// ==ClosureCompiler==
// @compilation_level SIMPLE_OPTIMIZATIONS
/**
* @license Highcharts JS v2.0.5 (2010-09-17)
*
* (c) 2009-2010 Torstein Hønsi
*
* License: www.highcharts.com/license
*/
// JSLint options:
/*jslint forin: true */
/*global document, window, navigator, setInterval, clearInterval, location, jQuery, $, $each, $merge, Events, Event, Fx, Request */
(function() {
// encapsulated variables
var doc = document,
win = window,
math = Math,
mathRound = math.round,
mathFloor = math.floor,
mathCeil = math.ceil,
mathMax = math.max,
mathMin = math.min,
mathAbs = math.abs,
mathCos = math.cos,
mathSin = math.sin,
// some variables
userAgent = navigator.userAgent,
isIE = /msie/i.test(userAgent) && !win.opera,
isWebKit = /AppleWebKit/.test(userAgent),
hasSVG = win.SVGAngle || doc.implementation.hasFeature("http://www.w3.org/TR/SVG11/feature#BasicStructure", "1.1"),
colorCounter,
symbolCounter,
symbolSizes = {},
idCounter = 0,
timeFactor = 1, // 1 = JavaScript time, 1000 = Unix time
garbageBin,
defaultOptions,
dateFormat, // function
// some constants for frequently used strings
UNDEFINED,
DIV = 'div',
ABSOLUTE = 'absolute',
RELATIVE = 'relative',
HIDDEN = 'hidden',
PREFIX = 'highcharts-',
VISIBLE = 'visible',
PX = 'px',
NONE = 'none',
M = 'M',
L = 'L',
/*
* Empirical lowest possible opacities for TRACKER_FILL
* IE6: 0.002
* IE7: 0.002
* IE8: 0.002
* IE9: 0.00000000001 (unlimited)
* FF: 0.00000000001 (unlimited)
* Chrome: 0.000001
* Safari: 0.000001
* Opera: 0.00000000001 (unlimited)
*/
TRACKER_FILL = 'rgba(192,192,192,'+ (hasSVG ? 0.000001 : 0.002) +')', // invisible but clickable
NORMAL_STATE = '',
HOVER_STATE = 'hover',
SELECT_STATE = 'select',
// time methods, changed based on whether or not UTC is used
makeTime,
getMinutes,
getHours,
getDay,
getDate,
getMonth,
getFullYear,
setMinutes,
setHours,
setDate,
setMonth,
setFullYear,
// check for a custom HighchartsAdapter defined prior to this file
globalAdapter = win.HighchartsAdapter,
adapter = globalAdapter || {},
// Utility functions. If the HighchartsAdapter is not defined, adapter is an empty object
// and all the utility functions will be null. In that case they are populated by the
// default adapters below.
each = adapter.each,
grep = adapter.grep,
map = adapter.map,
merge = adapter.merge,
hyphenate = adapter.hyphenate,
addEvent = adapter.addEvent,
removeEvent = adapter.removeEvent,
fireEvent = adapter.fireEvent,
animate = adapter.animate,
stop = adapter.stop,
getAjax = adapter.getAjax,
// lookup over the types and the associated classes
seriesTypes = {};
/**
* Extend an object with the members of another
* @param {Object} a The object to be extended
* @param {Object} b The object to add to the first one
*/
function extend(a, b) {
if (!a) {
a = {};
}
for (var n in b) {
a[n] = b[n];
}
return a;
}
/**
* Returns true if the object is not null or undefined. Like MooTools' $.defined.
* @param {Object} obj
*/
function defined (obj) {
return obj !== UNDEFINED && obj !== null;
}
/**
* Set or get an attribute or an object of attributes. Can't use jQuery attr because
* it attempts to set expando properties on the SVG element, which is not allowed.
*
* @param {Object} elem The DOM element to receive the attribute(s)
* @param {String|Object} prop The property or an abject of key-value pairs
* @param {String} value The value if a single property is set
*/
function attr(elem, prop, value) {
var key,
setAttribute = 'setAttribute',
ret;
// if the prop is a string
if (typeof prop == 'string') {
// set the value
if (defined(value)) {
elem[setAttribute](prop, value);
// get the value
} else if (elem && elem.getAttribute) { // elem not defined when printing pie demo...
ret = elem.getAttribute(prop);
}
// else if prop is defined, it is a hash of key/value pairs
} else if (defined(prop) && typeof prop == 'object') {
for (key in prop) {
elem[setAttribute](key, prop[key]);
}
}
return ret;
}
/**
* Check if an element is an array, and if not, make it into an array. Like
* MooTools' $.splat.
*/
function splat(obj) {
if (!obj || obj.constructor != Array) {
obj = [obj];
}
return obj;
}
/**
* Return the first value that is defined. Like MooTools' $.pick.
*/
function pick() {
var args = arguments,
i,
arg;
for (i = 0; i < args.length; i++) {
arg = args[i];
if (defined(arg)) {
return arg;
}
}
}
/**
* Make a style string from a JS object
* @param {Object} style
*/
function serializeCSS(style) {
var s = '',
key;
// serialize the declaration
for (key in style) {
s += hyphenate(key) +':'+ style[key] + ';';
}
return s;
}
/**
* Set CSS on a give element
* @param {Object} el
* @param {Object} styles
*/
function css (el, styles) {
if (isIE) {
if (styles && styles.opacity !== UNDEFINED) {
styles.filter = 'alpha(opacity='+ (styles.opacity * 100) +')';
}
}
extend(el.style, styles);
}
/**
* Utility function to create element with attributes and styles
* @param {Object} tag
* @param {Object} attribs
* @param {Object} styles
* @param {Object} parent
* @param {Object} nopad
*/
function createElement (tag, attribs, styles, parent, nopad) {
var el = doc.createElement(tag);
if (attribs) {
extend(el, attribs);
}
if (nopad) {
css(el, {padding: 0, border: NONE, margin: 0});
}
if (styles) {
css(el, styles);
}
if (parent) {
parent.appendChild(el);
}
return el;
}
// the jQuery adapter
if (!globalAdapter && win.jQuery) {
var jQ = jQuery;
each = function(arr, fn) {
for (var i = 0, len = arr.length; i < len; i++) {
if (fn.call(arr[i], arr[i], i, arr) === false) {
return i;
}
}
};
grep = jQ.grep;
map = function(arr, fn){
//return jQuery.map(arr, fn);
var results = [];
for (var i = 0, len = arr.length; i < len; i++) {
results[i] = fn.call(arr[i], arr[i], i, arr);
}
return results;
};
merge = function(){
var args = arguments;
return jQ.extend(true, null, args[0], args[1], args[2], args[3]);
};
hyphenate = function (str) {
return str.replace(/([A-Z])/g, function(a, b){ return '-'+ b.toLowerCase(); });
};
addEvent = function (el, event, fn){
jQ(el).bind(event, fn);
};
/**
* Remove event added with addEvent
* @param {Object} el The object
* @param {String} eventType The event type. Leave blank to remove all events.
* @param {Function} handler The function to remove
*/
removeEvent = function(el, eventType, handler) {
// workaround for jQuery issue with unbinding custom events:
// http://forum.jquery.com/topic/javascript-error-when-unbinding-a-custom-event-using-jquery-1-4-2
var func = doc.removeEventListener ? 'removeEventListener' : 'detachEvent';
if (doc[func] && !el[func]) {
el[func] = function() {};
}
jQ(el).unbind(eventType, handler);
};
fireEvent = function(el, type, eventArguments, defaultFunction) {
var event = jQ.Event(type),
detachedType = 'detached'+ type;
extend(event, eventArguments);
// Prevent jQuery from triggering the object method that is named the
// same as the event. For example, if the event is 'select', jQuery
// attempts calling el.select and it goes into a loop.
if (el[type]) {
el[detachedType] = el[type];
el[type] = null;
}
// trigger it
jQ(el).trigger(event);
// attach the method
if (el[detachedType]) {
el[type] = el[detachedType];
el[detachedType] = null;
}
if (defaultFunction && !event.isDefaultPrevented()) {
defaultFunction(event);
}
};
animate = function (el, params, options) {
var $el = jQ(el);
$el.stop();
$el.animate(params, options);
};
/**
* Stop running animation
*/
stop = function (el) {
jQ(el).stop();
};
getAjax = function (url, callback) {
jQ.get(url, null, callback);
};
// extend jQuery
jQ.extend( jQ.easing, {
easeOutQuad: function (x, t, b, c, d) {
return -c *(t/=d)*(t-2) + b;
}
});
// extend the animate function to allow SVG animations
var oldStepDefault = jQuery.fx.step._default,
oldCur = jQuery.fx.prototype.cur;
// do the step
jQ.fx.step._default = function(fx){
var elem = fx.elem;
if (elem.attr) { // is SVG element wrapper
elem.attr(fx.prop, fx.now);
} else {
oldStepDefault.apply(this, arguments);
}
};
// get the current value
jQ.fx.prototype.cur = function() {
var elem = this.elem,
r;
if (elem.attr) { // is SVG element wrapper
r = elem.attr(this.prop);
} else {
r = oldCur.apply(this, arguments);
}
return r;
};
// the MooTools adapter
} else if (!globalAdapter && win.MooTools) {
each = $each;
map = function (arr, fn){
return arr.map(fn);
};
grep = function(arr, fn) {
return arr.filter(fn);
};
merge = $merge;
hyphenate = function (str){
return str.hyphenate();
};
addEvent = function (el, type, fn) {
if (typeof type == 'string') { // chart broke due to el being string, type function
if (type == 'unload') { // Moo self destructs before custom unload events
type = 'beforeunload';
}
// if the addEvent method is not defined, el is a custom Highcharts object
// like series or point
if (!el.addEvent) {
if (el.nodeName) {
el = $(el); // a dynamically generated node
} else {
extend(el, new Events()); // a custom object
}
}
el.addEvent(type, fn);
}
};
removeEvent = function(el, type, fn) {
if (type) {
if (type == 'unload') { // Moo self destructs before custom unload events
type = 'beforeunload';
}
el.removeEvent(type, fn);
}
};
fireEvent = function(el, event, eventArguments, defaultFunction) {
// create an event object that keeps all functions
event = new Event({
type: event,
target: el
});
event = extend (event, eventArguments);
// override the preventDefault function to be able to use
// this for custom events
event.preventDefault = function() {
defaultFunction = null;
};
// if fireEvent is not available on the object, there hasn't been added
// any events to it above
if (el.fireEvent) {
el.fireEvent(event.type, event);
}
// fire the default if it is passed and it is not prevented above
if (defaultFunction) {
defaultFunction(event);
}
};
animate = function (el, params, options) {
var isSVGElement = el.attr,
effect;
if (isSVGElement && !el.setStyle) {
// add setStyle and getStyle methods for internal use in Moo
el.setStyle = el.getStyle = el.attr;
// dirty hack to trick Moo into handling el as an element wrapper
el.$family = el.uid = true;
}
// stop running animations
stop(el);
// define and run the effect
effect = new Fx.Morph(
isSVGElement ? el : $(el),
extend(options, {
transition: Fx.Transitions.Quad.easeInOut
})
);
effect.start(params);
el.fx = effect;
};
/**
* Stop running animations on the object
*/
stop = function (el) {
if (el.fx) {
el.fx.cancel();
}
};
getAjax = function (url, callback) {
(new Request({
url: url,
method: 'get',
onSuccess: callback
})).send();
};
}
/**
* Set the time methods globally based on the useUTC option. Time method can be either
* local time or UTC (default).
*/
function setTimeMethods() {
var useUTC = defaultOptions.global.useUTC;
makeTime = useUTC ? Date.UTC : function(year, month, date, hours, minutes, seconds) {
return new Date(
year,
month,
pick(date, 1),
pick(hours, 0),
pick(minutes, 0),
pick(seconds, 0)
).getTime();
};
getMinutes = useUTC ? 'getUTCMinutes' : 'getMinutes';
getHours = useUTC ? 'getUTCHours' : 'getHours';
getDay = useUTC ? 'getUTCDay' : 'getDay';
getDate = useUTC ? 'getUTCDate' : 'getDate';
getMonth = useUTC ? 'getUTCMonth' : 'getMonth';
getFullYear = useUTC ? 'getUTCFullYear' : 'getFullYear';
setMinutes = useUTC ? 'setUTCMinutes' : 'setMinutes';
setHours = useUTC ? 'setUTCHours' : 'setHours';
setDate = useUTC ? 'setUTCDate' : 'setDate';
setMonth = useUTC ? 'setUTCMonth' : 'setMonth';
setFullYear = useUTC ? 'setUTCFullYear' : 'setFullYear';
}
/**
* Merge the default options with custom options and return the new options structure
* @param {Object} options The new custom options
*/
function setOptions(options) {
defaultOptions = merge(defaultOptions, options);
// apply UTC
setTimeMethods();
return defaultOptions;
}
/**
* Get the updated default options. Merely exposing defaultOptions for outside modules
* isn't enough because the setOptions method creates a new object.
*/
function getOptions() {
return defaultOptions;
}
/**
* Discard an element by moving it to the bin and delete
* @param {Object} The HTML node to discard
*/
function discardElement(element) {
// create a garbage bin element, not part of the DOM
if (!garbageBin) {
garbageBin = createElement(DIV);
}
// move the node and empty bin
if (element) {
garbageBin.appendChild(element);
}
garbageBin.innerHTML = '';
}
/* ****************************************************************************
* Handle the options *
*****************************************************************************/
var
defaultLabelOptions = {
enabled: true,
// rotation: 0,
align: 'center',
x: 0,
y: 15,
/*formatter: function() {
return this.value;
},*/
style: {
color: '#666',
fontSize: '11px'
}
};
defaultOptions = {
colors: ['#4572A7', '#AA4643', '#89A54E', '#80699B', '#3D96AE',
'#DB843D', '#92A8CD', '#A47D7C', '#B5CA92'],
symbols: ['circle', 'diamond', 'square', 'triangle', 'triangle-down'],
lang: {
loading: 'Loading...',
months: ['January', 'February', 'March', 'April', 'May', 'June', 'July',
'August', 'September', 'October', 'November', 'December'],
weekdays: ['Sunday', 'Monday', 'Tuesday', 'Wednesday', 'Thursday', 'Friday', 'Saturday'],
decimalPoint: '.',
resetZoom: 'Reset zoom',
resetZoomTitle: 'Reset zoom level 1:1',
thousandsSep: ','
},
global: {
useUTC: true
},
chart: {
//alignTicks: false,
//className: null,
//events: { load, selection },
margin: [50, 50, 90, 80], // docs
//marginTop: 50,
//marginRight: 50,
//marginBottom: 90, // docs
//marginLeft: 50,
borderColor: '#4572A7',
//borderWidth: 0,
borderRadius: 5,
defaultSeriesType: 'line',
ignoreHiddenSeries: true,
//inverted: false,
//shadow: false,
style: {
fontFamily: '"Lucida Grande", "Lucida Sans Unicode", Verdana, Arial, Helvetica, sans-serif', // default font
fontSize: '12px'
},
backgroundColor: '#FFFFFF',
//plotBackgroundColor: null,
plotBorderColor: '#C0C0C0'
//plotBorderWidth: 0,
//plotShadow: false,
//zoomType: ''
},
title: {
text: 'Chart title',
x: 0,
y: 20,
align: 'center',
style: {
color: '#3E576F',
fontSize: '16px'
}
},
subtitle: {
text: '',
x: 0,
y: 40,
align: 'center',
style: {
color: '#6D869F'
}
},
plotOptions: {
line: { // base series options
allowPointSelect: false,
showCheckbox: false,
animation: true,
//cursor: 'default',
//enableMouseTracking: true,
events: {},
lineWidth: 2,
shadow: true,
// stacking: null,
marker: {
enabled: true,
//symbol: null,
lineWidth: 0,
radius: 4,
lineColor: '#FFFFFF',
//fillColor: null,
states: { // states for a single point
hover: {
//radius: base + 2
},
select: {
fillColor: '#FFFFFF',
lineColor: '#000000',
lineWidth: 2
}
}
},
point: {
events: {}
},
dataLabels: merge(defaultLabelOptions, {
enabled: false,
y: -6,
formatter: function() {
return this.y;
}
}),
//pointStart: 0,
//pointInterval: 1,
showInLegend: true,
states: { // states for the entire series
hover: {
//enabled: false,
lineWidth: 3,
marker: {
// lineWidth: base + 1,
// radius: base + 1
}
},
select: {
marker: {}
}
},
stickyTracking: true
}
},
labels: {
//items: [],
style: {
//font: defaultFont,
position: ABSOLUTE,
color: '#3E576F'
}
},
legend: {
enabled: true,
align: 'center',
layout: 'horizontal',
labelFormatter: function() {
return this.name;
},
// lineHeight: 16,
borderWidth: 1,
borderColor: '#909090',
borderRadius: 5,
//reversed: false,
shadow: false,
// backgroundColor: null,
style: {
padding: '5px'
},
itemStyle: {
cursor: 'pointer',
color: '#3E576F'
},
itemHoverStyle: {
cursor: 'pointer',
color: '#000000'
},
itemHiddenStyle: {
color: '#C0C0C0'
},
itemCheckboxStyle: {
position: ABSOLUTE,
width: '13px', // for IE precision
height: '13px'
},
// itemWidth: undefined,
symbolWidth: 16,
symbolPadding: 5,
verticalAlign: 'bottom',
// width: undefined,
x: 15,
y: -15
},
loading: {
hideDuration: 100,
labelStyle: {
fontWeight: 'bold',
position: RELATIVE,
top: '1em'
},
showDuration: 100,
style: {
position: ABSOLUTE,
backgroundColor: 'white',
opacity: 0.5,
textAlign: 'center'
}
},
tooltip: {
enabled: true,
formatter: function() {
var pThis = this,
series = pThis.series,
xAxis = series.xAxis,
x = pThis.x;
return ''+ (pThis.point.name || series.name) +'
'+
(defined(x) ?
'X value: '+ (xAxis && xAxis.options.type == 'datetime' ?
dateFormat(null, x) : x) +'
':
'')+
'Y value: '+ pThis.y;
},
backgroundColor: 'rgba(255, 255, 255, .85)',
borderWidth: 2,
borderRadius: 5,
shadow: true,
snap: 10,
style: {
color: '#333333',
fontSize: '12px',
padding: '5px',
whiteSpace: 'nowrap'
}
},
toolbar: {
itemStyle: {
color: '#4572A7',
cursor: 'pointer'
}
},
credits: {
enabled: true,
text: 'Highcharts.com',
href: 'http://www.highcharts.com',
style: {
cursor: 'pointer',
color: '#909090',
fontSize: '10px'
}
}
};
// Axis defaults
var defaultXAxisOptions = {
// allowDecimals: null,
// alternateGridColor: null,
// categories: [],
dateTimeLabelFormats: {
second: '%H:%M:%S',
minute: '%H:%M',
hour: '%H:%M',
day: '%e. %b',
week: '%e. %b',
month: '%b \'%y',
year: '%Y'
},
endOnTick: false,
gridLineColor: '#C0C0C0',
// gridLineWidth: 0,
// reversed: false,
labels: defaultLabelOptions,
lineColor: '#C0D0E0',
lineWidth: 1,
//linkedTo: null, // docs
max: null,
min: null,
minPadding: 0.01,
maxPadding: 0.01,
maxZoom: null,
minorGridLineColor: '#E0E0E0',
minorGridLineWidth: 1,
minorTickColor: '#A0A0A0',
//minorTickInterval: null,
minorTickLength: 2,
minorTickPosition: 'outside', // inside or outside
minorTickWidth: 1,
//opposite: false,
//offset: 0
//plotBands: [],
//plotLines: [],
//reversed: false,
showFirstLabel: true,
showLastLabel: false,
startOfWeek: 1,
startOnTick: false,
tickColor: '#C0D0E0',
//tickInterval: null,
tickLength: 5,
tickmarkPlacement: 'between', // on or between
tickPixelInterval: 100,
tickPosition: 'outside',
tickWidth: 1,
title: {
//text: null,
align: 'middle', // low, middle or high
margin: 35,
//rotation: 0,
//side: 'outside',
style: {
color: '#6D869F',
//font: defaultFont.replace('normal', 'bold')
fontWeight: 'bold'
}
//x: 0, //docs
//y: 0 // docs
},
type: 'linear' // linear or datetime
},
defaultYAxisOptions = merge(defaultXAxisOptions, {
endOnTick: true,
gridLineWidth: 1,
tickPixelInterval: 72,
showLastLabel: true,
labels: {
align: 'right',
x: -8,
y: 3
},
lineWidth: 0,
maxPadding: 0.05,
minPadding: 0.05,
startOnTick: true,
tickWidth: 0,
title: {
margin: 40,
rotation: 270,
text: 'Y-values'
}
}),
defaultLeftAxisOptions = {
labels: {
align: 'right',
x: -8,
y: 3
},
title: {
rotation: 270
}
},
defaultRightAxisOptions = {
labels: {
align: 'left',
x: 8,
y: 3
},
title: {
rotation: 90
}
},
defaultBottomAxisOptions = { // horizontal axis
labels: {
align: 'center',
x: 0,
y: 14
},
title: {
rotation: 0
}
},
defaultTopAxisOptions = merge(defaultBottomAxisOptions, {
labels: {
y: -5
}
});
// Series defaults
var defaultPlotOptions = defaultOptions.plotOptions,
defaultSeriesOptions = defaultPlotOptions.line;
//defaultPlotOptions.line = merge(defaultSeriesOptions);
defaultPlotOptions.spline = merge(defaultSeriesOptions);
defaultPlotOptions.scatter = merge(defaultSeriesOptions, {
lineWidth: 0,
states: {
hover: {
lineWidth: 0
}
}
});
defaultPlotOptions.area = merge(defaultSeriesOptions, {
// threshold: 0,
// lineColor: null, // overrides color, but lets fillColor be unaltered
// fillOpacity: 0.75,
// fillColor: null
});
defaultPlotOptions.areaspline = merge(defaultPlotOptions.area);
defaultPlotOptions.column = merge(defaultSeriesOptions, {
borderColor: '#FFFFFF',
borderWidth: 1,
borderRadius: 0,
//colorByPoint: undefined,
groupPadding: 0.2,
marker: null, // point options are specified in the base options
pointPadding: 0.1,
//pointWidth: null,
minPointLength: 0,
states: {
hover: {
brightness: 0.1,
shadow: false
},
select: {
color: '#C0C0C0',
borderColor: '#000000',
shadow: false
}
}
});
defaultPlotOptions.bar = merge(defaultPlotOptions.column, {
dataLabels: {
align: 'left',
x: 5,
y: 0
}
});
defaultPlotOptions.pie = merge(defaultSeriesOptions, {
//dragType: '', // n/a
borderColor: '#FFFFFF',
borderWidth: 1,
center: ['50%', '50%'],
colorByPoint: true, // always true for pies
//innerSize: 0,
legendType: 'point',
marker: null, // point options are specified in the base options
size: '90%',
slicedOffset: 10,
states: {
hover: {
brightness: 0.1,
shadow: false
}
}
});
// set the default time methods
setTimeMethods();
/**
* Extend a prototyped class by new members
* @param {Object} parent
* @param {Object} members
*/
function extendClass(parent, members) {
var object = function(){};
object.prototype = new parent();
extend(object.prototype, members);
return object;
}
/**
* Handle color operations. The object methods are chainable.
* @param {String} input The input color in either rbga or hex format
*/
var Color = function(input) {
// declare variables
var rgba = [], result;
/**
* Parse the input color to rgba array
* @param {String} input
*/
function init(input) {
// rgba
if((result = /rgba\(\s*([0-9]{1,3})\s*,\s*([0-9]{1,3})\s*,\s*([0-9]{1,3})\s*,\s*([0-9]?(?:\.[0-9]+)?)\s*\)/.exec(input))) {
rgba = [parseInt(result[1], 10), parseInt(result[2], 10), parseInt(result[3], 10), parseFloat(result[4], 10)];
}
// hex
else if((result = /#([a-fA-F0-9]{2})([a-fA-F0-9]{2})([a-fA-F0-9]{2})/.exec(input))) {
rgba = [parseInt(result[1],16), parseInt(result[2],16), parseInt(result[3],16), 1];
}
}
/**
* Return the color a specified format
* @param {String} format
*/
function get(format) {
var ret;
// it's NaN if gradient colors on a column chart
if (rgba && !isNaN(rgba[0])) {
if (format == 'rgb') {
ret = 'rgb('+ rgba[0] +','+ rgba[1] +','+ rgba[2] +')';
} else if (format == 'a') {
ret = rgba[3];
} else {
ret = 'rgba('+ rgba.join(',') +')';
}
} else {
ret = input;
}
return ret;
}
/**
* Brighten the color
* @param {Object} alpha
*/
function brighten(alpha) {
if (typeof alpha == 'number' && alpha !== 0) {
for (var i = 0; i < 3; i++) {
rgba[i] += parseInt(alpha * 255, 10);
if (rgba[i] < 0) {
rgba[i] = 0;
}
if (rgba[i] > 255) {
rgba[i] = 255;
}
}
}
return this;
}
/**
* Set the color's opacity to a given alpha value
* @param {Number} alpha
*/
function setOpacity(alpha) {
rgba[3] = alpha;
return this;
}
// initialize: parse the input
init(input);
// public methods
return {
get: get,
brighten: brighten,
setOpacity: setOpacity
};
};
/**
* Format a number and return a string based on input settings
* @param {Number} number The input number to format
* @param {Number} decimals The amount of decimals
* @param {String} decPoint The decimal point, defaults to the one given in the lang options
* @param {String} thousandsSep The thousands separator, defaults to the one given in the lang options
*/
function numberFormat (number, decimals, decPoint, thousandsSep) {
var lang = defaultOptions.lang,
// http://kevin.vanzonneveld.net/techblog/article/javascript_equivalent_for_phps_number_format/
n = number, c = isNaN(decimals = mathAbs(decimals)) ? 2 : decimals,
d = decPoint === undefined ? lang.decimalPoint : decPoint,
t = thousandsSep === undefined ? lang.thousandsSep : thousandsSep, s = n < 0 ? "-" : "",
i = parseInt(n = mathAbs(+n || 0).toFixed(c), 10) + "", j = (j = i.length) > 3 ? j % 3 : 0;
return s + (j ? i.substr(0, j) + t : "") + i.substr(j).replace(/(\d{3})(?=\d)/g, "$1" + t) +
(c ? d + mathAbs(n - i).toFixed(c).slice(2) : "");
}
/**
* Based on http://www.php.net/manual/en/function.strftime.php
* @param {String} format
* @param {Number} timestamp
* @param {Boolean} capitalize
*/
dateFormat = function (format, timestamp, capitalize) {
function pad (number) {
return number.toString().replace(/^([0-9])$/, '0$1');
}
if (!defined(timestamp) || isNaN(timestamp)) {
return 'Invalid date';
}
format = pick(format, '%Y-%m-%d %H:%M:%S');
var date = new Date(timestamp * timeFactor),
// get the basic time values
hours = date[getHours](),
day = date[getDay](),
dayOfMonth = date[getDate](),
month = date[getMonth](),
fullYear = date[getFullYear](),
lang = defaultOptions.lang,
langWeekdays = lang.weekdays,
langMonths = lang.months,
// list all format keys
replacements = {
// Day
'a': langWeekdays[day].substr(0, 3), // Short weekday, like 'Mon'
'A': langWeekdays[day], // Long weekday, like 'Monday'
'd': pad(dayOfMonth), // Two digit day of the month, 01 to 31
'e': dayOfMonth, // Day of the month, 1 through 31
// Week (none implemented)
// Month
'b': langMonths[month].substr(0, 3), // Short month, like 'Jan'
'B': langMonths[month], // Long month, like 'January'
'm': pad(month + 1), // Two digit month number, 01 through 12
// Year
'y': fullYear.toString().substr(2, 2), // Two digits year, like 09 for 2009
'Y': fullYear, // Four digits year, like 2009
// Time
'H': pad(hours), // Two digits hours in 24h format, 00 through 23
'I': pad((hours % 12) || 12), // Two digits hours in 12h format, 00 through 11
'l': (hours % 12) || 12, // Hours in 12h format, 1 through 12
'M': pad(date[getMinutes]()), // Two digits minutes, 00 through 59
'p': hours < 12 ? 'AM' : 'PM', // Upper case AM or PM
'P': hours < 12 ? 'am' : 'pm', // Lower case AM or PM
'S': pad(date.getSeconds()) // Two digits seconds, 00 through 59
};
// do the replaces
for (var key in replacements) {
format = format.replace('%'+ key, replacements[key]);
}
// Optionally capitalize the string and return
return capitalize ? format.substr(0, 1).toUpperCase() + format.substr(1) : format;
};
/**
* Loop up the node tree and add offsetWidth and offsetHeight to get the
* total page offset for a given element
* @param {Object} el
*/
function getPosition (el) {
var p = { x: el.offsetLeft, y: el.offsetTop };
while (el.offsetParent) {
el = el.offsetParent;
p.x += el.offsetLeft;
p.y += el.offsetTop;
if (el != doc.body && el != doc.documentElement) {
p.x -= el.scrollLeft;
p.y -= el.scrollTop;
}
}
return p;
}
/**
* A wrapper object for SVG elements
*/
function SVGElement () {}
SVGElement.prototype = {
/**
* Initialize the SVG renderer
* @param {Object} renderer
* @param {String} nodeName
*/
init: function(renderer, nodeName) {
this.element = doc.createElementNS('http://www.w3.org/2000/svg', nodeName);
this.renderer = renderer;
},
/**
* Animate a given attribute
* @param {Object} params
* @param {Number} duration
*/
animate: function(params, duration) {
animate(this, params, duration);
},
/**
* Set or get a given attribute
* @param {Object|String} hash
* @param {Mixed|Undefined} val
*/
attr: function(hash, val) {
var key,
value,
i,
child,
element = this.element,
nodeName = element.nodeName,
renderer = this.renderer,
skipAttr,
shadows = this.shadows,
hasSetSymbolSize,
ret = this;
// single key-value pair
if (typeof hash == 'string' && defined(val)) {
key = hash;
hash = {};
hash[key] = val;
}
// used as a getter: first argument is a string, second is undefined
if (typeof hash == 'string') {
key = hash;
if (nodeName == 'circle') {
key = { x: 'cx', y: 'cy' }[key] || key;
} else if (key == 'strokeWidth') {
key = 'stroke-width';
}
ret = parseFloat(attr(element, key) || this[key] || 0);
// setter
} else {
for (key in hash) {
value = hash[key];
// paths
if (key == 'd') {
if (value && value.join) { // join path
value = value.join(' ');
}
if (/(NaN| |^$)/.test(value)) {
value = 'M 0 0';
}
// update child tspans x values
} else if (key == 'x' && nodeName == 'text') {
for (i = 0; i < element.childNodes.length; i++ ) {
child = element.childNodes[i];
// if the x values are equal, the tspan represents a linebreak
if (attr(child, 'x') == attr(element, 'x')) {
//child.setAttribute('x', value);
attr(child, 'x', value);
}
}
// apply gradients
} else if (key == 'fill') {
value = renderer.color(value, element, key);
// circle x and y
} else if (nodeName == 'circle') {
key = { x: 'cx', y: 'cy' }[key] || key;
// translation
} else if (key == 'translateX' || key == 'translateY') {
this[key] = value;
this.updateTransform();
skipAttr = true;
// apply opacity as subnode (required by legacy WebKit and Batik)
} else if (key == 'stroke') {
value = renderer.color(value, element, key);
// special
} else if (key == 'isTracker') {
this[key] = value;
}
// jQuery animate changes case
if (key == 'strokeWidth') {
key = 'stroke-width';
}
// Chrome/Win < 6 bug (http://code.google.com/p/chromium/issues/detail?id=15461)
if (isWebKit && key == 'stroke-width' && value === 0) {
value = 0.000001;
}
// symbols
if (this.symbolName && /^(x|y|r|start|end|innerR)/.test(key)) {
if (!hasSetSymbolSize) {
this.symbolAttr(hash);
hasSetSymbolSize = true;
}
skipAttr = true;
}
// let the shadow follow the main element
if (shadows && /^(width|height|visibility|x|y|d)$/.test(key)) {
i = shadows.length;
while (i--) {
attr(shadows[i], key, value);
}
}
if (key == 'text') {
// only one node allowed
renderer.buildText(element, value);
} else if (!skipAttr) {
//element.setAttribute(key, value);
attr(element, key, value);
}
}
}
return ret;
},
/**
* If one of the symbol size affecting parameters are changed,
* check all the others only once for each call to an element's
* .attr() method
* @param {Object} hash
*/
symbolAttr: function(hash) {
var wrapper = this;
wrapper.x = pick(hash.x, wrapper.x);
wrapper.y = parseFloat(pick(hash.y, wrapper.y)); // mootools animation bug needs parseFloat
wrapper.r = pick(hash.r, wrapper.r);
wrapper.start = pick(hash.start, wrapper.start);
wrapper.end = pick(hash.end, wrapper.end);
wrapper.width = pick(hash.width, wrapper.width);
wrapper.height = parseFloat(pick(hash.height, wrapper.height));
wrapper.innerR = pick(hash.innerR, wrapper.innerR);
wrapper.attr({
d: wrapper.renderer.symbols[wrapper.symbolName](wrapper.x, wrapper.y, wrapper.r, {
start: wrapper.start,
end: wrapper.end,
width: wrapper.width,
height: wrapper.height,
innerR: wrapper.innerR
})
});
},
/**
* Apply a clipping path to this object
* @param {String} id
*/
clip: function(clipRect) {
return this.attr('clip-path', 'url('+ this.renderer.url +'#'+ clipRect.id +')');
},
/**
* Set styles for the element
* @param {Object} styles
*/
css: function(styles) {
var elemWrapper = this;
// convert legacy
if (styles && styles.color) {
styles.fill = styles.color;
}
// save the styles in an object
styles = extend(
elemWrapper.styles,
styles
);
// serialize and set style attribute
elemWrapper.attr({
style: serializeCSS(styles)
});
// store object
elemWrapper.styles = styles;
return elemWrapper;
},
/**
* Add an event listener
* @param {String} eventType
* @param {Function} handler
*/
on: function(eventType, handler) {
// simplest possible event model for internal use
this.element['on'+ eventType] = handler;
return this;
},
/**
* Move an object and its children by x and y values
* @param {Number} x
* @param {Number} y
*/
translate: function(x, y) {
var wrapper = this;
wrapper.translateX = x;
wrapper.translateY = y;
wrapper.updateTransform();
return wrapper;
},
/**
* Invert a group, rotate and flip
*/
invert: function() {
var wrapper = this;
wrapper.inverted = true;
wrapper.updateTransform();
return wrapper;
},
/**
* Private method to update the transform attribute based on internal
* properties
*/
updateTransform: function() {
var wrapper = this,
translateX = wrapper.translateX || 0,
translateY = wrapper.translateY || 0,
inverted = wrapper.inverted,
transform = [];
// flipping affects translate as adjustment for flipping around the group's axis
if (inverted) {
translateX += wrapper.attr('width');
translateY += wrapper.attr('height');
}
// apply translate
if (translateX || translateY) {
transform.push('translate('+ translateX +','+ translateY +')');
}
// apply rotation
if (inverted) {
transform.push('rotate(90) scale(-1,1)');
}
if (transform.length) {
attr(wrapper.element, 'transform', transform.join(' '));
}
},
/**
* Bring the element to the front
*/
toFront: function() {
var element = this.element;
element.parentNode.appendChild(element);
return this;
},
/**
* Get the bounding box (width, height, x and y) for the element
*/
getBBox: function() {
return this.element.getBBox();
},
/**
* Show the element
*/
show: function() {
return this.attr({ visibility: VISIBLE });
},
/**
* Hide the element
*/
hide: function() {
return this.attr({ visibility: HIDDEN });
},
/**
* Add the element
* @param {Object|Undefined} parent Can be an element, an element wrapper or undefined
* to append the element to the renderer.box.
*/
add: function(parent) {
var renderer = this.renderer,
parentWrapper = parent || renderer,
parentNode = parentWrapper.element || renderer.box,
childNodes = parentNode.childNodes,
element = this.element,
zIndex = attr(element, 'zIndex'),
otherElement,
otherZIndex,
i;
// mark as inverted
this.parentInverted = parent && parent.inverted;
// mark the container as having z indexed children
if (zIndex) {
parentWrapper.handleZ = true;
zIndex = parseInt(zIndex, 10);
}
// insert according to this and other elements' zIndex
if (parentWrapper.handleZ) { // this element or any of its siblings has a z index
for (i = 0; i < childNodes.length; i++) {
otherElement = childNodes[i];
otherZIndex = attr(otherElement, 'zIndex');
if (otherElement != element && (
// insert before the first element with a higher zIndex
parseInt(otherZIndex, 10) > zIndex ||
// if no zIndex given, insert before the first element with a zIndex
(!defined(zIndex) && defined(otherZIndex))
)) {
parentNode.insertBefore(element, otherElement);
return this;
}
}
}
// default: append at the end
parentNode.appendChild(element);
return this;
},
/**
* Destroy the element and element wrapper
*/
destroy: function() {
var wrapper = this,
element = wrapper.element,
shadows = wrapper.shadows,
parentNode = element.parentNode,
key;
element.onclick = element.onmouseout = element.onmouseover = element.onmousemove = null;
stop(wrapper); // stop running animations
if (parentNode) {
parentNode.removeChild(element);
}
if (shadows) {
each(shadows, function(shadow) {
parentNode = shadow.parentNode;
if (parentNode) { // the entire chart HTML can be overwritten
parentNode.removeChild(shadow);
}
});
}
for (key in wrapper) {
delete wrapper[key];
}
return null;
},
/**
* Empty a group element
*/
empty: function() {
var element = this.element,
childNodes = element.childNodes,
i = childNodes.length;
while (i--) {
element.removeChild(childNodes[i]);
}
},
/**
* Add a shadow to the element. Must be done after the element is added to the DOM
* @param {Boolean} apply
*/
shadow: function(apply) {
var shadows = [],
i,
shadow,
element = this.element,
// compensate for inverted plot area
transform = this.parentInverted ? '(-1,-1)' : '(1,1)';
if (apply) {
//obj.shadows = [];
for (i = 1; i <= 3; i++) {
/*this.drawRect(x + 1, y + 1, w, h, 'rgba(0, 0, 0, '+ (0.05 * i) +')',
6 - 2 * i, radius);*/
shadow = element.cloneNode(0);
attr(shadow, {
'isShadow': 'true',
'stroke': 'rgb(0, 0, 0)',
'stroke-opacity': 0.05 * i,
'stroke-width': 7 - 2 * i,
'transform': 'translate'+ transform,
'fill': NONE
});
element.parentNode.insertBefore(shadow, element);
shadows.push(shadow);
}
this.shadows = shadows;
}
return this;
}
};
/**
* The default SVG renderer
*/
var SVGRenderer = function() {
this.init.apply(this, arguments);
};
SVGRenderer.prototype = {
/**
* Initialize the SVGRenderer
* @param {Object} container
* @param {Number} width
* @param {Number} height
*/
init: function(container, width, height) {
var box = doc.createElementNS('http://www.w3.org/2000/svg', 'svg'),
loc = location;
attr(box, {
width: width,
height: height,
xmlns: 'http://www.w3.org/2000/svg',
version: '1.1'
});
container.appendChild(box);
// object properties
this.Element = SVGElement;
this.box = box;
this.url = isIE ? '' : loc.href.replace(/#.*?$/, ''); // page url used for internal references
this.defs = this.createElement('defs').add();
},
/**
* Create a wrapper for an SVG element
* @param {Object} nodeName
*/
createElement: function(nodeName) {
var wrapper = new this.Element();
wrapper.init(this, nodeName);
return wrapper;
},
/**
* Parse a simple HTML string into SVG tspans
*
* @param {Object} textNode The parent text SVG node
* @param {String} str
*/
buildText: function(textNode, str) {
var lines = str.toString()
.replace(/<(b|strong)>/g, '')
.replace(/<(i|em)>/g, '')
.replace(//g, '')
.split(/]?>/g),
childNodes = textNode.childNodes,
styleRegex = /style="([^"]+)"/,
hrefRegex = /href="([^"]+)"/,
parentX = attr(textNode, 'x'),
i = childNodes.length;
// remove old text
while (i--) {
textNode.removeChild(childNodes[i]);
}
each (lines, function(line, lineNo) {
var spans, spanNo = 0;
line = line.replace(//g, '|||');
spans = line.split('|||');
each (spans, function (span) {
if (span !== '' || spans.length == 1) {
var attributes = {},
tspan = doc.createElementNS('http://www.w3.org/2000/svg', 'tspan');
if (styleRegex.test(span)) {
attr(
tspan,
'style',
span.match(styleRegex)[1].replace(/(;| |^)color([ :])/, '$1fill$2')
);
}
if (hrefRegex.test(span)) {
attr(tspan, 'onclick', 'location.href=\"'+ span.match(hrefRegex)[1] +'\"');
css(tspan, { cursor: 'pointer' });
}
span = span.replace(/<(.|\n)*?>/g, '');
tspan.appendChild(doc.createTextNode(span || ' ')); // WebKit needs a string
//console.log('"'+tspan.textContent+'"');
if (!spanNo) { // first span in a line, align it to the left
attributes.x = parentX;
} else {
// Firefox ignores spaces at the front or end of the tspan
attributes.dx = 3; // space
}
if (lineNo && !spanNo) { // first span on subsequent line, add the line height
attributes.dy = 16;
}
attr(tspan, attributes);
textNode.appendChild(tspan);
spanNo++;
}
});
});
},
/**
* Make a straight line crisper by not spilling out to neighbour pixels
* @param {Array} points
* @param {Number} width
*/
crispLine: function(points, width) {
// points format: [M, 0, 0, L, 100, 0]
// normalize to a crisp line
if (points[1] == points[4]) {
points[1] = points[4] = mathRound(points[1]) + (width % 2 / 2);
}
if (points[2] == points[5]) {
points[2] = points[5] = mathRound(points[2]) + (width % 2 / 2);
}
return points;
},
/**
* Draw a path
* @param {Array} path An SVG path in array form
*/
path: function (path) {
return this.createElement('path').attr({
d: path,
fill: NONE
});
},
/**
* Draw and return an SVG circle
* @param {Number} x The x position
* @param {Number} y The y position
* @param {Number} r The radius
*/
circle: function (x, y, r) {
var attr = typeof x == 'object' ?
x :
{
x: x,
y: y,
r: r
};
return this.createElement('circle').attr(attr);
},
/**
* Draw and return an arc
* @param {Number} x X position
* @param {Number} y Y position
* @param {Number} r Radius
* @param {Number} innerR Inner radius like used in donut charts
* @param {Number} start Starting angle
* @param {Number} end Ending angle
*/
arc: function (x, y, r, innerR, start, end) {
// arcs are defined as symbols for the ability to set
// attributes in attr and animate
if (typeof x == 'object') {
y = x.y;
r = x.r;
innerR = x.innerR;
start = x.start;
end = x.end;
x = x.x;
}
return this.symbol('arc', x || 0, y || 0, r || 0, {
innerR: innerR || 0,
start: start || 0,
end: end || 0
});
},
/**
* Draw and return a rectangle
* @param {Number} x Left position
* @param {Number} y Top position
* @param {Number} width
* @param {Number} height
* @param {Number} r Border corner radius
* @param {Number} strokeWidth A stroke width can be supplied to allow crisp drawing
*/
rect: function (x, y, width, height, r, strokeWidth) {
if (arguments.length > 1) {
var normalizer = (strokeWidth || 0) % 2 / 2;
// normalize for crisp edges
x = mathRound(x || 0) + normalizer;
y = mathRound(y || 0) + normalizer;
width = mathRound((width || 0) - 2 * normalizer);
height = mathRound((height || 0) - 2 * normalizer);
}
var attr = typeof x == 'object' ?
x : // the attributes can be passed as the first argument
{
x: x,
y: y,
width: mathMax(width, 0),
height: mathMax(height, 0)
};
return this.createElement('rect').attr(extend(attr, {
rx: r || attr.r,
ry: r || attr.r,
fill: NONE
}));
},
/**
* Create a group
* @param {String} name The group will be given a class name of 'highcharts-{name}'.
* This can be used for styling and scripting.
*/
g: function(name) {
return this.createElement('g').attr(
defined(name) && { 'class': PREFIX + name }
);
},
/**
* Display an image
* @param {String} src
* @param {Number} x
* @param {Number} y
* @param {Number} width
* @param {Number} height
*/
image: function(src, x, y, width, height) {
var elemWrapper = this.createElement('image').attr({
x: x,
y: y,
width: width,
height: height,
preserveAspectRatio: NONE
});
// set the href in the xlink namespace
elemWrapper.element.setAttributeNS('http://www.w3.org/1999/xlink',
'href', src);
return elemWrapper;
},
/**
* Draw a symbol out of pre-defined shape paths from the namespace 'symbol' object.
*
* @param {Object} symbol
* @param {Object} x
* @param {Object} y
* @param {Object} radius
* @param {Object} options
*/
symbol: function(symbol, x, y, radius, options) {
var obj,
// get the symbol definition function
symbolFn = this.symbols[symbol],
// check if there's a path defined for this symbol
path = symbolFn && symbolFn(
x,
y,
radius,
options
),
imageRegex = /^url\((.*?)\)$/,
imageSrc;
if (path) {
obj = this.path(path);
// expando properties for use in animate and attr
extend(obj, {
symbolName: symbol,
x: x,
y: y,
r: radius
});
if (options) {
extend(obj, options);
}
// image symbols
} else if (imageRegex.test(symbol)) {
imageSrc = symbol.match(imageRegex)[1];
// create the image
obj = this.image(imageSrc).attr({
visibility: HIDDEN
});
// create a dummy JavaScript image to get the width and height
createElement('img', {
onload: function() {
var img = this,
size = symbolSizes[img.src] || [img.width, img.height];
obj.attr({
x: mathRound(x - size[0] / 2) + PX,
y: mathRound(y - size[1] / 2) + PX,
width: size[0],
height: size[1],
visibility: 'inherit'
});
},
src: imageSrc
});
// default circles
} else {
obj = this.circle (x, y, radius);
}
return obj;
},
/**
* An extendable collection of functions for defining symbol paths.
*/
symbols: {
'square': function (x, y, radius) {
var len = 0.707 * radius;
return [
M, x-len, y-len,
L, x+len, y-len,
x+len, y+len,
x-len, y+len,
'Z'
];
},
'triangle': function (x, y, radius) {
return [
M, x, y-1.33 * radius,
L, x+radius, y + 0.67 * radius,
x-radius, y + 0.67 * radius,
'Z'
];
},
'triangle-down': function (x, y, radius) {
return [
M, x, y + 1.33 * radius,
L, x-radius, y-0.67 * radius,
x+radius, y-0.67 * radius,
'Z'
];
},
'diamond': function (x, y, radius) {
return [
M, x, y-radius,
L, x+radius, y,
x, y+radius,
x-radius, y,
'Z'
];
},
'arc': function (x, y, radius, options) {
var pi = Math.PI,
start = options.start,
end = options.end - 0.000001, // to prevent cos and sin of start and end from becoming equal on 360 arcs
innerRadius = options.innerR,
cosStart = mathCos(start),
sinStart = mathSin(start),
cosEnd = mathCos(end),
sinEnd = mathSin(end),
longArc = options.end - start < pi ? 0 : 1;
return [
M,
x + radius * cosStart,
y + radius * sinStart,
'A', // arcTo
radius, // x radius
radius, // y radius
0, // slanting
longArc, // long or short arc
1, // clockwise
x + radius * cosEnd,
y + radius * sinEnd,
L,
x + innerRadius * cosEnd,
y + innerRadius * sinEnd,
'A', // arcTo
innerRadius, // x radius
innerRadius, // y radius
0, // slanting
longArc, // long or short arc
0, // clockwise
x + innerRadius * cosStart,
y + innerRadius * sinStart,
'Z' // close
];
}
},
/**
* Define a clipping rectangle
* @param {String} id
* @param {Number} x
* @param {Number} y
* @param {Number} width
* @param {Number} height
*/
clipRect: function (x, y, width, height) {
var wrapper,
id = PREFIX + idCounter++,
clipPath = this.createElement('clipPath').attr({
id: id
}).add(this.defs);
wrapper = this.rect(x, y, width, height, 0).add(clipPath);
wrapper.id = id;
return wrapper;
},
/**
* Take a color and return it if it's a string, make it a gradient if it's a
* gradient configuration object
*
* @param {Object} color The color or config object
*/
color: function(color, elem, prop) {
var colorObject,
regexRgba = /^rgba/;
if (color && color.linearGradient) {
var renderer = this,
strLinearGradient = 'linearGradient',
linearGradient = color[strLinearGradient],
id = PREFIX + idCounter++,
gradientObject,
stopColor,
stopOpacity;
gradientObject = renderer.createElement(strLinearGradient).attr({
id: id,
gradientUnits: 'userSpaceOnUse',
x1: linearGradient[0],
y1: linearGradient[1],
x2: linearGradient[2],
y2: linearGradient[3]
}).add(renderer.defs);
each(color.stops, function(stop) {
if (regexRgba.test(stop[1])) {
colorObject = Color(stop[1]);
stopColor = colorObject.get('rgb');
stopOpacity = colorObject.get('a');
} else {
stopColor = stop[1];
stopOpacity = 1;
}
renderer.createElement('stop').attr({
offset: stop[0],
'stop-color': stopColor,
'stop-opacity': stopOpacity
}).add(gradientObject);
});
return 'url('+ this.url +'#'+ id +')';
// Webkit and Batik can't show rgba.
} else if (regexRgba.test(color)) {
colorObject = Color(color);
attr(elem, prop +'-opacity', colorObject.get('a'));
return colorObject.get('rgb');
} else {
return color;
}
},
/**
* Add text to the SVG object
* @param {String} str
* @param {Number} x Left position
* @param {Number} y Top position
* @param {Object} style CSS styles for the text
* @param {Nubmer} rotation Rotation in degrees
* @param {String} align Left, center or right
*/
text: function(str, x, y, style, rotation, align) {
style = style || {};
align = align || 'left';
rotation = rotation || 0;
// declare variables
var attribs,
css,
fill = style.color || '#000000',
defaultChartStyle = defaultOptions.chart.style;
x = mathRound(pick(x, 0));
y = mathRound(pick(y, 0));
extend(style, {
fontFamily: style.fontFamily || defaultChartStyle.fontFamily,
fontSize: style.fontSize || defaultChartStyle.fontSize
});
// prepare style
css = serializeCSS(style);
// prepare attributes
attribs = {
x: x,
y: y,
text: str,
fill: fill,
style: css.replace(/"/g, "'")
};
if (rotation || align != 'left') {
attribs = extend(attribs, {
'text-anchor': { left: 'start', center: 'middle', right: 'end' }[align],
transform: 'rotate('+ rotation +' '+ x +' '+ y +')'
});
}
return this.createElement('text').attr(attribs);
//}
}
}; // end SVGRenderer
/* ****************************************************************************
* *
* START OF INTERNET EXPLORER <= 8 SPECIFIC CODE *
* *
* For applications and websites that don't need IE support, like platform *
* targeted mobile apps and web apps, this code can be removed. *
* *
*****************************************************************************/
var VMLRenderer;
if (!hasSVG) {
/**
* The VML element wrapper.
*/
var VMLElement = extendClass( SVGElement, {
/**
* Initialize a new VML element wrapper. It builds the markup as a string
* to minimize DOM traffic.
* @param {Object} renderer
* @param {Object} nodeName
*/
init: function(renderer, nodeName) {
var markup = ['<', nodeName, ' filled="f" stroked="f"'],
style = ['position: ', ABSOLUTE, ';'];
// divs and shapes need size
if (nodeName == 'shape' || nodeName == DIV) {
style.push('left:0;top:0;width:10px;height:10px');
}
markup.push(' style="', style.join(''), '"/>');
// create element with default attributes and style
if (nodeName) {
markup = nodeName == DIV || nodeName == 'span' || nodeName == 'img' ?
markup.join('')
: renderer.prepVML(markup);
this.element = createElement(markup);
}
this.renderer = renderer;
},
/**
* Add the node to the given parent
* @param {Object} parent
*/
add: function(parent) {
var wrapper = this,
renderer = wrapper.renderer,
element = wrapper.element,
box = renderer.box,
inverted = parent && parent.inverted,
parentStyle,
// get the parent node
parentNode = parent ?
parent.element || parent :
box;
// if the parent group is inverted, apply inversion on all children
if (inverted) { // only on groups
parentStyle = parentNode.style;
css(element, {
flip: 'x',
left: parseInt(parentStyle.width, 10) - 10,
top: parseInt(parentStyle.height, 10) - 10,
rotation: -90
});
}
// append it
parentNode.appendChild(element);
return wrapper;
},
/**
* Get or set attributes
*/
attr: function(hash, val) {
var key,
value,
i,
element = this.element,
elemStyle = element.style,
nodeName = element.nodeName,
renderer = this.renderer,
symbolName = this.symbolName,
hasSetSymbolSize,
shadows = this.shadows,
documentMode = doc.documentMode,
skipAttr,
ret = this;
// single key-value pair
if (typeof hash == 'string' && defined(val)) {
key = hash;
hash = {};
hash[key] = val;
}
// used as a getter, val is undefined
if (typeof hash == 'string') {
key = hash;
if (key == 'strokeWidth' || key == 'stroke-width') {
ret = element.strokeweight;
} else {
ret = pick(
this[key],
parseInt(elemStyle[{
x: 'left',
y: 'top'
}[key] || key], 10)
);
}
// setter
} else {
for (key in hash) {
value = hash[key];
skipAttr = false;
// prepare paths
// symbols
if (symbolName && /^(x|y|r|start|end|width|height|innerR)/.test(key)) {
// if one of the symbol size affecting parameters are changed,
// check all the others only once for each call to an element's
// .attr() method
if (!hasSetSymbolSize) {
this.symbolAttr(hash);
hasSetSymbolSize = true;
}
skipAttr = true;
} else if (key == 'd') {
//key = 'path';
// convert paths
i = value.length;
var convertedPath = [];
while (i--) {
// Multiply by 10 to allow subpixel precision.
// Substracting half a pixel seems to make the coordinates
// align with SVG, but this hasn't been tested thoroughly
if (typeof value[i] == 'number') {
convertedPath[i] = mathRound(value[i] * 10) - 5;
}
// close the path
else if (value[i] == 'Z') {
convertedPath[i] = 'x';
}
else {
convertedPath[i] = value[i];
}
}
value = convertedPath.join(' ') || 'x';
element.path = value;
// update shadows
if (shadows) {
i = shadows.length;
while (i--) {
shadows[i].path = value;
}
}
skipAttr = true;
// directly mapped to css
} else if (key == 'zIndex' || key == 'visibility') {
elemStyle[key] = value;
// issue 61 workaround
if (documentMode == 8 && key == 'visibility' && nodeName == 'DIV') {
each(element.childNodes, function(childNode) {
css(childNode, { visibility: value });
});
}
skipAttr = true;
// width and height
} else if (/^(width|height)$/.test(key)) {
// normal
elemStyle[key] = value;
// clipping rectangle special
if (this.updateClipping) {
this.updateClipping();
}
skipAttr = true;
// x and y
} else if (/^(x|y)$/.test(key)) {
if (key == 'y' && element.tagName == 'SPAN' && element.lineHeight) { // subtract lineHeight
value -= element.lineHeight;
}
elemStyle[{ x: 'left', y: 'top' }[key]] = value;
// class name
} else if (key == 'class') {
// IE8 Standards mode has problems retrieving the className
element.className = value;
// stroke
} else if (key == 'stroke') {
value = renderer.color(value, element, key);
key = 'strokecolor';
// stroke width
} else if (key == 'stroke-width' || key == 'strokeWidth') {
element.stroked = value ? true : false;
key = 'strokeweight';
if (typeof value == 'number') {
value += PX;
}
// fill
} else if (key == 'fill') {
if (nodeName == 'SPAN') { // text color
elemStyle.color = value;
} else {
element.filled = value != NONE ? true : false;
value = renderer.color(value, element, key);
key = 'fillcolor';
}
}
// translation for animation
else if (key == 'translateX' || key == 'translateY') {
this[key] = val;
this.updateTransform();
skipAttr = true;
}
// let the shadow follow the main element
if (shadows && key == 'visibility') {
i = shadows.length;
while (i--) {
shadows[i].style[key] = value;
}
}
if (key == 'text') {
// only one node allowed
element.innerHTML = value;
} else if (!skipAttr) {
if (documentMode == 8) { // IE8 setAttribute bug
element[key] = value;
} else {
attr(element, key, value);
}
}
}
}
return ret;
},
/**
* Set the element's clipping to a predefined rectangle
*
* @param {String} id The id of the clip rectangle
*/
clip: function(clipRect) {
var wrapper = this,
clipMembers = clipRect.members,
index = clipMembers.length;
clipMembers.push(wrapper);
wrapper.destroyClip = function() {
clipMembers.splice(index, 1);
};
return wrapper.css(clipRect.getCSS(wrapper.inverted));
},
/**
* Set styles for the element
* @param {Object} styles
*/
css: function(styles) {
var wrapper = this;
css(wrapper.element, styles);
return wrapper;
},
/**
* Extend element.destroy by removing it from the clip members array
*/
destroy: function() {
var wrapper = this;
if (wrapper.destroyClip) {
wrapper.destroyClip();
}
SVGElement.prototype.destroy.apply(this);
},
/**
* Remove all child nodes of a group, except the v:group element
*/
empty: function() {
var element = this.element,
childNodes = element.childNodes,
i = childNodes.length,
node;
while (i--) {
node = childNodes[i];
node.parentNode.removeChild(node);
}
},
/**
* Calculate the bounding box based on offsets
*
* @return {Object} A hash containing values for x, y, width and height
*/
getBBox: function() {
var element = this.element,
ret,
hasOffsetWidth = element.offsetWidth,
origParentNode = element.parentNode;
if (!hasOffsetWidth) {
doc.body.appendChild(element);
}
ret = {
x: element.offsetLeft,
y: element.offsetTop,
width: element.offsetWidth,
height: element.offsetHeight
};
if (!hasOffsetWidth) {
if (origParentNode) {
origParentNode.appendChild(element);
} else {
doc.body.removeChild(element);
}
}
return ret;
},
/**
* Add an event listener. VML override for normalizing event parameters.
* @param {String} eventType
* @param {Function} handler
*/
on: function(eventType, handler) {
// simplest possible event model for internal use
this.element['on'+ eventType] = function() {
var evt = win.event;
evt.target = evt.srcElement;
handler(evt);
};
return this;
},
/**
* Private method to update elements based on internal
* properties based on SVG transform
*/
updateTransform: function() {
var wrapper = this,
translateX = wrapper.translateX || 0,
translateY = wrapper.translateY || 0;
// apply translate
if (translateX || translateY) {
wrapper.css({
left: translateX,
top: translateY
});
}
},
/**
* Apply a drop shadow by copying elements and giving them different strokes
* @param {Boolean} apply
*/
shadow: function(apply) {
var shadows = [],
i,
element = this.element,
renderer = this.renderer,
shadow,
elemStyle = element.style,
markup,
path = element.path;
// the path is some mysterious string-like object that can be cast to a string
if (''+ element.path == '') {
path = 'x';
}
if (apply) {
for (i = 1; i <= 3; i++) {
markup = [''];
shadow = createElement(renderer.prepVML(markup),
null, {
left: parseInt(elemStyle.left, 10) + 1,
top: parseInt(elemStyle.top, 10) + 1
}
);
// apply the opacity
markup = [''];
createElement(renderer.prepVML(markup), null, null, shadow);
// insert it
element.parentNode.insertBefore(shadow, element);
// record it
shadows.push(shadow);
}
this.shadows = shadows;
}
return this;
}
});
/**
* The VML renderer
*/
VMLRenderer = function() {
this.init.apply(this, arguments);
};
VMLRenderer.prototype = merge( SVGRenderer.prototype, { // inherit SVGRenderer
isIE8: userAgent.indexOf('MSIE 8.0') > -1,
/**
* Initialize the VMLRenderer
* @param {Object} container
* @param {Number} width
* @param {Number} height
*/
init: function(container, width, height) {
// generate the containing box
this.width = width;
this.height = height;
this.box = createElement(DIV, null, {
width: width + PX,
height: height + PX
}, container);
this.Element = VMLElement;
// The only way to make IE6 and IE7 print is to use a global namespace. However,
// with IE8 the only way to make the dynamic shapes visible in screen and print mode
// seems to be to add the xmlns attribute and the behaviour style inline. Except
// for rotated text, which I haven't been able to render in IE8 without a namespace.
// As a consequence, rotated text doesn't print.
if (!doc.namespaces.hcv) {
doc.namespaces.add('hcv', 'urn:schemas-microsoft-com:vml');
// setup default css
doc.createStyleSheet().cssText =
'hcv\\:fill, hcv\\:path, hcv\\:textpath, hcv\\:shape, hcv\\:stroke, hcv\\:line '+
'{ behavior:url(#default#VML); display: inline-block; } ';
}
},
/**
* Define a clipping rectangle. In VML it is accomplished by storing the values
* for setting the CSS style to all associated members.
*
* @param {Number} x
* @param {Number} y
* @param {Number} width
* @param {Number} height
*/
clipRect: function (x, y, width, height) {
// create a dummy element
var clipRect = this.createElement();
// mimic a rectangle with its style object for automatic updating in attr
return extend(clipRect, {
members: [],
element: {
style: {
left: x,
top: y,
width: width,
height: height
}
},
getCSS: function(inverted) {
var elemStyle = clipRect.element.style,
top = elemStyle.top,
left = elemStyle.left,
right = left + elemStyle.width,
bottom = top + elemStyle.height,
ret = {
clip: 'rect('+
(inverted ? left : top) + 'px,'+
(inverted ? bottom : right) + 'px,'+
(inverted ? right : bottom) + 'px,'+
(inverted ? top : left) +'px)'
};
// issue 74 workaround
if (!inverted && doc.documentMode == 8) {
extend(ret, {
width: right +PX,
height: bottom +PX
});
}
return ret;
},
// used in attr and animation to update the clipping of all members
updateClipping: function() {
each (clipRect.members, function(member) {
member.css(clipRect.getCSS(member.inverted));
});
}
});
},
/**
* Take a color and return it if it's a string, make it a gradient if it's a
* gradient configuration object, and apply opacity.
*
* @param {Object} color The color or config object
*/
color: function(color, elem, prop) {
var colorObject,
regexRgba = /^rgba/,
markup;
if (color && color.linearGradient) {
var stopColor,
stopOpacity,
linearGradient = color.linearGradient,
angle,
color1,
opacity1,
color2,
opacity2;
each(color.stops, function(stop, i) {
if (regexRgba.test(stop[1])) {
colorObject = Color(stop[1]);
stopColor = colorObject.get('rgb');
stopOpacity = colorObject.get('a');
} else {
stopColor = stop[1];
stopOpacity = 1;
}
if (!i) { // first
color1 = stopColor;
opacity1 = stopOpacity;
} else {
color2 = stopColor;
opacity2 = stopOpacity;
}
});
// calculate the angle based on the linear vector
angle = 90 - math.atan(
(linearGradient[3] - linearGradient[1]) / // y vector
(linearGradient[2] - linearGradient[0]) // x vector
) * 180 / math.PI;
// when colors attribute is used, the meanings of opacity and o:opacity2
// are reversed.
markup = ['<', prop, ' colors="0% ', color1, ',100% ', color2, '" angle="', angle,
'" opacity="', opacity2, '" o:opacity2="', opacity1,
'" type="gradient" focus="100%" />'];
createElement(this.prepVML(markup), null, null, elem);
// if the color is an rgba color, split it and add a fill node
// to hold the opacity component
} else if (regexRgba.test(color)) {
colorObject = Color(color);
markup = ['<', prop, ' opacity="', colorObject.get('a'), '"/>'];
createElement(this.prepVML(markup), null, null, elem);
return colorObject.get('rgb');
} else {
return color;
}
},
/**
* Take a VML string and prepare it for either IE8 or IE6/IE7.
* @param {Array} markup A string array of the VML markup to prepare
*/
prepVML: function(markup) {
var //xmlns = 'urn:schemas-microsoft-com:vml',
vmlStyle = 'display:inline-block;behavior:url(#default#VML);',
isIE8 = this.isIE8;
try { // bug in IE9 Beta 1, quirks mode - check this again with later upgrades
markup = markup.join('');
} catch (e) {
var s = '', i = 0;
for (i; i < markup.length; i++) {
s += markup[i];
}
markup = s;
}
if (isIE8) { // add xmlns and style inline
markup = markup.replace('/>', ' xmlns="urn:schemas-microsoft-com:vml" />');
if (markup.indexOf('style="') == -1) {
markup = markup.replace('/>', ' style="'+ vmlStyle +'" />');
} else {
markup = markup.replace('style="', 'style="'+ vmlStyle);
}
} else { // add namespace
markup = markup.replace('<', '',
null, null, elem);
}
return elemWrapper;
},
/**
* Create and return a path element
* @param {Array} path
*/
path: function (path) {
// create the shape
return this.createElement('shape').attr({
// subpixel precision down to 0.1 (width and height = 10px)
coordsize: '100 100',
d: path
});
},
/**
* Create and return a circle element. In VML circles are implemented as
* shapes, which is faster than v:oval
* @param {Number} x
* @param {Number} y
* @param {Number} r
*/
circle: function(x, y, r) {
return this.path(this.symbols.circle(x, y, r));
},
/**
* Create a group using an outer div and an inner v:group to allow rotating
* and flipping. A simple v:group would have problems with positioning
* child HTML elements and CSS clip.
*
* @param {String} name The name of the group
*/
g: function(name) {
var wrapper,
attribs;
// set the class name
if (name) {
attribs = { 'className': PREFIX + name, 'class': PREFIX + name };
}
// the div to hold HTML and clipping
wrapper = this.createElement(DIV).attr(attribs);
return wrapper;
},
/**
* VML override to create a regular HTML image
* @param {String} src
* @param {Number} x
* @param {Number} y
* @param {Number} width
* @param {Number} height
*/
image: function(src, x, y, width, height) {
return this.createElement('img')
.attr({ src: src })
.css({
left: x,
top: y,
width: width,
height: height
});
},
/**
* VML uses a shape for rect to overcome bugs and rotation problems
*/
rect: function(x, y, width, height, r, strokeWidth) {
// todo: share this code with SVG
if (arguments.length > 1) {
var normalizer = (strokeWidth || 0) % 2 / 2;
// normalize for crisp edges
x = mathRound(x || 0) + normalizer;
y = mathRound(y || 0) + normalizer;
width = mathRound((width || 0) - 2 * normalizer);
height = mathRound((height || 0) - 2 * normalizer);
}
if (typeof x == 'object') { // the attributes can be passed as the first argument
y = x.y;
width = x.width;
height = x.height;
r = x.r;
x = x.x;
}
return this.symbol('rect', x || 0, y || 0, r || 0, {
width: width || 0,
height: height || 0
});
},
/**
* Draw a symbol of a predefined type. Overrides the SVG method only when
* drawing image symbols.
*
* @param {String} symbol
* @param {Number} x
* @param {Number} y
* @param {Number} radius
*/
symbol: function(symbol, x, y, radius) {
var wrapper,
imageRegex = /^url\((.*?)\)$/;
// image symbols
if (imageRegex.test(symbol)) {
wrapper = this.createElement('img').attr({
onload: function() {
var img = this,
size = [img.width, img.height];
css(img, {
left: mathRound(x - size[0] / 2),
top: mathRound(y - size[1] / 2)
});
},
src: symbol.match(imageRegex)[1]
});
} else {
wrapper = SVGRenderer.prototype.symbol.apply(this, arguments);
}
return wrapper;
},
/**
* Symbol definitions that override the parent SVG renderer's symbols
*
*/
symbols: {
// VML specific arc function
arc: function (x, y, radius, options) {
var start = options.start,
optionsEnd = options.end,
end = optionsEnd - start == 2 * Math.PI ? optionsEnd - 0.001 : optionsEnd,
cosStart = mathCos(start),
sinStart = mathSin(start),
cosEnd = mathCos(end),
sinEnd = mathSin(end),
innerRadius = options.innerR;
if (optionsEnd - start === 0) { // no angle, don't show it.
return ['x'];
}
return [
'wa', // clockwisearcto
x - radius, // left
y - radius, // top
x + radius, // right
y + radius, // bottom
x + radius * cosStart, // start x
y + radius * sinStart, // start y
x + radius * cosEnd, // end x
y + radius * sinEnd, // end y
'at', // clockwisearcto
x - innerRadius, // left
y - innerRadius, // top
x + innerRadius, // right
y + innerRadius, // bottom
x + innerRadius * cosEnd, // start x
y + innerRadius * sinEnd, // start y
x + innerRadius * cosStart, // end x
y + innerRadius * sinStart, // end y
'x', // finish path
'e' // close
];
},
// Add circle symbol path. This performs significantly faster than v:oval.
circle: function (x, y, r) {
return [
'wa', // clockwisearcto
x - r, // left
y - r, // top
x + r, // right
y + r, // bottom
x + r, // start x
y, // start y
x + r, // end x
y, // end y
//'x', // finish path
'e' // close
];
},
/**
* Add rectangle symbol path which eases rotation and omits arcsize problems
* compared to the built-in VML roundrect shape
*
* @param {Object} left Left position
* @param {Object} top Top position
* @param {Object} r Border radius
* @param {Object} options Width and height
*/
rect: function (left, top, r, options) {
var width = options.width,
height = options.height,
right = left + width,
bottom = top + height;
r = mathMin(r, width, height);
return [
M,
left + r, top,
L,
right - r, top,
'wa',
right - 2 * r, top,
right, top + 2 * r,
right - r, top,
right, top + r,
L,
right, bottom - r,
'wa',
right - 2 * r, bottom - 2 * r,
right, bottom,
right, bottom - r,
right - r, bottom,
L,
left + r, bottom,
'wa',
left, bottom - 2 * r,
left + 2 * r, bottom,
left + r, bottom,
left, bottom - r,
L,
left, top + r,
'wa',
left, top,
left + 2 * r, top + 2 * r,
left, top + r,
left + r, top,
'x',
'e'
];
}
}
});
}
/* ****************************************************************************
* *
* END OF INTERNET EXPLORER <= 8 SPECIFIC CODE *
* *
*****************************************************************************/
/**
* General renderer
*/
var Renderer = hasSVG ? SVGRenderer : VMLRenderer;
/**
* The chart class
* @param {Object} options
* @param {Function} callback Function to run when the chart has loaded
*/
function Chart (options, callback) {
defaultXAxisOptions = merge(defaultXAxisOptions, defaultOptions.xAxis);
defaultYAxisOptions = merge(defaultYAxisOptions, defaultOptions.yAxis);
defaultOptions.xAxis = defaultOptions.yAxis = null;
// Handle regular options
options = merge(defaultOptions, options);
// Define chart variables
var optionsChart = options.chart,
optionsMargin = optionsChart.margin,
margin = typeof optionsMargin == 'number' ?
[optionsMargin, optionsMargin, optionsMargin, optionsMargin] :
optionsMargin,
plotTop = pick(optionsChart.marginTop, margin[0]),
marginRight = pick(optionsChart.marginRight, margin[1]),
marginBottom = pick(optionsChart.marginBottom, margin[2]),
plotLeft = pick(optionsChart.marginLeft, margin[3]),
renderTo,
renderToClone,
container,
containerId,
chartWidth,
chartHeight,
chart = this,
chartEvents = optionsChart.events,
eventType,
getAlignment, // function
isInsidePlot, // function
tooltip,
mouseIsDown,
loadingLayer,
loadingShown,
plotHeight,
plotWidth,
plotSizeX, // width if normal, height if inverted
plotSizeY, // height if normal, width if inverted
tracker,
trackerGroup,
legend,
position,// = getPosition(container),
hasCartesianSeries = optionsChart.showAxes,
axes = [],
maxTicks, // handle the greatest amount of ticks on grouped axes
series = [],
inverted,
renderer,
tooltipTick,
tooltipInterval,
zoom, // function
zoomOut; // function
/**
* Create a new axis object
* @param {Object} chart
* @param {Object} options
*/
function Axis (chart, options) {
// Define variables
var isXAxis = options.isX,
opposite = options.opposite, // needed in setOptions
horiz = inverted ? !isXAxis : isXAxis,
stacks = {
bar: {},
column: {},
area: {},
areaspline: {},
line: {}
};
options = merge(
isXAxis ? defaultXAxisOptions : defaultYAxisOptions,
horiz ?
(opposite ? defaultTopAxisOptions : defaultBottomAxisOptions) :
(opposite ? defaultRightAxisOptions : defaultLeftAxisOptions),
options
);
var axis = this,
isDatetimeAxis = options.type == 'datetime',
offset = options.offset || 0,
xOrY = isXAxis ? 'x' : 'y',
axisLength = horiz ? plotWidth : plotHeight,
transA, // translation factor
transB = horiz ? plotLeft : marginBottom, // translation addend
axisGroup,
gridGroup,
dataMin,
dataMax,
associatedSeries,
userSetMin,
userSetMax,
max = null,
min = null,
minPadding = options.minPadding,
maxPadding = options.maxPadding,
isLinked = defined(options.linkedTo),
ignoreMinPadding, // can be set to true by a column or bar series
ignoreMaxPadding,
usePercentage,
events = options.events,
eventType,
plotBands = options.plotBands || [],
plotLines = options.plotLines || [],
tickInterval,
minorTickInterval,
magnitude,
tickPositions, // array containing predefined positions
tickAmount,
dateTimeLabelFormat,
labelFormatter = options.labels.formatter || // can be overwritten by dynamic format
function() {
var value = this.value;
return dateTimeLabelFormat ? dateFormat(dateTimeLabelFormat, value) : value;
},
// column plots are always categorized
categories = options.categories || (isXAxis && chart.columnCount),
reversed = options.reversed,
tickmarkOffset = (categories && options.tickmarkPlacement == 'between') ? 0.5 : 0;
/**
* Get the minimum and maximum for the series of each axis
*/
function getSeriesExtremes() {
var stack = [],
run;
// reset dataMin and dataMax in case we're redrawing
dataMin = dataMax = null;
// get an overview of what series are associated with this axis
associatedSeries = [];
each(series, function(serie) {
run = false;
// match this axis against the series' given or implicated axis
each(['xAxis', 'yAxis'], function(strAxis) {
if (
// the series is a cartesian type, and...
serie.isCartesian &&
// we're in the right x or y dimension, and...
(strAxis == 'xAxis' && isXAxis || strAxis == 'yAxis' && !isXAxis) && (
// the axis number is given in the options and matches this axis index, or
(serie.options[strAxis] == options.index) ||
// the axis index is not given
(serie.options[strAxis] === UNDEFINED && options.index === 0)
)
) {
serie[strAxis] = axis;
associatedSeries.push(serie);
// the series is visible, run the min/max detection
run = true;
}
});
// ignore hidden series if opted
if (!serie.visible && optionsChart.ignoreHiddenSeries) {
run = false;
}
if (run) {
var stacking,
typeStack;
if (!isXAxis) {
stacking = serie.options.stacking;
usePercentage = stacking == 'percent';
// create a stack for this particular series type
if (stacking) {
typeStack = stack[serie.type] || [];
stack[serie.type] = typeStack;
}
if (usePercentage) {
dataMin = 0;
dataMax = 99;
}
}
if (serie.isCartesian) { // line, column etc. need axes, pie doesn't
each(serie.data, function(point, i) {
var pointX = point.x,
pointY = point.y;
// initial values
if (dataMin === null) {
// start out with the first point
dataMin = dataMax = point[xOrY];
}
// x axis
if (isXAxis) {
if (pointX > dataMax) {
dataMax = pointX;
} else if (pointX < dataMin) {
dataMin = pointX;
}
}
// y axis
else if (defined(pointY)) {
if (stacking) {
typeStack[pointX] = typeStack[pointX] ? typeStack[pointX] + pointY : pointY;
}
var stackedPoint = typeStack ? typeStack[pointX] : pointY;
if (!usePercentage) {
if (stackedPoint > dataMax) {
dataMax = stackedPoint;
} else if (stackedPoint < dataMin) {
dataMin = stackedPoint;
}
}
if (stacking) {
stacks[serie.type][pointX] = {
total: stackedPoint,
cum: stackedPoint
};
}
}
});
// For column, areas and bars, set the minimum automatically to zero
// and prevent that minPadding is added in setScale
if (/(area|column|bar)/.test(serie.type) && !isXAxis) {
if (dataMin >= 0) {
dataMin = 0;
ignoreMinPadding = true;
} else if (dataMax < 0) {
dataMax = 0;
ignoreMaxPadding = true;
}
}
}
}
});
}
/**
* Translate from axis value to pixel position on the chart, or back
*
*/
function translate(val, backwards, cvsCoord) {
var sign = 1,
cvsOffset = 0,
returnValue;
if (cvsCoord) {
sign *= -1; // canvas coordinates inverts the value
cvsOffset = axisLength;
}
if (reversed) { // reversed axis
sign *= -1;
cvsOffset -= sign * axisLength;
}
if (min === UNDEFINED) { // points in a single hidden series, axis has no min or max
returnValue = null;
} else if (backwards) { // reverse translation
if (reversed) {
val = axisLength - val;
}
returnValue = val / transA + min; // from chart pixel to value
} else { // normal translation
returnValue = sign * (val - min) * transA + cvsOffset; // from value to chart pixel
}
return returnValue;
}
/**
* Add a single line across the plot
*/
function drawPlotLine(value, color, width) {
if (width) {
var x1,
y1,
x2,
y2,
translatedValue = translate(value),
skip;
x1 = x2 = translatedValue + transB;
y1 = y2 = chartHeight - translatedValue - transB;
if (horiz) {
y1 = plotTop;
y2 = chartHeight - marginBottom;
if (x1 < plotLeft || x1 > plotLeft + plotWidth) {
skip = true;
}
} else {
x1 = plotLeft;
x2 = chartWidth - marginRight;
if (y1 < plotTop || y1 > plotTop + plotHeight) {
skip = true;
}
}
if (!skip) {
renderer.path(
renderer.crispLine([M, x1, y1, L, x2, y2], width)
).attr({
stroke: color,
'stroke-width': width
}).add(gridGroup);
}
}
}
/**
* Add a masked band across the plot
* @param {Number} from chart axis value
* @param {Number} to chart axis value
* @param {String} color
*/
function drawPlotBand(from, to, color) {
// keep within plot area
from = mathMax(from, min);
to = mathMin(to, max);
var width = (to - from) * transA;
drawPlotLine(from + (to - from) / 2, color, width);
}
/**
* Add a tick mark an a label
*/
function addTick(pos, tickPos, color, width, len, withLabel, index) {
var x1, y1, x2, y2, str, labelOptions = options.labels;
// negate the length
if (tickPos == 'inside') {
len = -len;
}
if (opposite) {
len = -len;
}
// set the initial positions
x1 = x2 = translate(pos + tickmarkOffset) + transB;
y1 = y2 = chartHeight - translate(pos + tickmarkOffset) - transB;
if (horiz) {
y1 = chartHeight - marginBottom - (opposite ? plotHeight : 0) + offset;
y2 = y1 + len;
} else {
x1 = plotLeft + (opposite ? plotWidth : 0) + offset;
x2 = x1 - len;
}
if (width) {
renderer.path(
renderer.crispLine([M, x1, y1, L, x2, y2], width)
).attr({
stroke: color,
'stroke-width': width
}).add(axisGroup);
}
// write the label
if (withLabel && labelOptions.enabled) {
str = labelFormatter.call({
index: index,
isFirst: pos == tickPositions[0],
isLast: pos == tickPositions[tickPositions.length - 1],
dateTimeLabelFormat: dateTimeLabelFormat,
value: (categories && categories[pos] ? categories[pos] : pos)
});
if (str || str === 0) {
x1 = x1 + labelOptions.x - (tickmarkOffset && horiz ?
tickmarkOffset * transA * (reversed ? -1 : 1) : 0);
y1 = y1 + labelOptions.y - (tickmarkOffset && !horiz ?
tickmarkOffset * transA * (reversed ? 1 : -1) : 0);
renderer.text(
str,
x1,
y1,
labelOptions.style,
labelOptions.rotation,
labelOptions.align
).add(axisGroup);
}
}
}
/**
* Take an interval and normalize it to multiples of 1, 2, 2.5 and 5
* @param {Number} interval
*/
function normalizeTickInterval(interval, multiples) {
var normalized;
// round to a tenfold of 1, 2, 2.5 or 5
magnitude = multiples ? 1 : math.pow(10, mathFloor(math.log(interval) / math.LN10));
normalized = interval / magnitude;
// multiples for a linear scale
if (!multiples) {
multiples = [1, 2, 2.5, 5, 10];
// the allowDecimals option
if (options.allowDecimals === false) {
if (magnitude == 1) {
multiples = [1, 2, 5, 10];
} else if (magnitude <= 0.1) {
multiples = [1 / magnitude];
}
}
}
// normalize the interval to the nearest multiple
for (var i = 0; i < multiples.length; i++) {
interval = multiples[i];
if (normalized <= (multiples[i] + (multiples[i+1] || multiples[i])) / 2) {
break;
}
}
// multiply back to the correct magnitude
interval *= magnitude;
return interval;
}
/**
* Set the tick positions to a time unit that makes sense, for example
* on the first of each month or on every Monday.
*/
function setDateTimeTickPositions() {
tickPositions = [];
var i,
useUTC = defaultOptions.global.useUTC,
oneSecond = 1000 / timeFactor,
oneMinute = 60000 / timeFactor,
oneHour = 3600000 / timeFactor,
oneDay = 24 * 3600000 / timeFactor,
oneWeek = 7 * 24 * 3600000 / timeFactor,
oneMonth = 30 * 24 * 3600000 / timeFactor,
oneYear = 31556952000 / timeFactor,
units = [[
'second', // unit name
oneSecond, // fixed incremental unit
[1, 2, 5, 10, 15, 30] // allowed multiples
], [
'minute', // unit name
oneMinute, // fixed incremental unit
[1, 2, 5, 10, 15, 30] // allowed multiples
], [
'hour', // unit name
oneHour, // fixed incremental unit
[1, 2, 3, 4, 6, 8, 12] // allowed multiples
], [
'day', // unit name
oneDay, // fixed incremental unit
[1, 2] // allowed multiples
], [
'week', // unit name
oneWeek, // fixed incremental unit
[1, 2] // allowed multiples
], [
'month',
oneMonth,
[1, 2, 3, 4, 6]
], [
'year',
oneYear,
null
]],
unit = units[6], // default unit is years
interval = unit[1],
multiples = unit[2];
// loop through the units to find the one that best fits the tickInterval
for (i = 0; i < units.length; i++) {
unit = units[i];
interval = unit[1];
multiples = unit[2];
if (units[i+1]) {
// lessThan is in the middle between the highest multiple and the next unit.
var lessThan = (interval * multiples[multiples.length - 1] +
units[i + 1][1]) / 2;
// break and keep the current unit
if (tickInterval <= lessThan) {
break;
}
}
}
// prevent 2.5 years intervals, though 25, 250 etc. are allowed
if (interval == oneYear && tickInterval < 5 * interval) {
multiples = [1, 2, 5];
}
// get the minimum value by flooring the date
var multitude = normalizeTickInterval(tickInterval / interval, multiples),
minYear, // used in months and years as a basis for Date.UTC()
minDate = new Date(min * timeFactor);
minDate.setMilliseconds(0);
if (interval >= oneSecond) { // second
minDate.setSeconds(interval >= oneMinute ? 0 :
multitude * mathFloor(minDate.getSeconds() / multitude));
}
if (interval >= oneMinute) { // minute
minDate[setMinutes](interval >= oneHour ? 0 :
multitude * mathFloor(minDate[getMinutes]() / multitude));
}
if (interval >= oneHour) { // hour
minDate[setHours](interval >= oneDay ? 0 :
multitude * mathFloor(minDate[getHours]() / multitude));
}
if (interval >= oneDay) { // day
minDate[setDate](interval >= oneMonth ? 1 :
multitude * mathFloor(minDate[getDate]() / multitude));
}
if (interval >= oneMonth) { // month
minDate[setMonth](interval >= oneYear ? 0 :
multitude * mathFloor(minDate[getMonth]() / multitude));
minYear = minDate[getFullYear]();
}
if (interval >= oneYear) { // year
minYear -= minYear % multitude;
minDate[setFullYear](minYear);
}
// week is a special case that runs outside the hierarchy
if (interval == oneWeek) {
// get start of current week, independent of multitude
minDate[setDate](minDate[getDate]() - minDate[getDay]() +
options.startOfWeek);
}
// get tick positions
i = 1; // prevent crash just in case
minYear = minDate[getFullYear]();
var time = minDate.getTime() / timeFactor,
minMonth = minDate[getMonth](),
minDateDate = minDate[getDate]();
// iterate and add tick positions at appropriate values
while (time < max && i < plotWidth) {
tickPositions.push(time);
// if the interval is years, use Date.UTC to increase years
if (interval == oneYear) {
time = makeTime(minYear + i * multitude, 0) / timeFactor;
// if the interval is months, use Date.UTC to increase months
} else if (interval == oneMonth) {
time = makeTime(minYear, minMonth + i * multitude) / timeFactor;
// if we're using global time, the interval is not fixed as it jumps
// one hour at the DST crossover
} else if (!useUTC && (interval == oneDay || interval == oneWeek)) {
time = makeTime(minYear, minMonth, minDateDate +
i * multitude * (interval == oneDay ? 1 : 7));
// else, the interval is fixed and we use simple addition
} else {
time += interval * multitude;
}
i++;
}
// push the last time
tickPositions.push(time);
// dynamic label formatter
dateTimeLabelFormat = options.dateTimeLabelFormats[unit[0]];
/*if (!options.labels.formatter) {
labelFormatter = function() {
return dateFormat(options.dateTimeLabelFormats[unit[0]], this.value, 1);
};
}*/
}
/**
* Fix JS round off float errors
* @param {Number} num
*/
function correctFloat(num) {
var invMag = (magnitude < 1 ? mathRound(1 / magnitude) : 1) * 10;
return mathRound(num * invMag) / invMag;
}
/**
* Set the tick positions of a linear axis to round values like whole tens or every five.
*/
function setLinearTickPositions() {
var i,
roundedMin = mathFloor(min / tickInterval) * tickInterval,
roundedMax = mathCeil(max / tickInterval) * tickInterval;
tickPositions = [];
// populate the intermediate values
i = correctFloat(roundedMin);
while (i <= roundedMax) {
tickPositions.push(i);
i = correctFloat(i + tickInterval);
}
// pad categorised axis to nearest half unit
if (categories) {
min -= 0.5;
max += 0.5;
}
// dynamic label formatter
/*if (!labelFormatter) {
labelFormatter = function() {
return this.value;
};
}*/
}
/**
* Set the tick positions to round values and optionally extend the extremes
* to the nearest tick
*/
function setTickPositions() {
if (isDatetimeAxis) {
setDateTimeTickPositions();
} else {
setLinearTickPositions();
}
// reset min/max or remove extremes based on start/end on tick
var roundedMin = tickPositions[0],
roundedMax = tickPositions[tickPositions.length - 1];
if (options.startOnTick) {
min = roundedMin;
} else if (min > roundedMin) {
tickPositions.shift();
}
if (options.endOnTick) {
max = roundedMax;
} else if (max < roundedMax) {
tickPositions.pop();
}
}
/**
* When using multiple axes, adjust the number of ticks to match the highest
* number of ticks in that group
*/
function adjustTickAmount() {
if (!isDatetimeAxis && !categories) { // only apply to linear scale
var oldTickAmount = tickAmount,
calculatedTickAmount = tickPositions.length;
// set the axis-level tickAmount to use below
tickAmount = maxTicks[xOrY];
if (calculatedTickAmount < tickAmount) {
while (tickPositions.length < tickAmount) {
tickPositions.push( correctFloat(
tickPositions[tickPositions.length - 1] + tickInterval
));
}
transA *= (calculatedTickAmount - 1) / (tickAmount - 1);
}
if (defined(oldTickAmount) && tickAmount != oldTickAmount) {
axis.isDirty = true;
}
}
}
/**
* Set the scale based on data min and max, user set min and max or options
*/
function setScale() {
var length,
type,
i,
//total,
oldMin = min,
oldMax = max,
maxZoom = options.maxZoom,
zoomOffset;
// get data extremes if needed
getSeriesExtremes();
// initial min and max from the extreme data values
min = pick(userSetMin, options.min, dataMin);
max = pick(userSetMax, options.max, dataMax);
// linked axis gets the extremes from the parent axis
if (isLinked) {
var linkedParent = chart[isXAxis ? 'xAxis' : 'yAxis'][options.linkedTo],
linkedParentExtremes = linkedParent.getExtremes();
min = pick(linkedParentExtremes.min, linkedParentExtremes.dataMin);
max = pick(linkedParentExtremes.max, linkedParentExtremes.dataMax);
}
// maxZoom exceeded, just center the selection
if (max - min < maxZoom) {
zoomOffset = (maxZoom - max + min) / 2;
// if min and max options have been set, don't go beyond it
min = mathMax(min - zoomOffset, pick(options.min, min - zoomOffset));
max = mathMin(min + maxZoom, pick(options.max, min + maxZoom));
}
// pad the values to get clear of the chart's edges
if (!categories && !usePercentage && !isLinked && defined(min) && defined(max)) {
length = (max - min) || 1;
if (!defined(options.min) && !defined(userSetMin) && minPadding && (dataMin < 0 || !ignoreMinPadding)) {
min -= length * minPadding;
}
if (!defined(options.max) && !defined(userSetMax) && maxPadding && (dataMax > 0 || !ignoreMaxPadding)) {
max += length * maxPadding;
}
}
// tickInterval
if (categories || min == max) {
tickInterval = 1;
} else {
tickInterval = pick(
options.tickInterval,
(max - min) * options.tickPixelInterval / axisLength
);
}
if (!isDatetimeAxis && !defined(options.tickInterval)) { // linear
tickInterval = normalizeTickInterval(tickInterval);
}
// minorTickInterval
minorTickInterval = options.minorTickInterval === 'auto' && tickInterval ?
tickInterval / 5 : options.minorTickInterval;
// get fixed positions based on tickInterval
setTickPositions();
// the translation factor used in translate function
transA = axisLength / ((max - min) || 1);
// record the greatest number of ticks for multi axis
if (!maxTicks) { // first call, or maxTicks have been reset after a zoom operation
maxTicks = {
x: 0,
y: 0
};
}
if (!isDatetimeAxis && tickPositions.length > maxTicks[xOrY]) {
maxTicks[xOrY] = tickPositions.length;
}
// reset stacks
if (!isXAxis) {
for (type in stacks) {
for (i in stacks[type]) {
stacks[type][i].cum = stacks[type][i].total;
}
}
}
// mark as dirty if it is not already set to dirty and extremes have changed
if (!axis.isDirty) {
axis.isDirty = (min != oldMin || max != oldMax);
}
}
/**
* Set the extremes and optionally redraw
* @param {Number} newMin
* @param {Number} newMax
* @param {Boolean} redraw
*
*/
function setExtremes(newMin, newMax, redraw) {
redraw = pick(redraw, true); // defaults to true
fireEvent(axis, 'setExtremes', { // fire an event to enable syncing of multiple charts
min: newMin,
max: newMax
}, function() { // the default event handler
// make sure categorized axes are not exceeded
if (categories) {
if (newMin < 0) {
newMin = 0;
}
if (newMax > categories.length - 1) {
newMax = categories.length - 1;
}
}
userSetMin = newMin;
userSetMax = newMax;
// redraw
if (redraw) {
chart.redraw();
}
});
}
/**
* Get the actual axis extremes
*/
function getExtremes() {
return {
min: min,
max: max,
dataMin: dataMin,
dataMax: dataMax
};
}
/**
* Get the zero plane either based on zero or on the min or max value.
* Used in bar and area plots
*/
function getThreshold(threshold) {
if (min > threshold) {
threshold = min;
} else if (max < threshold) {
threshold = max;
}
return translate(threshold, 0, 1);
}
/**
* Add a plot band or plot line after render time
*
* @param item {Object} The plotBand or plotLine configuration object
*/
function addPlotBandOrLine(item) {
var isLine = item.width,
collection = isLine ? plotLines : plotBands;
collection.push(item);
if (isLine) {
drawPlotLine(item.value, item.color, item.width);
} else {
drawPlotBand(item.from, item.to, item.color);
}
}
/**
* Render the axis
*/
function render() {
var axisTitleOptions = options.title,
alternateGridColor = options.alternateGridColor,
minorTickWidth = options.minorTickWidth,
lineWidth = options.lineWidth,
lineLeft,
lineTop,
tickmarkPos,
hasData = associatedSeries.length && defined(min) && defined(max);
if (!axisGroup) {
axisGroup = renderer.g('axis')
.attr({ zIndex: 7 })
.add();
gridGroup = renderer.g('grid')
.attr({ zIndex: 1 })
.add();
} else {
// clear the axis layers before new grid and ticks are drawn
axisGroup.empty();
gridGroup.empty();
}
// If the series has data draw the ticks. Else only the line and title
if (hasData || isLinked) {
// alternate grid color
if (alternateGridColor) {
each(tickPositions, function(pos, i) {
if (i % 2 === 0 && pos < max) {
drawPlotBand(
pos,
tickPositions[i + 1] !== UNDEFINED ? tickPositions[i + 1] : max,
alternateGridColor
);
}
});
}
// custom plot bands (behind grid lines)
each (plotBands, function(plotBand) {
drawPlotBand(plotBand.from, plotBand.to, plotBand.color);
});
// minor grid lines
if (minorTickInterval && !categories) {
for (var i = min; i <= max; i += minorTickInterval) {
drawPlotLine(i, options.minorGridLineColor, options.minorGridLineWidth);
if (minorTickWidth) {
addTick(
i,
options.minorTickPosition,
options.minorTickColor,
minorTickWidth,
options.minorTickLength
);
}
}
}
// grid lines and tick marks
each(tickPositions, function(pos, index) {
tickmarkPos = pos + tickmarkOffset;
// add the grid line
drawPlotLine(
tickmarkPos,
options.gridLineColor,
options.gridLineWidth
);
// add the tick mark
addTick(
pos,
options.tickPosition,
options.tickColor,
options.tickWidth,
options.tickLength,
!((pos == min && !options.showFirstLabel) || (pos == max && !options.showLastLabel)),
index
);
});
// custom plot lines (in front of grid lines)
each (plotLines, function(plotLine) {
drawPlotLine(plotLine.value, plotLine.color, plotLine.width);
});
} // end if hasData
// Static items. As the axis group is cleared on subsequent calls
// to render, these items are added outside the group.
// axis line
if (!axis.hasRenderedLine && lineWidth) {
lineLeft = plotLeft + (opposite ? plotWidth : 0) + offset;
lineTop = chartHeight - marginBottom - (opposite ? plotHeight : 0) + offset;
renderer.path(renderer.crispLine([
M,
horiz ?
plotLeft:
lineLeft,
horiz ?
lineTop:
plotTop,
L,
horiz ?
chartWidth - marginRight :
lineLeft,
horiz ?
lineTop:
chartHeight - marginBottom
], lineWidth)).
attr({
stroke: options.lineColor,
'stroke-width': lineWidth,
zIndex: 7
}).
add();
axis.hasRenderedLine = true;
}
// Render the title.
if (!axis.hasRenderedTitle && !axis.axisTitle && axisTitleOptions && axisTitleOptions.text) {
// compute anchor points for each of the title align options
var margin = horiz ?
plotLeft : plotTop;
// the position in the length direction of the axis
var alongAxis = {
low: margin + (horiz ? 0 : axisLength),
middle: margin + axisLength / 2,
high: margin + (horiz ? axisLength : 0)
}[axisTitleOptions.align];
// the position in the perpendicular direction of the axis
var offAxis = (horiz ? plotTop + plotHeight : plotLeft) +
(horiz ? 1 : -1) * // horizontal axis reverses the margin
(opposite ? -1 : 1) * // so does opposite axes
axisTitleOptions.margin -
(isIE ? parseInt(
axisTitleOptions.style.fontSize || 12, 10
) / 3 : 0); // preliminary fix for vml's centerline
axis.axisTitle = renderer.text(
axisTitleOptions.text,
(horiz ?
alongAxis:
offAxis + (opposite ? plotWidth : 0) + offset)
+ (axisTitleOptions.x || 0),
(horiz ?
offAxis - (opposite ? plotHeight : 0) + offset:
alongAxis)
+ (axisTitleOptions.y || 0),
axisTitleOptions.style,
axisTitleOptions.rotation || 0,
{ low: 'left', middle: 'center', high: 'right' }[axisTitleOptions.align]
)
.attr({ zIndex: 7 })
.add();
axis.hasRenderedTitle = true;
}
axis.isDirty = false;
}
/**
* Remove a plot band or plot line from the chart by id
* @param {Object} id
*/
function removePlotBandOrLine(id) {
each ([plotBands, plotLines], function(collection) {
for (var i = 0; i < collection.length; i++) {
if (collection[i].id == id) {
collection.splice(i, 1);
break;
}
}
});
render();
}
/**
* Redraw the axis to reflect changes in the data or axis extremes
*/
function redraw() {
// hide tooltip and hover states
if (tracker.resetTracker) {
tracker.resetTracker();
}
// render the axis
render();
// mark associated series as dirty and ready for redraw
each (associatedSeries, function(series) {
series.isDirty = true;
});
}
/**
* Set new axis categories and optionally redraw
* @param {Array} newCategories
* @param {Boolean} doRedraw
*/
function setCategories(newCategories, doRedraw) {
// set the categories
axis.categories = categories = newCategories;
// force reindexing tooltips
each (associatedSeries, function(series) {
series.translate();
series.setTooltipPoints(true);
});
// optionally redraw
axis.isDirty = true;
if (pick(doRedraw, true)) {
redraw(); // redraw axis
}
}
// Run Axis
// inverted charts have reversed xAxes as default
if (inverted && isXAxis && reversed === UNDEFINED) {
reversed = true;
}
// negate offset
if (!opposite) {
offset *= -1;
}
if (horiz) {
offset *= -1;
}
// expose some variables
extend (axis, {
addPlotBand: addPlotBandOrLine,
addPlotLine: addPlotBandOrLine,
adjustTickAmount: adjustTickAmount,
categories: categories,
getExtremes: getExtremes,
getThreshold: getThreshold,
isXAxis: isXAxis,
options: options,
render: render,
setExtremes: setExtremes,
setScale: setScale,
setCategories: setCategories,
translate: translate,
redraw: redraw,
removePlotBand: removePlotBandOrLine,
removePlotLine: removePlotBandOrLine,
reversed: reversed,
stacks: stacks
});
// register event listeners
for (eventType in events) {
addEvent(axis, eventType, events[eventType]);
}
// set min and max
setScale();
} // end Axis
/**
* The toolbar object
*
* @param {Object} chart
*/
function Toolbar(chart) {
var buttons = {};
function add(id, text, title, fn) {
if (!buttons[id]) {
var button = renderer.text(
text,
plotLeft + plotWidth - 20,
plotTop + 30,
options.toolbar.itemStyle,
0,
'right'
)
.on('click', fn)
.attr({ zIndex: 20 })
.add();
buttons[id] = button;
}
}
function remove(id) {
discardElement(buttons[id].element);
buttons[id] = null;
}
// public
return {
add: add,
remove: remove
};
}
/**
* The tooltip object
* @param {Object} options Tooltip options
*/
function Tooltip (options) {
var currentSeries,
borderWidth = options.borderWidth,
style = options.style,
padding = parseInt(style.padding, 10),
boxOffLeft = borderWidth + padding, // off left/top position as IE can't
//properly handle negative positioned shapes
tooltipIsHidden = true,
boxWidth,
boxHeight,
currentX = 0,
currentY = 0;
// remove padding CSS and apply padding on box instead
style.padding = 0;
// create the elements
var group = renderer.g('tooltip')
.attr({ zIndex: 8 })
.add(),
box = renderer.rect(boxOffLeft, boxOffLeft, 0, 0, options.borderRadius, borderWidth).
attr({
fill: options.backgroundColor,
'stroke-width': borderWidth
}).
add(group).
shadow(options.shadow),
label = renderer.text('', padding + boxOffLeft, parseInt(style.fontSize, 10) + padding + boxOffLeft).
attr({ zIndex: 1 }).
css(style).
add(group);
/**
* Provide a soft movement for the tooltip
*
* @param {Number} finalX
* @param {Number} finalY
*/
function move(finalX, finalY) {
currentX = tooltipIsHidden ? finalX : (2 * currentX + finalX) / 3;
currentY = tooltipIsHidden ? finalY : (currentY + finalY) / 2;
group.translate(currentX, currentY);
// run on next tick of the mouse tracker
if (mathAbs(finalX - currentX) > 1 || mathAbs(finalY - currentY) > 1) {
tooltipTick = function() {
move(finalX, finalY);
};
} else {
tooltipTick = null;
}
}
/**
* Hide the tooltip
*/
function hide() {
tooltipIsHidden = true;
group.hide();
}
/**
* Refresh the tooltip's text and position.
* @param {Object} point
*
*/
function refresh(point) {
var
series = point.series,
borderColor = options.borderColor || point.color || series.color || '#606060',
x,
y,
boxX,
boxY,
show,
bBox,
text = point.tooltipText,
tooltipPos = point.tooltipPos;
// register the current series
currentSeries = series;
// get the reference point coordinates (pie charts use tooltipPos)
x = mathRound(tooltipPos ? tooltipPos[0] : (inverted ? plotWidth - point.plotY : point.plotX));
y = mathRound(tooltipPos ? tooltipPos[1] : (inverted ? plotHeight - point.plotX : point.plotY));
// hide tooltip if the point falls outside the plot
show = isInsidePlot(x, y);
// update the inner HTML
if (text === false || !show) {
hide();
} else {
// show it
if (tooltipIsHidden) {
group.show();
tooltipIsHidden = false;
}
// update text
label.attr({
text: text
});
// get the bounding box
bBox = label.getBBox();
boxWidth = bBox.width;
boxHeight = bBox.height;
// set the size of the box
box.attr({
width: boxWidth + 2 * padding,
height: boxHeight + 2 * padding,
stroke: borderColor
});
// keep the box within the chart area
boxX = x - boxWidth + plotLeft - 25;
boxY = y - boxHeight + plotTop + 10;
// it is too far to the left, adjust it
if (boxX < 7) {
boxX = 7;
boxY -= 20;
}
if (boxY < 5) {
boxY = 5; // above
} else if (boxY + boxHeight > chartHeight) {
boxY = chartHeight - boxHeight - 5; // below
}
// do the move
move(mathRound(boxX - boxOffLeft), mathRound(boxY - boxOffLeft));
}
}
// public members
return {
refresh: refresh,
hide: hide
};
}
/**
* The mouse tracker object
* @param {Object} chart
* @param {Object} options
*/
function MouseTracker (chart, options) {
var mouseDownX,
mouseDownY,
hasDragged,
selectionMarker,
zoomType = optionsChart.zoomType,
zoomX = /x/.test(zoomType),
zoomY = /y/.test(zoomType),
zoomHor = zoomX && !inverted || zoomY && inverted,
zoomVert = zoomY && !inverted || zoomX && inverted;
/**
* Add crossbrowser support for chartX and chartY
* @param {Object} e The event object in standard browsers
*/
function normalizeMouseEvent(e) {
// common IE normalizing
e = e || win.event;
if (!e.target) {
e.target = e.srcElement;
}
// in certain cases, get mouse position
if (e.type != 'mousemove' || win.opera) { // only Opera needs position on mouse move, see below
position = getPosition(container);
}
// chartX and chartY
if (isIE) { // IE including IE9 that has chartX but in a different meaning
e.chartX = e.x;
e.chartY = e.y;
} else {
if (e.layerX === UNDEFINED) { // Opera
e.chartX = e.pageX - position.x;
e.chartY = e.pageY - position.y;
} else {
e.chartX = e.layerX;
e.chartY = e.layerY;
}
}
return e;
}
/**
* Get the click position in terms of axis values.
*
* @param {Object} e A mouse event
*/
function getMouseCoordinates(e) {
var coordinates = {
xAxis: [],
yAxis: []
};
each (axes, function(axis, i) {
var translate = axis.translate,
isXAxis = axis.isXAxis,
isHorizontal = inverted ? !isXAxis : isXAxis;
coordinates[isXAxis ? 'xAxis' : 'yAxis'].push({
axis: axis,
value: translate(
isHorizontal ?
e.chartX - plotLeft :
plotHeight - e.chartY + plotTop ,
true
)
});
});
return coordinates;
}
/**
* With line type charts with a single tracker, get the point closest to the mouse
*/
function onmousemove (e) {
var point,
hoverPoint = chart.hoverPoint,
hoverSeries = chart.hoverSeries;
if (hoverSeries && hoverSeries.tracker) { // only use for line-type series with common tracker
// get the point
point = hoverSeries.tooltipPoints[
inverted ?
e.chartY :
e.chartX - plotLeft // wtf?
];
// a new point is hovered, refresh the tooltip
if (point && point != hoverPoint) {
// trigger the events
point.onMouseOver();
}
}
}
/**
* Reset the tracking by hiding the tooltip, the hover series state and the hover point
*/
function resetTracker() {
var hoverSeries = chart.hoverSeries,
hoverPoint = chart.hoverPoint;
if (hoverPoint) {
hoverPoint.onMouseOut();
}
if (hoverSeries) {
hoverSeries.onMouseOut();
}
if (tooltip) {
tooltip.hide();
}
}
/**
* Mouse up or outside the plot area
*/
function drop() {
if (selectionMarker) {
var selectionData = {
xAxis: [],
yAxis: []
},
selectionBox = selectionMarker.getBBox(),
selectionLeft = selectionBox.x - plotLeft,
selectionTop = selectionBox.y - plotTop;
// a selection has been made
if (hasDragged) {
// record each axis' min and max
each (axes, function(axis, i) {
var translate = axis.translate,
isXAxis = axis.isXAxis,
isHorizontal = inverted ? !isXAxis : isXAxis,
selectionMin = translate(
isHorizontal ?
selectionLeft :
plotHeight - selectionTop - selectionBox.height,
true
),
selectionMax = translate(
isHorizontal ?
selectionLeft + selectionBox.width :
plotHeight - selectionTop,
true
);
selectionData[isXAxis ? 'xAxis' : 'yAxis'].push({
axis: axis,
min: mathMin(selectionMin, selectionMax), // for reversed axes
max: mathMax(selectionMin, selectionMax)
});
});
fireEvent(chart, 'selection', selectionData, zoom);
}
selectionMarker = selectionMarker.destroy();
}
chart.mouseIsDown = mouseIsDown = hasDragged = false;
}
/**
* Set the JS events on the container element
*/
function setDOMEvents () {
var lastWasOutsidePlot = true;
container.onmousedown = function(e) {
e = normalizeMouseEvent(e);
// record the start position
if (e.preventDefault) {
e.preventDefault();
}
chart.mouseIsDown = mouseIsDown = true;
mouseDownX = e.chartX;
mouseDownY = e.chartY;
// make a selection
if (hasCartesianSeries && (zoomX || zoomY)) {
if (!selectionMarker) {
selectionMarker = renderer.rect(
plotLeft,
plotTop,
zoomHor ? 1 : plotWidth,
zoomVert ? 1 : plotHeight,
0
)
.attr({
fill: 'rgba(69,114,167,0.25)',
zIndex: 7
})
.add();
}
}
};
// Use native browser event for this one. It's faster, and MooTools
// doesn't use clientX and clientY.
container.onmousemove = function(e) {
e = normalizeMouseEvent(e);
e.returnValue = false;
var chartX = e.chartX,
chartY = e.chartY,
isOutsidePlot = !isInsidePlot(chartX - plotLeft, chartY - plotTop);
if (mouseIsDown) { // make selection
// determine if the mouse has moved more than 10px
hasDragged = Math.sqrt(
Math.pow(mouseDownX - chartX, 2) +
Math.pow(mouseDownY - chartY, 2)
) > 10;
// adjust the width of the selection marker
if (zoomHor) {
var xSize = chartX - mouseDownX;
selectionMarker.attr({
width: mathAbs(xSize),
x: (xSize > 0 ? 0 : xSize) + mouseDownX
});
}
// adjust the height of the selection marker
if (zoomVert) {
var ySize = chartY - mouseDownY;
selectionMarker.attr({
height: mathAbs(ySize),
y: (ySize > 0 ? 0 : ySize) + mouseDownY
});
}
} else if (!isOutsidePlot) {
// show the tooltip
onmousemove(e);
}
// cancel on mouse outside
if (isOutsidePlot && !lastWasOutsidePlot) {
// reset the tracker
resetTracker();
// drop the selection if any and reset mouseIsDown and hasDragged
drop();
}
lastWasOutsidePlot = isOutsidePlot;
return false;
};
container.onmouseup = function(e) {
drop();
};
// MooTools 1.2.3 doesn't fire this in IE when using addEvent
container.onclick = function(e) {
var hoverPoint = chart.hoverPoint;
e = normalizeMouseEvent(e);
e.cancelBubble = true; // IE specific
if (!hasDragged) {
if (hoverPoint && attr(e.target, 'isTracker')) {
var plotX = hoverPoint.plotX,
plotY = hoverPoint.plotY;
// add page position info
extend(hoverPoint, {
pageX: position.x + plotLeft +
(inverted ? plotWidth - plotY : plotX),
pageY: position.y + plotTop +
(inverted ? plotHeight - plotX : plotY)
});
// the series click event
fireEvent(chart.hoverSeries || hoverPoint.series, 'click', extend(e, {
point: hoverPoint
}));
// the point click event
hoverPoint.firePointEvent('click', e);
} else {
extend (e, getMouseCoordinates(e));
// fire a click event in the chart
if (isInsidePlot(e.chartX - plotLeft, e.chartY - plotTop)) {
fireEvent(chart, 'click', e);
}
}
}
// reset mouseIsDown and hasDragged
hasDragged = false;
};
}
/**
* Create the image map that listens for mouseovers
*/
function createTrackerGroup () {
chart.trackerGroup = trackerGroup = renderer.g('tracker');
if (inverted) {
trackerGroup.attr({
width: chart.plotWidth,
height: chart.plotHeight
}).invert();
}
trackerGroup
.attr({ zIndex: 9 })
.translate(plotLeft, plotTop)
.add();
}
// Run MouseTracker
createTrackerGroup();
if (options.enabled) {
chart.tooltip = tooltip = Tooltip(options);
}
setDOMEvents();
// set the fixed interval ticking for the smooth tooltip
tooltipInterval = setInterval(function() {
if (tooltipTick) {
tooltipTick();
}
}, 32);
// expose properties
extend (this, {
zoomX: zoomX,
zoomY: zoomY,
resetTracker: resetTracker
});
}
/**
* The overview of the chart's series
* @param {Object} chart
*/
var Legend = function(chart) {
var options = chart.options.legend;
if (!options.enabled) {
return;
}
var horizontal = options.layout == 'horizontal',
symbolWidth = options.symbolWidth,
symbolPadding = options.symbolPadding,
allItems = [],
style = options.style,
itemStyle = options.itemStyle,
itemHoverStyle = options.itemHoverStyle,
itemHiddenStyle = options.itemHiddenStyle,
padding = parseInt(style.padding, 10),
rightPadding = 20,
lineHeight = options.lineHeight || 16,
y = 18,
initialItemX = 4 + padding + symbolWidth + symbolPadding,
itemX,
itemY,
lastItemY,
box,
legendBorderWidth = options.borderWidth,
legendBackgroundColor = options.backgroundColor,
legendGroup,
offsetWidth,
widthOption = options.width,
boxWidth,
boxHeight,
series = chart.series,
reversedLegend = options.reversed;
/**
* Set the colors for the legend item
* @param {Object} item A Series or Point instance
* @param {Object} visible Dimmed or colored
*/
function colorizeItem(item, visible) {
var legendItem = item.legendItem,
legendLine = item.legendLine,
legendSymbol = item.legendSymbol,
hiddenColor = itemHiddenStyle.color,
textColor = visible ? options.itemStyle.color : hiddenColor,
symbolColor = visible ? item.color : hiddenColor;
if (legendItem) {
legendItem.css({ color: textColor });
}
if (legendLine) {
legendLine.attr({ stroke: symbolColor });
}
if (legendSymbol) {
legendSymbol.attr({
stroke: symbolColor,
fill: symbolColor
});
}
}
/**
* Position the legend item
* @param {Object} item A Series or Point instance
* @param {Object} visible Dimmed or colored
*/
function positionItem(item, itemX, itemY) {
var legendItem = item.legendItem,
legendLine = item.legendLine,
legendSymbol = item.legendSymbol,
checkbox = item.checkbox;
if (legendItem) {
legendItem.attr({
x: itemX,
y: itemY
});
}
if (legendLine) {
legendLine.translate(itemX, itemY - 4);
}
if (legendSymbol) {
legendSymbol
.translate(itemX, itemY);
}
if (checkbox) {
checkbox.x = itemX;
checkbox.y = itemY;
}
}
/**
* Destroy a single legend item
* @param {Object} item The series or point
*/
function destroyItem(item) {
var i = allItems.length,
checkbox = item.checkbox;
// pull out from the array
while (i--) {
if (allItems[i] == item) {
allItems.splice(i, 1);
break;
}
}
// destroy SVG elements
each (['legendItem', 'legendLine', 'legendSymbol'], function(key) {
if (item[key]) {
item[key].destroy();
}
});
if (checkbox) {
discardElement(item.checkbox);
}
}
/**
* Render a single specific legend item
* @param {Object} item A series or point
*/
function renderItem(item) {
var bBox,
itemWidth,
legendSymbol,
simpleSymbol,
li = item.legendItem,
series = item.series || item;
if (!li) { // generate it once, later move it
// let these series types use a simple symbol
simpleSymbol = /^(bar|pie|area|column)$/.test(series.type);
// generate the list item text
item.legendItem = li = renderer.text(
options.labelFormatter.call(item),
0,
0
)
.css(item.visible ? itemStyle : itemHiddenStyle)
.on('mouseover', function() {
item.setState(HOVER_STATE);
li.css(itemHoverStyle);
})
.on('mouseout', function() {
li.css(item.visible ? itemStyle : itemHiddenStyle);
item.setState();
})
.on('click', function(event) {
var strLegendItemClick = 'legendItemClick',
fnLegendItemClick = function() {
item.setVisible();
};
// click the name or symbol
if (item.firePointEvent) { // point
item.firePointEvent (strLegendItemClick, null, fnLegendItemClick);
} else {
fireEvent (item, strLegendItemClick, null, fnLegendItemClick);
}
})
.attr({ zIndex: 2 })
.add(legendGroup);
// draw the line
if (!simpleSymbol && item.options && item.options.lineWidth) {
item.legendLine = renderer.path([
M,
-symbolWidth - symbolPadding,
0,
L,
-symbolPadding,
0
]).attr({
//stroke: color,
'stroke-width': item.options.lineWidth,
zIndex: 2
}).
add(legendGroup);
}
// draw a simple symbol
if (simpleSymbol) { // bar|pie|area|column
//legendLayer.drawRect(
legendSymbol = renderer.rect(
-symbolWidth - symbolPadding,
-11,
symbolWidth,
12,
2
).attr({
'stroke-width': 0,
zIndex: 3
}).add(legendGroup);
}
// draw the marker
else if (item.options && item.options.marker && item.options.marker.enabled) {
legendSymbol = renderer.symbol(
item.symbol,
-symbolWidth / 2 - symbolPadding,
-4,
item.options.marker.radius
)
.attr(item.pointAttr[NORMAL_STATE])
.attr({ zIndex: 3 })
.add(legendGroup);
}
item.legendSymbol = legendSymbol;
// colorize the items
colorizeItem(item, item.visible);
// add the HTML checkbox on top
if (item.options && item.options.showCheckbox) {
item.checkbox = createElement('input', {
type: 'checkbox',
checked: item.selected,
defaultChecked: item.selected // required by IE7
}, options.itemCheckboxStyle, container);
addEvent(item.checkbox, 'click', function(event) {
var target = event.target;
fireEvent (item, 'checkboxClick', {
checked: target.checked
},
function() {
item.select();
}
);
});
}
}
// position the newly generated or reordered items
positionItem(item, itemX, itemY);
// calculate the positions for the next line
bBox = li.getBBox();
lastItemY = itemY;
item.legendItemWidth = itemWidth =
options.itemWidth || symbolWidth + symbolPadding + bBox.width + rightPadding;
if (horizontal) {
itemX += itemWidth;
offsetWidth = widthOption || mathMax(itemX - initialItemX, offsetWidth);
if (itemX - initialItemX + itemWidth >
(widthOption || (chartWidth - 2 * padding - initialItemX))) { // new line
itemX = initialItemX;
itemY += lineHeight;
}
} else {
itemY += lineHeight;
// the width of the widest item
offsetWidth = widthOption || mathMax(itemWidth, offsetWidth);
}
// add it all to an array to use below
allItems.push(item);
}
/**
* Render the legend. This method can be called both before and after
* chart.render. If called after, it will only rearrange items instead
* of creating new ones.
*/
function renderLegend() {
itemX = initialItemX;
itemY = y;
offsetWidth = 0;
lastItemY = 0;
if (!legendGroup) {
legendGroup = renderer.g('legend')
.attr({ zIndex: 7 })
.add();
}
// add HTML for each series
if (reversedLegend) {
series.reverse();
}
each(series, function(serie) {
if (!serie.options.showInLegend) {
return;
}
// use points or series for the legend item depending on legendType
var items = (serie.options.legendType == 'point') ?
serie.data : [serie];
// render all items
each(items, renderItem);
});
if (reversedLegend) { // restore
series.reverse();
}
// Draw the border
boxWidth = widthOption || offsetWidth;
boxHeight = lastItemY - y + lineHeight;
if (legendBorderWidth || legendBackgroundColor) {
boxWidth += 2 * padding;
boxHeight += 2 * padding;
if (!box) {
box = renderer.rect(
0,
0,
boxWidth,
boxHeight,
options.borderRadius,
legendBorderWidth || 0
).attr({
stroke: options.borderColor,
'stroke-width': legendBorderWidth || 0,
fill: legendBackgroundColor || NONE
})
.add(legendGroup)
.shadow(options.shadow);
} else {
box.attr({
height: boxHeight,
width: boxWidth
});
}
}
// 1.x compatibility: positioning based on style
var props = ['left', 'right', 'top', 'bottom'],
prop,
i = 4;
while(i--) {
prop = props[i];
if (style[prop] && style[prop] != 'auto') {
options[i < 2 ? 'align' : 'verticalAlign'] = prop;
options[i < 2 ? 'x' : 'y'] = parseInt(style[prop], 10) * (i % 2 ? -1 : 1);
}
}
var boxPos = getAlignment(extend({
width: boxWidth,
height: boxHeight
}, options));
legendGroup.translate(boxPos.x, boxPos.y);
// Position the checkboxes after the width is determined
each(allItems, function(item) {
var checkbox = item.checkbox;
if (checkbox) {
css(checkbox, {
left: (boxPos.x + item.legendItemWidth + checkbox.x - 40) +PX,
top: (boxPos.y + checkbox.y - 11) + PX
});
}
});
}
// run legend
renderLegend();
// expose
return {
colorizeItem: colorizeItem,
destroyItem: destroyItem,
renderLegend: renderLegend
};
};
/**
* Initialize an individual series, called internally before render time
*/
function initSeries(options) {
var type = options.type || optionsChart.defaultSeriesType,
typeClass = seriesTypes[type],
serie,
hasRendered = chart.hasRendered;
// an inverted chart can't take a column series and vice versa
if (hasRendered) {
if (inverted && type == 'column') {
typeClass = seriesTypes.bar;
} else if (!inverted && type == 'bar') {
typeClass = seriesTypes.column;
}
}
serie = new typeClass();
serie.init(chart, options);
// set internal chart properties
if (!hasRendered && serie.inverted) {
inverted = true;
}
if (serie.isCartesian) {
hasCartesianSeries = serie.isCartesian;
}
series.push(serie);
return serie;
}
/**
* Add a series dynamically after time
*
* @param {Object} options The config options
* @param {Boolean} redraw Whether to redraw the chart after adding. Defaults to true.
*
* @return {Object} series The newly created series object
*/
function addSeries(options, redraw) {
var series;
redraw = pick(redraw, true); // defaults to true
fireEvent(chart, 'addSeries', { options: options }, function() {
series = initSeries(options);
series.isDirty = true;
chart.isDirty = true; // the series array is out of sync with the display
if (redraw) {
chart.redraw();
}
});
return series;
}
/**
* Check whether a given point is within the plot area
*
* @param {Number} x Pixel x relative to the coordinateSystem
* @param {Number} y Pixel y relative to the coordinateSystem
*/
isInsidePlot = function(x, y) {
var left = 0,
top = 0;
return x >= left &&
x <= left + plotWidth &&
y >= top &&
y <= top + plotHeight;
};
/**
* Adjust all axes tick amounts
*/
function adjustTickAmounts() {
if (optionsChart.alignTicks !== false) {
each (axes, function(axis) {
axis.adjustTickAmount();
});
}
}
/**
* Redraw legend, axes or series based on updated data
*/
function redraw() {
var redrawLegend = chart.isDirty,
hasStackedSeries,
seriesLength = series.length,
i = seriesLength,
serie;
// link stacked series
while (i--) {
serie = series[i];
if (serie.isDirty && serie.options.stacking) {
hasStackedSeries = true;
break;
}
}
if (hasStackedSeries) { // mark others as dirty
i = seriesLength;
while (i--) {
serie = series[i];
if (serie.options.stacking) {
serie.isDirty = true;
}
}
}
// handle updated data in the series
each (series, function(serie) {
if (serie.isDirty) { // prepare the data so axis can read it
serie.cleanData();
serie.getSegments();
if (serie.options.legendType == 'point') {
redrawLegend = true;
}
}
});
// reset maxTicks
maxTicks = null;
if (hasCartesianSeries) {
// set axes scales
each (axes, function(axis) {
axis.setScale();
});
adjustTickAmounts();
// redraw axes
each (axes, function(axis) {
if (axis.isDirty) { axis.redraw(); }
});
}
// redraw affected series
each (series, function(serie) {
if (serie.isDirty && serie.visible) {
serie.redraw();
}
});
// handle added or removed series
if (redrawLegend && legend.renderLegend) { // series or pie points are added or removed
// draw legend graphics
legend.renderLegend();
chart.isDirty = false;
}
// hide tooltip and hover states
if (tracker && tracker.resetTracker) {
tracker.resetTracker();
}
// fire the event
fireEvent(chart, 'redraw');
}
/**
* Dim the chart and show a loading text or symbol
*
* @param {String} str An optional text to show in the loading label instead of the default one
*/
function showLoading(str) {
var loadingOptions = options.loading;
// create the layer at the first call
if (!loadingLayer) {
loadingLayer = createElement(DIV, {
className: 'highcharts-loading'
}, extend(loadingOptions.style, {
left: plotLeft + PX,
top: plotTop + PX,
width: plotWidth + PX,
height: plotHeight + PX,
zIndex: 10,
display: NONE
}), container);
createElement('span', null, loadingOptions.labelStyle, loadingLayer);
}
// show it
if (!loadingShown) {
css(loadingLayer, { opacity: 0, display: '' });
loadingLayer.getElementsByTagName('span')[0].innerHTML = str || options.lang.loading;
animate(loadingLayer, {
opacity: loadingOptions.style.opacity
}, {
duration: loadingOptions.showDuration
});
loadingShown = true;
}
}
/**
* Hide the loading layer
*/
function hideLoading() {
animate(loadingLayer, {
opacity: 0
}, {
duration: options.loading.hideDuration,
complete: function() {
css(loadingLayer, { display: NONE });
}
});
loadingShown = false;
}
/**
* Get an axis, series or point object by id.
* @param id {String} The id as given in the configuration options
*/
function get(id) {
var i,
j,
data;
// search axes
for (i = 0; i < axes.length; i++) {
if (axes[i].options.id == id) {
return axes[i];
}
}
// search series
for (i = 0; i < series.length; i++) {
if (series[i].options.id == id) {
return series[i];
}
}
// search points
for (i = 0; i < series.length; i++) {
data = series[i].data;
for (j = 0; j < data.length; j++) {
if (data[j].id == id) {
return data[j];
}
}
}
return null;
}
/**
* Update the chart's position after it has been moved, to match
* the mouse positions with the chart
*/
/*function updatePosition() {
var container = doc.getElementById(containerId);
if (container) {
position = getPosition(container);
}
}*/
/**
* Create the Axis instances based on the config options
*/
function getAxes() {
var xAxisOptions = options.xAxis || {},
yAxisOptions = options.yAxis || {},
axis;
// make sure the options are arrays and add some members
xAxisOptions = splat(xAxisOptions);
each(xAxisOptions, function(axis, i) {
axis.index = i;
axis.isX = true;
});
yAxisOptions = splat(yAxisOptions);
each(yAxisOptions, function(axis, i) {
axis.index = i;
});
// concatenate all axis options into one array
axes = xAxisOptions.concat(yAxisOptions);
// loop the options and construct axis objects
chart.xAxis = [];
chart.yAxis = [];
axes = map (axes, function(axisOptions) {
axis = new Axis(chart, axisOptions);
chart[axis.isXAxis ? 'xAxis' : 'yAxis'].push(axis);
return axis;
});
adjustTickAmounts();
}
/**
* Get the currently selected points from all series
*/
function getSelectedPoints() {
var points = [];
each(series, function(serie) {
points = points.concat( grep( serie.data, function(point) {
return point.selected;
}));
});
return points;
}
/**
* Get the currently selected series
*/
function getSelectedSeries() {
return grep (series, function (serie) {
return serie.selected;
});
}
/**
* Zoom out to 1:1
*/
zoomOut = function () {
fireEvent(chart, 'selection', { resetSelection: true }, zoom);
chart.toolbar.remove('zoom');
};
/**
* Zoom into a given portion of the chart given by axis coordinates
* @param {Object} event
*/
zoom = function (event) {
// add button to reset selection
var lang = defaultOptions.lang;
chart.toolbar.add('zoom', lang.resetZoom, lang.resetZoomTitle, zoomOut);
// if zoom is called with no arguments, reset the axes
if (!event || event.resetSelection) {
each(axes, function(axis) {
axis.setExtremes(null, null, false);
});
}
// else, zoom in on all axes
else {
each (event.xAxis.concat(event.yAxis), function(axisData) {
var axis = axisData.axis;
// don't zoom more than maxZoom
if (chart.tracker[axis.isXAxis ? 'zoomX' : 'zoomY']) {
axis.setExtremes(axisData.min, axisData.max, false);
}
});
}
// redraw chart
redraw();
};
/**
* Function: (private) showTitle
*
* Show the title and subtitle of the chart
*/
function showTitle () {
var title = options.title,
titleAlign = title.align,
subtitle = options.subtitle,
subtitleAlign = subtitle.align,
anchorMap = { // get the anchor relative to the alignment
left: 0,
center: chartWidth / 2,
right: chartWidth
};
// title
if (title && title.text) {
renderer.text(
title.text,
anchorMap[titleAlign] + title.x,
title.y,
title.style,
0,
titleAlign
).attr({
'class': 'highcharts-title'
}).add();
}
// subtitle
if (subtitle && subtitle.text) {
renderer.text(
subtitle.text,
anchorMap[subtitleAlign] + subtitle.x,
subtitle.y,
subtitle.style,
0,
subtitleAlign
).attr({
'class': 'highcharts-subtitle'
}).add();
}
}
/**
* Break down alignment options like align, verticalAlign, x, y,
* width and height to x and y relative to the chart.
*
* @param {Object} alignmentOptions
*
*/
getAlignment = function(alignmentOptions) {
var align = alignmentOptions.align,
vAlign = alignmentOptions.verticalAlign,
optionsX = alignmentOptions.x || 0,
optionsY = alignmentOptions.y || 0,
ret = {
x: optionsX || 0, // default: left align
y: optionsY || 0 // default: top align
};
// align
if (/^(right|center)$/.test(align)) {
ret.x = (chartWidth - alignmentOptions.width) /
{ right: 1, center: 2 }[align] +
optionsX;
}
// vertical align
if (/^(bottom|middle)$/.test(vAlign)) {
ret.y = (chartHeight - alignmentOptions.height) /
{ bottom: 1, middle: 2 }[vAlign] +
optionsY;
}
return ret;
};
/**
* Get the containing element, determine the size and create the inner container
* div to hold the chart
*/
function getContainer() {
renderTo = optionsChart.renderTo;
containerId = PREFIX + idCounter++;
if (typeof renderTo == 'string') {
renderTo = doc.getElementById(renderTo);
}
// remove previous chart
renderTo.innerHTML = '';
// If the container doesn't have an offsetWidth, it has or is a child of a node
// that has display:none. We need to temporarily move it out to a visible
// state to determine the size, else the legend and tooltips won't render
// properly
if (!renderTo.offsetWidth) {
renderToClone = renderTo.cloneNode(0);
css(renderToClone, {
position: ABSOLUTE,
top: '-9999px',
display: ''
});
doc.body.appendChild(renderToClone);
}
// get the width and height
var renderToOffsetHeight = (renderToClone || renderTo).offsetHeight;
chart.chartWidth = chartWidth = optionsChart.width || (renderToClone || renderTo).offsetWidth || 600;
chart.chartHeight = chartHeight = optionsChart.height ||
// the offsetHeight of an empty container is 0 in standard browsers, but 19 in IE7:
(renderToOffsetHeight > plotTop + marginBottom ? renderToOffsetHeight : 0) ||
400;
chart.plotWidth = plotWidth = chartWidth - plotLeft - marginRight;
chart.plotHeight = plotHeight = chartHeight - plotTop - marginBottom;
chart.plotLeft = plotLeft;
chart.plotTop = plotTop;
// create the inner container
chart.container = container = createElement(DIV, {
className: 'highcharts-container' +
(optionsChart.className ? ' '+ optionsChart.className : ''),
id: containerId
}, extend({
position: RELATIVE,
overflow: HIDDEN,
width: chartWidth + PX,
height: chartHeight + PX,
textAlign: 'left'
}, optionsChart.style),
renderToClone || renderTo
);
chart.renderer = renderer =
optionsChart.renderer == 'SVG' ? // force SVG, used for SVG export
new SVGRenderer(container, chartWidth, chartHeight) :
new Renderer(container, chartWidth, chartHeight);
}
/**
* Render all graphics for the chart
*/
function render () {
var mgn,
//div,
//i,
labels = options.labels,
credits = options.credits,
chartBorderWidth = optionsChart.borderWidth || 0,
chartBackgroundColor = optionsChart.backgroundColor,
plotBackgroundColor = optionsChart.plotBackgroundColor,
plotBackgroundImage = optionsChart.plotBackgroundImage;
// Chart area
mgn = 2 * chartBorderWidth + (optionsChart.shadow ? 8 : 0);
if (chartBorderWidth || chartBackgroundColor) {
renderer.rect(mgn / 2, mgn / 2, chartWidth - mgn, chartHeight - mgn,
optionsChart.borderRadius, chartBorderWidth).
attr({
stroke: optionsChart.borderColor,
'stroke-width': chartBorderWidth,
fill: chartBackgroundColor || NONE
}).
add().
shadow(optionsChart.shadow);
}
// Plot background
if (plotBackgroundColor) {
renderer.rect(plotLeft, plotTop, plotWidth, plotHeight, 0)
.attr({
fill: plotBackgroundColor
})
.add()
.shadow(optionsChart.plotShadow);
}
if (plotBackgroundImage) {
renderer.image(plotBackgroundImage, plotLeft, plotTop, plotWidth, plotHeight)
.add();
}
// Plot area border
if (optionsChart.plotBorderWidth) {
renderer.rect(plotLeft, plotTop, plotWidth, plotHeight, 0, optionsChart.plotBorderWidth).
attr({
stroke: optionsChart.plotBorderColor,
'stroke-width': optionsChart.plotBorderWidth,
zIndex: 4
}).add();
}
// Axes
if (hasCartesianSeries) {
each(axes, function(axis) {
axis.render();
});
}
// Title
showTitle();
// Labels
if (labels.items) {
each (labels.items, function () {
var style = extend (labels.style, this.style),
x = parseInt(style.left, 10) + plotLeft,
y = parseInt(style.top, 10) + plotTop + 12;
// delete to prevent rewriting in IE
delete style.left;
delete style.top;
renderer.text(
this.html,
x,
y,
style
)
.attr({ zIndex: 2 })
.add();
});
}
// The series
each (series, function(serie) {
serie.render();
});
// Legend
legend = chart.legend = new Legend(chart);
// Toolbar (don't redraw)
if (!chart.toolbar) {
chart.toolbar = Toolbar(chart);
}
// Credits
if (credits.enabled && !chart.credits) {
renderer.text(
credits.text,
chartWidth - 10,
chartHeight - 5,
credits.style,
0,
'right'
)
.on('click', function() {
location.href = credits.href;
})
.attr({ zIndex: 8 })
.add();
}
// Set flag
chart.hasRendered = true;
// If the chart was rendered outside the top container, put it back in
if (renderToClone) {
renderTo.appendChild(container);
discardElement(renderToClone);
//updatePosition(container);
}
}
/**
* Clean up memory usage
*/
function destroy() {
var i = series.length;
// remove events
//removeEvent(win, 'resize', updatePosition);
removeEvent(win, 'unload', destroy);
removeEvent(chart);
each (axes, function(axis) {
removeEvent(axis);
});
// destroy each series
while (i--) {
series[i].destroy();
}
// remove container and all SVG
container.onmousedown = container.onmousemove = container.onmouseup = container.onclick = null;
container.parentNode.removeChild(container);
// IE6 leak
container = null;
// memory and CPU leak
clearInterval(tooltipInterval);
for (i in chart) {
delete chart[i];
}
}
/**
* Prepare for first rendering after all data are loaded
*/
function firstRender() {
// VML namespaces can't be added until after complete. Listening
// for Perini's doScroll hack is not enough.
var onreadystatechange = 'onreadystatechange';
if (!hasSVG && doc.readyState != 'complete') {
doc.attachEvent(onreadystatechange, function() {
doc.detachEvent(onreadystatechange, arguments.callee);
firstRender();
});
return;
}
// create the container
getContainer();
// Initialize the series
each (options.series || [], function(serieOptions) {
initSeries(serieOptions);
});
// Set the common inversion and transformation for inverted series after initSeries
chart.inverted = inverted = pick(inverted, options.chart.inverted);
chart.plotSizeX = plotSizeX = inverted ? plotHeight : plotWidth;
chart.plotSizeY = plotSizeY = inverted ? plotWidth : plotHeight;
// depends on inverted
chart.tracker = tracker = new MouseTracker(chart, options.tooltip);
getAxes();
// Prepare for the axis sizes
each(series, function(serie) {
serie.translate();
serie.setTooltipPoints();
});
chart.render = render;
render();
fireEvent(chart, 'load');
callback && callback(chart);
}
//updatePosition(container);
// Set to zero for each new chart
colorCounter = 0;
symbolCounter = 0;
// Update position on resize and scroll
//addEvent(win, 'resize', updatePosition);
// Destroy the chart and free up memory.
addEvent(win, 'unload', destroy);
// Chart event handlers
if (chartEvents) {
for (eventType in chartEvents) {
addEvent(chart, eventType, chartEvents[eventType]);
}
}
chart.options = options;
chart.series = series;
//chart.container = container;
// API methods
chart.addSeries = addSeries;
chart.destroy = destroy;
chart.get = get;
chart.getAlignment = getAlignment;
chart.getSelectedPoints = getSelectedPoints;
chart.getSelectedSeries = getSelectedSeries;
chart.hideLoading = hideLoading;
chart.isInsidePlot = isInsidePlot;
chart.redraw = redraw;
chart.showLoading = showLoading;
//chart.updatePosition = updatePosition;
firstRender();
}
/**
* The Point object and prototype. Inheritable and used as base for PiePoint
*/
var Point = function() {};
Point.prototype = {
/**
* Initialize the point
* @param {Object} series The series object containing this point
* @param {Object} options The data in either number, array or object format
*/
init: function(series, options) {
var point = this,
defaultColors;
point.series = series;
point.applyOptions(options);
point.pointAttr = {};
if (series.options.colorByPoint) {
defaultColors = series.chart.options.colors;
if (!point.options) {
point.options = {};
}
point.color = point.options.color = point.color || defaultColors[colorCounter++];
// loop back to zero
if (colorCounter >= defaultColors.length) {
colorCounter = 0;
}
}
return point;
},
/**
* Apply the options containing the x and y data and possible some extra properties.
* This is called on point init or from point.update.
*
* @param {Object} options
*/
applyOptions: function(options) {
var point = this,
series = point.series;
point.config = options;
// onedimensional array input
if (typeof options == 'number' || options === null) {
point.y = options;
}
// object input
else if (typeof options == 'object' && typeof options.length != 'number') {
// copy options directly to point
extend(point, options);
point.options = options;
}
// categorized data with name in first position
else if (typeof options[0] == 'string') {
point.name = options[0];
point.y = options[1];
}
// two-dimentional array
else if (typeof options[0] == 'number') {
point.x = options[0];
point.y = options[1];
}
/*
* If no x is set by now, get auto incremented value. All points must have an
* x value, however the y value can be null to create a gap in the series
*/
if (point.x === UNDEFINED) {
point.x = series.autoIncrement();
}
},
/**
* Destroy a point to clear memory. Its reference still stays in series.data.
*/
destroy: function() {
var point = this,
prop;
if (point == point.series.chart.hoverPoint) {
point.onMouseOut();
}
// remove all events
removeEvent(point);
each (['dataLabel', 'graphic', 'tracker', 'group'], function(prop) {
if (point[prop]) {
point[prop].destroy();
}
});
if (point.legendItem) { // pies have legend items
point.series.chart.legend.destroyItem(point);
}
for (prop in point) {
point[prop] = null;
}
},
/**
* Toggle the selection status of a point
* @param {Boolean} selected Whether to select or unselect the point.
* @param {Boolean} accumulate Whether to add to the previous selection. By default,
* this happens if the control key (Cmd on Mac) was pressed during clicking.
*/
select: function(selected, accumulate) {
var point = this,
series = point.series,
chart = series.chart;
point.selected = selected = pick(selected, !point.selected);
//series.isDirty = true;
point.firePointEvent(selected ? 'select' : 'unselect');
point.setState(selected && SELECT_STATE);
// unselect all other points unless Ctrl or Cmd + click
if (!accumulate) {
each (chart.getSelectedPoints(), function (loopPoint) {
if (loopPoint.selected && loopPoint != point) {
loopPoint.selected = false;
loopPoint.setState(NORMAL_STATE);
loopPoint.firePointEvent('unselect');
}
});
}
},
onMouseOver: function() {
var point = this,
chart = point.series.chart,
tooltip = chart.tooltip,
hoverPoint = chart.hoverPoint;
// set normal state to previous series
if (hoverPoint && hoverPoint != point) {
hoverPoint.onMouseOut();
}
// trigger the event
point.firePointEvent('mouseOver');
// update the tooltip
if (tooltip) {
tooltip.refresh(point);
}
// hover this
point.setState(HOVER_STATE);
chart.hoverPoint = point;
},
onMouseOut: function() {
var point = this;
point.firePointEvent('mouseOut');
point.setState(NORMAL_STATE);
point.series.chart.hoverPoint = null;
},
/**
* Update the point with new options (typically x/y data) and optionally redraw the series.
*
* @param {Object} options Point options as defined in the series.data array
* @param {Boolean} redraw Whether to redraw the chart or wait for an explicit call
*
*/
update: function(options, redraw) {
var point = this,
series = point.series;
redraw = pick(redraw, true);
// fire the event with a default handler of doing the update
point.firePointEvent('update', { options: options }, function() {
point.applyOptions(options);
// redraw
series.isDirty = true;
if (redraw) {
series.chart.redraw();
}
});
},
/**
* Remove a point and optionally redraw the series and if necessary the axes
* @param {Boolean} redraw Whether to redraw the chart or wait for an explicit call
*/
remove: function(redraw) {
var point = this,
series = point.series,
chart = series.chart,
data = series.data,
i = data.length;
redraw = pick(redraw, true);
// fire the event with a default handler of removing the point
point.firePointEvent('remove', null, function() {
// loop through the data to locate the point and remove it
while (i--) {
if (data[i] == point) {
data.splice(i, 1);
break;
}
}
point.destroy();
// redraw
series.isDirty = true;
if (redraw) {
chart.redraw();
}
});
},
/**
* Fire an event on the Point object. Must not be renamed to fireEvent, as this
* causes a name clash in MooTools
* @param {String} eventType
* @param {Object} eventArgs Additional event arguments
* @param {Function} defaultFunction Default event handler
*/
firePointEvent: function(eventType, eventArgs, defaultFunction) {
var point = this,
series = this.series,
seriesOptions = series.options;
// load event handlers on demand to save time on mouseover/out
if (seriesOptions.point.events[eventType] || (
point.options && point.options.events && point.options.events[eventType])) {
this.importEvents();
}
// add default handler if in selection mode
if (eventType == 'click' && seriesOptions.allowPointSelect) {
defaultFunction = function (event) {
// Control key is for Windows, meta (= Cmd key) for Mac, Shift for Opera
point.select(null, event.ctrlKey || event.metaKey || event.shiftKey);
};
}
fireEvent(this, eventType, eventArgs, defaultFunction);
},
/**
* Import events from the series' and point's options. Only do it on
* demand, to save processing time on hovering.
*/
importEvents: function() {
if (!this.hasImportedEvents) {
var point = this,
options = merge (point.series.options.point, point.options),
events = options.events,
eventType;
point.events = events;
for (eventType in events) {
addEvent(point, eventType, events[eventType]);
}
this.hasImportedEvents = true;
}
},
/**
* Set the point's state
* @param {String} state
*/
setState: function(state) {
var point = this,
series = point.series,
stateOptions = series.options.states,
markerOptions = series.options.marker,
normalDisabled = markerOptions && !markerOptions.enabled,
markerStateOptions = markerOptions && markerOptions.states[state],
stateDisabled = markerStateOptions && markerStateOptions.enabled === false,
chart = series.chart,
pointAttr = point.pointAttr;
if (!state) {
state = NORMAL_STATE; // empty string
}
if (
// selected points don't respond to hover
(point.selected && state != SELECT_STATE) ||
// series' state options is disabled
(stateOptions[state] && stateOptions[state].enabled === false) ||
// point marker's state options is disabled
//(!state && normalDisabled)
(state && (stateDisabled || normalDisabled && !markerStateOptions.enabled))
) {
return;
}
// if a graphic is not applied to each point in the normal state, create a shared
// graphic for the hover state
if (state && !point.graphic) {
if (!series.stateMarkerGraphic) {
series.stateMarkerGraphic = chart.renderer.circle(
0, 0, pointAttr[state].r
)
.attr(pointAttr[state])
.add(series.group);
}
series.stateMarkerGraphic.translate(
point.plotX,
point.plotY
);
// else, apply hover styles to the existing point
} else if (point.graphic) {
point.graphic.attr(pointAttr[state]);
}
},
setTooltipText: function() {
var point = this;
point.tooltipText = point.series.chart.options.tooltip.formatter.call({
series: point.series,
point: point,
x: point.category,
y: point.y,
percentage: point.percentage,
total: point.total || point.stackTotal
});
}
};
/**
* The base function which all other series types inherit from
* @param {Object} chart
* @param {Object} options
*/
var Series = function() {};
Series.prototype = {
isCartesian: true,
type: 'line',
pointClass: Point,
pointAttrToOptions: { // mapping between SVG attributes and the corresponding options
stroke: 'lineColor',
'stroke-width': 'lineWidth',
fill: 'fillColor',
r: 'radius'
},
init: function(chart, options) {
var series = this,
eventType,
events,
//pointEvent,
index = chart.series.length;
series.chart = chart;
options = series.setOptions(options); // merge with plotOptions
// set some variables
extend (series, {
index: index,
options: options,
name: options.name || 'Series '+ (index + 1),
state: NORMAL_STATE,
pointAttr: {},
visible: options.visible !== false, // true by default
selected: options.selected === true // false by default
});
// register event listeners
events = options.events;
for (eventType in events) {
addEvent(series, eventType, events[eventType]);
}
series.getColor();
series.getSymbol();
// set the data
series.setData(options.data, false);
},
/**
* Return an auto incremented x value based on the pointStart and pointInterval options.
* This is only used if an x value is not given for the point that calls autoIncrement.
*/
autoIncrement: function() {
var series = this,
options = series.options,
xIncrement = series.xIncrement;
xIncrement = pick(xIncrement, options.pointStart, 0);
series.pointInterval = pick(series.pointInterval, options.pointInterval, 1);
series.xIncrement = xIncrement + series.pointInterval;
return xIncrement;
},
/**
* Sort the data and remove duplicates
*/
cleanData: function() {
var series = this,
data = series.data,
i;
// sort the data points
data.sort(function(a, b){
return (a.x - b.x);
});
// remove points with equal x values
// record the closest distance for calculation of column widths
for (i = data.length - 1; i >= 0; i--) {
if (data[i - 1]) {
if (data[i - 1].x == data[i].x) {
data.splice(i - 1, 1); // remove the duplicate
}
}
}
},
/**
* Divide the series data into segments divided by null values. Also sort
* the data points and delete duplicate values.
*/
getSegments: function() {
var lastNull = -1,
segments = [],
data = this.data;
// create the segments
each (data, function(point, i) {
if (point.y === null) {
if (i > lastNull + 1) {
segments.push(data.slice(lastNull + 1, i));
}
lastNull = i;
} else if (i == data.length - 1) { // last value
segments.push(data.slice(lastNull + 1, i + 1));
}
});
this.segments = segments;
},
/**
* Set the series options by merging from the options tree
* @param {Object} itemOptions
*/
setOptions: function(itemOptions) {
var plotOptions = this.chart.options.plotOptions,
options = merge(
plotOptions[this.type],
plotOptions.series,
itemOptions
);
return options;
},
/**
* Get the series' color
*/
getColor: function(){
var defaultColors = this.chart.options.colors;
this.color = this.options.color || defaultColors[colorCounter++] || '#0000ff';
if (colorCounter >= defaultColors.length) {
colorCounter = 0;
}
},
/**
* Get the series' symbol
*/
getSymbol: function(){
var defaultSymbols = this.chart.options.symbols,
symbol = this.options.marker.symbol || defaultSymbols[symbolCounter++];
this.symbol = symbol;
if (symbolCounter >= defaultSymbols.length) {
symbolCounter = 0;
}
},
/**
* Add a point dynamically after chart load time
* @param {Object} options Point options as given in series.data
* @param {Boolean} redraw Whether to redraw the chart or wait for an explicit call
* @param {Boolean} shift If shift is true, a point is shifted off the start
* of the series as one is appended to the end.
*/
addPoint: function(options, redraw, shift) {
var series = this,
data = series.data,
point = (new series.pointClass()).init(series, options);
redraw = pick(redraw, true);
data.push(point);
if (shift) {
data[0].remove(false);
}
// redraw
series.isDirty = true;
if (redraw) {
series.chart.redraw();
}
},
/**
* Replace the series data with a new set of data
* @param {Object} data
* @param {Object} redraw
*/
setData: function(data, redraw) {
var series = this,
oldData = series.data,
initialColor = series.initialColor,
i = oldData && oldData.length || 0;
series.xIncrement = null; // reset for new data
if (defined(initialColor)) { // reset colors for pie
colorCounter = initialColor;
}
data = map(splat(data || []), function(pointOptions) {
return (new series.pointClass()).init(series, pointOptions);
});
// destroy old points
while (i--) {
oldData[i].destroy();
}
// set the data
series.data = data;
series.cleanData();
series.getSegments();
// redraw
series.isDirty = true;
if (pick(redraw, true)) {
series.chart.redraw();
}
},
/**
* Remove a series and optionally redraw the chart
*
* @param {Boolean} redraw Whether to redraw the chart or wait for an explicit call
*/
remove: function(redraw) {
var series = this,
chart = series.chart;
redraw = pick(redraw, true);
if (!series.isRemoving) { /* prevent triggering native event in jQuery
(calling the remove function from the remove event) */
series.isRemoving = true;
// fire the event with a default handler of removing the point
fireEvent(series, 'remove', null, function() {
// destroy elements
series.destroy();
// redraw
chart.isDirty = true;
if (redraw) {
chart.redraw();
}
});
}
series.isRemoving = false;
},
/**
* Translate data points from raw data values to chart specific positioning data
* needed later in drawPoints, drawGraph and drawTracker.
*/
translate: function() {
var series = this,
chart = series.chart,
stacking = series.options.stacking,
categories = series.xAxis.categories,
yAxis = series.yAxis,
stack = yAxis.stacks[series.type],
data = series.data,
i = data.length;
// do the translation
while (i--) {
var point = data[i],
xValue = point.x,
yValue = point.y,
yBottom,
pointStack,
pointStackTotal;
point.plotX = series.xAxis.translate(xValue);
// calculate the bottom y value for stacked series
if (stacking && series.visible && stack[xValue]) {
pointStack = stack[xValue];
pointStackTotal = pointStack.total;
pointStack.cum = yBottom = pointStack.cum - yValue; // start from top
yValue = yBottom + yValue;
if (stacking == 'percent') {
yBottom = pointStackTotal ? yBottom * 100 / pointStackTotal : 0;
yValue = pointStackTotal ? yValue * 100 / pointStackTotal : 0;
}
point.percentage = pointStackTotal ? point.y * 100 / pointStackTotal : 0;
point.stackTotal = pointStackTotal;
point.yBottom = yAxis.translate(yBottom, 0, 1);
}
// set the y value
if (yValue !== null) {
point.plotY = yAxis.translate(yValue, 0, 1);
}
// set client related positions for mouse tracking
point.clientX = chart.inverted ?
chart.plotHeight - point.plotX :
point.plotX; // for mouse tracking
// some API data
point.category = categories && categories[point.x] !== UNDEFINED ?
categories[point.x] : point.x;
}
},
/**
* Memoize tooltip texts and positions
*/
setTooltipPoints: function (renew) {
var series = this,
chart = series.chart,
inverted = chart.inverted,
data = [],
plotSize = (inverted ? chart.plotTop : chart.plotLeft) + chart.plotSizeX,
low,
high,
tooltipPoints = []; // a lookup array for each pixel in the x dimension
// renew
if (renew) {
series.tooltipPoints = null;
}
// concat segments to overcome null values
each (series.segments, function(segment){
data = data.concat(segment);
});
// loop the concatenated data and apply each point to all the closest
// pixel positions
if (series.xAxis && series.xAxis.reversed) {
data = data.reverse();//reverseArray(data);
}
each (data, function(point, i) {
if (!series.tooltipPoints) { // only create the text the first time, not on zoom
point.setTooltipText();
}
low = data[i - 1] ? data [i - 1].high + 1 : 0;
high = point.high = data[i + 1] ? (
mathFloor((point.plotX + (data[i + 1] ?
data[i + 1].plotX : plotSize)) / 2)) :
plotSize;
while (low <= high) {
tooltipPoints[inverted ? plotSize - low++ : low++] = point;
}
});
series.tooltipPoints = tooltipPoints;
},
/**
* Series mouse over handler
*/
onMouseOver: function() {
var series = this,
chart = series.chart,
hoverSeries = chart.hoverSeries,
stateMarkerGraphic = series.stateMarkerGraphic;
if (chart.mouseIsDown) {
return;
}
if (stateMarkerGraphic) {
stateMarkerGraphic.show();
}
// set normal state to previous series
if (hoverSeries && hoverSeries != series) {
hoverSeries.onMouseOut();
}
// trigger the event, but to save processing time,
// only if defined
if (series.options.events.mouseOver) {
fireEvent(series, 'mouseOver');
}
// bring to front
// Todo: optimize. This is one of two operations slowing down the tooltip in Firefox.
// Can the tracking be done otherwise?
if (series.tracker) {
series.tracker.toFront();
}
// hover this
series.setState(HOVER_STATE);
chart.hoverSeries = series;
},
/**
* Series mouse out handler
*/
onMouseOut: function() {
// trigger the event only if listeners exist
var series = this,
options = series.options,
chart = series.chart,
tooltip = chart.tooltip,
hoverPoint = chart.hoverPoint;
// trigger mouse out on the point, which must be in this series
if (hoverPoint) {
hoverPoint.onMouseOut();
}
// fire the mouse out event
if (series && options.events.mouseOut) {
fireEvent(series, 'mouseOut');
}
// hide the tooltip
if (tooltip && !options.stickyTracking) {
tooltip.hide();
}
// set normal state
series.setState();
chart.hoverSeries = null;
},
/**
* Animate in the series
*/
animate: function(init) {
var series = this,
chart = series.chart,
clipRect = series.clipRect;
if (init) { // initialize the animation
if (!clipRect.isAnimating) { // apply it only for one of the series
clipRect.attr( 'width', 0 );
clipRect.isAnimating = true;
}
} else { // run the animation
clipRect.animate({
width: chart.plotSizeX
}, {
complete: function() {
clipRect.isAnimating = false;
},
duration: 1000
});
// delete this function to allow it only once
this.animate = null;
}
},
/**
* Draw the markers
*/
drawPoints: function(){
var series = this,
pointAttr,
data = series.data,
chart = series.chart,
plotX,
plotY,
i,
point,
radius,
graphic;
if (series.options.marker.enabled) {
i = data.length;
while (i--) {
point = data[i];
plotX = point.plotX;
plotY = point.plotY;
graphic = point.graphic;
// only draw the point if y is defined
if (plotY !== UNDEFINED) {
/* && removed this code because points stayed after zoom
point.plotX >= 0 && point.plotX <= chart.plotSizeX &&
point.plotY >= 0 && point.plotY <= chart.plotSizeY*/
// shortcuts
pointAttr = point.pointAttr[point.selected ? SELECT_STATE : NORMAL_STATE];
radius = pointAttr.r;
if (graphic) { // update
graphic.attr({
x: plotX,
y: plotY,
r: radius
});
} else {
point.graphic = chart.renderer.symbol(
pick(point.marker && point.marker.symbol, series.symbol),
plotX,
plotY,
radius
)
.attr(pointAttr)
.add(series.group);
}
}
}
}
},
/**
* Convert state properties from API naming conventions to SVG attributes
*
* @param {Object} options API options object
* @param {Object} base1 SVG attribute object to inherit from
* @param {Object} base2 Second level SVG attribute object to inherit from
*/
convertAttribs: function(options, base1, base2, base3) {
var conversion = this.pointAttrToOptions,
attr,
option,
obj = {};
options = options || {};
base1 = base1 || {};
base2 = base2 || {};
base3 = base3 || {};
for (attr in conversion) {
option = conversion[attr];
obj[attr] = pick(options[option], base1[attr], base2[attr], base3[attr]);
}
return obj;
},
/**
* Get the state attributes. Each series type has its own set of attributes
* that are allowed to change on a point's state change. Series wide attributes are stored for
* all series, and additionally point specific attributes are stored for all
* points with individual marker options. If such options are not defined for the point,
* a reference to the series wide attributes is stored in point.pointAttr.
*/
getAttribs: function() {
var series = this,
normalOptions = series.options.marker || series.options,
stateOptions = normalOptions.states,
stateOptionsHover = stateOptions[HOVER_STATE],
pointStateOptionsHover,
normalDefaults = {},
seriesColor = series.color,
data = series.data,
i,
point,
seriesPointAttr = [],
pointAttr,
pointAttrToOptions = series.pointAttrToOptions,
hasPointSpecificOptions;
//chart = series.chart;
// series type specific modifications
if (series.options.marker) { // line, spline, area, areaspline, scatter
// if no color is given for the point, use the general series color
normalDefaults = {
stroke: seriesColor,
fill: seriesColor
};
// if no hover radius is given, default to normal radius + 2
stateOptionsHover.radius = stateOptionsHover.radius || normalOptions.radius + 2;
stateOptionsHover.lineWidth = stateOptionsHover.lineWidth || normalOptions.lineWidth + 1;
} else { // column, bar, pie
// if no color is given for the point, use the general series color
normalDefaults = {
fill: seriesColor
};
// if no hover color is given, brighten the normal color
stateOptionsHover.color = stateOptionsHover.color ||
Color(stateOptionsHover.color || seriesColor)
.brighten(stateOptionsHover.brightness).get();
}
// general point attributes for the series normal state
seriesPointAttr[NORMAL_STATE] = series.convertAttribs(normalOptions, normalDefaults);
// HOVER_STATE and SELECT_STATE states inherit from normal state except the default radius
each([HOVER_STATE, SELECT_STATE], function(state) {
seriesPointAttr[state] =
series.convertAttribs(stateOptions[state], seriesPointAttr[NORMAL_STATE]);
});
// set it
series.pointAttr = seriesPointAttr;
// Generate the point-specific attribute collections if specific point
// options are given. If not, create a referance to the series wide point
// attributes
i = data.length;
while (i--) {
point = data[i];
normalOptions = (point.options && point.options.marker) || point.options;
if (normalOptions && normalOptions.enabled === false) {
normalOptions.radius = 0;
}
hasPointSpecificOptions = false;
// check if the point has specific visual options
if (point.options) {
for (var key in pointAttrToOptions) {
if (defined(normalOptions[pointAttrToOptions[key]])) {
hasPointSpecificOptions = true;
}
}
}
// a specific marker config object is defined for the individual point:
// create it's own attribute collection
if (hasPointSpecificOptions) {
pointAttr = [];
stateOptions = normalOptions.states || {}; // reassign for individual point
pointStateOptionsHover = stateOptions[HOVER_STATE] = stateOptions[HOVER_STATE] || {};
// if no hover color is given, brighten the normal color
if (!series.options.marker) { // column, bar, point
pointStateOptionsHover.color =
Color(pointStateOptionsHover.color || point.options.color)
.brighten(pointStateOptionsHover.brightness ||
stateOptionsHover.brightness).get();
}
// normal point state inherits series wide normal state
pointAttr[NORMAL_STATE] = series.convertAttribs(normalOptions, seriesPointAttr[NORMAL_STATE]);
// inherit from point normal and series hover
pointAttr[HOVER_STATE] = series.convertAttribs(
stateOptions[HOVER_STATE],
seriesPointAttr[HOVER_STATE],
pointAttr[NORMAL_STATE]
);
// inherit from point normal and series hover
pointAttr[SELECT_STATE] = series.convertAttribs(
stateOptions[SELECT_STATE],
seriesPointAttr[SELECT_STATE],
pointAttr[NORMAL_STATE]
);
// no marker config object is created: copy a reference to the series-wide
// attribute collection
} else {
pointAttr = seriesPointAttr;
}
point.pointAttr = pointAttr;
}
},
/**
* Clear DOM objects and free up memory
*/
destroy: function() {
var series = this,
chart = series.chart,
chartSeries = chart.series,
clipRect = series.clipRect,
prop;
// remove all events
removeEvent(series);
// remove legend items
if (series.legendItem) {
series.chart.legend.destroyItem(series);
}
// destroy all points with their elements
each (series.data, function(point) {
point.destroy();
});
// destroy all SVGElements associated to the series
each(['area', 'graph', 'dataLabelsGroup', 'group', 'tracker'], function(prop) {
if (series[prop]) {
series[prop].destroy();
}
});
if (clipRect && clipRect != series.chart.clipRect) {
clipRect.destroy();
}
// remove from hoverSeries
if (chart.hoverSeries == series) {
chart.hoverSeries = null;
}
// loop through the chart series to locate the series and remove it
each(chartSeries, function(existingSeries, i) {
if (existingSeries == series) {
chartSeries.splice(i, 1);
}
});
// clear all members
for (prop in series) {
delete series[prop];
}
},
/**
* Draw the data labels
*/
drawDataLabels: function() {
if (this.options.dataLabels.enabled) {
var series = this,
x,
y,
data = series.data,
options = series.options.dataLabels,
str,
dataLabelsGroup = series.dataLabelsGroup,
chart = series.chart,
inverted = chart.inverted,
seriesType = series.type,
color,
align;
// create a separate group for the data labels to avoid rotation
if (!dataLabelsGroup) {
dataLabelsGroup = series.dataLabelsGroup =
chart.renderer.g(PREFIX +'data-labels')
.attr({
visibility: series.visible ? VISIBLE : HIDDEN,
zIndex: 4
})
.translate(chart.plotLeft, chart.plotTop)
.add();
}
// determine the color
color = options.color;
if (color == 'auto') { // 1.0 backwards compatibility
color = null;
}
options.style.color = pick(color, series.color);
// make the labels for each point
each(data, function(point){
var plotX = pick(point.barX, point.plotX),
plotY = point.plotY,
tooltipPos = point.tooltipPos,
pointLabel = point.dataLabel;
// destroy old data label after update
if (pointLabel) {
point.dataLabel = pointLabel.destroy();
}
// get the string
str = options.formatter.call({
x: point.x,
y: point.y,
series: series,
point: point,
percentage: point.percentage,
total: point.total || point.stackTotal
});
x = (inverted ? chart.plotWidth - plotY : plotX) + options.x;
y = (inverted ? chart.plotHeight - plotX : plotY) + options.y;
// special case for pies
if (tooltipPos) {
x = tooltipPos[0] + options.x;
y = tooltipPos[1] + options.y;
}
// in columns, align the string to the column
align = options.align;
if (seriesType == 'column') {
x += {
center: point.barW / 2,
right: point.barW
}[align] || 0;
}
if (str) {
point.dataLabel = chart.renderer.text(
str,
x,
y,
options.style,
options.rotation,
align
)
.attr({
zIndex: 1,
visibility: point.visible === false ? HIDDEN : 'inherit' // for pies
})
.add(dataLabelsGroup); // pies have point.group
}
if (series.drawConnector) {
series.drawConnector(point);
}
});
}
},
/**
* Draw the actual graph
*/
drawGraph: function(state) {
var series = this,
options = series.options,
chart = series.chart,
graph = series.graph,
graphPath = [],
fillColor,
area = series.area,
group = series.group,
color = options.lineColor || series.color,
lineWidth = options.lineWidth,
segmentPath,
renderer = chart.renderer,
translatedThreshold = series.yAxis.getThreshold(options.threshold || 0),
useArea = /^area/.test(series.type),
singlePoints = [], // used in drawTracker
areaPath = [];
// divide into segments and build graph and area paths
each(series.segments, function(segment) {
if (segment.length > 1) {
segmentPath = [];
// build the segment line
each(segment, function(point, i){
// moveTo or lineTo
if (i < 2) {
segmentPath.push([M, L][i]);
}
// step line?
if (i && options.step) {
var lastPoint = segment[i - 1];
segmentPath.push (
point.plotX,
lastPoint.plotY
);
}
// normal line to next point
segmentPath.push(
point.plotX,
point.plotY
);
});
graphPath = graphPath.concat(segmentPath);
// build the area
if (useArea) {
var areaSegmentPath = [],
i,
segLength = segmentPath.length;
for (i = 0; i < segLength; i++) {
areaSegmentPath.push(segmentPath[i]);
}
if (options.stacking && series.type != 'areaspline') {
// follow stack back. Todo: implement areaspline
for (i = segment.length - 1; i >= 0; i--) {
areaSegmentPath.push(segment[i].plotX, segment[i].yBottom);
}
} else { // follow zero line back
areaSegmentPath.push(
segment[segment.length - 1].plotX,
translatedThreshold,
segment[0].plotX,
translatedThreshold,
'z'
);
}
areaPath = areaPath.concat(areaSegmentPath);
}
} else {
singlePoints.push(segment[0]);
}
});
// used in drawTracker:
series.graphPath = graphPath;
series.singlePoints = singlePoints;
// draw the area if area series or areaspline
if (useArea) {
fillColor = pick(
options.fillColor,
Color(series.color).setOpacity(options.fillOpacity || 0.75).get()
);
if (area) {
area.attr({ d: areaPath });
} else {
// draw the area
series.area = series.chart.renderer.path(areaPath).
attr({
fill: fillColor
}).add(series.group);
}
}
// draw the graph
if (graph) {
graph.attr({ d: graphPath });
} else {
if (lineWidth) {
series.graph = renderer.path(graphPath).
attr({
'stroke': color,
'stroke-width': lineWidth + PX
}).add(group).shadow(options.shadow);
}
}
},
/**
* Render the graph and markers
*/
render: function() {
var series = this,
chart = series.chart,
group,
doAnimation = series.options.animation && series.animate,
renderer = chart.renderer;
// Add plot area clipping rectangle. If this is before chart.hasRendered,
// create one shared clipRect.
if (!series.clipRect) {
series.clipRect = !chart.hasRendered && chart.clipRect ?
chart.clipRect :
renderer.clipRect(0, 0, chart.plotSizeX, chart.plotSizeY);
if (!chart.clipRect) {
chart.clipRect = series.clipRect;
}
}
// the group
if (!series.group) {
group = series.group = renderer.g('series');
if (chart.inverted) {
group.attr({
width: chart.plotWidth,
height: chart.plotHeight
}).invert();
}
group.clip(series.clipRect)
.attr({
visibility: series.visible ? VISIBLE : HIDDEN,
zIndex: 3
})
.translate(chart.plotLeft, chart.plotTop)
.add();
}
series.drawDataLabels();
// initiate the animation
if (doAnimation) {
series.animate(true);
}
// cache attributes for shapes
series.getAttribs();
// draw the graph if any
if (series.drawGraph) {
series.drawGraph();
}
// draw the points
series.drawPoints();
// draw the mouse tracking area
if (series.options.enableMouseTracking !== false) {
series.drawTracker();
}
// run the animation
if (doAnimation) {
series.animate();
}
series.isDirty = false; // means data is in accordance with what you see
},
/**
* Redraw the series after an update in the axes.
*/
redraw: function() {
var series = this;
series.translate();
series.setTooltipPoints(true);
series.render();
},
/**
* Set the state of the graph
*/
setState: function(state) {
var series = this,
options = series.options,
graph = series.graph,
stateOptions = options.states,
stateMarkerGraphic = series.stateMarkerGraphic,
lineWidth = options.lineWidth;
state = state || NORMAL_STATE;
if (series.state != state) {
series.state = state;
if (stateOptions[state] && stateOptions[state].enabled === false) {
return;
}
if (state) {
lineWidth = stateOptions[state].lineWidth || lineWidth;
} else if (stateMarkerGraphic) {
stateMarkerGraphic.hide();
}
if (graph) {
graph.animate({
'stroke-width': lineWidth
}, state ? 0 : 500);
}
}
},
/**
* Set the visibility of the graph
*
* @param vis {Boolean} True to show the series, false to hide. If UNDEFINED,
* the visibility is toggled.
*/
setVisible: function(vis, redraw) {
var series = this,
chart = series.chart,
legendItem = series.legendItem,
seriesGroup = series.group,
seriesTracker = series.tracker,
dataLabelsGroup = series.dataLabelsGroup,
showOrHide,
i,
data = series.data,
point,
ignoreHiddenSeries = chart.options.chart.ignoreHiddenSeries,
oldVisibility = series.visible;
// if called without an argument, toggle visibility
series.visible = vis = vis === UNDEFINED ? !oldVisibility : vis;
showOrHide = vis ? 'show' : 'hide';
if (vis) {
series.isDirty = ignoreHiddenSeries; // when series is initially hidden
}
// show or hide series
if (seriesGroup) { // pies don't have one
seriesGroup[showOrHide]();
}
// show or hide trackers
if (seriesTracker) {
seriesTracker[showOrHide]();
} else {
i = data.length;
while (i--) {
point = data[i];
if (point.tracker) {
point.tracker[showOrHide]();
}
}
}
if (dataLabelsGroup) {
dataLabelsGroup[showOrHide]();
}
if (legendItem) {
chart.legend.colorizeItem(series, vis);
}
// rescale
if (ignoreHiddenSeries) {
// in a stack, all other series are affected
if (series.options.stacking) {
each (chart.series, function(otherSeries) {
if (otherSeries.options.stacking && otherSeries.visible) {
otherSeries.isDirty = true;
}
});
}
}
if (redraw !== false) {
chart.redraw();
}
fireEvent(series, showOrHide);
},
/**
* Show the graph
*/
show: function() {
this.setVisible(true);
},
/**
* Hide the graph
*/
hide: function() {
this.setVisible(false);
},
/**
* Set the selected state of the graph
*
* @param selected {Boolean} True to select the series, false to unselect. If
* UNDEFINED, the selection state is toggled.
*/
select: function(selected) {
var series = this;
// if called without an argument, toggle
series.selected = selected = (selected === UNDEFINED) ? !series.selected : selected;
if (series.checkbox) {
series.checkbox.checked = selected;
}
fireEvent(series, selected ? 'select' : 'unselect');
},
/**
* Draw the tracker object that sits above all data labels and markers to
* track mouse events on the graph or points. For the line type charts
* the tracker uses the same graphPath, but with a greater stroke width
* for better control.
*/
drawTracker: function() {
var series = this,
options = series.options,
trackerPath = series.graphPath,
chart = series.chart,
snap = chart.options.tooltip.snap,
tracker = series.tracker,
cursor = options.cursor,
css = cursor && { cursor: cursor },
singlePoints = series.singlePoints,
singlePoint,
i;
// if only one series, use the whole plot area as tracker
// problem: can't put legend inside plot area
/*if (isSingleSeries) {
trackerPath = [
M,
0, 0,
L,
0, plotHeight,
plotWidth, plotHeight,
plotWidth, 0,
'Z'
];
}*/
// handle single points
for (i = 0; i < singlePoints.length; i++) {
singlePoint = singlePoints[i];
trackerPath.push(M, singlePoint.plotX - 3, singlePoint.plotY,
L, singlePoint.plotX + 3, singlePoint.plotY);
}
// draw the tracker
if (tracker) { // update
tracker.attr({ d: trackerPath });
} else { // create
series.tracker = chart.renderer.path(trackerPath).
attr({
isTracker: true,
stroke: TRACKER_FILL,
//fill: isSingleSeries ? TRACKER_FILL : NONE,
fill: NONE,
'stroke-width' : options.lineWidth + 2 * snap,
'stroke-linecap': 'round',
visibility: series.visible ? VISIBLE : HIDDEN,
zIndex: 1
})
.on('mouseover', function() {
if (chart.hoverSeries != series) {
series.onMouseOver();
}
})
.on('mouseout', function() {
if (!options.stickyTracking) {
series.onMouseOut();
}
})
.css(css)
.add(chart.trackerGroup);
}
}
}; // end Series prototype
/**
* LineSeries object
*/
var LineSeries = extendClass(Series);
seriesTypes.line = LineSeries;
/**
* AreaSeries object
*/
var AreaSeries = extendClass(Series, {
type: 'area'
});
seriesTypes.area = AreaSeries;
/**
* Calculate the spine interpolation.
*
* @todo: Implement true Bezier curves like shown at http://www.math.ucla.edu/~baker/java/hoefer/Spline.htm
*/
function SplineHelper (data) {
var xdata = [];
var ydata = [];
var i;
for (i = 0; i < data.length; i++) {
xdata[i] = data[i].plotX;
ydata[i] = data[i].plotY;
}
this.xdata = xdata;
this.ydata = ydata;
var delta = [];
this.y2 = [];
var n = ydata.length;
this.n = n;
// Natural spline 2:derivate == 0 at endpoints
this.y2[0] = 0.0;
this.y2[n-1] = 0.0;
delta[0] = 0.0;
// Calculate 2:nd derivate
for(i=1; i < n-1; i++) {
var d = (xdata[i+1]-xdata[i-1]);
/*if( d == 0 ) {
error: ('Invalid input data for spline. Two or more consecutive input X-values are equal. Each input X-value must differ since from a mathematical point of view it must be a one-to-one mapping, i.e. each X-value must correspond to exactly one Y-value.');
}*/
var s = (xdata[i]-xdata[i-1])/d;
var p = s*this.y2[i-1]+2.0;
this.y2[i] = (s-1.0)/p;
delta[i] = (ydata[i+1]-ydata[i])/(xdata[i+1]-xdata[i]) -
(ydata[i]-ydata[i-1])/(xdata[i]-xdata[i-1]);
delta[i] = (6.0*delta[i]/(xdata[i+1]-xdata[i-1])-s*delta[i-1])/p;
}
// Backward substitution
for(var j=n-2; j >= 0; j-- ) {
this.y2[j] = this.y2[j]*this.y2[j+1] + delta[j];
}
}
SplineHelper.prototype = {
// Return the two new data vectors
get: function(num) {
if (!num) {
num = 50;
}
var n = this.n ;
var step = (this.xdata[n-1]-this.xdata[0]) / (num-1);
var xnew=[];
var ynew=[];
xnew[0] = this.xdata[0];
ynew[0] = this.ydata[0];
var data = [{ plotX: xnew[0], plotY: ynew[0] }];//[[xnew[0], ynew[0]]];
for(var j = 1; j < num; j++ ) {
xnew[j] = xnew[0]+j*step;
ynew[j] = this.interpolate(xnew[j]);
data[j] = { plotX: xnew[j], plotY: ynew[j] };//[xnew[j], ynew[j]];
}
return data;
},
// Return a single interpolated Y-value from an x value
interpolate: function(xpoint) {
var max = this.n-1;
var min = 0;
// Binary search to find interval
while( max-min > 1 ) {
var k = (max+min) / 2;
if( this.xdata[mathFloor(k)] > xpoint ) {
max=k;
} else {
min=k;
}
}
var intMax = mathFloor(max), intMin = mathFloor(min);
// Each interval is interpolated by a 3:degree polynom function
var h = this.xdata[intMax]-this.xdata[intMin];
/*if( h == 0 ) {
error: ('Invalid input data for spline. Two or more consecutive input X-values are equal. Each input X-value must differ since from a mathematical point of view it must be a one-to-one mapping, i.e. each X-value must correspond to exactly one Y-value.');
}*/
var a = (this.xdata[intMax]-xpoint)/h;
var b = (xpoint-this.xdata[intMin])/h;
return a*this.ydata[intMin]+b*this.ydata[intMax]+
((a*a*a-a)*this.y2[intMin]+(b*b*b-b)*this.y2[intMax])*(h*h)/6.0;
}
};
/**
* SplineSeries object
*/
var SplineSeries = extendClass( Series, {
type: 'spline',
/**
* Draw the actual spline line with interpolated values
* @param {Object} state
*/
drawGraph: function(state) {
var series = this,
realSegments = series.segments;
// temporarily set the segments to reflect the spline
series.splinedata = series.getSplineData();
series.segments = series.splinedata;// || series.getSplineData();
// draw the line
Series.prototype.drawGraph.apply(series, arguments);
// reset the segments
series.segments = realSegments;
},
/**
* Get interpolated spline values
*/
getSplineData: function() {
var series = this,
chart = series.chart,
//data = this.data,
splinedata = [],
plotSizeX = chart.plotSizeX,
num;
each (series.segments, function(data) {
if (series.xAxis.reversed) {
data = data.reverse();
}
var croppedData = [],
nextUp,
nextDown;
// to save calculations, only add data within the plot
each (data, function(point, i) {
nextUp = data[i+2] || data[i+1] || point;
nextDown = data[i-2] || data[i-1] || point;
if (nextUp.plotX >= 0 && nextDown.plotX <= plotSizeX) {
croppedData.push(point);
}
});
// 3px intervals:
if (croppedData.length > 1) {
num = mathRound(mathMax(plotSizeX,
croppedData[croppedData.length-1].clientX - croppedData[0].clientX) / 3);
}
splinedata.push (
data.length > 1 ? // if the data.length is one, it's a single point so we can't spline it
num ? (new SplineHelper(croppedData)).get(num) : [] :
data
);
});
return splinedata;
}
});
seriesTypes.spline = SplineSeries;
/**
* AreaSplineSeries object
*/
var AreaSplineSeries = extendClass(SplineSeries, {
type: 'areaspline'
});
seriesTypes.areaspline = AreaSplineSeries;
/**
* ColumnSeries object
*/
var ColumnSeries = extendClass(Series, {
type: 'column',
pointAttrToOptions: { // mapping between SVG attributes and the corresponding options
stroke: 'borderColor',
'stroke-width': 'borderWidth',
fill: 'color',
r: 'borderRadius'
},
init: function() {
Series.prototype.init.apply(this, arguments);
var series = this,
chart = series.chart;
// if the series is added dynamically, force redraw of other
// series affected by a new column
if (chart.hasRendered) {
each (chart.series, function(otherSeries) {
if (otherSeries.type == series.type) {
otherSeries.isDirty = true;
}
});
}
},
/**
* Translate each point to the plot area coordinate system and find shape positions
*/
translate: function() {
var series = this,
chart = series.chart,
columnCount = 0,
reversedXAxis = series.xAxis.reversed,
categories = series.xAxis.categories,
stackedIndex; // the index of the first column in a stack
Series.prototype.translate.apply(series);
// Get the total number of column type series.
// This is called on every series. Consider moving this logic to a
// chart.orderStacks() function and call it on init, addSeries and removeSeries
each (chart.series, function(otherSeries) {
if (otherSeries.type == series.type) {
if (!otherSeries.options.stacking) {
otherSeries.columnIndex = columnCount++;
} else {
if (!defined(stackedIndex)) {
stackedIndex = columnCount++;
}
otherSeries.columnIndex = stackedIndex;
}
}
});
// calculate the width and position of each column based on
// the number of column series in the plot, the groupPadding
// and the pointPadding options
var options = series.options,
data = series.data,
closestPoints = series.closestPoints,
categoryWidth = mathAbs(
data[1] ? data[closestPoints].plotX - data[closestPoints - 1].plotX :
chart.plotSizeX / (categories ? categories.length : 1)
),
groupPadding = categoryWidth * options.groupPadding,
groupWidth = categoryWidth - 2 * groupPadding,
pointOffsetWidth = groupWidth / columnCount,
optionPointWidth = options.pointWidth,
pointPadding = defined(optionPointWidth) ? (pointOffsetWidth - optionPointWidth) / 2 :
pointOffsetWidth * options.pointPadding,
pointWidth = pick(optionPointWidth, pointOffsetWidth - 2 * pointPadding),
columnIndex = (reversedXAxis ? columnCount -
series.columnIndex : series.columnIndex) || 0,
pointXOffset = pointPadding + (groupPadding + columnIndex *
pointOffsetWidth -(categoryWidth / 2)) *
(reversedXAxis ? -1 : 1),
translatedThreshold = series.yAxis.getThreshold(options.threshold || 0),
minPointLength = options.minPointLength;
// record the new values
each (data, function(point) {
var plotY = point.plotY,
barX = point.plotX + pointXOffset,
barY = mathCeil(mathMin(plotY, translatedThreshold)),
barW = pointWidth,
barH = mathCeil(mathAbs((point.yBottom || translatedThreshold) - plotY)),
trackerY;
// handle options.minPointLength and tracker for small points
if (mathAbs(barH) < (minPointLength || 5)) {
if (minPointLength) {
barH = minPointLength;
barY = translatedThreshold - (plotY <= translatedThreshold ? minPointLength : 0);
}
trackerY = barY - 3;
}
extend (point, {
barX: barX,
barY: barY,
barW: barW,
barH: barH
});
point.shapeType = 'rect';
point.shapeArgs = {
x: barX,
y: barY,
width: barW,
height: barH,
r: options.borderRadius
};
// make small columns responsive to mouse
point.trackerArgs = defined(trackerY) && merge(point.shapeArgs, {
height: 6,
y: trackerY
});
});
},
getSymbol: function(){
},
/**
* Columns have no graph
*/
drawGraph: function() {},
/**
* Draw the columns. For bars, the series.group is rotated, so the same coordinates
* apply for columns and bars. This method is inherited by scatter series.
*
*/
drawPoints: function() {
var series = this,
options = series.options,
renderer = series.chart.renderer,
graphic,
shapeArgs;
// draw the columns
each (series.data, function(point) {
if (defined(point.plotY)) {
graphic = point.graphic;
shapeArgs = point.shapeArgs;
if (graphic) { // update
graphic.attr(shapeArgs);
} else {
point.graphic = renderer[point.shapeType](shapeArgs)
.attr(point.pointAttr[point.selected ? SELECT_STATE : NORMAL_STATE])
.add(series.group)
.shadow(options.shadow);
}
}
});
},
/**
* Draw the individual tracker elements.
* This method is inherited by scatter and pie charts too.
*/
drawTracker: function() {
var series = this,
chart = series.chart,
renderer = chart.renderer,
shapeArgs,
tracker,
trackerLabel = +new Date(),
cursor = series.options.cursor,
css = cursor && { cursor: cursor },
rel;
each (series.data, function(point) {
tracker = point.tracker;
shapeArgs = point.trackerArgs || point.shapeArgs;
if (tracker) {// update
tracker.attr(shapeArgs);
} else {
point.tracker =
renderer[point.shapeType](shapeArgs)
.attr({
isTracker: trackerLabel,
fill: TRACKER_FILL,
visibility: series.visible ? VISIBLE : HIDDEN,
zIndex: 1
})
.on('mouseover', function(event) {
rel = event.relatedTarget || event.fromElement;
if (chart.hoverSeries != series && attr(rel, 'isTracker') != trackerLabel) {
series.onMouseOver();
}
point.onMouseOver();
})
.on('mouseout', function(event) {
if (!series.options.stickyTracking) {
rel = event.relatedTarget || event.toElement;
if (attr(rel, 'isTracker') != trackerLabel) {
series.onMouseOut();
}
}
})
.css(css)
.add(chart.trackerGroup);
}
});
},
/**
* Extend the base cleanData method by getting the closest pair of points.
* This is needed for determining the automatic point width.
*/
cleanData: function() {
var series = this,
data = series.data,
interval,
smallestInterval,
closestPoints,
i;
// apply the parent method
Series.prototype.cleanData.apply(series);
// find the closes pair of points
for (i = data.length - 1; i >= 0; i--) {
if (data[i - 1]) {
interval = data[i].x - data[i - 1].x;
if (smallestInterval === UNDEFINED || interval < smallestInterval) {
smallestInterval = interval;
closestPoints = i;
}
}
}
series.closestPoints = closestPoints;
},
/**
* Animate the column heights one by one from zero
* @param {Boolean} init Whether to initialize the animation or run it
*/
animate: function(init) {
var series = this,
data = series.data;
if (!init) { // run the animation
/*
* Note: Ideally the animation should be initialized by calling
* series.group.hide(), and then calling series.group.show()
* after the animation was started. But this rendered the shadows
* invisible in IE8 standards mode. If the columns flicker on large
* datasets, this is the cause.
*/
each (data, function(point) {
var graphic = point.graphic;
if (graphic) {
// start values
graphic.attr({
height: 0,
y: series.yAxis.translate(0, 0, 1)
});
// animate
graphic.animate({
height: point.barH,
y: point.barY
}, {
duration: 1000
});
}
});
// delete this function to allow it only once
series.animate = null;
}
},
/**
* Remove this series from the chart
*/
remove: function() {
var series = this,
chart = series.chart;
// column and bar series affects other series of the same type
// as they are either stacked or grouped
if (chart.hasRendered) {
each (chart.series, function(otherSeries) {
if (otherSeries.type == series.type) {
otherSeries.isDirty = true;
}
});
}
Series.prototype.remove.apply(series, arguments);
}
});
seriesTypes.column = ColumnSeries;
var BarSeries = extendClass(ColumnSeries, {
type: 'bar',
init: function(chart) {
chart.inverted = this.inverted = true;
ColumnSeries.prototype.init.apply(this, arguments);
}
});
seriesTypes.bar = BarSeries;
/**
* The scatter series class
*/
var ScatterSeries = extendClass(Series, {
type: 'scatter',
/**
* Extend the base Series' translate method by adding shape type and
* arguments for the point trackers
*/
translate: function() {
var series = this;
Series.prototype.translate.apply(series);
each (series.data, function(point) {
point.shapeType = 'circle';
point.shapeArgs = {
x: point.plotX,
y: point.plotY,
r: series.chart.options.tooltip.snap
};
});
},
/**
* Create individual tracker elements for each point
*/
//drawTracker: ColumnSeries.prototype.drawTracker,
drawTracker: function() {
var series = this,
cursor = series.options.cursor,
css = cursor && { cursor: cursor },
graphic;
each(series.data, function(point) {
graphic = point.graphic;
if (graphic) { // doesn't exist for null points
graphic
.attr({ isTracker: true })
.on('mouseover', function(event) {
series.onMouseOver();
point.onMouseOver();
})
.on('mouseout', function(event) {
if (!series.options.stickyTracking) {
series.onMouseOut();
}
})
.css(css);
}
});
},
/**
* Cleaning the data is not necessary in a scatter plot
*/
cleanData: function() {}
});
seriesTypes.scatter = ScatterSeries;
/**
* Extended point object for pies
*/
var PiePoint = extendClass(Point, {
/**
* Initiate the pie slice
*/
init: function () {
Point.prototype.init.apply(this, arguments);
var point = this,
//series = point.series,
toggleSlice;
//visible: options.visible !== false,
extend(point, {
visible: point.visible !== false,
name: pick(point.name, 'Slice')
});
// add event listener for select
toggleSlice = function() {
point.slice();
};
addEvent(point, 'select', toggleSlice);
addEvent(point, 'unselect', toggleSlice);
return point;
},
/**
* Toggle the visibility of the pie slice
* @param {Boolean} vis Whether to show the slice or not. If undefined, the
* visibility is toggled
*/
setVisible: function(vis) {
var point = this,
chart = point.series.chart,
method;
// if called without an argument, toggle visibility
point.visible = vis = vis === UNDEFINED ? !point.visible : vis;
method = vis ? 'show' : 'hide';
point.group[method]();
if (point.tracker) {
point.tracker[method]();
}
if (point.dataLabel) {
point.dataLabel[method]();
}
if (point.legendItem) {
chart.legend.colorizeItem(point, vis);
}
},
/**
* Set or toggle whether the slice is cut out from the pie
* @param {Boolean} sliced When undefined, the slice state is toggled
* @param {Boolean} redraw Whether to redraw the chart. True by default.
*/
slice: function(sliced, redraw) {
var point = this,
series = point.series,
chart = series.chart,
slicedTranslation = point.slicedTranslation;
// redraw is true by default
redraw = pick(redraw, true);
// if called without an argument, toggle
sliced = point.sliced = defined(sliced) ? sliced : !point.sliced;
point.group.animate({
translateX: (sliced ? slicedTranslation[0] : chart.plotLeft),
translateY: (sliced ? slicedTranslation[1] : chart.plotTop)
}, 100);
}
});
/**
* The Pie series class
*/
var PieSeries = extendClass(Series, {
type: 'pie',
isCartesian: false,
pointClass: PiePoint,
pointAttrToOptions: { // mapping between SVG attributes and the corresponding options
stroke: 'borderColor',
'stroke-width': 'borderWidth',
fill: 'color'
},
/**
* Pies have one color each point
*/
getColor: function() {
// record first color for use in setData
this.initialColor = colorCounter;
},
translate: function() {
var total = 0,
series = this,
cumulative = -0.25, // start at top
options = series.options,
slicedOffset = options.slicedOffset,
positions = options.center,
chart = series.chart,
plotWidth = chart.plotWidth,
plotHeight = chart.plotHeight,
start,
end,
angle,
data = series.data,
circ = 2 * math.PI,
fraction,
smallestSize = mathMin(plotWidth, plotHeight),
isPercent;
// get positions - either an integer or a percentage string must be given
positions.push(options.size, options.innerSize || 0);
positions = map (positions, function(length, i) {
isPercent = /%$/.test(length);
return isPercent ?
// i == 0: centerX, relative to width
// i == 1: centerY, relative to height
// i == 2: size, relative to height
[plotWidth, plotHeight, smallestSize, smallestSize][i] *
parseInt(length, 10) / 100:
length;
});
// get the total sum
each (data, function(point) {
total += point.y;
});
each (data, function(point) {
// set start and end angle
fraction = total ? point.y / total : 0;
start = cumulative * circ;
cumulative += fraction;
end = cumulative * circ;
// set the shape
point.shapeType = 'arc';
point.shapeArgs = {
x: positions[0],
y: positions[1],
r: positions[2] / 2,
innerR: positions[3] / 2,
start: start,
end: end
};
// center for the sliced out slice
angle = (end + start) / 2;
point.slicedTranslation = map([
mathCos(angle) * slicedOffset + chart.plotLeft,
mathSin(angle) * slicedOffset + chart.plotTop
], mathRound);
// set the anchor point for tooltips
point.tooltipPos = [
positions[0] + mathCos(angle) * positions[2] * 0.35,
positions[1] + mathSin(angle) * positions[2] * 0.35
];
// API properties
point.percentage = fraction * 100;
point.total = total;
});
this.setTooltipPoints();
},
/**
* Render the slices
*/
render: function() {
var series = this;
// cache attributes for shapes
series.getAttribs();
this.drawPoints();
// draw the mouse tracking area
if (series.options.enableMouseTracking !== false) {
series.drawTracker();
}
this.drawDataLabels();
series.isDirty = false; // means data is in accordance with what you see
},
/**
* Draw the data points
*/
drawPoints: function() {
var series = this,
chart = series.chart,
renderer = chart.renderer,
groupTranslation,
//center,
graphic,
shapeArgs;
// draw the slices
each (series.data, function(point) {
graphic = point.graphic;
shapeArgs = point.shapeArgs;
// create the group the first time
if (!point.group) {
// if the point is sliced, use special translation, else use plot area traslation
groupTranslation = point.sliced ? point.slicedTranslation : [chart.plotLeft, chart.plotTop];
point.group = renderer.g('point')
.attr({ zIndex: 3 })
.add()
.translate(groupTranslation[0], groupTranslation[1]);
}
// draw the slice
if (graphic) {
graphic.attr(shapeArgs);
} else {
point.graphic =
renderer.arc(shapeArgs)
.attr(point.pointAttr[NORMAL_STATE])
.add(point.group);
}
// detect point specific visibility
if (point.visible === false) {
point.setVisible(false);
}
});
},
/**
* Draw point specific tracker objects. Inherit directly from column series.
*/
drawTracker: ColumnSeries.prototype.drawTracker,
/**
* Pies don't have point marker symbols
*/
getSymbol: function() {}
});
seriesTypes.pie = PieSeries;
// global variables
win.Highcharts = {
Chart: Chart,
dateFormat: dateFormat,
getOptions: getOptions,
numberFormat: numberFormat,
Point: Point,
Renderer: Renderer,
seriesTypes: seriesTypes,
setOptions: setOptions,
Series: Series,
// Expose utility funcitons for modules
addEvent: addEvent,
createElement: createElement,
discardElement: discardElement,
css: css,
each: each,
extend: extend,
map: map,
merge: merge,
pick: pick,
extendClass: extendClass
};
})();