/**
* Provides functionality for creating a cartesian chart series.
*
* @module charts
* @submodule series-cartesian
*/
var Y_Lang = Y.Lang;
/**
* An abstract class for creating series instances with horizontal and vertical axes.
* CartesianSeries provides the core functionality used by the following classes:
* <ul>
* <li>{{#crossLink "LineSeries"}}{{/crossLink}}</li>
* <li>{{#crossLink "MarkerSeries"}}{{/crossLink}}</li>
* <li>{{#crossLink "AreaSeries"}}{{/crossLink}}</li>
* <li>{{#crossLink "SplineSeries"}}{{/crossLink}}</li>
* <li>{{#crossLink "AreaSplineSeries"}}{{/crossLink}}</li>
* <li>{{#crossLink "ComboSeries"}}{{/crossLink}}</li>
* <li>{{#crossLink "ComboSplineSeries"}}{{/crossLink}}</li>
* <li>{{#crossLink "Histogram"}}{{/crossLink}}</li>
* </ul>
*
* @class CartesianSeries
* @extends SeriesBase
* @constructor
* @param {Object} config (optional) Configuration parameters.
* @submodule series-base
*/
Y.CartesianSeries = Y.Base.create("cartesianSeries", Y.SeriesBase, [], {
/**
* Storage for `xDisplayName` attribute.
*
* @property _xDisplayName
* @type String
* @private
*/
_xDisplayName: null,
/**
* Storage for `yDisplayName` attribute.
*
* @property _yDisplayName
* @type String
* @private
*/
_yDisplayName: null,
/**
* Th x-coordinate for the left edge of the series.
*
* @property _leftOrigin
* @type String
* @private
*/
_leftOrigin: null,
/**
* The y-coordinate for the bottom edge of the series.
*
* @property _bottomOrigin
* @type String
* @private
*/
_bottomOrigin: null,
/**
* Adds event listeners.
*
* @method addListeners
* @private
*/
addListeners: function()
{
var xAxis = this.get("xAxis"),
yAxis = this.get("yAxis");
if(xAxis)
{
this._xDataReadyHandle = xAxis.after("dataReady", Y.bind(this._xDataChangeHandler, this));
this._xDataUpdateHandle = xAxis.after("dataUpdate", Y.bind(this._xDataChangeHandler, this));
}
if(yAxis)
{
this._yDataReadyHandle = yAxis.after("dataReady", Y.bind(this._yDataChangeHandler, this));
this._yDataUpdateHandle = yAxis.after("dataUpdate", Y.bind(this._yDataChangeHandler, this));
}
this._xAxisChangeHandle = this.after("xAxisChange", this._xAxisChangeHandler);
this._yAxisChangeHandle = this.after("yAxisChange", this._yAxisChangeHandler);
this._stylesChangeHandle = this.after("stylesChange", function() {
var axesReady = this._updateAxisBase();
if(axesReady)
{
this.draw();
}
});
this._widthChangeHandle = this.after("widthChange", function() {
var axesReady = this._updateAxisBase();
if(axesReady)
{
this.draw();
}
});
this._heightChangeHandle = this.after("heightChange", function() {
var axesReady = this._updateAxisBase();
if(axesReady)
{
this.draw();
}
});
this._visibleChangeHandle = this.after("visibleChange", this._handleVisibleChange);
},
/**
* Event handler for the xAxisChange event.
*
* @method _xAxisChangeHandler
* @param {Object} e Event object.
* @private
*/
_xAxisChangeHandler: function()
{
var xAxis = this.get("xAxis");
xAxis.after("dataReady", Y.bind(this._xDataChangeHandler, this));
xAxis.after("dataUpdate", Y.bind(this._xDataChangeHandler, this));
},
/**
* Event handler the yAxisChange event.
*
* @method _yAxisChangeHandler
* @param {Object} e Event object.
* @private
*/
_yAxisChangeHandler: function()
{
var yAxis = this.get("yAxis");
yAxis.after("dataReady", Y.bind(this._yDataChangeHandler, this));
yAxis.after("dataUpdate", Y.bind(this._yDataChangeHandler, this));
},
/**
* Constant used to generate unique id.
*
* @property GUID
* @type String
* @private
*/
GUID: "yuicartesianseries",
/**
* Event handler for xDataChange event.
*
* @method _xDataChangeHandler
* @param {Object} event Event object.
* @private
*/
_xDataChangeHandler: function()
{
var axesReady = this._updateAxisBase();
if(axesReady)
{
this.draw();
}
},
/**
* Event handler for yDataChange event.
*
* @method _yDataChangeHandler
* @param {Object} event Event object.
* @private
*/
_yDataChangeHandler: function()
{
var axesReady = this._updateAxisBase();
if(axesReady)
{
this.draw();
}
},
/**
* Checks to ensure that both xAxis and yAxis data are available. If so, set the `xData` and `yData` attributes
* and return `true`. Otherwise, return `false`.
*
* @method _updateAxisBase
* @return Boolean
* @private
*/
_updateAxisBase: function()
{
var xAxis = this.get("xAxis"),
yAxis = this.get("yAxis"),
xKey = this.get("xKey"),
yKey = this.get("yKey"),
yData,
xData,
xReady,
yReady,
ready;
if(!xAxis || !yAxis || !xKey || !yKey)
{
ready = false;
}
else
{
xData = xAxis.getDataByKey(xKey);
yData = yAxis.getDataByKey(yKey);
if(Y_Lang.isArray(xKey))
{
xReady = (xData && Y.Object.size(xData) > 0) ? this._checkForDataByKey(xData, xKey) : false;
}
else
{
xReady = xData ? true : false;
}
if(Y_Lang.isArray(yKey))
{
yReady = (yData && Y.Object.size(yData) > 0) ? this._checkForDataByKey(yData, yKey) : false;
}
else
{
yReady = yData ? true : false;
}
ready = xReady && yReady;
if(ready)
{
this.set("xData", xData);
this.set("yData", yData);
}
}
return ready;
},
/**
* Checks to see if all keys of a data object exist and contain data.
*
* @method _checkForDataByKey
* @param {Object} obj The object to check
* @param {Array} keys The keys to check
* @return Boolean
* @private
*/
_checkForDataByKey: function(obj, keys)
{
var i,
len = keys.length,
hasData = false;
for(i = 0; i < len; i = i + 1)
{
if(obj[keys[i]])
{
hasData = true;
break;
}
}
return hasData;
},
/**
* Draws the series is the xAxis and yAxis data are both available.
*
* @method validate
* @private
*/
validate: function()
{
if((this.get("xData") && this.get("yData")) || this._updateAxisBase())
{
this.draw();
}
else
{
this.fire("drawingComplete");
}
},
/**
* Calculates the coordinates for the series.
*
* @method setAreaData
* @protected
*/
setAreaData: function()
{
var w = this.get("width"),
h = this.get("height"),
xAxis = this.get("xAxis"),
yAxis = this.get("yAxis"),
xData = this._copyData(this.get("xData")),
yData = this._copyData(this.get("yData")),
direction = this.get("direction"),
dataLength = direction === "vertical" ? yData.length : xData.length,
xOffset = xAxis.getEdgeOffset(xAxis.getTotalMajorUnits(), w),
yOffset = yAxis.getEdgeOffset(yAxis.getTotalMajorUnits(), h),
padding = this.get("styles").padding,
leftPadding = padding.left,
topPadding = padding.top,
dataWidth = w - (leftPadding + padding.right + xOffset * 2),
dataHeight = h - (topPadding + padding.bottom + yOffset * 2),
xMax = xAxis.get("maximum"),
xMin = xAxis.get("minimum"),
yMax = yAxis.get("maximum"),
yMin = yAxis.get("minimum"),
graphic = this.get("graphic"),
yAxisType = yAxis.get("type"),
reverseYCoords = (yAxisType === "numeric" || yAxisType === "stacked"),
xcoords,
ycoords,
xOriginValue = xAxis.getOrigin(),
yOriginValue = yAxis.getOrigin();
graphic.set("width", w);
graphic.set("height", h);
xOffset = xOffset + leftPadding;
yOffset = reverseYCoords ? yOffset + dataHeight + topPadding + padding.bottom : topPadding + yOffset;
this._leftOrigin = Math.round(xAxis._getCoordFromValue(xMin, xMax, dataWidth, xOriginValue, xOffset, false));
this._bottomOrigin = Math.round(yAxis._getCoordFromValue(yMin, yMax, dataHeight, yOriginValue, yOffset, reverseYCoords));
xcoords = this._getCoords(xMin, xMax, dataWidth, xData, xAxis, xOffset, false);
ycoords = this._getCoords(yMin, yMax, dataHeight, yData, yAxis, yOffset, reverseYCoords);
this.set("xcoords", xcoords);
this.set("ycoords", ycoords);
this._dataLength = dataLength;
this._setXMarkerPlane(xcoords, dataLength);
this._setYMarkerPlane(ycoords, dataLength);
},
/**
* Returns either an array coordinates or an object key valued arrays of coordinates depending on the input.
* If the input data is an array, an array is returned. If the input data is an object, an object will be returned.
*
* @method _getCoords
* @param {Number} min The minimum value of the range of data.
* @param {Number} max The maximum value of the range of data.
* @param {Number} length The length, in pixels, of across which the coordinates will be calculated.
* @param {AxisBase} axis The axis in which the data is bound.
* @param {Number} offset The value in which to offet the first coordinate.
* @param {Boolean} reverse Indicates whether to calculate the coordinates in reverse order.
* @return Array|Object
* @private
*/
_getCoords: function(min, max, length, data, axis, offset, reverse)
{
var coords,
key;
if(Y_Lang.isArray(data))
{
coords = axis._getCoordsFromValues(min, max, length, data, offset, reverse);
}
else
{
coords = {};
for(key in data)
{
if(data.hasOwnProperty(key))
{
coords[key] = this._getCoords.apply(this, [min, max, length, data[key], axis, offset, reverse]);
}
}
}
return coords;
},
/**
* Used to cache xData and yData in the setAreaData method. Returns a copy of an
* array if an array is received as the param and returns an object literal of
* array copies if an object literal is received as the param.
*
* @method _copyData
* @param {Array|Object} val The object or array to be copied.
* @return Array|Object
* @private
*/
_copyData: function(val)
{
var copy,
key;
if(Y_Lang.isArray(val))
{
copy = val.concat();
}
else
{
copy = {};
for(key in val)
{
if(val.hasOwnProperty(key))
{
copy[key] = val[key].concat();
}
}
}
return copy;
},
/**
* Sets the marker plane for the series when the coords argument is an array.
* If the coords argument is an object literal no marker plane is set.
*
* @method _setXMarkerPlane
* @param {Array|Object} coords An array of x coordinates or an object literal
* containing key value pairs mapped to an array of coordinates.
* @param {Number} dataLength The length of data for the series.
* @private
*/
_setXMarkerPlane: function(coords, dataLength)
{
var i = 0,
xMarkerPlane = [],
xMarkerPlaneOffset = this.get("xMarkerPlaneOffset"),
nextX;
if(Y_Lang.isArray(coords))
{
for(i = 0; i < dataLength; i = i + 1)
{
nextX = coords[i];
xMarkerPlane.push({start:nextX - xMarkerPlaneOffset, end: nextX + xMarkerPlaneOffset});
}
this.set("xMarkerPlane", xMarkerPlane);
}
},
/**
* Sets the marker plane for the series when the coords argument is an array.
* If the coords argument is an object literal no marker plane is set.
*
* @method _setYMarkerPlane
* @param {Array|Object} coords An array of y coordinates or an object literal
* containing key value pairs mapped to an array of coordinates.
* @param {Number} dataLength The length of data for the series.
* @private
*/
_setYMarkerPlane: function(coords, dataLength)
{
var i = 0,
yMarkerPlane = [],
yMarkerPlaneOffset = this.get("yMarkerPlaneOffset"),
nextY;
if(Y_Lang.isArray(coords))
{
for(i = 0; i < dataLength; i = i + 1)
{
nextY = coords[i];
yMarkerPlane.push({start:nextY - yMarkerPlaneOffset, end: nextY + yMarkerPlaneOffset});
}
this.set("yMarkerPlane", yMarkerPlane);
}
},
/**
* Finds the first valid index of an array coordinates.
*
* @method _getFirstValidIndex
* @param {Array} coords An array of x or y coordinates.
* @return Number
* @private
*/
_getFirstValidIndex: function(coords)
{
var coord,
i = -1,
limit = coords.length;
while(!Y_Lang.isNumber(coord) && i < limit)
{
i += 1;
coord = coords[i];
}
return i;
},
/**
* Finds the last valid index of an array coordinates.
*
* @method _getLastValidIndex
* @param {Array} coords An array of x or y coordinates.
* @return Number
* @private
*/
_getLastValidIndex: function(coords)
{
var coord,
i = coords.length,
limit = -1;
while(!Y_Lang.isNumber(coord) && i > limit)
{
i -= 1;
coord = coords[i];
}
return i;
},
/**
* Draws the series.
*
* @method draw
* @protected
*/
draw: function()
{
var w = this.get("width"),
h = this.get("height"),
xcoords,
ycoords;
if(this.get("rendered"))
{
if((isFinite(w) && isFinite(h) && w > 0 && h > 0) &&
((this.get("xData") && this.get("yData")) ||
this._updateAxisBase()))
{
if(this._drawing)
{
this._callLater = true;
return;
}
this._drawing = true;
this._callLater = false;
this.setAreaData();
xcoords = this.get("xcoords");
ycoords = this.get("ycoords");
if(xcoords && ycoords && xcoords.length > 0)
{
this.drawSeries();
}
this._drawing = false;
if(this._callLater)
{
this.draw();
}
else
{
this._toggleVisible(this.get("visible"));
this.fire("drawingComplete");
}
}
}
},
/**
* Default value for plane offsets when the parent chart's `interactiveType` is `planar`.
*
* @property _defaultPlaneOffset
* @type Number
* @private
*/
_defaultPlaneOffset: 4,
/**
* Destructor implementation for the CartesianSeries class.
* Calls destroy on all Graphic instances.
*
* @method destructor
* @protected
*/
destructor: function()
{
if(this.get("rendered"))
{
if(this._xDataReadyHandle)
{
this._xDataReadyHandle.detach();
}
if(this._xDataUpdateHandle)
{
this._xDataUpdateHandle.detach();
}
if(this._yDataReadyHandle)
{
this._yDataReadyHandle.detach();
}
if(this._yDataUpdateHandle)
{
this._yDataUpdateHandle.detach();
}
if(this._xAxisChangeHandle)
{
this._xAxisChangeHandle.detach();
}
if(this._yAxisChangeHandle)
{
this._yAxisChangeHandle.detach();
}
}
}
/**
* Event handle for the x-axis' dataReady event.
*
* @property _xDataReadyHandle
* @type {EventHandle}
* @private
*/
/**
* Event handle for the x-axis dataUpdate event.
*
* @property _xDataUpdateHandle
* @type {EventHandle}
* @private
*/
/**
* Event handle for the y-axis dataReady event.
*
* @property _yDataReadyHandle
* @type {EventHandle}
* @private
*/
/**
* Event handle for the y-axis dataUpdate event.
* @property _yDataUpdateHandle
* @type {EventHandle}
* @private
*/
/**
* Event handle for the xAxisChange event.
* @property _xAxisChangeHandle
* @type {EventHandle}
* @private
*/
/**
* Event handle for the yAxisChange event.
* @property _yAxisChangeHandle
* @type {EventHandle}
* @private
*/
/**
* Event handle for the stylesChange event.
* @property _stylesChangeHandle
* @type {EventHandle}
* @private
*/
/**
* Event handle for the widthChange event.
* @property _widthChangeHandle
* @type {EventHandle}
* @private
*/
/**
* Event handle for the heightChange event.
* @property _heightChangeHandle
* @type {EventHandle}
* @private
*/
/**
* Event handle for the visibleChange event.
* @property _visibleChangeHandle
* @type {EventHandle}
* @private
*/
}, {
ATTRS: {
/**
* An array of all series of the same type used within a chart application.
*
* @attribute seriesTypeCollection
* @type Array
*/
seriesTypeCollection: {},
/**
* Name used for for displaying data related to the x-coordinate.
*
* @attribute xDisplayName
* @type String
*/
xDisplayName: {
getter: function()
{
return this._xDisplayName || this.get("xKey");
},
setter: function(val)
{
this._xDisplayName = val.toString();
return val;
}
},
/**
* Name used for for displaying data related to the y-coordinate.
*
* @attribute yDisplayName
* @type String
*/
yDisplayName: {
getter: function()
{
return this._yDisplayName || this.get("yKey");
},
setter: function(val)
{
this._yDisplayName = val.toString();
return val;
}
},
/**
* Name used for for displaying category data
*
* @attribute categoryDisplayName
* @type String
* @readOnly
*/
categoryDisplayName: {
lazyAdd: false,
getter: function()
{
return this.get("direction") === "vertical" ? this.get("yDisplayName") : this.get("xDisplayName");
},
setter: function(val)
{
if(this.get("direction") === "vertical")
{
this._yDisplayName = val;
}
else
{
this._xDisplayName = val;
}
return val;
}
},
/**
* Name used for for displaying value data
*
* @attribute valueDisplayName
* @type String
* @readOnly
*/
valueDisplayName: {
lazyAdd: false,
getter: function()
{
return this.get("direction") === "vertical" ? this.get("xDisplayName") : this.get("yDisplayName");
},
setter: function(val)
{
if(this.get("direction") === "vertical")
{
this._xDisplayName = val;
}
else
{
this._yDisplayName = val;
}
return val;
}
},
/**
* Read-only attribute indicating the type of series.
*
* @attribute type
* @type String
* @default cartesian
*/
type: {
value: "cartesian"
},
/**
* Order of this instance of this `type`.
*
* @attribute order
* @type Number
*/
order: {},
/**
* Order of the instance
*
* @attribute graphOrder
* @type Number
*/
graphOrder: {},
/**
* x coordinates for the series.
*
* @attribute xcoords
* @type Array
*/
xcoords: {},
/**
* y coordinates for the series
*
* @attribute ycoords
* @type Array
*/
ycoords: {},
/**
* Reference to the `Axis` instance used for assigning
* x-values to the graph.
*
* @attribute xAxis
* @type Axis
*/
xAxis: {},
/**
* Reference to the `Axis` instance used for assigning
* y-values to the graph.
*
* @attribute yAxis
* @type Axis
*/
yAxis: {},
/**
* Indicates which array to from the hash of value arrays in
* the x-axis `Axis` instance.
*
* @attribute xKey
* @type String
*/
xKey: {
setter: function(val)
{
if(Y_Lang.isArray(val))
{
return val;
}
else
{
return val.toString();
}
}
},
/**
* Indicates which array to from the hash of value arrays in
* the y-axis `Axis` instance.
*
* @attribute yKey
* @type String
*/
yKey: {
setter: function(val)
{
if(Y_Lang.isArray(val))
{
return val;
}
else
{
return val.toString();
}
}
},
/**
* Array of x values for the series.
*
* @attribute xData
* @type Array
*/
xData: {},
/**
* Array of y values for the series.
*
* @attribute yData
* @type Array
*/
yData: {},
/**
* Collection of area maps along the xAxis. Used to determine mouseover for multiple
* series.
*
* @attribute xMarkerPlane
* @type Array
*/
xMarkerPlane: {},
/**
* Collection of area maps along the yAxis. Used to determine mouseover for multiple
* series.
*
* @attribute yMarkerPlane
* @type Array
*/
yMarkerPlane: {},
/**
* Distance from a data coordinate to the left/right for setting a hotspot.
*
* @attribute xMarkerPlaneOffset
* @type Number
*/
xMarkerPlaneOffset: {
getter: function() {
var marker = this.get("styles").marker;
if(marker && marker.width && isFinite(marker.width))
{
return marker.width * 0.5;
}
return this._defaultPlaneOffset;
}
},
/**
* Distance from a data coordinate to the top/bottom for setting a hotspot.
*
* @attribute yMarkerPlaneOffset
* @type Number
*/
yMarkerPlaneOffset: {
getter: function() {
var marker = this.get("styles").marker;
if(marker && marker.height && isFinite(marker.height))
{
return marker.height * 0.5;
}
return this._defaultPlaneOffset;
}
},
/**
* Direction of the series
*
* @attribute direction
* @type String
*/
direction: {
value: "horizontal"
}
}
});
