);
marker.addClass(SERIES_MARKER);
return marker;
},
/**
* Creates a cache of markers for reuse.
*
* @method _createMarkerCache
* @private
*/
_clearMarkerCache: function()
{
var len = this._markerCache.length,
i = 0,
marker;
for(; i < len; ++i)
{
marker = this._markerCache[i];
if(marker)
{
marker.destroy();
}
}
this._markerCache = [];
},
/**
* Gets the default style values for the markers.
*
* @method _getPlotDefaults
* @return Object
* @private
*/
_getPlotDefaults: function()
{
var defs = {
padding:{
top: 0,
left: 0,
right: 0,
bottom: 0
},
fill:{
alphas:["1"]
},
border: {
weight: 0,
alpha: 1
}
};
defs.fill.colors = this._defaultSliceColors;
defs.border.colors = this._defaultBorderColors;
return defs;
},
/**
* Collection of default colors used for lines in a series when not specified by user.
*
* @property _defaultLineColors
* @type Array
* @protected
*/
_defaultLineColors:["#426ab3", "#d09b2c", "#000000", "#b82837", "#b384b5", "#ff7200", "#779de3", "#cbc8ba", "#7ed7a6", "#007a6c"],
/**
* Collection of default colors used for marker fills in a series when not specified by user.
*
* @property _defaultFillColors
* @type Array
* @protected
*/
_defaultFillColors:["#6084d0", "#eeb647", "#6c6b5f", "#d6484f", "#ce9ed1", "#ff9f3b", "#93b7ff", "#e0ddd0", "#94ecba", "#309687"],
/**
* Collection of default colors used for marker borders in a series when not specified by user.
*
* @property _defaultBorderColors
* @type Array
* @protected
*/
_defaultBorderColors:["#205096", "#b38206", "#000000", "#94001e", "#9d6fa0", "#e55b00", "#5e85c9", "#adab9e", "#6ac291", "#006457"],
/**
* Collection of default colors used for area fills, histogram fills and pie fills in a series when not specified by user.
*
* @property _defaultSliceColors
* @type Array
* @protected
*/
_defaultSliceColors: ["#66007f", "#a86f41", "#295454", "#996ab2", "#e8cdb7", "#90bdbd","#000000","#c3b8ca", "#968373", "#678585"],
/**
* Colors used if style colors are not specified
*
* @method _getDefaultColor
* @param {Number} index Index indicating the series order.
* @param {String} type Indicates which type of object needs the color.
* @return String
* @protected
*/
_getDefaultColor: function(index, type)
{
var colors = {
line: this._defaultLineColors,
fill: this._defaultFillColors,
border: this._defaultBorderColors,
slice: this._defaultSliceColors
},
col = colors[type],
l = col.length;
index = index || 0;
if(index >= l)
{
index = index % l;
}
type = type || "fill";
return colors[type][index];
}
}, {
ATTRS: {
/**
* Read-only attribute indicating the type of series.
*
* @attribute type
* @type String
* @default pie
*/
type: {
value: "pie"
},
/**
* Order of this instance of this `type`.
*
* @attribute order
* @type Number
*/
order: {},
/**
* Reference to the `Graph` in which the series is drawn into.
*
* @attribute graph
* @type Graph
*/
graph: {},
/**
* Reference to the `Axis` instance used for assigning
* category values to the graph.
*
* @attribute categoryAxis
* @type Axis
*/
categoryAxis: {
value: null,
validator: function(value)
{
return value !== this.get("categoryAxis");
}
},
/**
* Reference to the `Axis` instance used for assigning
* series values to the graph.
*
* @attribute categoryAxis
* @type Axis
*/
valueAxis: {
value: null,
validator: function(value)
{
return value !== this.get("valueAxis");
}
},
/**
* Indicates which array to from the hash of value arrays in
* the category `Axis` instance.
*
* @attribute categoryKey
* @type String
*/
categoryKey: {
value: null,
validator: function(value)
{
return value !== this.get("categoryKey");
}
},
/**
* Indicates which array to from the hash of value arrays in
* the value `Axis` instance.
*
* @attribute valueKey
* @type String
*/
valueKey: {
value: null,
validator: function(value)
{
return value !== this.get("valueKey");
}
},
/**
* Name used for for displaying category data
*
* @attribute categoryDisplayName
* @type String
*/
categoryDisplayName: {
setter: function(val)
{
this._categoryDisplayName = val;
return val;
},
getter: function()
{
return this._categoryDisplayName || this.get("categoryKey");
}
},
/**
* Name used for for displaying value data
*
* @attribute valueDisplayName
* @type String
*/
valueDisplayName: {
setter: function(val)
{
this._valueDisplayName = val;
return val;
},
getter: function()
{
return this._valueDisplayName || this.get("valueKey");
}
},
/**
* @attribute slices
* @type Array
* @private
*/
slices: null
/**
* Style properties used for drawing markers. This attribute is inherited from `MarkerSeries`. Below are the default
* values:
* <dl>
* <dt>fill</dt><dd>A hash containing the following values:
* <dl>
* <dt>colors</dt><dd>An array of colors to be used for the marker fills. The color for each marker is
* retrieved from the array below:<br/>
* `["#66007f", "#a86f41", "#295454", "#996ab2", "#e8cdb7", "#90bdbd","#000000","#c3b8ca", "#968373", "#678585"]`
* </dd>
* <dt>alphas</dt><dd>An array of alpha references (Number from 0 to 1) indicating the opacity of each marker
* fill. The default value is [1].</dd>
* </dl>
* </dd>
* <dt>border</dt><dd>A hash containing the following values:
* <dl>
* <dt>color</dt><dd>An array of colors to be used for the marker borders. The color for each marker is
* retrieved from the array below:<br/>
* `["#205096", "#b38206", "#000000", "#94001e", "#9d6fa0", "#e55b00", "#5e85c9", "#adab9e", "#6ac291", "#006457"]`
* <dt>alpha</dt><dd>Number from 0 to 1 indicating the opacity of the marker border. The default value is 1.</dd>
* <dt>weight</dt><dd>Number indicating the width of the border. The default value is 1.</dd>
* </dl>
* </dd>
* <dt>over</dt><dd>hash containing styles for markers when highlighted by a `mouseover` event. The default
* values for each style is null. When an over style is not set, the non-over value will be used. For example,
* the default value for `marker.over.fill.color` is equivalent to `marker.fill.color`.</dd>
* </dl>
*
* @attribute styles
* @type Object
*/
}
});