/**
* @license Highcharts 4.1.9 JS v/Highstock 2.1.9 (2015-10-07)
*
* Standalone Highcharts Framework
*
* License: MIT License
*/
/*global Highcharts */
var HighchartsAdapter = (function () {
var UNDEFINED,
doc = document,
emptyArray = [],
timers = [],
animSetters = {},
Fx;
Math.easeInOutSine = function (t, b, c, d) {
return -c / 2 * (Math.cos(Math.PI * t / d) - 1) + b;
};
/**
* Extend given object with custom events
*/
function augment(obj) {
function removeOneEvent(el, type, fn) {
el.removeEventListener(type, fn, false);
}
function IERemoveOneEvent(el, type, fn) {
fn = el.HCProxiedMethods[fn.toString()];
el.detachEvent('on' + type, fn);
}
function removeAllEvents(el, type) {
var events = el.HCEvents,
remove,
types,
len,
n;
if (el.removeEventListener) {
remove = removeOneEvent;
} else if (el.attachEvent) {
remove = IERemoveOneEvent;
} else {
return; // break on non-DOM events
}
if (type) {
types = {};
types[type] = true;
} else {
types = events;
}
for (n in types) {
if (events[n]) {
len = events[n].length;
while (len--) {
remove(el, n, events[n][len]);
}
}
}
}
if (!obj.HCExtended) {
Highcharts.extend(obj, {
HCExtended: true,
HCEvents: {},
bind: function (name, fn) {
var el = this,
events = this.HCEvents,
wrappedFn;
// handle DOM events in modern browsers
if (el.addEventListener) {
el.addEventListener(name, fn, false);
// handle old IE implementation
} else if (el.attachEvent) {
wrappedFn = function (e) {
e.target = e.srcElement || window; // #2820
fn.call(el, e);
};
if (!el.HCProxiedMethods) {
el.HCProxiedMethods = {};
}
// link wrapped fn with original fn, so we can get this in removeEvent
el.HCProxiedMethods[fn.toString()] = wrappedFn;
el.attachEvent('on' + name, wrappedFn);
}
if (events[name] === UNDEFINED) {
events[name] = [];
}
events[name].push(fn);
},
unbind: function (name, fn) {
var events,
index;
if (name) {
events = this.HCEvents[name] || [];
if (fn) {
index = HighchartsAdapter.inArray(fn, events);
if (index > -1) {
events.splice(index, 1);
this.HCEvents[name] = events;
}
if (this.removeEventListener) {
removeOneEvent(this, name, fn);
} else if (this.attachEvent) {
IERemoveOneEvent(this, name, fn);
}
} else {
removeAllEvents(this, name);
this.HCEvents[name] = [];
}
} else {
removeAllEvents(this);
this.HCEvents = {};
}
},
trigger: function (name, args) {
var events = this.HCEvents[name] || [],
target = this,
len = events.length,
i,
preventDefault,
fn;
// Attach a simple preventDefault function to skip default handler if called
preventDefault = function () {
args.defaultPrevented = true;
};
for (i = 0; i < len; i++) {
fn = events[i];
// args is never null here
if (args.stopped) {
return;
}
args.preventDefault = preventDefault;
args.target = target;
// If the type is not set, we're running a custom event (#2297). If it is set,
// we're running a browser event, and setting it will cause en error in
// IE8 (#2465).
if (!args.type) {
args.type = name;
}
// If the event handler return false, prevent the default handler from executing
if (fn.call(this, args) === false) {
args.preventDefault();
}
}
}
});
}
return obj;
}
return {
/**
* Initialize the adapter. This is run once as Highcharts is first run.
*/
init: function (pathAnim) {
/**
* Compatibility section to add support for legacy IE. This can be removed if old IE
* support is not needed.
*/
if (!doc.defaultView) {
this._getStyle = function (el, prop) {
var val;
if (el.style[prop]) {
return el.style[prop];
} else {
if (prop === 'opacity') {
prop = 'filter';
}
/*jslint unparam: true*/
val = el.currentStyle[prop.replace(/\-(\w)/g, function (a, b) { return b.toUpperCase(); })];
if (prop === 'filter') {
val = val.replace(
/alpha\(opacity=([0-9]+)\)/,
function (a, b) {
return b / 100;
}
);
}
/*jslint unparam: false*/
return val === '' ? 1 : val;
}
};
this.adapterRun = function (elem, method) {
var alias = { width: 'clientWidth', height: 'clientHeight' }[method];
if (alias) {
elem.style.zoom = 1;
return elem[alias] - 2 * parseInt(HighchartsAdapter._getStyle(elem, 'padding'), 10);
}
};
}
if (!Array.prototype.forEach) {
this.each = function (arr, fn) { // legacy
var i = 0,
len = arr.length;
for (; i < len; i++) {
if (fn.call(arr[i], arr[i], i, arr) === false) {
return i;
}
}
};
}
if (!Array.prototype.indexOf) {
this.inArray = function (item, arr) {
var len,
i = 0;
if (arr) {
len = arr.length;
for (; i < len; i++) {
if (arr[i] === item) {
return i;
}
}
}
return -1;
};
}
if (!Array.prototype.filter) {
this.grep = function (elements, callback) {
var ret = [],
i = 0,
length = elements.length;
for (; i < length; i++) {
if (!!callback(elements[i], i)) {
ret.push(elements[i]);
}
}
return ret;
};
}
//--- End compatibility section ---
/**
* Start of animation specific code
*/
Fx = function (elem, options, prop) {
this.options = options;
this.elem = elem;
this.prop = prop;
};
Fx.prototype = {
update: function () {
var styles,
paths = this.paths,
elem = this.elem,
elemelem = elem.element; // if destroyed, it is null
// Animation setter defined from outside
if (animSetters[this.prop]) {
animSetters[this.prop](this);
// Animating a path definition on SVGElement
} else if (paths && elemelem) {
elem.attr('d', pathAnim.step(paths[0], paths[1], this.now, this.toD));
// Other animations on SVGElement
} else if (elem.attr) {
if (elemelem) {
elem.attr(this.prop, this.now);
}
// HTML styles
} else {
styles = {};
styles[this.prop] = this.now + this.unit;
Highcharts.css(elem, styles);
}
if (this.options.step) {
this.options.step.call(this.elem, this.now, this);
}
},
custom: function (from, to, unit) {
var self = this,
t = function (gotoEnd) {
return self.step(gotoEnd);
},
i;
this.startTime = +new Date();
this.start = from;
this.end = to;
this.unit = unit;
this.now = this.start;
this.pos = this.state = 0;
t.elem = this.elem;
if (t() && timers.push(t) === 1) {
t.timerId = setInterval(function () {
for (i = 0; i < timers.length; i++) {
if (!timers[i]()) {
timers.splice(i--, 1);
}
}
if (!timers.length) {
clearInterval(t.timerId);
}
}, 13);
}
},
step: function (gotoEnd) {
var t = +new Date(),
ret,
done,
options = this.options,
elem = this.elem,
i;
if (elem.attr && !elem.element) { // #2616, element including flag is destroyed
ret = false;
} else if (gotoEnd || t >= options.duration + this.startTime) {
this.now = this.end;
this.pos = this.state = 1;
this.update();
this.options.curAnim[this.prop] = true;
done = true;
for (i in options.curAnim) {
if (options.curAnim[i] !== true) {
done = false;
}
}
if (done) {
if (options.complete) {
options.complete.call(elem);
}
}
ret = false;
} else {
var n = t - this.startTime;
this.state = n / options.duration;
this.pos = options.easing(n, 0, 1, options.duration);
this.now = this.start + ((this.end - this.start) * this.pos);
this.update();
ret = true;
}
return ret;
}
};
/**
* The adapter animate method
*/
this.animate = function (el, prop, opt) {
var start,
unit = '',
end,
fx,
args,
name,
PX = 'px';
if (typeof opt !== 'object' || opt === null) {
args = arguments;
opt = {
duration: args[2],
easing: args[3],
complete: args[4]
};
}
if (typeof opt.duration !== 'number') {
opt.duration = 400;
}
opt.easing = Math[opt.easing] || Math.easeInOutSine;
opt.curAnim = Highcharts.extend({}, prop);
for (name in prop) {
fx = new Fx(el, opt, name);
end = null;
if (name === 'd') {
fx.paths = pathAnim.init(
el,
el.d,
prop.d
);
fx.toD = prop.d;
start = 0;
end = 1;
} else if (el.attr) {
start = el.attr(name);
} else {
start = parseFloat(HighchartsAdapter._getStyle(el, name)) || 0;
if (name !== 'opacity') {
unit = PX;
}
}
if (!end) {
end = prop[name];
}
if (end.match && end.match(PX)) {
end = end.replace(/px/g, ''); // #4351
}
fx.custom(start, end, unit);
}
};
},
/**
* Internal method to return CSS value for given element and property
*/
_getStyle: function (el, prop) {
return window.getComputedStyle(el, undefined).getPropertyValue(prop);
},
/**
* Add an animation setter for a specific property
*/
addAnimSetter: function (prop, fn) {
animSetters[prop] = fn;
},
/**
* Downloads a script and executes a callback when done.
* @param {String} scriptLocation
* @param {Function} callback
*/
getScript: function (scriptLocation, callback) {
// We cannot assume that Assets class from mootools-more is available so instead insert a script tag to download script.
var head = doc.getElementsByTagName('head')[0],
script = doc.createElement('script');
script.type = 'text/javascript';
script.src = scriptLocation;
script.onload = callback;
head.appendChild(script);
},
/**
* Return the index of an item in an array, or -1 if not found
*/
inArray: function (item, arr) {
return arr.indexOf ? arr.indexOf(item) : emptyArray.indexOf.call(arr, item);
},
/**
* A direct link to adapter methods
*/
adapterRun: function (elem, method) {
return parseInt(HighchartsAdapter._getStyle(elem, method), 10);
},
/**
* Filter an array
*/
grep: function (elements, callback) {
return emptyArray.filter.call(elements, callback);
},
/**
* Map an array
*/
map: function (arr, fn) {
var results = [], i = 0, len = arr.length;
for (; i < len; i++) {
results[i] = fn.call(arr[i], arr[i], i, arr);
}
return results;
},
/**
* Get the element's offset position, corrected by overflow:auto. Loosely based on jQuery's offset method.
*/
offset: function (el) {
var docElem = document.documentElement,
box = el.getBoundingClientRect();
return {
top: box.top + (window.pageYOffset || docElem.scrollTop) - (docElem.clientTop || 0),
left: box.left + (window.pageXOffset || docElem.scrollLeft) - (docElem.clientLeft || 0)
};
},
/**
* Add an event listener
*/
addEvent: function (el, type, fn) {
augment(el).bind(type, fn);
},
/**
* Remove event added with addEvent
*/
removeEvent: function (el, type, fn) {
augment(el).unbind(type, fn);
},
/**
* Fire an event on a custom object
*/
fireEvent: function (el, type, eventArguments, defaultFunction) {
var e;
if (doc.createEvent && (el.dispatchEvent || el.fireEvent)) {
e = doc.createEvent('Events');
e.initEvent(type, true, true);
e.target = el;
Highcharts.extend(e, eventArguments);
if (el.dispatchEvent) {
el.dispatchEvent(e);
} else {
el.fireEvent(type, e);
}
} else if (el.HCExtended === true) {
eventArguments = eventArguments || {};
el.trigger(type, eventArguments);
}
if (eventArguments && eventArguments.defaultPrevented) {
defaultFunction = null;
}
if (defaultFunction) {
defaultFunction(eventArguments);
}
},
washMouseEvent: function (e) {
return e;
},
/**
* Stop running animation
*/
stop: function (el) {
var i = timers.length,
timer;
// Remove timers related to this element (#4519)
while (i--) {
timer = timers[i];
if (timer.elem === el) {
timers.splice(i, 1);
}
}
},
/**
* Utility for iterating over an array. Parameters are reversed compared to jQuery.
* @param {Array} arr
* @param {Function} fn
*/
each: function (arr, fn) { // modern browsers
return Array.prototype.forEach.call(arr, fn);
}
};
}());
// ==ClosureCompiler==
// @compilation_level SIMPLE_OPTIMIZATIONS
/**
* @license Highcharts 4.1.9 JS v/Highstock 2.1.9 (2015-10-07)
*
* (c) 2009-2014 Torstein Honsi
*
* License: www.highcharts.com/license
*/
// JSLint options:
/*global Highcharts, HighchartsAdapter, document, window, navigator, setInterval, clearInterval, clearTimeout, setTimeout, location, jQuery, $, console, each, grep */
/*jslint ass: true, sloppy: true, forin: true, plusplus: true, nomen: true, vars: true, regexp: true, newcap: true, browser: true, continue: true, white: true */
(function () {
// encapsulated variables
var UNDEFINED,
doc = document,
win = window,
math = Math,
mathRound = math.round,
mathFloor = math.floor,
mathCeil = math.ceil,
mathMax = math.max,
mathMin = math.min,
mathAbs = math.abs,
mathCos = math.cos,
mathSin = math.sin,
mathPI = math.PI,
deg2rad = mathPI * 2 / 360,
// some variables
userAgent = navigator.userAgent,
isOpera = win.opera,
isMS = /(msie|trident|edge)/i.test(userAgent) && !isOpera,
docMode8 = doc.documentMode === 8,
isWebKit = !isMS && /AppleWebKit/.test(userAgent),
isFirefox = /Firefox/.test(userAgent),
isTouchDevice = /(Mobile|Android|Windows Phone)/.test(userAgent),
SVG_NS = 'http://www.w3.org/2000/svg',
hasSVG = !!doc.createElementNS && !!doc.createElementNS(SVG_NS, 'svg').createSVGRect,
hasBidiBug = isFirefox && parseInt(userAgent.split('Firefox/')[1], 10) < 4, // issue #38
useCanVG = !hasSVG && !isMS && !!doc.createElement('canvas').getContext,
Renderer,
hasTouch,
symbolSizes = {},
idCounter = 0,
garbageBin,
defaultOptions,
dateFormat, // function
pathAnim,
timeUnits,
noop = function () { return UNDEFINED; },
charts = [],
chartCount = 0,
PRODUCT = 'Highcharts 4.1.9',
VERSION = '/Highstock 2.1.9',
// some constants for frequently used strings
DIV = 'div',
ABSOLUTE = 'absolute',
RELATIVE = 'relative',
HIDDEN = 'hidden',
PREFIX = 'highcharts-',
VISIBLE = 'visible',
PX = 'px',
NONE = 'none',
M = 'M',
L = 'L',
numRegex = /^[0-9]+$/,
NORMAL_STATE = '',
HOVER_STATE = 'hover',
SELECT_STATE = 'select',
marginNames = ['plotTop', 'marginRight', 'marginBottom', 'plotLeft'],
// Object for extending Axis
AxisPlotLineOrBandExtension,
// constants for attributes
STROKE_WIDTH = 'stroke-width',
// time methods, changed based on whether or not UTC is used
Date, // Allow using a different Date class
makeTime,
timezoneOffset,
getTimezoneOffset,
getMinutes,
getHours,
getDay,
getDate,
getMonth,
getFullYear,
setMilliseconds,
setSeconds,
setMinutes,
setHours,
setDate,
setMonth,
setFullYear,
// lookup over the types and the associated classes
seriesTypes = {},
Highcharts;
// The Highcharts namespace
Highcharts = win.Highcharts = win.Highcharts ? error(16, true) : {};
Highcharts.seriesTypes = 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
*/
var extend = Highcharts.extend = function (a, b) {
var n;
if (!a) {
a = {};
}
for (n in b) {
a[n] = b[n];
}
return a;
};
/**
* Deep merge two or more objects and return a third object. If the first argument is
* true, the contents of the second object is copied into the first object.
* Previously this function redirected to jQuery.extend(true), but this had two limitations.
* First, it deep merged arrays, which lead to workarounds in Highcharts. Second,
* it copied properties from extended prototypes.
*/
function merge() {
var i,
args = arguments,
len,
ret = {},
doCopy = function (copy, original) {
var value, key;
// An object is replacing a primitive
if (typeof copy !== 'object') {
copy = {};
}
for (key in original) {
if (original.hasOwnProperty(key)) {
value = original[key];
// Copy the contents of objects, but not arrays or DOM nodes
if (value && typeof value === 'object' && Object.prototype.toString.call(value) !== '[object Array]' &&
key !== 'renderTo' && typeof value.nodeType !== 'number') {
copy[key] = doCopy(copy[key] || {}, value);
// Primitives and arrays are copied over directly
} else {
copy[key] = original[key];
}
}
}
return copy;
};
// If first argument is true, copy into the existing object. Used in setOptions.
if (args[0] === true) {
ret = args[1];
args = Array.prototype.slice.call(args, 2);
}
// For each argument, extend the return
len = args.length;
for (i = 0; i < len; i++) {
ret = doCopy(ret, args[i]);
}
return ret;
}
/**
* Shortcut for parseInt
* @param {Object} s
* @param {Number} mag Magnitude
*/
function pInt(s, mag) {
return parseInt(s, mag || 10);
}
/**
* Check for string
* @param {Object} s
*/
function isString(s) {
return typeof s === 'string';
}
/**
* Check for object
* @param {Object} obj
*/
function isObject(obj) {
return obj && typeof obj === 'object';
}
/**
* Check for array
* @param {Object} obj
*/
function isArray(obj) {
return Object.prototype.toString.call(obj) === '[object Array]';
}
/**
* Check for number
* @param {Object} n
*/
function isNumber(n) {
return typeof n === 'number';
}
function log2lin(num) {
return math.log(num) / math.LN10;
}
function lin2log(num) {
return math.pow(10, num);
}
/**
* Remove last occurence of an item from an array
* @param {Array} arr
* @param {Mixed} item
*/
function erase(arr, item) {
var i = arr.length;
while (i--) {
if (arr[i] === item) {
arr.splice(i, 1);
break;
}
}
//return arr;
}
/**
* 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,
ret;
// if the prop is a string
if (isString(prop)) {
// 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) && isObject(prop)) {
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) {
return isArray(obj) ? obj : [obj];
}
/**
* Return the first value that is defined. Like MooTools' $.pick.
*/
var pick = Highcharts.pick = function () {
var args = arguments,
i,
arg,
length = args.length;
for (i = 0; i < length; i++) {
arg = args[i];
if (arg !== UNDEFINED && arg !== null) {
return arg;
}
}
};
/**
* Set CSS on a given element
* @param {Object} el
* @param {Object} styles Style object with camel case property names
*/
function css(el, styles) {
if (isMS && !hasSVG) { // #2686
if (styles && styles.opacity !== UNDEFINED) {
styles.filter = 'alpha(opacity=' + (styles.opacity * 100) + ')';
}
}
extend(el.style, styles);
}
/**
* Utility function to create element with attributes and styles
* @param {Object} tag
* @param {Object} attribs
* @param {Object} styles
* @param {Object} parent
* @param {Object} nopad
*/
function createElement(tag, attribs, styles, parent, nopad) {
var el = doc.createElement(tag);
if (attribs) {
extend(el, attribs);
}
if (nopad) {
css(el, {padding: 0, border: NONE, margin: 0});
}
if (styles) {
css(el, styles);
}
if (parent) {
parent.appendChild(el);
}
return el;
}
/**
* Extend a prototyped class by new members
* @param {Object} parent
* @param {Object} members
*/
function extendClass(parent, members) {
var object = function () { return UNDEFINED; };
object.prototype = new parent();
extend(object.prototype, members);
return object;
}
/**
* Pad a string to a given length by adding 0 to the beginning
* @param {Number} number
* @param {Number} length
*/
function pad(number, length) {
// Create an array of the remaining length +1 and join it with 0's
return new Array((length || 2) + 1 - String(number).length).join(0) + number;
}
/**
* Return a length based on either the integer value, or a percentage of a base.
*/
function relativeLength (value, base) {
return (/%$/).test(value) ? base * parseFloat(value) / 100 : parseFloat(value);
}
/**
* Wrap a method with extended functionality, preserving the original function
* @param {Object} obj The context object that the method belongs to
* @param {String} method The name of the method to extend
* @param {Function} func A wrapper function callback. This function is called with the same arguments
* as the original function, except that the original function is unshifted and passed as the first
* argument.
*/
var wrap = Highcharts.wrap = function (obj, method, func) {
var proceed = obj[method];
obj[method] = function () {
var args = Array.prototype.slice.call(arguments);
args.unshift(proceed);
return func.apply(this, args);
};
};
function getTZOffset(timestamp) {
return ((getTimezoneOffset && getTimezoneOffset(timestamp)) || timezoneOffset || 0) * 60000;
}
/**
* 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) {
if (!defined(timestamp) || isNaN(timestamp)) {
return defaultOptions.lang.invalidDate || '';
}
format = pick(format, '%Y-%m-%d %H:%M:%S');
var date = new Date(timestamp - getTZOffset(timestamp)),
key, // used in for constuct below
// 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,
// List all format keys. Custom formats can be added from the outside.
replacements = extend({
// 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
'w': day,
// Week (none implemented)
//'W': weekNumber(),
// Month
'b': lang.shortMonths[month], // Short month, like 'Jan'
'B': lang.months[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
'k': hours, // Hours in 24h format, 0 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
'L': pad(mathRound(timestamp % 1000), 3) // Milliseconds (naming from Ruby)
}, Highcharts.dateFormats);
// do the replaces
for (key in replacements) {
while (format.indexOf('%' + key) !== -1) { // regex would do it in one line, but this is faster
format = format.replace('%' + key, typeof replacements[key] === 'function' ? replacements[key](timestamp) : replacements[key]);
}
}
// Optionally capitalize the string and return
return capitalize ? format.substr(0, 1).toUpperCase() + format.substr(1) : format;
};
/**
* Format a single variable. Similar to sprintf, without the % prefix.
*/
function formatSingle(format, val) {
var floatRegex = /f$/,
decRegex = /\.([0-9])/,
lang = defaultOptions.lang,
decimals;
if (floatRegex.test(format)) { // float
decimals = format.match(decRegex);
decimals = decimals ? decimals[1] : -1;
if (val !== null) {
val = Highcharts.numberFormat(
val,
decimals,
lang.decimalPoint,
format.indexOf(',') > -1 ? lang.thousandsSep : ''
);
}
} else {
val = dateFormat(format, val);
}
return val;
}
/**
* Format a string according to a subset of the rules of Python's String.format method.
*/
function format(str, ctx) {
var splitter = '{',
isInside = false,
segment,
valueAndFormat,
path,
i,
len,
ret = [],
val,
index;
while ((index = str.indexOf(splitter)) !== -1) {
segment = str.slice(0, index);
if (isInside) { // we're on the closing bracket looking back
valueAndFormat = segment.split(':');
path = valueAndFormat.shift().split('.'); // get first and leave format
len = path.length;
val = ctx;
// Assign deeper paths
for (i = 0; i < len; i++) {
val = val[path[i]];
}
// Format the replacement
if (valueAndFormat.length) {
val = formatSingle(valueAndFormat.join(':'), val);
}
// Push the result and advance the cursor
ret.push(val);
} else {
ret.push(segment);
}
str = str.slice(index + 1); // the rest
isInside = !isInside; // toggle
splitter = isInside ? '}' : '{'; // now look for next matching bracket
}
ret.push(str);
return ret.join('');
}
/**
* Get the magnitude of a number
*/
function getMagnitude(num) {
return math.pow(10, mathFloor(math.log(num) / math.LN10));
}
/**
* Take an interval and normalize it to multiples of 1, 2, 2.5 and 5
* @param {Number} interval
* @param {Array} multiples
* @param {Number} magnitude
* @param {Object} options
*/
function normalizeTickInterval(interval, multiples, magnitude, allowDecimals, preventExceed) {
var normalized,
i,
retInterval = interval;
// round to a tenfold of 1, 2, 2.5 or 5
magnitude = pick(magnitude, 1);
normalized = interval / magnitude;
// multiples for a linear scale
if (!multiples) {
multiples = [1, 2, 2.5, 5, 10];
// the allowDecimals option
if (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 (i = 0; i < multiples.length; i++) {
retInterval = multiples[i];
if ((preventExceed && retInterval * magnitude >= interval) || // only allow tick amounts smaller than natural
(!preventExceed && (normalized <= (multiples[i] + (multiples[i + 1] || multiples[i])) / 2))) {
break;
}
}
// multiply back to the correct magnitude
retInterval *= magnitude;
return retInterval;
}
/**
* Utility method that sorts an object array and keeping the order of equal items.
* ECMA script standard does not specify the behaviour when items are equal.
*/
function stableSort(arr, sortFunction) {
var length = arr.length,
sortValue,
i;
// Add index to each item
for (i = 0; i < length; i++) {
arr[i].ss_i = i; // stable sort index
}
arr.sort(function (a, b) {
sortValue = sortFunction(a, b);
return sortValue === 0 ? a.ss_i - b.ss_i : sortValue;
});
// Remove index from items
for (i = 0; i < length; i++) {
delete arr[i].ss_i; // stable sort index
}
}
/**
* Non-recursive method to find the lowest member of an array. Math.min raises a maximum
* call stack size exceeded error in Chrome when trying to apply more than 150.000 points. This
* method is slightly slower, but safe.
*/
function arrayMin(data) {
var i = data.length,
min = data[0];
while (i--) {
if (data[i] < min) {
min = data[i];
}
}
return min;
}
/**
* Non-recursive method to find the lowest member of an array. Math.min raises a maximum
* call stack size exceeded error in Chrome when trying to apply more than 150.000 points. This
* method is slightly slower, but safe.
*/
function arrayMax(data) {
var i = data.length,
max = data[0];
while (i--) {
if (data[i] > max) {
max = data[i];
}
}
return max;
}
/**
* Utility method that destroys any SVGElement or VMLElement that are properties on the given object.
* It loops all properties and invokes destroy if there is a destroy method. The property is
* then delete'ed.
* @param {Object} The object to destroy properties on
* @param {Object} Exception, do not destroy this property, only delete it.
*/
function destroyObjectProperties(obj, except) {
var n;
for (n in obj) {
// If the object is non-null and destroy is defined
if (obj[n] && obj[n] !== except && obj[n].destroy) {
// Invoke the destroy
obj[n].destroy();
}
// Delete the property from the object.
delete obj[n];
}
}
/**
* 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 = '';
}
/**
* Provide error messages for debugging, with links to online explanation
*/
function error (code, stop) {
var msg = 'Highcharts error #' + code + ': www.highcharts.com/errors/' + code;
if (stop) {
throw msg;
}
// else ...
if (win.console) {
console.log(msg);
}
}
/**
* Fix JS round off float errors
* @param {Number} num
*/
function correctFloat(num, prec) {
return parseFloat(
num.toPrecision(prec || 14)
);
}
/**
* Set the global animation to either a given value, or fall back to the
* given chart's animation option
* @param {Object} animation
* @param {Object} chart
*/
function setAnimation(animation, chart) {
chart.renderer.globalAnimation = pick(animation, chart.animation);
}
/**
* The time unit lookup
*/
timeUnits = {
millisecond: 1,
second: 1000,
minute: 60000,
hour: 3600000,
day: 24 * 3600000,
week: 7 * 24 * 3600000,
month: 28 * 24 * 3600000,
year: 364 * 24 * 3600000
};
/**
* 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
*/
Highcharts.numberFormat = function (number, decimals, decPoint, thousandsSep) {
var lang = defaultOptions.lang,
// http://kevin.vanzonneveld.net/techblog/article/javascript_equivalent_for_phps_number_format/
n = +number || 0,
c = decimals === -1 ?
mathMin((n.toString().split('.')[1] || '').length, 20) : // Preserve decimals. Not huge numbers (#3793).
(isNaN(decimals = mathAbs(decimals)) ? 2 : decimals),
d = decPoint === undefined ? lang.decimalPoint : decPoint,
t = thousandsSep === undefined ? lang.thousandsSep : thousandsSep,
s = n < 0 ? "-" : "",
i = String(pInt(n = mathAbs(n).toFixed(c))),
j = i.length > 3 ? i.length % 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) : ""));
};
/**
* Path interpolation algorithm used across adapters
*/
pathAnim = {
/**
* Prepare start and end values so that the path can be animated one to one
*/
init: function (elem, fromD, toD) {
fromD = fromD || '';
var shift = elem.shift,
bezier = fromD.indexOf('C') > -1,
numParams = bezier ? 7 : 3,
endLength,
slice,
i,
start = fromD.split(' '),
end = [].concat(toD), // copy
startBaseLine,
endBaseLine,
sixify = function (arr) { // in splines make move points have six parameters like bezier curves
i = arr.length;
while (i--) {
if (arr[i] === M) {
arr.splice(i + 1, 0, arr[i + 1], arr[i + 2], arr[i + 1], arr[i + 2]);
}
}
};
if (bezier) {
sixify(start);
sixify(end);
}
// pull out the base lines before padding
if (elem.isArea) {
startBaseLine = start.splice(start.length - 6, 6);
endBaseLine = end.splice(end.length - 6, 6);
}
// if shifting points, prepend a dummy point to the end path
if (shift <= end.length / numParams && start.length === end.length) {
while (shift--) {
end = [].concat(end).splice(0, numParams).concat(end);
}
}
elem.shift = 0; // reset for following animations
// copy and append last point until the length matches the end length
if (start.length) {
endLength = end.length;
while (start.length < endLength) {
//bezier && sixify(start);
slice = [].concat(start).splice(start.length - numParams, numParams);
if (bezier) { // disable first control point
slice[numParams - 6] = slice[numParams - 2];
slice[numParams - 5] = slice[numParams - 1];
}
start = start.concat(slice);
}
}
if (startBaseLine) { // append the base lines for areas
start = start.concat(startBaseLine);
end = end.concat(endBaseLine);
}
return [start, end];
},
/**
* Interpolate each value of the path and return the array
*/
step: function (start, end, pos, complete) {
var ret = [],
i = start.length,
startVal;
if (pos === 1) { // land on the final path without adjustment points appended in the ends
ret = complete;
} else if (i === end.length && pos < 1) {
while (i--) {
startVal = parseFloat(start[i]);
ret[i] =
isNaN(startVal) ? // a letter instruction like M or L
start[i] :
pos * (parseFloat(end[i] - startVal)) + startVal;
}
} else { // if animation is finished or length not matching, land on right value
ret = end;
}
return ret;
}
};
// check for a custom HighchartsAdapter defined prior to this file
var globalAdapter = win.HighchartsAdapter,
adapter = globalAdapter || {};
// Initialize the adapter
if (globalAdapter) {
globalAdapter.init.call(globalAdapter, pathAnim);
}
// 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.
var adapterRun = adapter.adapterRun,
getScript = adapter.getScript,
inArray = adapter.inArray,
each = Highcharts.each = adapter.each,
grep = adapter.grep,
offset = adapter.offset,
map = adapter.map,
addEvent = adapter.addEvent,
removeEvent = adapter.removeEvent,
fireEvent = adapter.fireEvent,
washMouseEvent = adapter.washMouseEvent,
animate = adapter.animate,
stop = adapter.stop;
/* ****************************************************************************
* Handle the options *
*****************************************************************************/
defaultOptions = {
colors: ['#7cb5ec', '#434348', '#90ed7d', '#f7a35c',
'#8085e9', '#f15c80', '#e4d354', '#2b908f', '#f45b5b', '#91e8e1'],
symbols: ['circle', 'diamond', 'square', 'triangle', 'triangle-down'],
lang: {
loading: 'Loading...',
months: ['January', 'February', 'March', 'April', 'May', 'June', 'July',
'August', 'September', 'October', 'November', 'December'],
shortMonths: ['Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec'],
weekdays: ['Sunday', 'Monday', 'Tuesday', 'Wednesday', 'Thursday', 'Friday', 'Saturday'],
// invalidDate: '',
decimalPoint: '.',
numericSymbols: ['k', 'M', 'G', 'T', 'P', 'E'], // SI prefixes used in axis labels
resetZoom: 'Reset zoom',
resetZoomTitle: 'Reset zoom level 1:1',
thousandsSep: ' '
},
global: {
useUTC: true,
//timezoneOffset: 0,
canvasToolsURL: 'http://code.highcharts.com@product.cdnpath@//Highstock 2.1.9/modules/canvas-tools.js',
VMLRadialGradientURL: 'http://code.highcharts.com@product.cdnpath@//Highstock 2.1.9/gfx/vml-radial-gradient.png'
},
chart: {
//animation: true,
//alignTicks: false,
//reflow: true,
//className: null,
//events: { load, selection },
//margin: [null],
//marginTop: null,
//marginRight: null,
//marginBottom: null,
//marginLeft: null,
borderColor: '#4572A7',
//borderWidth: 0,
borderRadius: 0,
defaultSeriesType: 'line',
ignoreHiddenSeries: true,
//inverted: false,
//shadow: false,
spacing: [10, 10, 15, 10],
//spacingTop: 10,
//spacingRight: 10,
//spacingBottom: 15,
//spacingLeft: 10,
//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: ''
resetZoomButton: {
theme: {
zIndex: 20
},
position: {
align: 'right',
x: -10,
//verticalAlign: 'top',
y: 10
}
// relativeTo: 'plot'
}
},
title: {
text: 'Chart title',
align: 'center',
// floating: false,
margin: 15,
// x: 0,
// verticalAlign: 'top',
// y: null,
style: {
color: '#333333',
fontSize: '18px'
}
},
subtitle: {
text: '',
align: 'center',
// floating: false
// x: 0,
// verticalAlign: 'top',
// y: null,
style: {
color: '#555555'
}
},
plotOptions: {
line: { // base series options
allowPointSelect: false,
showCheckbox: false,
animation: {
duration: 1000
},
//connectNulls: false,
//cursor: 'default',
//clip: true,
//dashStyle: null,
//enableMouseTracking: true,
events: {},
//legendIndex: 0,
//linecap: 'round',
lineWidth: 2,
//shadow: false,
// stacking: null,
marker: {
//enabled: true,
//symbol: null,
lineWidth: 0,
radius: 4,
lineColor: '#FFFFFF',
//fillColor: null,
states: { // states for a single point
hover: {
enabled: true,
lineWidthPlus: 1,
radiusPlus: 2
},
select: {
fillColor: '#FFFFFF',
lineColor: '#000000',
lineWidth: 2
}
}
},
point: {
events: {}
},
dataLabels: {
align: 'center',
// defer: true,
// enabled: false,
formatter: function () {
return this.y === null ? '' : Highcharts.numberFormat(this.y, -1);
},
style: {
color: 'contrast',
fontSize: '11px',
fontWeight: 'bold',
textShadow: '0 0 6px contrast, 0 0 3px contrast'
},
verticalAlign: 'bottom', // above singular point
x: 0,
y: 0,
// backgroundColor: undefined,
// borderColor: undefined,
// borderRadius: undefined,
// borderWidth: undefined,
padding: 5
// shadow: false
},
cropThreshold: 300, // draw points outside the plot area when the number of points is less than this
pointRange: 0,
//pointStart: 0,
//pointInterval: 1,
//showInLegend: null, // auto: true for standalone series, false for linked series
softThreshold: true,
states: { // states for the entire series
hover: {
//enabled: false,
lineWidthPlus: 1,
marker: {
// lineWidth: base + 1,
// radius: base + 1
},
halo: {
size: 10,
opacity: 0.25
}
},
select: {
marker: {}
}
},
stickyTracking: true,
//tooltip: {
//pointFormat: '\u25CF {series.name}: {point.y}'
//valueDecimals: null,
//xDateFormat: '%A, %b %e, %Y',
//valuePrefix: '',
//ySuffix: ''
//}
turboThreshold: 1000
// zIndex: null
}
},
labels: {
//items: [],
style: {
//font: defaultFont,
position: ABSOLUTE,
color: '#3E576F'
}
},
legend: {
enabled: true,
align: 'center',
//floating: false,
layout: 'horizontal',
labelFormatter: function () {
return this.name;
},
//borderWidth: 0,
borderColor: '#909090',
borderRadius: 0,
navigation: {
// animation: true,
activeColor: '#274b6d',
// arrowSize: 12
inactiveColor: '#CCC'
// style: {} // text styles
},
// margin: 20,
// reversed: false,
shadow: false,
// backgroundColor: null,
/*style: {
padding: '5px'
},*/
itemStyle: {
color: '#333333',
fontSize: '12px',
fontWeight: 'bold'
},
itemHoverStyle: {
//cursor: 'pointer', removed as of #601
color: '#000'
},
itemHiddenStyle: {
color: '#CCC'
},
itemCheckboxStyle: {
position: ABSOLUTE,
width: '13px', // for IE precision
height: '13px'
},
// itemWidth: undefined,
// symbolRadius: 0,
// symbolWidth: 16,
symbolPadding: 5,
verticalAlign: 'bottom',
// width: undefined,
x: 0,
y: 0,
title: {
//text: null,
style: {
fontWeight: 'bold'
}
}
},
loading: {
// hideDuration: 100,
labelStyle: {
fontWeight: 'bold',
position: RELATIVE,
top: '45%'
},
// showDuration: 0,
style: {
position: ABSOLUTE,
backgroundColor: 'white',
opacity: 0.5,
textAlign: 'center'
}
},
tooltip: {
enabled: true,
animation: hasSVG,
//crosshairs: null,
backgroundColor: 'rgba(249, 249, 249, .85)',
borderWidth: 1,
borderRadius: 3,
dateTimeLabelFormats: {
millisecond: '%A, %b %e, %H:%M:%S.%L',
second: '%A, %b %e, %H:%M:%S',
minute: '%A, %b %e, %H:%M',
hour: '%A, %b %e, %H:%M',
day: '%A, %b %e, %Y',
week: 'Week from %A, %b %e, %Y',
month: '%B %Y',
year: '%Y'
},
footerFormat: '',
//formatter: defaultFormatter,
headerFormat: '{point.key} ',
pointFormat: '\u25CF {series.name}: {point.y} ',
shadow: true,
//shape: 'callout',
//shared: false,
snap: isTouchDevice ? 25 : 10,
style: {
color: '#333333',
cursor: 'default',
fontSize: '12px',
padding: '8px',
pointerEvents: 'none', // #1686 http://caniuse.com/#feat=pointer-events
whiteSpace: 'nowrap'
}
//xDateFormat: '%A, %b %e, %Y',
//valueDecimals: null,
//valuePrefix: '',
//valueSuffix: ''
},
credits: {
enabled: true,
text: 'Highcharts.com',
href: 'http://www.highcharts.com',
position: {
align: 'right',
x: -10,
verticalAlign: 'bottom',
y: -5
},
style: {
cursor: 'pointer',
color: '#909090',
fontSize: '9px'
}
}
};
// Series defaults
var defaultPlotOptions = defaultOptions.plotOptions,
defaultSeriesOptions = defaultPlotOptions.line;
// set the default time methods
setTimeMethods();
/**
* Set the time methods globally based on the useUTC option. Time method can be either
* local time or UTC (default).
*/
function setTimeMethods() {
var globalOptions = defaultOptions.global,
useUTC = globalOptions.useUTC,
GET = useUTC ? 'getUTC' : 'get',
SET = useUTC ? 'setUTC' : 'set';
Date = globalOptions.Date || window.Date;
timezoneOffset = useUTC && globalOptions.timezoneOffset;
getTimezoneOffset = useUTC && globalOptions.getTimezoneOffset;
makeTime = function (year, month, date, hours, minutes, seconds) {
var d;
if (useUTC) {
d = Date.UTC.apply(0, arguments);
d += getTZOffset(d);
} else {
d = new Date(
year,
month,
pick(date, 1),
pick(hours, 0),
pick(minutes, 0),
pick(seconds, 0)
).getTime();
}
return d;
};
getMinutes = GET + 'Minutes';
getHours = GET + 'Hours';
getDay = GET + 'Day';
getDate = GET + 'Date';
getMonth = GET + 'Month';
getFullYear = GET + 'FullYear';
setMilliseconds = SET + 'Milliseconds';
setSeconds = SET + 'Seconds';
setMinutes = SET + 'Minutes';
setHours = SET + 'Hours';
setDate = SET + 'Date';
setMonth = SET + 'Month';
setFullYear = SET + 'FullYear';
}
/**
* Merge the default options with custom options and return the new options structure
* @param {Object} options The new custom options
*/
function setOptions(options) {
// Copy in the default options
defaultOptions = merge(true, defaultOptions, options);
// Apply UTC
setTimeMethods();
return defaultOptions;
}
/**
* Get the updated default options. Until 3.0.7, merely exposing defaultOptions for outside modules
* wasn't enough because the setOptions method created a new object.
*/
function getOptions() {
return defaultOptions;
}
/**
* Handle color operations. The object methods are chainable.
* @param {String} input The input color in either rbga or hex format
*/
var rgbaRegEx = /rgba\(\s*([0-9]{1,3})\s*,\s*([0-9]{1,3})\s*,\s*([0-9]{1,3})\s*,\s*([0-9]?(?:\.[0-9]+)?)\s*\)/,
hexRegEx = /#([a-fA-F0-9]{2})([a-fA-F0-9]{2})([a-fA-F0-9]{2})/,
rgbRegEx = /rgb\(\s*([0-9]{1,3})\s*,\s*([0-9]{1,3})\s*,\s*([0-9]{1,3})\s*\)/;
var Color = function (input) {
// declare variables
var rgba = [], result, stops;
/**
* Parse the input color to rgba array
* @param {String} input
*/
function init(input) {
// Gradients
if (input && input.stops) {
stops = map(input.stops, function (stop) {
return Color(stop[1]);
});
// Solid colors
} else {
// rgba
result = rgbaRegEx.exec(input);
if (result) {
rgba = [pInt(result[1]), pInt(result[2]), pInt(result[3]), parseFloat(result[4], 10)];
} else {
// hex
result = hexRegEx.exec(input);
if (result) {
rgba = [pInt(result[1], 16), pInt(result[2], 16), pInt(result[3], 16), 1];
} else {
// rgb
result = rgbRegEx.exec(input);
if (result) {
rgba = [pInt(result[1]), pInt(result[2]), pInt(result[3]), 1];
}
}
}
}
}
/**
* Return the color a specified format
* @param {String} format
*/
function get(format) {
var ret;
if (stops) {
ret = merge(input);
ret.stops = [].concat(ret.stops);
each(stops, function (stop, i) {
ret.stops[i] = [ret.stops[i][0], stop.get(format)];
});
// it's NaN if gradient colors on a column chart
} else 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 {Number} alpha
*/
function brighten(alpha) {
if (stops) {
each(stops, function (stop) {
stop.brighten(alpha);
});
} else if (isNumber(alpha) && alpha !== 0) {
var i;
for (i = 0; i < 3; i++) {
rgba[i] += pInt(alpha * 255);
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,
rgba: rgba,
setOpacity: setOpacity,
raw: input
};
};
/**
* A wrapper object for SVG elements
*/
function SVGElement() {}
SVGElement.prototype = {
// Default base for animation
opacity: 1,
// For labels, these CSS properties are applied to the node directly
textProps: ['fontSize', 'fontWeight', 'fontFamily', 'fontStyle', 'color',
'lineHeight', 'width', 'textDecoration', 'textOverflow', 'textShadow'],
/**
* Initialize the SVG renderer
* @param {Object} renderer
* @param {String} nodeName
*/
init: function (renderer, nodeName) {
var wrapper = this;
wrapper.element = nodeName === 'span' ?
createElement(nodeName) :
doc.createElementNS(SVG_NS, nodeName);
wrapper.renderer = renderer;
},
/**
* Animate a given attribute
* @param {Object} params
* @param {Number} options The same options as in jQuery animation
* @param {Function} complete Function to perform at the end of animation
*/
animate: function (params, options, complete) {
var animOptions = pick(options, this.renderer.globalAnimation, true);
stop(this); // stop regardless of animation actually running, or reverting to .attr (#607)
if (animOptions) {
animOptions = merge(animOptions, {}); //#2625
if (complete) { // allows using a callback with the global animation without overwriting it
animOptions.complete = complete;
}
animate(this, params, animOptions);
} else {
this.attr(params, null, complete);
}
return this;
},
/**
* Build an SVG gradient out of a common JavaScript configuration object
*/
colorGradient: function (color, prop, elem) {
var renderer = this.renderer,
colorObject,
gradName,
gradAttr,
radAttr,
gradients,
gradientObject,
stops,
stopColor,
stopOpacity,
radialReference,
n,
id,
key = [];
// Apply linear or radial gradients
if (color.linearGradient) {
gradName = 'linearGradient';
} else if (color.radialGradient) {
gradName = 'radialGradient';
}
if (gradName) {
gradAttr = color[gradName];
gradients = renderer.gradients;
stops = color.stops;
radialReference = elem.radialReference;
// Keep < 2.2 kompatibility
if (isArray(gradAttr)) {
color[gradName] = gradAttr = {
x1: gradAttr[0],
y1: gradAttr[1],
x2: gradAttr[2],
y2: gradAttr[3],
gradientUnits: 'userSpaceOnUse'
};
}
// Correct the radial gradient for the radial reference system
if (gradName === 'radialGradient' && radialReference && !defined(gradAttr.gradientUnits)) {
radAttr = gradAttr; // Save the radial attributes for updating
gradAttr = merge(gradAttr,
renderer.getRadialAttr(radialReference, radAttr),
{ gradientUnits: 'userSpaceOnUse' }
);
}
// Build the unique key to detect whether we need to create a new element (#1282)
for (n in gradAttr) {
if (n !== 'id') {
key.push(n, gradAttr[n]);
}
}
for (n in stops) {
key.push(stops[n]);
}
key = key.join(',');
// Check if a gradient object with the same config object is created within this renderer
if (gradients[key]) {
id = gradients[key].attr('id');
} else {
// Set the id and create the element
gradAttr.id = id = PREFIX + idCounter++;
gradients[key] = gradientObject = renderer.createElement(gradName)
.attr(gradAttr)
.add(renderer.defs);
gradientObject.radAttr = radAttr;
// The gradient needs to keep a list of stops to be able to destroy them
gradientObject.stops = [];
each(stops, function (stop) {
var stopObject;
if (stop[1].indexOf('rgba') === 0) {
colorObject = Color(stop[1]);
stopColor = colorObject.get('rgb');
stopOpacity = colorObject.get('a');
} else {
stopColor = stop[1];
stopOpacity = 1;
}
stopObject = renderer.createElement('stop').attr({
offset: stop[0],
'stop-color': stopColor,
'stop-opacity': stopOpacity
}).add(gradientObject);
// Add the stop element to the gradient
gradientObject.stops.push(stopObject);
});
}
// Set the reference to the gradient object
elem.setAttribute(prop, 'url(' + renderer.url + '#' + id + ')');
elem.gradient = key;
}
},
/**
* Apply a polyfill to the text-stroke CSS property, by copying the text element
* and apply strokes to the copy.
*
* Contrast checks at http://jsfiddle.net/highcharts/43soe9m1/2/
*
* docs: update default, document the polyfill and the limitations on hex colors and pixel values, document contrast pseudo-color
*/
applyTextShadow: function (textShadow) {
var elem = this.element,
tspans,
hasContrast = textShadow.indexOf('contrast') !== -1,
styles = {},
forExport = this.renderer.forExport,
// IE10 and IE11 report textShadow in elem.style even though it doesn't work. Check
// this again with new IE release. In exports, the rendering is passed to PhantomJS.
supports = forExport || (elem.style.textShadow !== UNDEFINED && !isMS);
// When the text shadow is set to contrast, use dark stroke for light text and vice versa
if (hasContrast) {
styles.textShadow = textShadow = textShadow.replace(/contrast/g, this.renderer.getContrast(elem.style.fill));
}
// Safari with retina displays as well as PhantomJS bug (#3974). Firefox does not tolerate this,
// it removes the text shadows.
if (isWebKit || forExport) {
styles.textRendering = 'geometricPrecision';
}
/* Selective side-by-side testing in supported browser (http://jsfiddle.net/highcharts/73L1ptrh/)
if (elem.textContent.indexOf('2.') === 0) {
elem.style['text-shadow'] = 'none';
supports = false;
}
// */
// No reason to polyfill, we've got native support
if (supports) {
this.css(styles); // Apply altered textShadow or textRendering workaround
} else {
this.fakeTS = true; // Fake text shadow
// In order to get the right y position of the clones,
// copy over the y setter
this.ySetter = this.xSetter;
tspans = [].slice.call(elem.getElementsByTagName('tspan'));
each(textShadow.split(/\s?,\s?/g), function (textShadow) {
var firstChild = elem.firstChild,
color,
strokeWidth;
textShadow = textShadow.split(' ');
color = textShadow[textShadow.length - 1];
// Approximately tune the settings to the text-shadow behaviour
strokeWidth = textShadow[textShadow.length - 2];
if (strokeWidth) {
each(tspans, function (tspan, y) {
var clone;
// Let the first line start at the correct X position
if (y === 0) {
tspan.setAttribute('x', elem.getAttribute('x'));
y = elem.getAttribute('y');
tspan.setAttribute('y', y || 0);
if (y === null) {
elem.setAttribute('y', 0);
}
}
// Create the clone and apply shadow properties
clone = tspan.cloneNode(1);
attr(clone, {
'class': PREFIX + 'text-shadow',
'fill': color,
'stroke': color,
'stroke-opacity': 1 / mathMax(pInt(strokeWidth), 3),
'stroke-width': strokeWidth,
'stroke-linejoin': 'round'
});
elem.insertBefore(clone, firstChild);
});
}
});
}
},
/**
* Set or get a given attribute
* @param {Object|String} hash
* @param {Mixed|Undefined} val
*/
attr: function (hash, val, complete) {
var key,
value,
element = this.element,
hasSetSymbolSize,
ret = this,
skipAttr;
// single key-value pair
if (typeof hash === 'string' && val !== UNDEFINED) {
key = hash;
hash = {};
hash[key] = val;
}
// used as a getter: first argument is a string, second is undefined
if (typeof hash === 'string') {
ret = (this[hash + 'Getter'] || this._defaultGetter).call(this, hash, element);
// setter
} else {
for (key in hash) {
value = hash[key];
skipAttr = false;
if (this.symbolName && /^(x|y|width|height|r|start|end|innerR|anchorX|anchorY)/.test(key)) {
if (!hasSetSymbolSize) {
this.symbolAttr(hash);
hasSetSymbolSize = true;
}
skipAttr = true;
}
if (this.rotation && (key === 'x' || key === 'y')) {
this.doTransform = true;
}
if (!skipAttr) {
(this[key + 'Setter'] || this._defaultSetter).call(this, value, key, element);
}
// Let the shadow follow the main element
if (this.shadows && /^(width|height|visibility|x|y|d|transform|cx|cy|r)$/.test(key)) {
this.updateShadows(key, value);
}
}
// Update transform. Do this outside the loop to prevent redundant updating for batch setting
// of attributes.
if (this.doTransform) {
this.updateTransform();
this.doTransform = false;
}
}
// In accordance with animate, run a complete callback
if (complete) {
complete();
}
return ret;
},
updateShadows: function (key, value) {
var shadows = this.shadows,
i = shadows.length;
while (i--) {
shadows[i].setAttribute(
key,
key === 'height' ?
mathMax(value - (shadows[i].cutHeight || 0), 0) :
key === 'd' ? this.d : value
);
}
},
/**
* Add a class name to an element
*/
addClass: function (className) {
var element = this.element,
currentClassName = attr(element, 'class') || '';
if (currentClassName.indexOf(className) === -1) {
attr(element, 'class', currentClassName + ' ' + className);
}
return this;
},
/* hasClass and removeClass are not (yet) needed
hasClass: function (className) {
return attr(this.element, 'class').indexOf(className) !== -1;
},
removeClass: function (className) {
attr(this.element, 'class', attr(this.element, 'class').replace(className, ''));
return this;
},
*/
/**
* 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;
each(['x', 'y', 'r', 'start', 'end', 'width', 'height', 'innerR', 'anchorX', 'anchorY'], function (key) {
wrapper[key] = pick(hash[key], wrapper[key]);
});
wrapper.attr({
d: wrapper.renderer.symbols[wrapper.symbolName](
wrapper.x,
wrapper.y,
wrapper.width,
wrapper.height,
wrapper
)
});
},
/**
* Apply a clipping path to this object
* @param {String} id
*/
clip: function (clipRect) {
return this.attr('clip-path', clipRect ? 'url(' + this.renderer.url + '#' + clipRect.id + ')' : NONE);
},
/**
* Calculate the coordinates needed for drawing a rectangle crisply and return the
* calculated attributes
* @param {Number} strokeWidth
* @param {Number} x
* @param {Number} y
* @param {Number} width
* @param {Number} height
*/
crisp: function (rect) {
var wrapper = this,
key,
attribs = {},
normalizer,
strokeWidth = rect.strokeWidth || wrapper.strokeWidth || 0;
normalizer = mathRound(strokeWidth) % 2 / 2; // mathRound because strokeWidth can sometimes have roundoff errors
// normalize for crisp edges
rect.x = mathFloor(rect.x || wrapper.x || 0) + normalizer;
rect.y = mathFloor(rect.y || wrapper.y || 0) + normalizer;
rect.width = mathFloor((rect.width || wrapper.width || 0) - 2 * normalizer);
rect.height = mathFloor((rect.height || wrapper.height || 0) - 2 * normalizer);
rect.strokeWidth = strokeWidth;
for (key in rect) {
if (wrapper[key] !== rect[key]) { // only set attribute if changed
wrapper[key] = attribs[key] = rect[key];
}
}
return attribs;
},
/**
* Set styles for the element
* @param {Object} styles
*/
css: function (styles) {
var elemWrapper = this,
oldStyles = elemWrapper.styles,
newStyles = {},
elem = elemWrapper.element,
textWidth,
n,
serializedCss = '',
hyphenate,
hasNew = !oldStyles;
// convert legacy
if (styles && styles.color) {
styles.fill = styles.color;
}
// Filter out existing styles to increase performance (#2640)
if (oldStyles) {
for (n in styles) {
if (styles[n] !== oldStyles[n]) {
newStyles[n] = styles[n];
hasNew = true;
}
}
}
if (hasNew) {
textWidth = elemWrapper.textWidth =
(styles && styles.width && elem.nodeName.toLowerCase() === 'text' && pInt(styles.width)) ||
elemWrapper.textWidth; // #3501
// Merge the new styles with the old ones
if (oldStyles) {
styles = extend(
oldStyles,
newStyles
);
}
// store object
elemWrapper.styles = styles;
if (textWidth && (useCanVG || (!hasSVG && elemWrapper.renderer.forExport))) {
delete styles.width;
}
// serialize and set style attribute
if (isMS && !hasSVG) {
css(elemWrapper.element, styles);
} else {
/*jslint unparam: true*/
hyphenate = function (a, b) { return '-' + b.toLowerCase(); };
/*jslint unparam: false*/
for (n in styles) {
serializedCss += n.replace(/([A-Z])/g, hyphenate) + ':' + styles[n] + ';';
}
attr(elem, 'style', serializedCss); // #1881
}
// re-build text
if (textWidth && elemWrapper.added) {
elemWrapper.renderer.buildText(elemWrapper);
}
}
return elemWrapper;
},
/**
* Add an event listener
* @param {String} eventType
* @param {Function} handler
*/
on: function (eventType, handler) {
var svgElement = this,
element = svgElement.element;
// touch
if (hasTouch && eventType === 'click') {
element.ontouchstart = function (e) {
svgElement.touchEventFired = Date.now();
e.preventDefault();
handler.call(element, e);
};
element.onclick = function (e) {
if (userAgent.indexOf('Android') === -1 || Date.now() - (svgElement.touchEventFired || 0) > 1100) { // #2269
handler.call(element, e);
}
};
} else {
// simplest possible event model for internal use
element['on' + eventType] = handler;
}
return this;
},
/**
* Set the coordinates needed to draw a consistent radial gradient across
* pie slices regardless of positioning inside the chart. The format is
* [centerX, centerY, diameter] in pixels.
*/
setRadialReference: function (coordinates) {
var existingGradient = this.renderer.gradients[this.element.gradient];
this.element.radialReference = coordinates;
// On redrawing objects with an existing gradient, the gradient needs
// to be repositioned (#3801)
if (existingGradient && existingGradient.radAttr) {
existingGradient.animate(
this.renderer.getRadialAttr(
coordinates,
existingGradient.radAttr
)
);
}
return this;
},
/**
* Move an object and its children by x and y values
* @param {Number} x
* @param {Number} y
*/
translate: function (x, y) {
return this.attr({
translateX: x,
translateY: y
});
},
/**
* 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,
scaleX = wrapper.scaleX,
scaleY = wrapper.scaleY,
inverted = wrapper.inverted,
rotation = wrapper.rotation,
element = wrapper.element,
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. Nearly all transformed elements have translation, so instead
// of checking for translate = 0, do it always (#1767, #1846).
transform = ['translate(' + translateX + ',' + translateY + ')'];
// apply rotation
if (inverted) {
transform.push('rotate(90) scale(-1,1)');
} else if (rotation) { // text rotation
transform.push('rotate(' + rotation + ' ' + (element.getAttribute('x') || 0) + ' ' + (element.getAttribute('y') || 0) + ')');
// Delete bBox memo when the rotation changes
//delete wrapper.bBox;
}
// apply scale
if (defined(scaleX) || defined(scaleY)) {
transform.push('scale(' + pick(scaleX, 1) + ' ' + pick(scaleY, 1) + ')');
}
if (transform.length) {
element.setAttribute('transform', transform.join(' '));
}
},
/**
* Bring the element to the front
*/
toFront: function () {
var element = this.element;
element.parentNode.appendChild(element);
return this;
},
/**
* Break down alignment options like align, verticalAlign, x and y
* to x and y relative to the chart.
*
* @param {Object} alignOptions
* @param {Boolean} alignByTranslate
* @param {String[Object} box The box to align to, needs a width and height. When the
* box is a string, it refers to an object in the Renderer. For example, when
* box is 'spacingBox', it refers to Renderer.spacingBox which holds width, height
* x and y properties.
*
*/
align: function (alignOptions, alignByTranslate, box) {
var align,
vAlign,
x,
y,
attribs = {},
alignTo,
renderer = this.renderer,
alignedObjects = renderer.alignedObjects;
// First call on instanciate
if (alignOptions) {
this.alignOptions = alignOptions;
this.alignByTranslate = alignByTranslate;
if (!box || isString(box)) { // boxes other than renderer handle this internally
this.alignTo = alignTo = box || 'renderer';
erase(alignedObjects, this); // prevent duplicates, like legendGroup after resize
alignedObjects.push(this);
box = null; // reassign it below
}
// When called on resize, no arguments are supplied
} else {
alignOptions = this.alignOptions;
alignByTranslate = this.alignByTranslate;
alignTo = this.alignTo;
}
box = pick(box, renderer[alignTo], renderer);
// Assign variables
align = alignOptions.align;
vAlign = alignOptions.verticalAlign;
x = (box.x || 0) + (alignOptions.x || 0); // default: left align
y = (box.y || 0) + (alignOptions.y || 0); // default: top align
// Align
if (align === 'right' || align === 'center') {
x += (box.width - (alignOptions.width || 0)) /
{ right: 1, center: 2 }[align];
}
attribs[alignByTranslate ? 'translateX' : 'x'] = mathRound(x);
// Vertical align
if (vAlign === 'bottom' || vAlign === 'middle') {
y += (box.height - (alignOptions.height || 0)) /
({ bottom: 1, middle: 2 }[vAlign] || 1);
}
attribs[alignByTranslate ? 'translateY' : 'y'] = mathRound(y);
// Animate only if already placed
this[this.placed ? 'animate' : 'attr'](attribs);
this.placed = true;
this.alignAttr = attribs;
return this;
},
/**
* Get the bounding box (width, height, x and y) for the element
*/
getBBox: function (reload) {
var wrapper = this,
bBox,// = wrapper.bBox,
renderer = wrapper.renderer,
width,
height,
rotation = wrapper.rotation,
element = wrapper.element,
styles = wrapper.styles,
rad = rotation * deg2rad,
textStr = wrapper.textStr,
textShadow,
elemStyle = element.style,
toggleTextShadowShim,
cacheKey;
if (textStr !== UNDEFINED) {
// Properties that affect bounding box
cacheKey = ['', rotation || 0, styles && styles.fontSize, element.style.width].join(',');
// Since numbers are monospaced, and numerical labels appear a lot in a chart,
// we assume that a label of n characters has the same bounding box as others
// of the same length.
if (textStr === '' || numRegex.test(textStr)) {
cacheKey = 'num:' + textStr.toString().length + cacheKey;
// Caching all strings reduces rendering time by 4-5%.
} else {
cacheKey = textStr + cacheKey;
}
}
if (cacheKey && !reload) {
bBox = renderer.cache[cacheKey];
}
// No cache found
if (!bBox) {
// SVG elements
if (element.namespaceURI === SVG_NS || renderer.forExport) {
try { // Fails in Firefox if the container has display: none.
// When the text shadow shim is used, we need to hide the fake shadows
// to get the correct bounding box (#3872)
toggleTextShadowShim = this.fakeTS && function (display) {
each(element.querySelectorAll('.' + PREFIX + 'text-shadow'), function (tspan) {
tspan.style.display = display;
});
};
// Workaround for #3842, Firefox reporting wrong bounding box for shadows
if (isFirefox && elemStyle.textShadow) {
textShadow = elemStyle.textShadow;
elemStyle.textShadow = '';
} else if (toggleTextShadowShim) {
toggleTextShadowShim(NONE);
}
bBox = element.getBBox ?
// SVG: use extend because IE9 is not allowed to change width and height in case
// of rotation (below)
extend({}, element.getBBox()) :
// Canvas renderer and legacy IE in export mode
{
width: element.offsetWidth,
height: element.offsetHeight
};
// #3842
if (textShadow) {
elemStyle.textShadow = textShadow;
} else if (toggleTextShadowShim) {
toggleTextShadowShim('');
}
} catch (e) {}
// If the bBox is not set, the try-catch block above failed. The other condition
// is for Opera that returns a width of -Infinity on hidden elements.
if (!bBox || bBox.width < 0) {
bBox = { width: 0, height: 0 };
}
// VML Renderer or useHTML within SVG
} else {
bBox = wrapper.htmlGetBBox();
}
// True SVG elements as well as HTML elements in modern browsers using the .useHTML option
// need to compensated for rotation
if (renderer.isSVG) {
width = bBox.width;
height = bBox.height;
// Workaround for wrong bounding box in IE9 and IE10 (#1101, #1505, #1669, #2568)
if (isMS && styles && styles.fontSize === '11px' && height.toPrecision(3) === '16.9') {
bBox.height = height = 14;
}
// Adjust for rotated text
if (rotation) {
bBox.width = mathAbs(height * mathSin(rad)) + mathAbs(width * mathCos(rad));
bBox.height = mathAbs(height * mathCos(rad)) + mathAbs(width * mathSin(rad));
}
}
// Cache it
if (cacheKey) {
renderer.cache[cacheKey] = bBox;
}
}
return bBox;
},
/**
* Show the element
*/
show: function (inherit) {
return this.attr({ visibility: inherit ? 'inherit' : VISIBLE });
},
/**
* Hide the element
*/
hide: function () {
return this.attr({ visibility: HIDDEN });
},
fadeOut: function (duration) {
var elemWrapper = this;
elemWrapper.animate({
opacity: 0
}, {
duration: duration || 150,
complete: function () {
elemWrapper.attr({ y: -9999 }); // #3088, assuming we're only using this for tooltips
}
});
},
/**
* 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,
element = this.element,
inserted;
if (parent) {
this.parentGroup = parent;
}
// mark as inverted
this.parentInverted = parent && parent.inverted;
// build formatted text
if (this.textStr !== undefined) {
renderer.buildText(this);
}
// Mark as added
this.added = true;
// If we're adding to renderer root, or other elements in the group
// have a z index, we need to handle it
if (!parent || parent.handleZ || this.zIndex) {
inserted = this.zIndexSetter();
}
// If zIndex is not handled, append at the end
if (!inserted) {
(parent ? parent.element : renderer.box).appendChild(element);
}
// fire an event for internal hooks
if (this.onAdd) {
this.onAdd();
}
return this;
},
/**
* Removes a child either by removeChild or move to garbageBin.
* Issue 490; in VML removeChild results in Orphaned nodes according to sIEve, discardElement does not.
*/
safeRemoveChild: function (element) {
var parentNode = element.parentNode;
if (parentNode) {
parentNode.removeChild(element);
}
},
/**
* Destroy the element and element wrapper
*/
destroy: function () {
var wrapper = this,
element = wrapper.element || {},
shadows = wrapper.shadows,
parentToClean = wrapper.renderer.isSVG && element.nodeName === 'SPAN' && wrapper.parentGroup,
grandParent,
key,
i;
// remove events
element.onclick = element.onmouseout = element.onmouseover = element.onmousemove = element.point = null;
stop(wrapper); // stop running animations
if (wrapper.clipPath) {
wrapper.clipPath = wrapper.clipPath.destroy();
}
// Destroy stops in case this is a gradient object
if (wrapper.stops) {
for (i = 0; i < wrapper.stops.length; i++) {
wrapper.stops[i] = wrapper.stops[i].destroy();
}
wrapper.stops = null;
}
// remove element
wrapper.safeRemoveChild(element);
// destroy shadows
if (shadows) {
each(shadows, function (shadow) {
wrapper.safeRemoveChild(shadow);
});
}
// In case of useHTML, clean up empty containers emulating SVG groups (#1960, #2393, #2697).
while (parentToClean && parentToClean.div && parentToClean.div.childNodes.length === 0) {
grandParent = parentToClean.parentGroup;
wrapper.safeRemoveChild(parentToClean.div);
delete parentToClean.div;
parentToClean = grandParent;
}
// remove from alignObjects
if (wrapper.alignTo) {
erase(wrapper.renderer.alignedObjects, wrapper);
}
for (key in wrapper) {
delete wrapper[key];
}
return null;
},
/**
* Add a shadow to the element. Must be done after the element is added to the DOM
* @param {Boolean|Object} shadowOptions
*/
shadow: function (shadowOptions, group, cutOff) {
var shadows = [],
i,
shadow,
element = this.element,
strokeWidth,
shadowWidth,
shadowElementOpacity,
// compensate for inverted plot area
transform;
if (shadowOptions) {
shadowWidth = pick(shadowOptions.width, 3);
shadowElementOpacity = (shadowOptions.opacity || 0.15) / shadowWidth;
transform = this.parentInverted ?
'(-1,-1)' :
'(' + pick(shadowOptions.offsetX, 1) + ', ' + pick(shadowOptions.offsetY, 1) + ')';
for (i = 1; i <= shadowWidth; i++) {
shadow = element.cloneNode(0);
strokeWidth = (shadowWidth * 2) + 1 - (2 * i);
attr(shadow, {
'isShadow': 'true',
'stroke': shadowOptions.color || 'black',
'stroke-opacity': shadowElementOpacity * i,
'stroke-width': strokeWidth,
'transform': 'translate' + transform,
'fill': NONE
});
if (cutOff) {
attr(shadow, 'height', mathMax(attr(shadow, 'height') - strokeWidth, 0));
shadow.cutHeight = strokeWidth;
}
if (group) {
group.element.appendChild(shadow);
} else {
element.parentNode.insertBefore(shadow, element);
}
shadows.push(shadow);
}
this.shadows = shadows;
}
return this;
},
xGetter: function (key) {
if (this.element.nodeName === 'circle') {
key = { x: 'cx', y: 'cy' }[key] || key;
}
return this._defaultGetter(key);
},
/**
* Get the current value of an attribute or pseudo attribute, used mainly
* for animation.
*/
_defaultGetter: function (key) {
var ret = pick(this[key], this.element ? this.element.getAttribute(key) : null, 0);
if (/^[\-0-9\.]+$/.test(ret)) { // is numerical
ret = parseFloat(ret);
}
return ret;
},
dSetter: function (value, key, element) {
if (value && value.join) { // join path
value = value.join(' ');
}
if (/(NaN| {2}|^$)/.test(value)) {
value = 'M 0 0';
}
element.setAttribute(key, value);
this[key] = value;
},
dashstyleSetter: function (value) {
var i;
value = value && value.toLowerCase();
if (value) {
value = value
.replace('shortdashdotdot', '3,1,1,1,1,1,')
.replace('shortdashdot', '3,1,1,1')
.replace('shortdot', '1,1,')
.replace('shortdash', '3,1,')
.replace('longdash', '8,3,')
.replace(/dot/g, '1,3,')
.replace('dash', '4,3,')
.replace(/,$/, '')
.split(','); // ending comma
i = value.length;
while (i--) {
value[i] = pInt(value[i]) * this['stroke-width'];
}
value = value.join(',')
.replace('NaN', 'none'); // #3226
this.element.setAttribute('stroke-dasharray', value);
}
},
alignSetter: function (value) {
this.element.setAttribute('text-anchor', { left: 'start', center: 'middle', right: 'end' }[value]);
},
opacitySetter: function (value, key, element) {
this[key] = value;
element.setAttribute(key, value);
},
titleSetter: function (value) {
var titleNode = this.element.getElementsByTagName('title')[0];
if (!titleNode) {
titleNode = doc.createElementNS(SVG_NS, 'title');
this.element.appendChild(titleNode);
}
titleNode.appendChild(
doc.createTextNode(
(String(pick(value), '')).replace(/<[^>]*>/g, '') // #3276, #3895
)
);
},
textSetter: function (value) {
if (value !== this.textStr) {
// Delete bBox memo when the text changes
delete this.bBox;
this.textStr = value;
if (this.added) {
this.renderer.buildText(this);
}
}
},
fillSetter: function (value, key, element) {
if (typeof value === 'string') {
element.setAttribute(key, value);
} else if (value) {
this.colorGradient(value, key, element);
}
},
visibilitySetter: function (value, key, element) {
// IE9-11 doesn't handle visibilty:inherit well, so we remove the attribute instead (#2881, #3909)
if (value === 'inherit') {
element.removeAttribute(key);
} else {
element.setAttribute(key, value);
}
},
zIndexSetter: function (value, key) {
var renderer = this.renderer,
parentGroup = this.parentGroup,
parentWrapper = parentGroup || renderer,
parentNode = parentWrapper.element || renderer.box,
childNodes,
otherElement,
otherZIndex,
element = this.element,
inserted,
run = this.added,
i;
if (defined(value)) {
element.setAttribute(key, value); // So we can read it for other elements in the group
value = +value;
if (this[key] === value) { // Only update when needed (#3865)
run = false;
}
this[key] = value;
}
// Insert according to this and other elements' zIndex. Before .add() is called,
// nothing is done. Then on add, or by later calls to zIndexSetter, the node
// is placed on the right place in the DOM.
if (run) {
value = this.zIndex;
if (value && parentGroup) {
parentGroup.handleZ = true;
}
childNodes = parentNode.childNodes;
for (i = 0; i < childNodes.length && !inserted; i++) {
otherElement = childNodes[i];
otherZIndex = attr(otherElement, 'zIndex');
if (otherElement !== element && (
// Insert before the first element with a higher zIndex
pInt(otherZIndex) > value ||
// If no zIndex given, insert before the first element with a zIndex
(!defined(value) && defined(otherZIndex))
)) {
parentNode.insertBefore(element, otherElement);
inserted = true;
}
}
if (!inserted) {
parentNode.appendChild(element);
}
}
return inserted;
},
_defaultSetter: function (value, key, element) {
element.setAttribute(key, value);
}
};
// Some shared setters and getters
SVGElement.prototype.yGetter = SVGElement.prototype.xGetter;
SVGElement.prototype.translateXSetter = SVGElement.prototype.translateYSetter =
SVGElement.prototype.rotationSetter = SVGElement.prototype.verticalAlignSetter =
SVGElement.prototype.scaleXSetter = SVGElement.prototype.scaleYSetter = function (value, key) {
this[key] = value;
this.doTransform = true;
};
// WebKit and Batik have problems with a stroke-width of zero, so in this case we remove the
// stroke attribute altogether. #1270, #1369, #3065, #3072.
SVGElement.prototype['stroke-widthSetter'] = SVGElement.prototype.strokeSetter = function (value, key, element) {
this[key] = value;
// Only apply the stroke attribute if the stroke width is defined and larger than 0
if (this.stroke && this['stroke-width']) {
this.strokeWidth = this['stroke-width'];
SVGElement.prototype.fillSetter.call(this, this.stroke, 'stroke', element); // use prototype as instance may be overridden
element.setAttribute('stroke-width', this['stroke-width']);
this.hasStroke = true;
} else if (key === 'stroke-width' && value === 0 && this.hasStroke) {
element.removeAttribute('stroke');
this.hasStroke = false;
}
};
/**
* The default SVG renderer
*/
var SVGRenderer = function () {
this.init.apply(this, arguments);
};
SVGRenderer.prototype = {
Element: SVGElement,
/**
* Initialize the SVGRenderer
* @param {Object} container
* @param {Number} width
* @param {Number} height
* @param {Boolean} forExport
*/
init: function (container, width, height, style, forExport, allowHTML) {
var renderer = this,
loc = location,
boxWrapper,
element,
desc;
boxWrapper = renderer.createElement('svg')
.attr({
version: '1.1'
})
.css(this.getStyle(style));
element = boxWrapper.element;
container.appendChild(element);
// For browsers other than IE, add the namespace attribute (#1978)
if (container.innerHTML.indexOf('xmlns') === -1) {
attr(element, 'xmlns', SVG_NS);
}
// object properties
renderer.isSVG = true;
renderer.box = element;
renderer.boxWrapper = boxWrapper;
renderer.alignedObjects = [];
// Page url used for internal references. #24, #672, #1070
renderer.url = (isFirefox || isWebKit) && doc.getElementsByTagName('base').length ?
loc.href
.replace(/#.*?$/, '') // remove the hash
.replace(/([\('\)])/g, '\\$1') // escape parantheses and quotes
.replace(/ /g, '%20') : // replace spaces (needed for Safari only)
'';
// Add description
desc = this.createElement('desc').add();
desc.element.appendChild(doc.createTextNode('Created with ' + PRODUCT + ' ' + VERSION));
renderer.defs = this.createElement('defs').add();
renderer.allowHTML = allowHTML;
renderer.forExport = forExport;
renderer.gradients = {}; // Object where gradient SvgElements are stored
renderer.cache = {}; // Cache for numerical bounding boxes
renderer.setSize(width, height, false);
// Issue 110 workaround:
// In Firefox, if a div is positioned by percentage, its pixel position may land
// between pixels. The container itself doesn't display this, but an SVG element
// inside this container will be drawn at subpixel precision. In order to draw
// sharp lines, this must be compensated for. This doesn't seem to work inside
// iframes though (like in jsFiddle).
var subPixelFix, rect;
if (isFirefox && container.getBoundingClientRect) {
renderer.subPixelFix = subPixelFix = function () {
css(container, { left: 0, top: 0 });
rect = container.getBoundingClientRect();
css(container, {
left: (mathCeil(rect.left) - rect.left) + PX,
top: (mathCeil(rect.top) - rect.top) + PX
});
};
// run the fix now
subPixelFix();
// run it on resize
addEvent(win, 'resize', subPixelFix);
}
},
getStyle: function (style) {
return (this.style = extend({
fontFamily: '"Lucida Grande", "Lucida Sans Unicode", Arial, Helvetica, sans-serif', // default font
fontSize: '12px'
}, style));
},
/**
* Detect whether the renderer is hidden. This happens when one of the parent elements
* has display: none. #608.
*/
isHidden: function () {
return !this.boxWrapper.getBBox().width;
},
/**
* Destroys the renderer and its allocated members.
*/
destroy: function () {
var renderer = this,
rendererDefs = renderer.defs;
renderer.box = null;
renderer.boxWrapper = renderer.boxWrapper.destroy();
// Call destroy on all gradient elements
destroyObjectProperties(renderer.gradients || {});
renderer.gradients = null;
// Defs are null in VMLRenderer
// Otherwise, destroy them here.
if (rendererDefs) {
renderer.defs = rendererDefs.destroy();
}
// Remove sub pixel fix handler
// We need to check that there is a handler, otherwise all functions that are registered for event 'resize' are removed
// See issue #982
if (renderer.subPixelFix) {
removeEvent(win, 'resize', renderer.subPixelFix);
}
renderer.alignedObjects = null;
return null;
},
/**
* Create a wrapper for an SVG element
* @param {Object} nodeName
*/
createElement: function (nodeName) {
var wrapper = new this.Element();
wrapper.init(this, nodeName);
return wrapper;
},
/**
* Dummy function for use in canvas renderer
*/
draw: function () {},
/**
* Get converted radial gradient attributes
*/
getRadialAttr: function (radialReference, gradAttr) {
return {
cx: (radialReference[0] - radialReference[2] / 2) + gradAttr.cx * radialReference[2],
cy: (radialReference[1] - radialReference[2] / 2) + gradAttr.cy * radialReference[2],
r: gradAttr.r * radialReference[2]
};
},
/**
* Parse a simple HTML string into SVG tspans
*
* @param {Object} textNode The parent text SVG node
*/
buildText: function (wrapper) {
var textNode = wrapper.element,
renderer = this,
forExport = renderer.forExport,
textStr = pick(wrapper.textStr, '').toString(),
hasMarkup = textStr.indexOf('<') !== -1,
lines,
childNodes = textNode.childNodes,
styleRegex,
hrefRegex,
parentX = attr(textNode, 'x'),
textStyles = wrapper.styles,
width = wrapper.textWidth,
textLineHeight = textStyles && textStyles.lineHeight,
textShadow = textStyles && textStyles.textShadow,
ellipsis = textStyles && textStyles.textOverflow === 'ellipsis',
i = childNodes.length,
tempParent = width && !wrapper.added && this.box,
getLineHeight = function (tspan) {
return textLineHeight ?
pInt(textLineHeight) :
renderer.fontMetrics(
/(px|em)$/.test(tspan && tspan.style.fontSize) ?
tspan.style.fontSize :
((textStyles && textStyles.fontSize) || renderer.style.fontSize || 12),
tspan
).h;
},
unescapeAngleBrackets = function (inputStr) {
return inputStr.replace(/</g, '<').replace(/>/g, '>');
};
/// remove old text
while (i--) {
textNode.removeChild(childNodes[i]);
}
// Skip tspans, add text directly to text node. The forceTSpan is a hook
// used in text outline hack.
if (!hasMarkup && !textShadow && !ellipsis && textStr.indexOf(' ') === -1) {
textNode.appendChild(doc.createTextNode(unescapeAngleBrackets(textStr)));
return;
// Complex strings, add more logic
} else {
styleRegex = /<.*style="([^"]+)".*>/;
hrefRegex = /<.*href="(http[^"]+)".*>/;
if (tempParent) {
tempParent.appendChild(textNode); // attach it to the DOM to read offset width
}
if (hasMarkup) {
lines = textStr
.replace(/<(b|strong)>/g, '')
.replace(/<(i|em)>/g, '')
.replace(//g, '')
.split(//g);
} else {
lines = [textStr];
}
// remove empty line at end
if (lines[lines.length - 1] === '') {
lines.pop();
}
// build the lines
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(SVG_NS, 'tspan'),
spanStyle; // #390
if (styleRegex.test(span)) {
spanStyle = span.match(styleRegex)[1].replace(/(;| |^)color([ :])/, '$1fill$2');
attr(tspan, 'style', spanStyle);
}
if (hrefRegex.test(span) && !forExport) { // Not for export - #1529
attr(tspan, 'onclick', 'location.href=\"' + span.match(hrefRegex)[1] + '\"');
css(tspan, { cursor: 'pointer' });
}
span = unescapeAngleBrackets(span.replace(/<(.|\n)*?>/g, '') || ' ');
// Nested tags aren't supported, and cause crash in Safari (#1596)
if (span !== ' ') {
// add the text node
tspan.appendChild(doc.createTextNode(span));
if (!spanNo) { // first span in a line, align it to the left
if (lineNo && parentX !== null) {
attributes.x = parentX;
}
} else {
attributes.dx = 0; // #16
}
// add attributes
attr(tspan, attributes);
// Append it
textNode.appendChild(tspan);
// first span on subsequent line, add the line height
if (!spanNo && lineNo) {
// allow getting the right offset height in exporting in IE
if (!hasSVG && forExport) {
css(tspan, { display: 'block' });
}
// Set the line height based on the font size of either
// the text element or the tspan element
attr(
tspan,
'dy',
getLineHeight(tspan)
);
}
/*if (width) {
renderer.breakText(wrapper, width);
}*/
// Check width and apply soft breaks or ellipsis
if (width) {
var words = span.replace(/([^\^])-/g, '$1- ').split(' '), // #1273
hasWhiteSpace = spans.length > 1 || lineNo || (words.length > 1 && textStyles.whiteSpace !== 'nowrap'),
tooLong,
wasTooLong,
actualWidth,
rest = [],
dy = getLineHeight(tspan),
softLineNo = 1,
rotation = wrapper.rotation,
wordStr = span, // for ellipsis
cursor = wordStr.length, // binary search cursor
bBox;
while ((hasWhiteSpace || ellipsis) && (words.length || rest.length)) {
wrapper.rotation = 0; // discard rotation when computing box
bBox = wrapper.getBBox(true);
actualWidth = bBox.width;
// Old IE cannot measure the actualWidth for SVG elements (#2314)
if (!hasSVG && renderer.forExport) {
actualWidth = renderer.measureSpanWidth(tspan.firstChild.data, wrapper.styles);
}
tooLong = actualWidth > width;
// For ellipsis, do a binary search for the correct string length
if (wasTooLong === undefined) {
wasTooLong = tooLong; // First time
}
if (ellipsis && wasTooLong) {
cursor /= 2;
if (wordStr === '' || (!tooLong && cursor < 0.5)) {
words = []; // All ok, break out
} else {
if (tooLong) {
wasTooLong = true;
}
wordStr = span.substring(0, wordStr.length + (tooLong ? -1 : 1) * mathCeil(cursor));
words = [wordStr + (width > 3 ? '\u2026' : '')];
tspan.removeChild(tspan.firstChild);
}
// Looping down, this is the first word sequence that is not too long,
// so we can move on to build the next line.
} else if (!tooLong || words.length === 1) {
words = rest;
rest = [];
if (words.length) {
softLineNo++;
tspan = doc.createElementNS(SVG_NS, 'tspan');
attr(tspan, {
dy: dy,
x: parentX
});
if (spanStyle) { // #390
attr(tspan, 'style', spanStyle);
}
textNode.appendChild(tspan);
}
if (actualWidth > width) { // a single word is pressing it out
width = actualWidth;
}
} else { // append to existing line tspan
tspan.removeChild(tspan.firstChild);
rest.unshift(words.pop());
}
if (words.length) {
tspan.appendChild(doc.createTextNode(words.join(' ').replace(/- /g, '-')));
}
}
if (wasTooLong) {
wrapper.attr('title', wrapper.textStr);
}
wrapper.rotation = rotation;
}
spanNo++;
}
}
});
});
if (tempParent) {
tempParent.removeChild(textNode); // attach it to the DOM to read offset width
}
// Apply the text shadow
if (textShadow && wrapper.applyTextShadow) {
wrapper.applyTextShadow(textShadow);
}
}
},
/*
breakText: function (wrapper, width) {
var bBox = wrapper.getBBox(),
node = wrapper.element,
textLength = node.textContent.length,
pos = mathRound(width * textLength / bBox.width), // try this position first, based on average character width
increment = 0,
finalPos;
if (bBox.width > width) {
while (finalPos === undefined) {
textLength = node.getSubStringLength(0, pos);
if (textLength <= width) {
if (increment === -1) {
finalPos = pos;
} else {
increment = 1;
}
} else {
if (increment === 1) {
finalPos = pos - 1;
} else {
increment = -1;
}
}
pos += increment;
}
}
console.log(finalPos, node.getSubStringLength(0, finalPos))
},
*/
/**
* Returns white for dark colors and black for bright colors
*/
getContrast: function (color) {
color = Color(color).rgba;
return color[0] + color[1] + color[2] > 384 ? '#000000' : '#FFFFFF';
},
/**
* Create a button with preset states
* @param {String} text
* @param {Number} x
* @param {Number} y
* @param {Function} callback
* @param {Object} normalState
* @param {Object} hoverState
* @param {Object} pressedState
*/
button: function (text, x, y, callback, normalState, hoverState, pressedState, disabledState, shape) {
var label = this.label(text, x, y, shape, null, null, null, null, 'button'),
curState = 0,
stateOptions,
stateStyle,
normalStyle,
hoverStyle,
pressedStyle,
disabledStyle,
verticalGradient = { x1: 0, y1: 0, x2: 0, y2: 1 };
// Normal state - prepare the attributes
normalState = merge({
'stroke-width': 1,
stroke: '#CCCCCC',
fill: {
linearGradient: verticalGradient,
stops: [
[0, '#FEFEFE'],
[1, '#F6F6F6']
]
},
r: 2,
padding: 5,
style: {
color: 'black'
}
}, normalState);
normalStyle = normalState.style;
delete normalState.style;
// Hover state
hoverState = merge(normalState, {
stroke: '#68A',
fill: {
linearGradient: verticalGradient,
stops: [
[0, '#FFF'],
[1, '#ACF']
]
}
}, hoverState);
hoverStyle = hoverState.style;
delete hoverState.style;
// Pressed state
pressedState = merge(normalState, {
stroke: '#68A',
fill: {
linearGradient: verticalGradient,
stops: [
[0, '#9BD'],
[1, '#CDF']
]
}
}, pressedState);
pressedStyle = pressedState.style;
delete pressedState.style;
// Disabled state
disabledState = merge(normalState, {
style: {
color: '#CCC'
}
}, disabledState);
disabledStyle = disabledState.style;
delete disabledState.style;
// Add the events. IE9 and IE10 need mouseover and mouseout to funciton (#667).
addEvent(label.element, isMS ? 'mouseover' : 'mouseenter', function () {
if (curState !== 3) {
label.attr(hoverState)
.css(hoverStyle);
}
});
addEvent(label.element, isMS ? 'mouseout' : 'mouseleave', function () {
if (curState !== 3) {
stateOptions = [normalState, hoverState, pressedState][curState];
stateStyle = [normalStyle, hoverStyle, pressedStyle][curState];
label.attr(stateOptions)
.css(stateStyle);
}
});
label.setState = function (state) {
label.state = curState = state;
if (!state) {
label.attr(normalState)
.css(normalStyle);
} else if (state === 2) {
label.attr(pressedState)
.css(pressedStyle);
} else if (state === 3) {
label.attr(disabledState)
.css(disabledStyle);
}
};
return label
.on('click', function (e) {
if (curState !== 3) {
callback.call(label, e);
}
})
.attr(normalState)
.css(extend({ cursor: 'default' }, normalStyle));
},
/**
* 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]) {
// Substract due to #1129. Now bottom and left axis gridlines behave the same.
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) {
var attr = {
fill: NONE
};
if (isArray(path)) {
attr.d = path;
} else if (isObject(path)) { // attributes
extend(attr, path);
}
return this.createElement('path').attr(attr);
},
/**
* 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 = isObject(x) ?
x :
{
x: x,
y: y,
r: r
},
wrapper = this.createElement('circle');
wrapper.xSetter = function (value) {
this.element.setAttribute('cx', value);
};
wrapper.ySetter = function (value) {
this.element.setAttribute('cy', value);
};
return wrapper.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) {
var arc;
if (isObject(x)) {
y = x.y;
r = x.r;
innerR = x.innerR;
start = x.start;
end = x.end;
x = x.x;
}
// Arcs are defined as symbols for the ability to set
// attributes in attr and animate
arc = this.symbol('arc', x || 0, y || 0, r || 0, r || 0, {
innerR: innerR || 0,
start: start || 0,
end: end || 0
});
arc.r = r; // #959
return arc;
},
/**
* 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) {
r = isObject(x) ? x.r : r;
var wrapper = this.createElement('rect'),
attribs = isObject(x) ? x : x === UNDEFINED ? {} : {
x: x,
y: y,
width: mathMax(width, 0),
height: mathMax(height, 0)
};
if (strokeWidth !== UNDEFINED) {
attribs.strokeWidth = strokeWidth;
attribs = wrapper.crisp(attribs);
}
if (r) {
attribs.r = r;
}
wrapper.rSetter = function (value) {
attr(this.element, {
rx: value,
ry: value
});
};
return wrapper.attr(attribs);
},
/**
* Resize the box and re-align all aligned elements
* @param {Object} width
* @param {Object} height
* @param {Boolean} animate
*
*/
setSize: function (width, height, animate) {
var renderer = this,
alignedObjects = renderer.alignedObjects,
i = alignedObjects.length;
renderer.width = width;
renderer.height = height;
renderer.boxWrapper[pick(animate, true) ? 'animate' : 'attr']({
width: width,
height: height
});
while (i--) {
alignedObjects[i].align();
}
},
/**
* 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) {
var elem = this.createElement('g');
return defined(name) ? elem.attr({ 'class': PREFIX + name }) : elem;
},
/**
* 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 attribs = {
preserveAspectRatio: NONE
},
elemWrapper;
// optional properties
if (arguments.length > 1) {
extend(attribs, {
x: x,
y: y,
width: width,
height: height
});
}
elemWrapper = this.createElement('image').attr(attribs);
// set the href in the xlink namespace
if (elemWrapper.element.setAttributeNS) {
elemWrapper.element.setAttributeNS('http://www.w3.org/1999/xlink',
'href', src);
} else {
// could be exporting in IE
// using href throws "not supported" in ie7 and under, requries regex shim to fix later
elemWrapper.element.setAttribute('hc-svg-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, width, height, 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(
mathRound(x),
mathRound(y),
width,
height,
options
),
imageElement,
imageRegex = /^url\((.*?)\)$/,
imageSrc,
imageSize,
centerImage;
if (path) {
obj = this.path(path);
// expando properties for use in animate and attr
extend(obj, {
symbolName: symbol,
x: x,
y: y,
width: width,
height: height
});
if (options) {
extend(obj, options);
}
// image symbols
} else if (imageRegex.test(symbol)) {
// On image load, set the size and position
centerImage = function (img, size) {
if (img.element) { // it may be destroyed in the meantime (#1390)
img.attr({
width: size[0],
height: size[1]
});
if (!img.alignByTranslate) { // #185
img.translate(
mathRound((width - size[0]) / 2), // #1378
mathRound((height - size[1]) / 2)
);
}
}
};
imageSrc = symbol.match(imageRegex)[1];
imageSize = symbolSizes[imageSrc] || (options && options.width && options.height && [options.width, options.height]);
// Ireate the image synchronously, add attribs async
obj = this.image(imageSrc)
.attr({
x: x,
y: y
});
obj.isImg = true;
if (imageSize) {
centerImage(obj, imageSize);
} else {
// Initialize image to be 0 size so export will still function if there's no cached sizes.
obj.attr({ width: 0, height: 0 });
// Create a dummy JavaScript image to get the width and height. Due to a bug in IE < 8,
// the created element must be assigned to a variable in order to load (#292).
imageElement = createElement('img', {
onload: function () {
// Special case for SVGs on IE11, the width is not accessible until the image is
// part of the DOM (#2854).
if (this.width === 0) {
css(this, {
position: ABSOLUTE,
top: '-999em'
});
document.body.appendChild(this);
}
// Center the image
centerImage(obj, symbolSizes[imageSrc] = [this.width, this.height]);
// Clean up after #2854 workaround.
if (this.parentNode) {
this.parentNode.removeChild(this);
}
},
src: imageSrc
});
}
}
return obj;
},
/**
* An extendable collection of functions for defining symbol paths.
*/
symbols: {
'circle': function (x, y, w, h) {
var cpw = 0.166 * w;
return [
M, x + w / 2, y,
'C', x + w + cpw, y, x + w + cpw, y + h, x + w / 2, y + h,
'C', x - cpw, y + h, x - cpw, y, x + w / 2, y,
'Z'
];
},
'square': function (x, y, w, h) {
return [
M, x, y,
L, x + w, y,
x + w, y + h,
x, y + h,
'Z'
];
},
'triangle': function (x, y, w, h) {
return [
M, x + w / 2, y,
L, x + w, y + h,
x, y + h,
'Z'
];
},
'triangle-down': function (x, y, w, h) {
return [
M, x, y,
L, x + w, y,
x + w / 2, y + h,
'Z'
];
},
'diamond': function (x, y, w, h) {
return [
M, x + w / 2, y,
L, x + w, y + h / 2,
x + w / 2, y + h,
x, y + h / 2,
'Z'
];
},
'arc': function (x, y, w, h, options) {
var start = options.start,
radius = options.r || w || h,
end = options.end - 0.001, // to prevent cos and sin of start and end from becoming equal on 360 arcs (related: #1561)
innerRadius = options.innerR,
open = options.open,
cosStart = mathCos(start),
sinStart = mathSin(start),
cosEnd = mathCos(end),
sinEnd = mathSin(end),
longArc = options.end - start < mathPI ? 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,
open ? M : 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,
open ? '' : 'Z' // close
];
},
/**
* Callout shape used for default tooltips, also used for rounded rectangles in VML
*/
callout: function (x, y, w, h, options) {
var arrowLength = 6,
halfDistance = 6,
r = mathMin((options && options.r) || 0, w, h),
safeDistance = r + halfDistance,
anchorX = options && options.anchorX,
anchorY = options && options.anchorY,
path;
path = [
'M', x + r, y,
'L', x + w - r, y, // top side
'C', x + w, y, x + w, y, x + w, y + r, // top-right corner
'L', x + w, y + h - r, // right side
'C', x + w, y + h, x + w, y + h, x + w - r, y + h, // bottom-right corner
'L', x + r, y + h, // bottom side
'C', x, y + h, x, y + h, x, y + h - r, // bottom-left corner
'L', x, y + r, // left side
'C', x, y, x, y, x + r, y // top-right corner
];
if (anchorX && anchorX > w && anchorY > y + safeDistance && anchorY < y + h - safeDistance) { // replace right side
path.splice(13, 3,
'L', x + w, anchorY - halfDistance,
x + w + arrowLength, anchorY,
x + w, anchorY + halfDistance,
x + w, y + h - r
);
} else if (anchorX && anchorX < 0 && anchorY > y + safeDistance && anchorY < y + h - safeDistance) { // replace left side
path.splice(33, 3,
'L', x, anchorY + halfDistance,
x - arrowLength, anchorY,
x, anchorY - halfDistance,
x, y + r
);
} else if (anchorY && anchorY > h && anchorX > x + safeDistance && anchorX < x + w - safeDistance) { // replace bottom
path.splice(23, 3,
'L', anchorX + halfDistance, y + h,
anchorX, y + h + arrowLength,
anchorX - halfDistance, y + h,
x + r, y + h
);
} else if (anchorY && anchorY < 0 && anchorX > x + safeDistance && anchorX < x + w - safeDistance) { // replace top
path.splice(3, 3,
'L', anchorX - halfDistance, y,
anchorX, y - arrowLength,
anchorX + halfDistance, y,
w - r, y
);
}
return path;
}
},
/**
* 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;
wrapper.clipPath = clipPath;
wrapper.count = 0;
return wrapper;
},
/**
* Add text to the SVG object
* @param {String} str
* @param {Number} x Left position
* @param {Number} y Top position
* @param {Boolean} useHTML Use HTML to render the text
*/
text: function (str, x, y, useHTML) {
// declare variables
var renderer = this,
fakeSVG = useCanVG || (!hasSVG && renderer.forExport),
wrapper,
attr = {};
if (useHTML && (renderer.allowHTML || !renderer.forExport)) {
return renderer.html(str, x, y);
}
attr.x = Math.round(x || 0); // X is always needed for line-wrap logic
if (y) {
attr.y = Math.round(y);
}
if (str || str === 0) {
attr.text = str;
}
wrapper = renderer.createElement('text')
.attr(attr);
// Prevent wrapping from creating false offsetWidths in export in legacy IE (#1079, #1063)
if (fakeSVG) {
wrapper.css({
position: ABSOLUTE
});
}
if (!useHTML) {
wrapper.xSetter = function (value, key, element) {
var tspans = element.getElementsByTagName('tspan'),
tspan,
parentVal = element.getAttribute(key),
i;
for (i = 0; i < tspans.length; i++) {
tspan = tspans[i];
// If the x values are equal, the tspan represents a linebreak
if (tspan.getAttribute(key) === parentVal) {
tspan.setAttribute(key, value);
}
}
element.setAttribute(key, value);
};
}
return wrapper;
},
/**
* Utility to return the baseline offset and total line height from the font size
*/
fontMetrics: function (fontSize, elem) {
var lineHeight,
baseline,
style;
fontSize = fontSize || this.style.fontSize;
if (!fontSize && elem && win.getComputedStyle) {
elem = elem.element || elem; // SVGElement
style = win.getComputedStyle(elem, "");
fontSize = style && style.fontSize; // #4309, the style doesn't exist inside a hidden iframe in Firefox
}
fontSize = /px/.test(fontSize) ? pInt(fontSize) : /em/.test(fontSize) ? parseFloat(fontSize) * 12 : 12;
// Empirical values found by comparing font size and bounding box height.
// Applies to the default font family. http://jsfiddle.net/highcharts/7xvn7/
lineHeight = fontSize < 24 ? fontSize + 3 : mathRound(fontSize * 1.2);
baseline = mathRound(lineHeight * 0.8);
return {
h: lineHeight,
b: baseline,
f: fontSize
};
},
/**
* Correct X and Y positioning of a label for rotation (#1764)
*/
rotCorr: function (baseline, rotation, alterY) {
var y = baseline;
if (rotation && alterY) {
y = mathMax(y * mathCos(rotation * deg2rad), 4);
}
return {
x: (-baseline / 3) * mathSin(rotation * deg2rad),
y: y
};
},
/**
* Add a label, a text item that can hold a colored or gradient background
* as well as a border and shadow.
* @param {string} str
* @param {Number} x
* @param {Number} y
* @param {String} shape
* @param {Number} anchorX In case the shape has a pointer, like a flag, this is the
* coordinates it should be pinned to
* @param {Number} anchorY
* @param {Boolean} baseline Whether to position the label relative to the text baseline,
* like renderer.text, or to the upper border of the rectangle.
* @param {String} className Class name for the group
*/
label: function (str, x, y, shape, anchorX, anchorY, useHTML, baseline, className) {
var renderer = this,
wrapper = renderer.g(className),
text = renderer.text('', 0, 0, useHTML)
.attr({
zIndex: 1
}),
//.add(wrapper),
box,
bBox,
alignFactor = 0,
padding = 3,
paddingLeft = 0,
width,
height,
wrapperX,
wrapperY,
crispAdjust = 0,
deferredAttr = {},
baselineOffset,
needsBox;
/**
* This function runs after the label is added to the DOM (when the bounding box is
* available), and after the text of the label is updated to detect the new bounding
* box and reflect it in the border box.
*/
function updateBoxSize() {
var boxX,
boxY,
style = text.element.style;
bBox = (width === undefined || height === undefined || wrapper.styles.textAlign) && defined(text.textStr) &&
text.getBBox(); //#3295 && 3514 box failure when string equals 0
wrapper.width = (width || bBox.width || 0) + 2 * padding + paddingLeft;
wrapper.height = (height || bBox.height || 0) + 2 * padding;
// update the label-scoped y offset
baselineOffset = padding + renderer.fontMetrics(style && style.fontSize, text).b;
if (needsBox) {
// create the border box if it is not already present
if (!box) {
boxX = mathRound(-alignFactor * padding) + crispAdjust;
boxY = (baseline ? -baselineOffset : 0) + crispAdjust;
wrapper.box = box = shape ?
renderer.symbol(shape, boxX, boxY, wrapper.width, wrapper.height, deferredAttr) :
renderer.rect(boxX, boxY, wrapper.width, wrapper.height, 0, deferredAttr[STROKE_WIDTH]);
if (!box.isImg) { // #4324, fill "none" causes it to be ignored by mouse events in IE
box.attr('fill', NONE);
}
box.add(wrapper);
}
// apply the box attributes
if (!box.isImg) { // #1630
box.attr(extend({
width: mathRound(wrapper.width),
height: mathRound(wrapper.height)
}, deferredAttr));
}
deferredAttr = null;
}
}
/**
* This function runs after setting text or padding, but only if padding is changed
*/
function updateTextPadding() {
var styles = wrapper.styles,
textAlign = styles && styles.textAlign,
x = paddingLeft + padding * (1 - alignFactor),
y;
// determin y based on the baseline
y = baseline ? 0 : baselineOffset;
// compensate for alignment
if (defined(width) && bBox && (textAlign === 'center' || textAlign === 'right')) {
x += { center: 0.5, right: 1 }[textAlign] * (width - bBox.width);
}
// update if anything changed
if (x !== text.x || y !== text.y) {
text.attr('x', x);
if (y !== UNDEFINED) {
text.attr('y', y);
}
}
// record current values
text.x = x;
text.y = y;
}
/**
* Set a box attribute, or defer it if the box is not yet created
* @param {Object} key
* @param {Object} value
*/
function boxAttr(key, value) {
if (box) {
box.attr(key, value);
} else {
deferredAttr[key] = value;
}
}
/**
* After the text element is added, get the desired size of the border box
* and add it before the text in the DOM.
*/
wrapper.onAdd = function () {
text.add(wrapper);
wrapper.attr({
text: (str || str === 0) ? str : '', // alignment is available now // #3295: 0 not rendered if given as a value
x: x,
y: y
});
if (box && defined(anchorX)) {
wrapper.attr({
anchorX: anchorX,
anchorY: anchorY
});
}
};
/*
* Add specific attribute setters.
*/
// only change local variables
wrapper.widthSetter = function (value) {
width = value;
};
wrapper.heightSetter = function (value) {
height = value;
};
wrapper.paddingSetter = function (value) {
if (defined(value) && value !== padding) {
padding = wrapper.padding = value;
updateTextPadding();
}
};
wrapper.paddingLeftSetter = function (value) {
if (defined(value) && value !== paddingLeft) {
paddingLeft = value;
updateTextPadding();
}
};
// change local variable and prevent setting attribute on the group
wrapper.alignSetter = function (value) {
alignFactor = { left: 0, center: 0.5, right: 1 }[value];
};
// apply these to the box and the text alike
wrapper.textSetter = function (value) {
if (value !== UNDEFINED) {
text.textSetter(value);
}
updateBoxSize();
updateTextPadding();
};
// apply these to the box but not to the text
wrapper['stroke-widthSetter'] = function (value, key) {
if (value) {
needsBox = true;
}
crispAdjust = value % 2 / 2;
boxAttr(key, value);
};
wrapper.strokeSetter = wrapper.fillSetter = wrapper.rSetter = function (value, key) {
if (key === 'fill' && value) {
needsBox = true;
}
boxAttr(key, value);
};
wrapper.anchorXSetter = function (value, key) {
anchorX = value;
boxAttr(key, mathRound(value) - crispAdjust - wrapperX);
};
wrapper.anchorYSetter = function (value, key) {
anchorY = value;
boxAttr(key, value - wrapperY);
};
// rename attributes
wrapper.xSetter = function (value) {
wrapper.x = value; // for animation getter
if (alignFactor) {
value -= alignFactor * ((width || bBox.width) + padding);
}
wrapperX = mathRound(value);
wrapper.attr('translateX', wrapperX);
};
wrapper.ySetter = function (value) {
wrapperY = wrapper.y = mathRound(value);
wrapper.attr('translateY', wrapperY);
};
// Redirect certain methods to either the box or the text
var baseCss = wrapper.css;
return extend(wrapper, {
/**
* Pick up some properties and apply them to the text instead of the wrapper
*/
css: function (styles) {
if (styles) {
var textStyles = {};
styles = merge(styles); // create a copy to avoid altering the original object (#537)
each(wrapper.textProps, function (prop) {
if (styles[prop] !== UNDEFINED) {
textStyles[prop] = styles[prop];
delete styles[prop];
}
});
text.css(textStyles);
}
return baseCss.call(wrapper, styles);
},
/**
* Return the bounding box of the box, not the group
*/
getBBox: function () {
return {
width: bBox.width + 2 * padding,
height: bBox.height + 2 * padding,
x: bBox.x - padding,
y: bBox.y - padding
};
},
/**
* Apply the shadow to the box
*/
shadow: function (b) {
if (box) {
box.shadow(b);
}
return wrapper;
},
/**
* Destroy and release memory.
*/
destroy: function () {
// Added by button implementation
removeEvent(wrapper.element, 'mouseenter');
removeEvent(wrapper.element, 'mouseleave');
if (text) {
text = text.destroy();
}
if (box) {
box = box.destroy();
}
// Call base implementation to destroy the rest
SVGElement.prototype.destroy.call(wrapper);
// Release local pointers (#1298)
wrapper = renderer = updateBoxSize = updateTextPadding = boxAttr = null;
}
});
}
}; // end SVGRenderer
// general renderer
Renderer = SVGRenderer;
// extend SvgElement for useHTML option
extend(SVGElement.prototype, {
/**
* Apply CSS to HTML elements. This is used in text within SVG rendering and
* by the VML renderer
*/
htmlCss: function (styles) {
var wrapper = this,
element = wrapper.element,
textWidth = styles && element.tagName === 'SPAN' && styles.width;
if (textWidth) {
delete styles.width;
wrapper.textWidth = textWidth;
wrapper.updateTransform();
}
if (styles && styles.textOverflow === 'ellipsis') {
styles.whiteSpace = 'nowrap';
styles.overflow = 'hidden';
}
wrapper.styles = extend(wrapper.styles, styles);
css(wrapper.element, styles);
return wrapper;
},
/**
* VML and useHTML method for calculating the bounding box based on offsets
* @param {Boolean} refresh Whether to force a fresh value from the DOM or to
* use the cached value
*
* @return {Object} A hash containing values for x, y, width and height
*/
htmlGetBBox: function () {
var wrapper = this,
element = wrapper.element;
// faking getBBox in exported SVG in legacy IE
// faking getBBox in exported SVG in legacy IE (is this a duplicate of the fix for #1079?)
if (element.nodeName === 'text') {
element.style.position = ABSOLUTE;
}
return {
x: element.offsetLeft,
y: element.offsetTop,
width: element.offsetWidth,
height: element.offsetHeight
};
},
/**
* VML override private method to update elements based on internal
* properties based on SVG transform
*/
htmlUpdateTransform: function () {
// aligning non added elements is expensive
if (!this.added) {
this.alignOnAdd = true;
return;
}
var wrapper = this,
renderer = wrapper.renderer,
elem = wrapper.element,
translateX = wrapper.translateX || 0,
translateY = wrapper.translateY || 0,
x = wrapper.x || 0,
y = wrapper.y || 0,
align = wrapper.textAlign || 'left',
alignCorrection = { left: 0, center: 0.5, right: 1 }[align],
shadows = wrapper.shadows,
styles = wrapper.styles;
// apply translate
css(elem, {
marginLeft: translateX,
marginTop: translateY
});
if (shadows) { // used in labels/tooltip
each(shadows, function (shadow) {
css(shadow, {
marginLeft: translateX + 1,
marginTop: translateY + 1
});
});
}
// apply inversion
if (wrapper.inverted) { // wrapper is a group
each(elem.childNodes, function (child) {
renderer.invertChild(child, elem);
});
}
if (elem.tagName === 'SPAN') {
var width,
rotation = wrapper.rotation,
baseline,
textWidth = pInt(wrapper.textWidth),
currentTextTransform = [rotation, align, elem.innerHTML, wrapper.textWidth, wrapper.textAlign].join(',');
if (currentTextTransform !== wrapper.cTT) { // do the calculations and DOM access only if properties changed
baseline = renderer.fontMetrics(elem.style.fontSize).b;
// Renderer specific handling of span rotation
if (defined(rotation)) {
wrapper.setSpanRotation(rotation, alignCorrection, baseline);
}
width = pick(wrapper.elemWidth, elem.offsetWidth);
// Update textWidth
if (width > textWidth && /[ \-]/.test(elem.textContent || elem.innerText)) { // #983, #1254
css(elem, {
width: textWidth + PX,
display: 'block',
whiteSpace: (styles && styles.whiteSpace) || 'normal' // #3331
});
width = textWidth;
}
wrapper.getSpanCorrection(width, baseline, alignCorrection, rotation, align);
}
// apply position with correction
css(elem, {
left: (x + (wrapper.xCorr || 0)) + PX,
top: (y + (wrapper.yCorr || 0)) + PX
});
// force reflow in webkit to apply the left and top on useHTML element (#1249)
if (isWebKit) {
baseline = elem.offsetHeight; // assigned to baseline for JSLint purpose
}
// record current text transform
wrapper.cTT = currentTextTransform;
}
},
/**
* Set the rotation of an individual HTML span
*/
setSpanRotation: function (rotation, alignCorrection, baseline) {
var rotationStyle = {},
cssTransformKey = isMS ? '-ms-transform' : isWebKit ? '-webkit-transform' : isFirefox ? 'MozTransform' : isOpera ? '-o-transform' : '';
rotationStyle[cssTransformKey] = rotationStyle.transform = 'rotate(' + rotation + 'deg)';
rotationStyle[cssTransformKey + (isFirefox ? 'Origin' : '-origin')] = rotationStyle.transformOrigin = (alignCorrection * 100) + '% ' + baseline + 'px';
css(this.element, rotationStyle);
},
/**
* Get the correction in X and Y positioning as the element is rotated.
*/
getSpanCorrection: function (width, baseline, alignCorrection) {
this.xCorr = -width * alignCorrection;
this.yCorr = -baseline;
}
});
// Extend SvgRenderer for useHTML option.
extend(SVGRenderer.prototype, {
/**
* Create HTML text node. This is used by the VML renderer as well as the SVG
* renderer through the useHTML option.
*
* @param {String} str
* @param {Number} x
* @param {Number} y
*/
html: function (str, x, y) {
var wrapper = this.createElement('span'),
element = wrapper.element,
renderer = wrapper.renderer;
// Text setter
wrapper.textSetter = function (value) {
if (value !== element.innerHTML) {
delete this.bBox;
}
element.innerHTML = this.textStr = value;
wrapper.htmlUpdateTransform();
};
// Various setters which rely on update transform
wrapper.xSetter = wrapper.ySetter = wrapper.alignSetter = wrapper.rotationSetter = function (value, key) {
if (key === 'align') {
key = 'textAlign'; // Do not overwrite the SVGElement.align method. Same as VML.
}
wrapper[key] = value;
wrapper.htmlUpdateTransform();
};
// Set the default attributes
wrapper.attr({
text: str,
x: mathRound(x),
y: mathRound(y)
})
.css({
position: ABSOLUTE,
fontFamily: this.style.fontFamily,
fontSize: this.style.fontSize
});
// Keep the whiteSpace style outside the wrapper.styles collection
element.style.whiteSpace = 'nowrap';
// Use the HTML specific .css method
wrapper.css = wrapper.htmlCss;
// This is specific for HTML within SVG
if (renderer.isSVG) {
wrapper.add = function (svgGroupWrapper) {
var htmlGroup,
container = renderer.box.parentNode,
parentGroup,
parents = [];
this.parentGroup = svgGroupWrapper;
// Create a mock group to hold the HTML elements
if (svgGroupWrapper) {
htmlGroup = svgGroupWrapper.div;
if (!htmlGroup) {
// Read the parent chain into an array and read from top down
parentGroup = svgGroupWrapper;
while (parentGroup) {
parents.push(parentGroup);
// Move up to the next parent group
parentGroup = parentGroup.parentGroup;
}
// Ensure dynamically updating position when any parent is translated
each(parents.reverse(), function (parentGroup) {
var htmlGroupStyle,
cls = attr(parentGroup.element, 'class');
if (cls) {
cls = { className: cls };
} // else null
// Create a HTML div and append it to the parent div to emulate
// the SVG group structure
htmlGroup = parentGroup.div = parentGroup.div || createElement(DIV, cls, {
position: ABSOLUTE,
left: (parentGroup.translateX || 0) + PX,
top: (parentGroup.translateY || 0) + PX
}, htmlGroup || container); // the top group is appended to container
// Shortcut
htmlGroupStyle = htmlGroup.style;
// Set listeners to update the HTML div's position whenever the SVG group
// position is changed
extend(parentGroup, {
translateXSetter: function (value, key) {
htmlGroupStyle.left = value + PX;
parentGroup[key] = value;
parentGroup.doTransform = true;
},
translateYSetter: function (value, key) {
htmlGroupStyle.top = value + PX;
parentGroup[key] = value;
parentGroup.doTransform = true;
}
});
// These properties are set as attributes on the SVG group, and as
// identical CSS properties on the div. (#3542)
each(['opacity', 'visibility'], function (prop) {
wrap(parentGroup, prop + 'Setter', function (proceed, value, key, elem) {
proceed.call(this, value, key, elem);
htmlGroupStyle[key] = value;
});
});
});
}
} else {
htmlGroup = container;
}
htmlGroup.appendChild(element);
// Shared with VML:
wrapper.added = true;
if (wrapper.alignOnAdd) {
wrapper.htmlUpdateTransform();
}
return wrapper;
};
}
return wrapper;
}
});
/**
* The Tick class
*/
function Tick(axis, pos, type, noLabel) {
this.axis = axis;
this.pos = pos;
this.type = type || '';
this.isNew = true;
if (!type && !noLabel) {
this.addLabel();
}
}
Tick.prototype = {
/**
* Write the tick label
*/
addLabel: function () {
var tick = this,
axis = tick.axis,
options = axis.options,
chart = axis.chart,
categories = axis.categories,
names = axis.names,
pos = tick.pos,
labelOptions = options.labels,
str,
tickPositions = axis.tickPositions,
isFirst = pos === tickPositions[0],
isLast = pos === tickPositions[tickPositions.length - 1],
value = categories ?
pick(categories[pos], names[pos], pos) :
pos,
label = tick.label,
tickPositionInfo = tickPositions.info,
dateTimeLabelFormat;
// Set the datetime label format. If a higher rank is set for this position, use that. If not,
// use the general format.
if (axis.isDatetimeAxis && tickPositionInfo) {
dateTimeLabelFormat = options.dateTimeLabelFormats[tickPositionInfo.higherRanks[pos] || tickPositionInfo.unitName];
}
// set properties for access in render method
tick.isFirst = isFirst;
tick.isLast = isLast;
// get the string
str = axis.labelFormatter.call({
axis: axis,
chart: chart,
isFirst: isFirst,
isLast: isLast,
dateTimeLabelFormat: dateTimeLabelFormat,
value: axis.isLog ? correctFloat(lin2log(value)) : value
});
// prepare CSS
//css = width && { width: mathMax(1, mathRound(width - 2 * (labelOptions.padding || 10))) + PX };
// first call
if (!defined(label)) {
tick.label = label =
defined(str) && labelOptions.enabled ?
chart.renderer.text(
str,
0,
0,
labelOptions.useHTML
)
//.attr(attr)
// without position absolute, IE export sometimes is wrong
.css(merge(labelOptions.style))
.add(axis.labelGroup) :
null;
tick.labelLength = label && label.getBBox().width; // Un-rotated length
tick.rotation = 0; // Base value to detect change for new calls to getBBox
// update
} else if (label) {
label.attr({ text: str });
}
},
/**
* Get the offset height or width of the label
*/
getLabelSize: function () {
return this.label ?
this.label.getBBox()[this.axis.horiz ? 'height' : 'width'] :
0;
},
/**
* Handle the label overflow by adjusting the labels to the left and right edge, or
* hide them if they collide into the neighbour label.
*/
handleOverflow: function (xy) {
var axis = this.axis,
pxPos = xy.x,
chartWidth = axis.chart.chartWidth,
spacing = axis.chart.spacing,
leftBound = pick(axis.labelLeft, mathMin(axis.pos, spacing[3])),
rightBound = pick(axis.labelRight, mathMax(axis.pos + axis.len, chartWidth - spacing[1])),
label = this.label,
rotation = this.rotation,
factor = { left: 0, center: 0.5, right: 1 }[axis.labelAlign],
labelWidth = label.getBBox().width,
slotWidth = axis.slotWidth,
xCorrection = factor,
goRight = 1,
leftPos,
rightPos,
textWidth,
css = {};
// Check if the label overshoots the chart spacing box. If it does, move it.
// If it now overshoots the slotWidth, add ellipsis.
if (!rotation) {
leftPos = pxPos - factor * labelWidth;
rightPos = pxPos + (1 - factor) * labelWidth;
if (leftPos < leftBound) {
slotWidth = xy.x + slotWidth * (1 - factor) - leftBound;
} else if (rightPos > rightBound) {
slotWidth = rightBound - xy.x + slotWidth * factor;
goRight = -1;
}
slotWidth = mathMin(axis.slotWidth, slotWidth); // #4177
if (slotWidth < axis.slotWidth && axis.labelAlign === 'center') {
xy.x += goRight * (axis.slotWidth - slotWidth - xCorrection * (axis.slotWidth - mathMin(labelWidth, slotWidth)));
}
// If the label width exceeds the available space, set a text width to be
// picked up below. Also, if a width has been set before, we need to set a new
// one because the reported labelWidth will be limited by the box (#3938).
if (labelWidth > slotWidth || (axis.autoRotation && label.styles.width)) {
textWidth = slotWidth;
}
// Add ellipsis to prevent rotated labels to be clipped against the edge of the chart
} else if (rotation < 0 && pxPos - factor * labelWidth < leftBound) {
textWidth = mathRound(pxPos / mathCos(rotation * deg2rad) - leftBound);
} else if (rotation > 0 && pxPos + factor * labelWidth > rightBound) {
textWidth = mathRound((chartWidth - pxPos) / mathCos(rotation * deg2rad));
}
if (textWidth) {
css.width = textWidth;
if (!axis.options.labels.style.textOverflow) {
css.textOverflow = 'ellipsis';
}
label.css(css);
}
},
/**
* Get the x and y position for ticks and labels
*/
getPosition: function (horiz, pos, tickmarkOffset, old) {
var axis = this.axis,
chart = axis.chart,
cHeight = (old && chart.oldChartHeight) || chart.chartHeight;
return {
x: horiz ?
axis.translate(pos + tickmarkOffset, null, null, old) + axis.transB :
axis.left + axis.offset + (axis.opposite ? ((old && chart.oldChartWidth) || chart.chartWidth) - axis.right - axis.left : 0),
y: horiz ?
cHeight - axis.bottom + axis.offset - (axis.opposite ? axis.height : 0) :
cHeight - axis.translate(pos + tickmarkOffset, null, null, old) - axis.transB
};
},
/**
* Get the x, y position of the tick label
*/
getLabelPosition: function (x, y, label, horiz, labelOptions, tickmarkOffset, index, step) {
var axis = this.axis,
transA = axis.transA,
reversed = axis.reversed,
staggerLines = axis.staggerLines,
rotCorr = axis.tickRotCorr || { x: 0, y: 0 },
yOffset = pick(labelOptions.y, rotCorr.y + (axis.side === 2 ? 8 : -(label.getBBox().height / 2))),
line;
x = x + labelOptions.x + rotCorr.x - (tickmarkOffset && horiz ?
tickmarkOffset * transA * (reversed ? -1 : 1) : 0);
y = y + yOffset - (tickmarkOffset && !horiz ?
tickmarkOffset * transA * (reversed ? 1 : -1) : 0);
// Correct for staggered labels
if (staggerLines) {
line = (index / (step || 1) % staggerLines);
y += line * (axis.labelOffset / staggerLines);
}
return {
x: x,
y: mathRound(y)
};
},
/**
* Extendible method to return the path of the marker
*/
getMarkPath: function (x, y, tickLength, tickWidth, horiz, renderer) {
return renderer.crispLine([
M,
x,
y,
L,
x + (horiz ? 0 : -tickLength),
y + (horiz ? tickLength : 0)
], tickWidth);
},
/**
* Put everything in place
*
* @param index {Number}
* @param old {Boolean} Use old coordinates to prepare an animation into new position
*/
render: function (index, old, opacity) {
var tick = this,
axis = tick.axis,
options = axis.options,
chart = axis.chart,
renderer = chart.renderer,
horiz = axis.horiz,
type = tick.type,
label = tick.label,
pos = tick.pos,
labelOptions = options.labels,
gridLine = tick.gridLine,
gridPrefix = type ? type + 'Grid' : 'grid',
tickPrefix = type ? type + 'Tick' : 'tick',
gridLineWidth = options[gridPrefix + 'LineWidth'],
gridLineColor = options[gridPrefix + 'LineColor'],
dashStyle = options[gridPrefix + 'LineDashStyle'],
tickLength = options[tickPrefix + 'Length'],
tickWidth = pick(options[tickPrefix + 'Width'], !type && axis.isXAxis ? 1 : 0), // X axis defaults to 1
tickColor = options[tickPrefix + 'Color'],
tickPosition = options[tickPrefix + 'Position'],
gridLinePath,
mark = tick.mark,
markPath,
step = /*axis.labelStep || */labelOptions.step,
attribs,
show = true,
tickmarkOffset = axis.tickmarkOffset,
xy = tick.getPosition(horiz, pos, tickmarkOffset, old),
x = xy.x,
y = xy.y,
reverseCrisp = ((horiz && x === axis.pos + axis.len) || (!horiz && y === axis.pos)) ? -1 : 1; // #1480, #1687
opacity = pick(opacity, 1);
this.isActive = true;
// create the grid line
if (gridLineWidth) {
gridLinePath = axis.getPlotLinePath(pos + tickmarkOffset, gridLineWidth * reverseCrisp, old, true);
if (gridLine === UNDEFINED) {
attribs = {
stroke: gridLineColor,
'stroke-width': gridLineWidth
};
if (dashStyle) {
attribs.dashstyle = dashStyle;
}
if (!type) {
attribs.zIndex = 1;
}
if (old) {
attribs.opacity = 0;
}
tick.gridLine = gridLine =
gridLineWidth ?
renderer.path(gridLinePath)
.attr(attribs).add(axis.gridGroup) :
null;
}
// If the parameter 'old' is set, the current call will be followed
// by another call, therefore do not do any animations this time
if (!old && gridLine && gridLinePath) {
gridLine[tick.isNew ? 'attr' : 'animate']({
d: gridLinePath,
opacity: opacity
});
}
}
// create the tick mark
if (tickWidth && tickLength) {
// negate the length
if (tickPosition === 'inside') {
tickLength = -tickLength;
}
if (axis.opposite) {
tickLength = -tickLength;
}
markPath = tick.getMarkPath(x, y, tickLength, tickWidth * reverseCrisp, horiz, renderer);
if (mark) { // updating
mark.animate({
d: markPath,
opacity: opacity
});
} else { // first time
tick.mark = renderer.path(
markPath
).attr({
stroke: tickColor,
'stroke-width': tickWidth,
opacity: opacity
}).add(axis.axisGroup);
}
}
// the label is created on init - now move it into place
if (label && !isNaN(x)) {
label.xy = xy = tick.getLabelPosition(x, y, label, horiz, labelOptions, tickmarkOffset, index, step);
// Apply show first and show last. If the tick is both first and last, it is
// a single centered tick, in which case we show the label anyway (#2100).
if ((tick.isFirst && !tick.isLast && !pick(options.showFirstLabel, 1)) ||
(tick.isLast && !tick.isFirst && !pick(options.showLastLabel, 1))) {
show = false;
// Handle label overflow and show or hide accordingly
} else if (horiz && !axis.isRadial && !labelOptions.step && !labelOptions.rotation && !old && opacity !== 0) {
tick.handleOverflow(xy);
}
// apply step
if (step && index % step) {
// show those indices dividable by step
show = false;
}
// Set the new position, and show or hide
if (show && !isNaN(xy.y)) {
xy.opacity = opacity;
label[tick.isNew ? 'attr' : 'animate'](xy);
tick.isNew = false;
} else {
label.attr('y', -9999); // #1338
}
}
},
/**
* Destructor for the tick prototype
*/
destroy: function () {
destroyObjectProperties(this, this.axis);
}
};
/**
* The object wrapper for plot lines and plot bands
* @param {Object} options
*/
Highcharts.PlotLineOrBand = function (axis, options) {
this.axis = axis;
if (options) {
this.options = options;
this.id = options.id;
}
};
Highcharts.PlotLineOrBand.prototype = {
/**
* Render the plot line or plot band. If it is already existing,
* move it.
*/
render: function () {
var plotLine = this,
axis = plotLine.axis,
horiz = axis.horiz,
options = plotLine.options,
optionsLabel = options.label,
label = plotLine.label,
width = options.width,
to = options.to,
from = options.from,
isBand = defined(from) && defined(to),
value = options.value,
dashStyle = options.dashStyle,
svgElem = plotLine.svgElem,
path = [],
addEvent,
eventType,
xs,
ys,
x,
y,
color = options.color,
zIndex = options.zIndex,
events = options.events,
attribs = {},
renderer = axis.chart.renderer;
// logarithmic conversion
if (axis.isLog) {
from = log2lin(from);
to = log2lin(to);
value = log2lin(value);
}
// plot line
if (width) {
path = axis.getPlotLinePath(value, width);
attribs = {
stroke: color,
'stroke-width': width
};
if (dashStyle) {
attribs.dashstyle = dashStyle;
}
} else if (isBand) { // plot band
path = axis.getPlotBandPath(from, to, options);
if (color) {
attribs.fill = color;
}
if (options.borderWidth) {
attribs.stroke = options.borderColor;
attribs['stroke-width'] = options.borderWidth;
}
} else {
return;
}
// zIndex
if (defined(zIndex)) {
attribs.zIndex = zIndex;
}
// common for lines and bands
if (svgElem) {
if (path) {
svgElem.animate({
d: path
}, null, svgElem.onGetPath);
} else {
svgElem.hide();
svgElem.onGetPath = function () {
svgElem.show();
};
if (label) {
plotLine.label = label = label.destroy();
}
}
} else if (path && path.length) {
plotLine.svgElem = svgElem = renderer.path(path)
.attr(attribs).add();
// events
if (events) {
addEvent = function (eventType) {
svgElem.on(eventType, function (e) {
events[eventType].apply(plotLine, [e]);
});
};
for (eventType in events) {
addEvent(eventType);
}
}
}
// the plot band/line label
if (optionsLabel && defined(optionsLabel.text) && path && path.length && axis.width > 0 && axis.height > 0) {
// apply defaults
optionsLabel = merge({
align: horiz && isBand && 'center',
x: horiz ? !isBand && 4 : 10,
verticalAlign : !horiz && isBand && 'middle',
y: horiz ? isBand ? 16 : 10 : isBand ? 6 : -4,
rotation: horiz && !isBand && 90
}, optionsLabel);
// add the SVG element
if (!label) {
attribs = {
align: optionsLabel.textAlign || optionsLabel.align,
rotation: optionsLabel.rotation
};
if (defined(zIndex)) {
attribs.zIndex = zIndex;
}
plotLine.label = label = renderer.text(
optionsLabel.text,
0,
0,
optionsLabel.useHTML
)
.attr(attribs)
.css(optionsLabel.style)
.add();
}
// get the bounding box and align the label
// #3000 changed to better handle choice between plotband or plotline
xs = [path[1], path[4], (isBand ? path[6] : path[1])];
ys = [path[2], path[5], (isBand ? path[7] : path[2])];
x = arrayMin(xs);
y = arrayMin(ys);
label.align(optionsLabel, false, {
x: x,
y: y,
width: arrayMax(xs) - x,
height: arrayMax(ys) - y
});
label.show();
} else if (label) { // move out of sight
label.hide();
}
// chainable
return plotLine;
},
/**
* Remove the plot line or band
*/
destroy: function () {
// remove it from the lookup
erase(this.axis.plotLinesAndBands, this);
delete this.axis;
destroyObjectProperties(this);
}
};
/**
* Object with members for extending the Axis prototype
*/
AxisPlotLineOrBandExtension = {
/**
* Create the path for a plot band
*/
getPlotBandPath: function (from, to) {
var toPath = this.getPlotLinePath(to, null, null, true),
path = this.getPlotLinePath(from, null, null, true);
if (path && toPath && path.toString() !== toPath.toString()) { // #3836
path.push(
toPath[4],
toPath[5],
toPath[1],
toPath[2]
);
} else { // outside the axis area
path = null;
}
return path;
},
addPlotBand: function (options) {
return this.addPlotBandOrLine(options, 'plotBands');
},
addPlotLine: function (options) {
return this.addPlotBandOrLine(options, 'plotLines');
},
/**
* Add a plot band or plot line after render time
*
* @param options {Object} The plotBand or plotLine configuration object
*/
addPlotBandOrLine: function (options, coll) {
var obj = new Highcharts.PlotLineOrBand(this, options).render(),
userOptions = this.userOptions;
if (obj) { // #2189
// Add it to the user options for exporting and Axis.update
if (coll) {
userOptions[coll] = userOptions[coll] || [];
userOptions[coll].push(options);
}
this.plotLinesAndBands.push(obj);
}
return obj;
},
/**
* Remove a plot band or plot line from the chart by id
* @param {Object} id
*/
removePlotBandOrLine: function (id) {
var plotLinesAndBands = this.plotLinesAndBands,
options = this.options,
userOptions = this.userOptions,
i = plotLinesAndBands.length;
while (i--) {
if (plotLinesAndBands[i].id === id) {
plotLinesAndBands[i].destroy();
}
}
each([options.plotLines || [], userOptions.plotLines || [], options.plotBands || [], userOptions.plotBands || []], function (arr) {
i = arr.length;
while (i--) {
if (arr[i].id === id) {
erase(arr, arr[i]);
}
}
});
}
};
/**
* Create a new axis object
* @param {Object} chart
* @param {Object} options
*/
var Axis = Highcharts.Axis = function () {
this.init.apply(this, arguments);
};
Axis.prototype = {
/**
* Default options for the X axis - the Y axis has extended defaults
*/
defaultOptions: {
// allowDecimals: null,
// alternateGridColor: null,
// categories: [],
dateTimeLabelFormats: {
millisecond: '%H:%M:%S.%L',
second: '%H:%M:%S',
minute: '%H:%M',
hour: '%H:%M',
day: '%e. %b',
week: '%e. %b',
month: '%b \'%y',
year: '%Y'
},
endOnTick: false,
gridLineColor: '#D8D8D8',
// gridLineDashStyle: 'solid',
// gridLineWidth: 0,
// reversed: false,
labels: {
enabled: true,
// rotation: 0,
// align: 'center',
// step: null,
style: {
color: '#606060',
cursor: 'default',
fontSize: '11px'
},
x: 0,
y: 15
/*formatter: function () {
return this.value;
},*/
},
lineColor: '#C0D0E0',
lineWidth: 1,
//linkedTo: null,
//max: undefined,
//min: undefined,
minPadding: 0.01,
maxPadding: 0.01,
//minRange: null,
minorGridLineColor: '#E0E0E0',
// minorGridLineDashStyle: null,
minorGridLineWidth: 1,
minorTickColor: '#A0A0A0',
//minorTickInterval: null,
minorTickLength: 2,
minorTickPosition: 'outside', // inside or outside
//minorTickWidth: 0,
//opposite: false,
//offset: 0,
//plotBands: [{
// events: {},
// zIndex: 1,
// labels: { align, x, verticalAlign, y, style, rotation, textAlign }
//}],
//plotLines: [{
// events: {}
// dashStyle: {}
// zIndex:
// labels: { align, x, verticalAlign, y, style, rotation, textAlign }
//}],
//reversed: false,
// showFirstLabel: true,
// showLastLabel: true,
startOfWeek: 1,
startOnTick: false,
tickColor: '#C0D0E0',
//tickInterval: null,
tickLength: 10,
tickmarkPlacement: 'between', // on or between
tickPixelInterval: 100,
tickPosition: 'outside',
//tickWidth: 1,
title: {
//text: null,
align: 'middle', // low, middle or high
//margin: 0 for horizontal, 10 for vertical axes,
//rotation: 0,
//side: 'outside',
style: {
color: '#707070'
}
//x: 0,
//y: 0
},
type: 'linear' // linear, logarithmic or datetime
//visible: true
},
/**
* This options set extends the defaultOptions for Y axes
*/
defaultYAxisOptions: {
endOnTick: true,
gridLineWidth: 1,
tickPixelInterval: 72,
showLastLabel: true,
labels: {
x: -8,
y: 3
},
lineWidth: 0,
maxPadding: 0.05,
minPadding: 0.05,
startOnTick: true,
//tickWidth: 0,
title: {
rotation: 270,
text: 'Values'
},
stackLabels: {
enabled: false,
//align: dynamic,
//y: dynamic,
//x: dynamic,
//verticalAlign: dynamic,
//textAlign: dynamic,
//rotation: 0,
formatter: function () {
return Highcharts.numberFormat(this.total, -1);
},
style: merge(defaultPlotOptions.line.dataLabels.style, { color: '#000000' })
}
},
/**
* These options extend the defaultOptions for left axes
*/
defaultLeftAxisOptions: {
labels: {
x: -15,
y: null
},
title: {
rotation: 270
}
},
/**
* These options extend the defaultOptions for right axes
*/
defaultRightAxisOptions: {
labels: {
x: 15,
y: null
},
title: {
rotation: 90
}
},
/**
* These options extend the defaultOptions for bottom axes
*/
defaultBottomAxisOptions: {
labels: {
autoRotation: [-45],
x: 0,
y: null // based on font size
// overflow: undefined,
// staggerLines: null
},
title: {
rotation: 0
}
},
/**
* These options extend the defaultOptions for top axes
*/
defaultTopAxisOptions: {
labels: {
autoRotation: [-45],
x: 0,
y: -15
// overflow: undefined
// staggerLines: null
},
title: {
rotation: 0
}
},
/**
* Initialize the axis
*/
init: function (chart, userOptions) {
var isXAxis = userOptions.isX,
axis = this;
axis.chart = chart;
// Flag, is the axis horizontal
axis.horiz = chart.inverted ? !isXAxis : isXAxis;
// Flag, isXAxis
axis.isXAxis = isXAxis;
axis.coll = isXAxis ? 'xAxis' : 'yAxis';
axis.opposite = userOptions.opposite; // needed in setOptions
axis.side = userOptions.side || (axis.horiz ?
(axis.opposite ? 0 : 2) : // top : bottom
(axis.opposite ? 1 : 3)); // right : left
axis.setOptions(userOptions);
var options = this.options,
type = options.type,
isDatetimeAxis = type === 'datetime';
axis.labelFormatter = options.labels.formatter || axis.defaultLabelFormatter; // can be overwritten by dynamic format
// Flag, stagger lines or not
axis.userOptions = userOptions;
//axis.axisTitleMargin = UNDEFINED,// = options.title.margin,
axis.minPixelPadding = 0;
axis.reversed = options.reversed;
axis.visible = options.visible !== false;
axis.zoomEnabled = options.zoomEnabled !== false;
// Initial categories
axis.categories = options.categories || type === 'category';
axis.names = axis.names || []; // Preserve on update (#3830)
// Elements
//axis.axisGroup = UNDEFINED;
//axis.gridGroup = UNDEFINED;
//axis.axisTitle = UNDEFINED;
//axis.axisLine = UNDEFINED;
// Shorthand types
axis.isLog = type === 'logarithmic';
axis.isDatetimeAxis = isDatetimeAxis;
// Flag, if axis is linked to another axis
axis.isLinked = defined(options.linkedTo);
// Linked axis.
//axis.linkedParent = UNDEFINED;
// Tick positions
//axis.tickPositions = UNDEFINED; // array containing predefined positions
// Tick intervals
//axis.tickInterval = UNDEFINED;
//axis.minorTickInterval = UNDEFINED;
// Major ticks
axis.ticks = {};
axis.labelEdge = [];
// Minor ticks
axis.minorTicks = {};
// List of plotLines/Bands
axis.plotLinesAndBands = [];
// Alternate bands
axis.alternateBands = {};
// Axis metrics
//axis.left = UNDEFINED;
//axis.top = UNDEFINED;
//axis.width = UNDEFINED;
//axis.height = UNDEFINED;
//axis.bottom = UNDEFINED;
//axis.right = UNDEFINED;
//axis.transA = UNDEFINED;
//axis.transB = UNDEFINED;
//axis.oldTransA = UNDEFINED;
axis.len = 0;
//axis.oldMin = UNDEFINED;
//axis.oldMax = UNDEFINED;
//axis.oldUserMin = UNDEFINED;
//axis.oldUserMax = UNDEFINED;
//axis.oldAxisLength = UNDEFINED;
axis.minRange = axis.userMinRange = options.minRange || options.maxZoom;
axis.range = options.range;
axis.offset = options.offset || 0;
// Dictionary for stacks
axis.stacks = {};
axis.oldStacks = {};
axis.stacksTouched = 0;
// Min and max in the data
//axis.dataMin = UNDEFINED,
//axis.dataMax = UNDEFINED,
// The axis range
axis.max = null;
axis.min = null;
// User set min and max
//axis.userMin = UNDEFINED,
//axis.userMax = UNDEFINED,
// Crosshair options
axis.crosshair = pick(options.crosshair, splat(chart.options.tooltip.crosshairs)[isXAxis ? 0 : 1], false);
// Run Axis
var eventType,
events = axis.options.events;
// Register
if (inArray(axis, chart.axes) === -1) { // don't add it again on Axis.update()
if (isXAxis && !this.isColorAxis) { // #2713
chart.axes.splice(chart.xAxis.length, 0, axis);
} else {
chart.axes.push(axis);
}
chart[axis.coll].push(axis);
}
axis.series = axis.series || []; // populated by Series
// inverted charts have reversed xAxes as default
if (chart.inverted && isXAxis && axis.reversed === UNDEFINED) {
axis.reversed = true;
}
axis.removePlotBand = axis.removePlotBandOrLine;
axis.removePlotLine = axis.removePlotBandOrLine;
// register event listeners
for (eventType in events) {
addEvent(axis, eventType, events[eventType]);
}
// extend logarithmic axis
if (axis.isLog) {
axis.val2lin = log2lin;
axis.lin2val = lin2log;
}
},
/**
* Merge and set options
*/
setOptions: function (userOptions) {
this.options = merge(
this.defaultOptions,
this.isXAxis ? {} : this.defaultYAxisOptions,
[this.defaultTopAxisOptions, this.defaultRightAxisOptions,
this.defaultBottomAxisOptions, this.defaultLeftAxisOptions][this.side],
merge(
defaultOptions[this.coll], // if set in setOptions (#1053)
userOptions
)
);
},
/**
* The default label formatter. The context is a special config object for the label.
*/
defaultLabelFormatter: function () {
var axis = this.axis,
value = this.value,
categories = axis.categories,
dateTimeLabelFormat = this.dateTimeLabelFormat,
numericSymbols = defaultOptions.lang.numericSymbols,
i = numericSymbols && numericSymbols.length,
multi,
ret,
formatOption = axis.options.labels.format,
// make sure the same symbol is added for all labels on a linear axis
numericSymbolDetector = axis.isLog ? value : axis.tickInterval;
if (formatOption) {
ret = format(formatOption, this);
} else if (categories) {
ret = value;
} else if (dateTimeLabelFormat) { // datetime axis
ret = dateFormat(dateTimeLabelFormat, value);
} else if (i && numericSymbolDetector >= 1000) {
// Decide whether we should add a numeric symbol like k (thousands) or M (millions).
// If we are to enable this in tooltip or other places as well, we can move this
// logic to the numberFormatter and enable it by a parameter.
while (i-- && ret === UNDEFINED) {
multi = Math.pow(1000, i + 1);
if (numericSymbolDetector >= multi && (value * 10) % multi === 0 && numericSymbols[i] !== null) {
ret = Highcharts.numberFormat(value / multi, -1) + numericSymbols[i];
}
}
}
if (ret === UNDEFINED) {
if (mathAbs(value) >= 10000) { // add thousands separators
ret = Highcharts.numberFormat(value, -1);
} else { // small numbers
ret = Highcharts.numberFormat(value, -1, UNDEFINED, ''); // #2466
}
}
return ret;
},
/**
* Get the minimum and maximum for the series of each axis
*/
getSeriesExtremes: function () {
var axis = this,
chart = axis.chart;
axis.hasVisibleSeries = false;
// Reset properties in case we're redrawing (#3353)
axis.dataMin = axis.dataMax = axis.threshold = null;
axis.softThreshold = !axis.isXAxis;
if (axis.buildStacks) {
axis.buildStacks();
}
// loop through this axis' series
each(axis.series, function (series) {
if (series.visible || !chart.options.chart.ignoreHiddenSeries) {
var seriesOptions = series.options,
xData,
threshold = seriesOptions.threshold,
seriesDataMin,
seriesDataMax;
axis.hasVisibleSeries = true;
// Validate threshold in logarithmic axes
if (axis.isLog && threshold <= 0) {
threshold = null;
}
// Get dataMin and dataMax for X axes
if (axis.isXAxis) {
xData = series.xData;
if (xData.length) {
axis.dataMin = mathMin(pick(axis.dataMin, xData[0]), arrayMin(xData));
axis.dataMax = mathMax(pick(axis.dataMax, xData[0]), arrayMax(xData));
}
// Get dataMin and dataMax for Y axes, as well as handle stacking and processed data
} else {
// Get this particular series extremes
series.getExtremes();
seriesDataMax = series.dataMax;
seriesDataMin = series.dataMin;
// Get the dataMin and dataMax so far. If percentage is used, the min and max are
// always 0 and 100. If seriesDataMin and seriesDataMax is null, then series
// doesn't have active y data, we continue with nulls
if (defined(seriesDataMin) && defined(seriesDataMax)) {
axis.dataMin = mathMin(pick(axis.dataMin, seriesDataMin), seriesDataMin);
axis.dataMax = mathMax(pick(axis.dataMax, seriesDataMax), seriesDataMax);
}
// Adjust to threshold
if (defined(threshold)) {
axis.threshold = threshold;
}
// If any series has a hard threshold, it takes precedence
if (!seriesOptions.softThreshold || axis.isLog) {
axis.softThreshold = false;
}
}
}
});
},
/**
* Translate from axis value to pixel position on the chart, or back
*
*/
translate: function (val, backwards, cvsCoord, old, handleLog, pointPlacement) {
var axis = this.linkedParent || this, // #1417
sign = 1,
cvsOffset = 0,
localA = old ? axis.oldTransA : axis.transA,
localMin = old ? axis.oldMin : axis.min,
returnValue,
minPixelPadding = axis.minPixelPadding,
doPostTranslate = (axis.doPostTranslate || (axis.isLog && handleLog)) && axis.lin2val;
if (!localA) {
localA = axis.transA;
}
// In vertical axes, the canvas coordinates start from 0 at the top like in
// SVG.
if (cvsCoord) {
sign *= -1; // canvas coordinates inverts the value
cvsOffset = axis.len;
}
// Handle reversed axis
if (axis.reversed) {
sign *= -1;
cvsOffset -= sign * (axis.sector || axis.len);
}
// From pixels to value
if (backwards) { // reverse translation
val = val * sign + cvsOffset;
val -= minPixelPadding;
returnValue = val / localA + localMin; // from chart pixel to value
if (doPostTranslate) { // log and ordinal axes
returnValue = axis.lin2val(returnValue);
}
// From value to pixels
} else {
if (doPostTranslate) { // log and ordinal axes
val = axis.val2lin(val);
}
if (pointPlacement === 'between') {
pointPlacement = 0.5;
}
returnValue = sign * (val - localMin) * localA + cvsOffset + (sign * minPixelPadding) +
(isNumber(pointPlacement) ? localA * pointPlacement * axis.pointRange : 0);
}
return returnValue;
},
/**
* Utility method to translate an axis value to pixel position.
* @param {Number} value A value in terms of axis units
* @param {Boolean} paneCoordinates Whether to return the pixel coordinate relative to the chart
* or just the axis/pane itself.
*/
toPixels: function (value, paneCoordinates) {
return this.translate(value, false, !this.horiz, null, true) + (paneCoordinates ? 0 : this.pos);
},
/*
* Utility method to translate a pixel position in to an axis value
* @param {Number} pixel The pixel value coordinate
* @param {Boolean} paneCoordiantes Whether the input pixel is relative to the chart or just the
* axis/pane itself.
*/
toValue: function (pixel, paneCoordinates) {
return this.translate(pixel - (paneCoordinates ? 0 : this.pos), true, !this.horiz, null, true);
},
/**
* Create the path for a plot line that goes from the given value on
* this axis, across the plot to the opposite side
* @param {Number} value
* @param {Number} lineWidth Used for calculation crisp line
* @param {Number] old Use old coordinates (for resizing and rescaling)
*/
getPlotLinePath: function (value, lineWidth, old, force, translatedValue) {
var axis = this,
chart = axis.chart,
axisLeft = axis.left,
axisTop = axis.top,
x1,
y1,
x2,
y2,
cHeight = (old && chart.oldChartHeight) || chart.chartHeight,
cWidth = (old && chart.oldChartWidth) || chart.chartWidth,
skip,
transB = axis.transB,
/**
* Check if x is between a and b. If not, either move to a/b or skip,
* depending on the force parameter.
*/
between = function (x, a, b) {
if (x < a || x > b) {
if (force) {
x = mathMin(mathMax(a, x), b);
} else {
skip = true;
}
}
return x;
};
translatedValue = pick(translatedValue, axis.translate(value, null, null, old));
x1 = x2 = mathRound(translatedValue + transB);
y1 = y2 = mathRound(cHeight - translatedValue - transB);
if (isNaN(translatedValue)) { // no min or max
skip = true;
} else if (axis.horiz) {
y1 = axisTop;
y2 = cHeight - axis.bottom;
x1 = x2 = between(x1, axisLeft, axisLeft + axis.width);
} else {
x1 = axisLeft;
x2 = cWidth - axis.right;
y1 = y2 = between(y1, axisTop, axisTop + axis.height);
}
return skip && !force ?
null :
chart.renderer.crispLine([M, x1, y1, L, x2, y2], lineWidth || 1);
},
/**
* Set the tick positions of a linear axis to round values like whole tens or every five.
*/
getLinearTickPositions: function (tickInterval, min, max) {
var pos,
lastPos,
roundedMin = correctFloat(mathFloor(min / tickInterval) * tickInterval),
roundedMax = correctFloat(mathCeil(max / tickInterval) * tickInterval),
tickPositions = [];
// For single points, add a tick regardless of the relative position (#2662)
if (min === max && isNumber(min)) {
return [min];
}
// Populate the intermediate values
pos = roundedMin;
while (pos <= roundedMax) {
// Place the tick on the rounded value
tickPositions.push(pos);
// Always add the raw tickInterval, not the corrected one.
pos = correctFloat(pos + tickInterval);
// If the interval is not big enough in the current min - max range to actually increase
// the loop variable, we need to break out to prevent endless loop. Issue #619
if (pos === lastPos) {
break;
}
// Record the last value
lastPos = pos;
}
return tickPositions;
},
/**
* Return the minor tick positions. For logarithmic axes, reuse the same logic
* as for major ticks.
*/
getMinorTickPositions: function () {
var axis = this,
options = axis.options,
tickPositions = axis.tickPositions,
minorTickInterval = axis.minorTickInterval,
minorTickPositions = [],
pos,
i,
pointRangePadding = axis.pointRangePadding || 0,
min = axis.min - pointRangePadding, // #1498
max = axis.max + pointRangePadding, // #1498
range = max - min,
len;
// If minor ticks get too dense, they are hard to read, and may cause long running script. So we don't draw them.
if (range && range / minorTickInterval < axis.len / 3) { // #3875
if (axis.isLog) {
len = tickPositions.length;
for (i = 1; i < len; i++) {
minorTickPositions = minorTickPositions.concat(
axis.getLogTickPositions(minorTickInterval, tickPositions[i - 1], tickPositions[i], true)
);
}
} else if (axis.isDatetimeAxis && options.minorTickInterval === 'auto') { // #1314
minorTickPositions = minorTickPositions.concat(
axis.getTimeTicks(
axis.normalizeTimeTickInterval(minorTickInterval),
min,
max,
options.startOfWeek
)
);
} else {
for (pos = min + (tickPositions[0] - min) % minorTickInterval; pos <= max; pos += minorTickInterval) {
minorTickPositions.push(pos);
}
}
}
if(minorTickPositions.length !== 0) { // don't change the extremes, when there is no minor ticks
axis.trimTicks(minorTickPositions, options.startOnTick, options.endOnTick); // #3652 #3743 #1498
}
return minorTickPositions;
},
/**
* Adjust the min and max for the minimum range. Keep in mind that the series data is
* not yet processed, so we don't have information on data cropping and grouping, or
* updated axis.pointRange or series.pointRange. The data can't be processed until
* we have finally established min and max.
*/
adjustForMinRange: function () {
var axis = this,
options = axis.options,
min = axis.min,
max = axis.max,
zoomOffset,
spaceAvailable = axis.dataMax - axis.dataMin >= axis.minRange,
closestDataRange,
i,
distance,
xData,
loopLength,
minArgs,
maxArgs,
minRange;
// Set the automatic minimum range based on the closest point distance
if (axis.isXAxis && axis.minRange === UNDEFINED && !axis.isLog) {
if (defined(options.min) || defined(options.max)) {
axis.minRange = null; // don't do this again
} else {
// Find the closest distance between raw data points, as opposed to
// closestPointRange that applies to processed points (cropped and grouped)
each(axis.series, function (series) {
xData = series.xData;
loopLength = series.xIncrement ? 1 : xData.length - 1;
for (i = loopLength; i > 0; i--) {
distance = xData[i] - xData[i - 1];
if (closestDataRange === UNDEFINED || distance < closestDataRange) {
closestDataRange = distance;
}
}
});
axis.minRange = mathMin(closestDataRange * 5, axis.dataMax - axis.dataMin);
}
}
// if minRange is exceeded, adjust
if (max - min < axis.minRange) {
minRange = axis.minRange;
zoomOffset = (minRange - max + min) / 2;
// if min and max options have been set, don't go beyond it
minArgs = [min - zoomOffset, pick(options.min, min - zoomOffset)];
if (spaceAvailable) { // if space is available, stay within the data range
minArgs[2] = axis.dataMin;
}
min = arrayMax(minArgs);
maxArgs = [min + minRange, pick(options.max, min + minRange)];
if (spaceAvailable) { // if space is availabe, stay within the data range
maxArgs[2] = axis.dataMax;
}
max = arrayMin(maxArgs);
// now if the max is adjusted, adjust the min back
if (max - min < minRange) {
minArgs[0] = max - minRange;
minArgs[1] = pick(options.min, max - minRange);
min = arrayMax(minArgs);
}
}
// Record modified extremes
axis.min = min;
axis.max = max;
},
/**
* Update translation information
*/
setAxisTranslation: function (saveOld) {
var axis = this,
range = axis.max - axis.min,
pointRange = axis.axisPointRange || 0,
closestPointRange,
minPointOffset = 0,
pointRangePadding = 0,
linkedParent = axis.linkedParent,
ordinalCorrection,
hasCategories = !!axis.categories,
transA = axis.transA,
isXAxis = axis.isXAxis;
// Adjust translation for padding. Y axis with categories need to go through the same (#1784).
if (isXAxis || hasCategories || pointRange) {
if (linkedParent) {
minPointOffset = linkedParent.minPointOffset;
pointRangePadding = linkedParent.pointRangePadding;
} else {
each(axis.series, function (series) {
var seriesPointRange = hasCategories ? 1 : (isXAxis ? series.pointRange : (axis.axisPointRange || 0)), // #2806
pointPlacement = series.options.pointPlacement,
seriesClosestPointRange = series.closestPointRange;
pointRange = mathMax(pointRange, seriesPointRange);
if (!axis.single) {
// minPointOffset is the value padding to the left of the axis in order to make
// room for points with a pointRange, typically columns. When the pointPlacement option
// is 'between' or 'on', this padding does not apply.
minPointOffset = mathMax(
minPointOffset,
isString(pointPlacement) ? 0 : seriesPointRange / 2
);
// Determine the total padding needed to the length of the axis to make room for the
// pointRange. If the series' pointPlacement is 'on', no padding is added.
pointRangePadding = mathMax(
pointRangePadding,
pointPlacement === 'on' ? 0 : seriesPointRange
);
}
// Set the closestPointRange
if (!series.noSharedTooltip && defined(seriesClosestPointRange)) {
closestPointRange = defined(closestPointRange) ?
mathMin(closestPointRange, seriesClosestPointRange) :
seriesClosestPointRange;
}
});
}
// Record minPointOffset and pointRangePadding
ordinalCorrection = axis.ordinalSlope && closestPointRange ? axis.ordinalSlope / closestPointRange : 1; // #988, #1853
axis.minPointOffset = minPointOffset = minPointOffset * ordinalCorrection;
axis.pointRangePadding = pointRangePadding = pointRangePadding * ordinalCorrection;
// pointRange means the width reserved for each point, like in a column chart
axis.pointRange = mathMin(pointRange, range);
// closestPointRange means the closest distance between points. In columns
// it is mostly equal to pointRange, but in lines pointRange is 0 while closestPointRange
// is some other value
if (isXAxis) {
axis.closestPointRange = closestPointRange;
}
}
// Secondary values
if (saveOld) {
axis.oldTransA = transA;
}
axis.translationSlope = axis.transA = transA = axis.len / ((range + pointRangePadding) || 1);
axis.transB = axis.horiz ? axis.left : axis.bottom; // translation addend
axis.minPixelPadding = transA * minPointOffset;
},
minFromRange: function () {
return this.max - this.range;
},
/**
* Set the tick positions to round values and optionally extend the extremes
* to the nearest tick
*/
setTickInterval: function (secondPass) {
var axis = this,
chart = axis.chart,
options = axis.options,
isLog = axis.isLog,
isDatetimeAxis = axis.isDatetimeAxis,
isXAxis = axis.isXAxis,
isLinked = axis.isLinked,
maxPadding = options.maxPadding,
minPadding = options.minPadding,
length,
linkedParentExtremes,
tickIntervalOption = options.tickInterval,
minTickInterval,
tickPixelIntervalOption = options.tickPixelInterval,
categories = axis.categories,
threshold = axis.threshold,
softThreshold = axis.softThreshold,
thresholdMin,
thresholdMax,
hardMin,
hardMax;
if (!isDatetimeAxis && !categories && !isLinked) {
this.getTickAmount();
}
// Min or max set either by zooming/setExtremes or initial options
hardMin = pick(axis.userMin, options.min);
hardMax = pick(axis.userMax, options.max);
// Linked axis gets the extremes from the parent axis
if (isLinked) {
axis.linkedParent = chart[axis.coll][options.linkedTo];
linkedParentExtremes = axis.linkedParent.getExtremes();
axis.min = pick(linkedParentExtremes.min, linkedParentExtremes.dataMin);
axis.max = pick(linkedParentExtremes.max, linkedParentExtremes.dataMax);
if (options.type !== axis.linkedParent.options.type) {
error(11, 1); // Can't link axes of different type
}
// Initial min and max from the extreme data values
} else {
// Adjust to hard threshold
if (!softThreshold && defined(threshold)) {
if (axis.dataMin >= threshold) {
thresholdMin = threshold;
minPadding = 0;
} else if (axis.dataMax <= threshold) {
thresholdMax = threshold;
maxPadding = 0;
}
}
axis.min = pick(hardMin, thresholdMin, axis.dataMin);
axis.max = pick(hardMax, thresholdMax, axis.dataMax);
}
if (isLog) {
if (!secondPass && mathMin(axis.min, pick(axis.dataMin, axis.min)) <= 0) { // #978
error(10, 1); // Can't plot negative values on log axis
}
// The correctFloat cures #934, float errors on full tens. But it
// was too aggressive for #4360 because of conversion back to lin,
// therefore use precision 15.
axis.min = correctFloat(log2lin(axis.min), 15);
axis.max = correctFloat(log2lin(axis.max), 15);
}
// handle zoomed range
if (axis.range && defined(axis.max)) {
axis.userMin = axis.min = hardMin = mathMax(axis.min, axis.minFromRange()); // #618
axis.userMax = hardMax = axis.max;
axis.range = null; // don't use it when running setExtremes
}
// Hook for adjusting this.min and this.max. Used by bubble series.
if (axis.beforePadding) {
axis.beforePadding();
}
// adjust min and max for the minimum range
axis.adjustForMinRange();
// Pad the values to get clear of the chart's edges. To avoid tickInterval taking the padding
// into account, we do this after computing tick interval (#1337).
if (!categories && !axis.axisPointRange && !axis.usePercentage && !isLinked && defined(axis.min) && defined(axis.max)) {
length = axis.max - axis.min;
if (length) {
if (!defined(hardMin) && minPadding) {
axis.min -= length * minPadding;
}
if (!defined(hardMax) && maxPadding) {
axis.max += length * maxPadding;
}
}
}
// Stay within floor and ceiling
if (isNumber(options.floor)) {
axis.min = mathMax(axis.min, options.floor);
}
if (isNumber(options.ceiling)) {
axis.max = mathMin(axis.max, options.ceiling);
}
// When the threshold is soft, adjust the extreme value only if
// the data extreme and the padded extreme land on either side of the threshold. For example,
// a series of [0, 1, 2, 3] would make the yAxis add a tick for -1 because of the
// default minPadding and startOnTick options. This is prevented by the softThreshold
// option.
if (softThreshold && defined(axis.dataMin)) {
threshold = threshold || 0;
if (!defined(hardMin) && axis.min < threshold && axis.dataMin >= threshold) {
axis.min = threshold;
} else if (!defined(hardMax) && axis.max > threshold && axis.dataMax <= threshold) {
axis.max = threshold;
}
}
// get tickInterval
if (axis.min === axis.max || axis.min === undefined || axis.max === undefined) {
axis.tickInterval = 1;
} else if (isLinked && !tickIntervalOption &&
tickPixelIntervalOption === axis.linkedParent.options.tickPixelInterval) {
axis.tickInterval = tickIntervalOption = axis.linkedParent.tickInterval;
} else {
axis.tickInterval = pick(
tickIntervalOption,
this.tickAmount ? ((axis.max - axis.min) / mathMax(this.tickAmount - 1, 1)) : undefined,
categories ? // for categoried axis, 1 is default, for linear axis use tickPix
1 :
// don't let it be more than the data range
(axis.max - axis.min) * tickPixelIntervalOption / mathMax(axis.len, tickPixelIntervalOption)
);
}
// Now we're finished detecting min and max, crop and group series data. This
// is in turn needed in order to find tick positions in ordinal axes.
if (isXAxis && !secondPass) {
each(axis.series, function (series) {
series.processData(axis.min !== axis.oldMin || axis.max !== axis.oldMax);
});
}
// set the translation factor used in translate function
axis.setAxisTranslation(true);
// hook for ordinal axes and radial axes
if (axis.beforeSetTickPositions) {
axis.beforeSetTickPositions();
}
// hook for extensions, used in Highstock ordinal axes
if (axis.postProcessTickInterval) {
axis.tickInterval = axis.postProcessTickInterval(axis.tickInterval);
}
// In column-like charts, don't cramp in more ticks than there are points (#1943)
if (axis.pointRange) {
axis.tickInterval = mathMax(axis.pointRange, axis.tickInterval);
}
// Before normalizing the tick interval, handle minimum tick interval. This applies only if tickInterval is not defined.
minTickInterval = pick(options.minTickInterval, axis.isDatetimeAxis && axis.closestPointRange);
if (!tickIntervalOption && axis.tickInterval < minTickInterval) {
axis.tickInterval = minTickInterval;
}
// for linear axes, get magnitude and normalize the interval
if (!isDatetimeAxis && !isLog && !tickIntervalOption) {
axis.tickInterval = normalizeTickInterval(
axis.tickInterval,
null,
getMagnitude(axis.tickInterval),
// If the tick interval is between 0.5 and 5 and the axis max is in the order of
// thousands, chances are we are dealing with years. Don't allow decimals. #3363.
pick(options.allowDecimals, !(axis.tickInterval > 0.5 && axis.tickInterval < 5 && axis.max > 1000 && axis.max < 9999)),
!!this.tickAmount
);
}
// Prevent ticks from getting so close that we can't draw the labels
if (!this.tickAmount && this.len) { // Color axis with disabled legend has no length
axis.tickInterval = axis.unsquish();
}
this.setTickPositions();
},
/**
* Now we have computed the normalized tickInterval, get the tick positions
*/
setTickPositions: function () {
var options = this.options,
tickPositions,
tickPositionsOption = options.tickPositions,
tickPositioner = options.tickPositioner,
startOnTick = options.startOnTick,
endOnTick = options.endOnTick,
single;
// Set the tickmarkOffset
this.tickmarkOffset = (this.categories && options.tickmarkPlacement === 'between' &&
this.tickInterval === 1) ? 0.5 : 0; // #3202
// get minorTickInterval
this.minorTickInterval = options.minorTickInterval === 'auto' && this.tickInterval ?
this.tickInterval / 5 : options.minorTickInterval;
// Find the tick positions
this.tickPositions = tickPositions = tickPositionsOption && tickPositionsOption.slice(); // Work on a copy (#1565)
if (!tickPositions) {
if (this.isDatetimeAxis) {
tickPositions = this.getTimeTicks(
this.normalizeTimeTickInterval(this.tickInterval, options.units),
this.min,
this.max,
options.startOfWeek,
this.ordinalPositions,
this.closestPointRange,
true
);
} else if (this.isLog) {
tickPositions = this.getLogTickPositions(this.tickInterval, this.min, this.max);
} else {
tickPositions = this.getLinearTickPositions(this.tickInterval, this.min, this.max);
}
// Too dense ticks, keep only the first and last (#4477)
if (tickPositions.length > this.len) {
tickPositions = [tickPositions[0], tickPositions.pop()];
}
this.tickPositions = tickPositions;
// Run the tick positioner callback, that allows modifying auto tick positions.
if (tickPositioner) {
tickPositioner = tickPositioner.apply(this, [this.min, this.max]);
if (tickPositioner) {
this.tickPositions = tickPositions = tickPositioner;
}
}
}
if (!this.isLinked) {
// reset min/max or remove extremes based on start/end on tick
this.trimTicks(tickPositions, startOnTick, endOnTick);
// When there is only one point, or all points have the same value on this axis, then min
// and max are equal and tickPositions.length is 0 or 1. In this case, add some padding
// in order to center the point, but leave it with one tick. #1337.
if (this.min === this.max && defined(this.min) && !this.tickAmount) {
// Substract half a unit (#2619, #2846, #2515, #3390)
single = true;
this.min -= 0.5;
this.max += 0.5;
}
this.single = single;
if (!tickPositionsOption && !tickPositioner) {
this.adjustTickAmount();
}
}
},
/**
* Handle startOnTick and endOnTick by either adapting to padding min/max or rounded min/max
*/
trimTicks: function (tickPositions, startOnTick, endOnTick) {
var roundedMin = tickPositions[0],
roundedMax = tickPositions[tickPositions.length - 1],
minPointOffset = this.minPointOffset || 0;
if (startOnTick) {
this.min = roundedMin;
} else if (this.min - minPointOffset > roundedMin) {
tickPositions.shift();
}
if (endOnTick) {
this.max = roundedMax;
} else if (this.max + minPointOffset < roundedMax) {
tickPositions.pop();
}
// If no tick are left, set one tick in the middle (#3195)
if (tickPositions.length === 0 && defined(roundedMin)) {
tickPositions.push((roundedMax + roundedMin) / 2);
}
},
/**
* Set the max ticks of either the x and y axis collection
*/
getTickAmount: function () {
var others = {}, // Whether there is another axis to pair with this one
hasOther,
options = this.options,
tickAmount = options.tickAmount,
tickPixelInterval = options.tickPixelInterval;
if (!defined(options.tickInterval) && this.len < tickPixelInterval && !this.isRadial &&
!this.isLog && options.startOnTick && options.endOnTick) {
tickAmount = 2;
}
if (!tickAmount && this.chart.options.chart.alignTicks !== false && options.alignTicks !== false) {
// Check if there are multiple axes in the same pane
each(this.chart[this.coll], function (axis) {
var options = axis.options,
horiz = axis.horiz,
key = [horiz ? options.left : options.top, horiz ? options.width : options.height, options.pane].join(',');
if (axis.series.length) { // #4442
if (others[key]) {
hasOther = true; // #4201
} else {
others[key] = 1;
}
}
});
if (hasOther) {
// Add 1 because 4 tick intervals require 5 ticks (including first and last)
tickAmount = mathCeil(this.len / tickPixelInterval) + 1;
}
}
// For tick amounts of 2 and 3, compute five ticks and remove the intermediate ones. This
// prevents the axis from adding ticks that are too far away from the data extremes.
if (tickAmount < 4) {
this.finalTickAmt = tickAmount;
tickAmount = 5;
}
this.tickAmount = tickAmount;
},
/**
* When using multiple axes, adjust the number of ticks to match the highest
* number of ticks in that group
*/
adjustTickAmount: function () {
var tickInterval = this.tickInterval,
tickPositions = this.tickPositions,
tickAmount = this.tickAmount,
finalTickAmt = this.finalTickAmt,
currentTickAmount = tickPositions && tickPositions.length,
i,
len;
if (currentTickAmount < tickAmount) { // TODO: Check #3411
while (tickPositions.length < tickAmount) {
tickPositions.push(correctFloat(
tickPositions[tickPositions.length - 1] + tickInterval
));
}
this.transA *= (currentTickAmount - 1) / (tickAmount - 1);
this.max = tickPositions[tickPositions.length - 1];
// We have too many ticks, run second pass to try to reduce ticks
} else if (currentTickAmount > tickAmount) {
this.tickInterval *= 2;
this.setTickPositions();
}
// The finalTickAmt property is set in getTickAmount
if (defined(finalTickAmt)) {
i = len = tickPositions.length;
while (i--) {
if (
(finalTickAmt === 3 && i % 2 === 1) || // Remove every other tick
(finalTickAmt <= 2 && i > 0 && i < len - 1) // Remove all but first and last
) {
tickPositions.splice(i, 1);
}
}
this.finalTickAmt = UNDEFINED;
}
},
/**
* Set the scale based on data min and max, user set min and max or options
*
*/
setScale: function () {
var axis = this,
isDirtyData,
isDirtyAxisLength;
axis.oldMin = axis.min;
axis.oldMax = axis.max;
axis.oldAxisLength = axis.len;
// set the new axisLength
axis.setAxisSize();
//axisLength = horiz ? axisWidth : axisHeight;
isDirtyAxisLength = axis.len !== axis.oldAxisLength;
// is there new data?
each(axis.series, function (series) {
if (series.isDirtyData || series.isDirty ||
series.xAxis.isDirty) { // when x axis is dirty, we need new data extremes for y as well
isDirtyData = true;
}
});
// do we really need to go through all this?
if (isDirtyAxisLength || isDirtyData || axis.isLinked || axis.forceRedraw ||
axis.userMin !== axis.oldUserMin || axis.userMax !== axis.oldUserMax) {
if (axis.resetStacks) {
axis.resetStacks();
}
axis.forceRedraw = false;
// get data extremes if needed
axis.getSeriesExtremes();
// get fixed positions based on tickInterval
axis.setTickInterval();
// record old values to decide whether a rescale is necessary later on (#540)
axis.oldUserMin = axis.userMin;
axis.oldUserMax = axis.userMax;
// Mark as dirty if it is not already set to dirty and extremes have changed. #595.
if (!axis.isDirty) {
axis.isDirty = isDirtyAxisLength || axis.min !== axis.oldMin || axis.max !== axis.oldMax;
}
} else if (axis.cleanStacks) {
axis.cleanStacks();
}
},
/**
* Set the extremes and optionally redraw
* @param {Number} newMin
* @param {Number} newMax
* @param {Boolean} redraw
* @param {Boolean|Object} animation Whether to apply animation, and optionally animation
* configuration
* @param {Object} eventArguments
*
*/
setExtremes: function (newMin, newMax, redraw, animation, eventArguments) {
var axis = this,
chart = axis.chart;
redraw = pick(redraw, true); // defaults to true
each(axis.series, function (serie) {
delete serie.kdTree;
});
// Extend the arguments with min and max
eventArguments = extend(eventArguments, {
min: newMin,
max: newMax
});
// Fire the event
fireEvent(axis, 'setExtremes', eventArguments, function () { // the default event handler
axis.userMin = newMin;
axis.userMax = newMax;
axis.eventArgs = eventArguments;
if (redraw) {
chart.redraw(animation);
}
});
},
/**
* Overridable method for zooming chart. Pulled out in a separate method to allow overriding
* in stock charts.
*/
zoom: function (newMin, newMax) {
var dataMin = this.dataMin,
dataMax = this.dataMax,
options = this.options,
min = mathMin(dataMin, pick(options.min, dataMin)),
max = mathMax(dataMax, pick(options.max, dataMax));
// Prevent pinch zooming out of range. Check for defined is for #1946. #1734.
if (!this.allowZoomOutside) {
if (defined(dataMin) && newMin <= min) {
newMin = min;
}
if (defined(dataMax) && newMax >= max) {
newMax = max;
}
}
// In full view, displaying the reset zoom button is not required
this.displayBtn = newMin !== UNDEFINED || newMax !== UNDEFINED;
// Do it
this.setExtremes(
newMin,
newMax,
false,
UNDEFINED,
{ trigger: 'zoom' }
);
return true;
},
/**
* Update the axis metrics
*/
setAxisSize: function () {
var chart = this.chart,
options = this.options,
offsetLeft = options.offsetLeft || 0,
offsetRight = options.offsetRight || 0,
horiz = this.horiz,
width = pick(options.width, chart.plotWidth - offsetLeft + offsetRight),
height = pick(options.height, chart.plotHeight),
top = pick(options.top, chart.plotTop),
left = pick(options.left, chart.plotLeft + offsetLeft),
percentRegex = /%$/;
// Check for percentage based input values
if (percentRegex.test(height)) {
height = parseFloat(height) / 100 * chart.plotHeight;
}
if (percentRegex.test(top)) {
top = parseFloat(top) / 100 * chart.plotHeight + chart.plotTop;
}
// Expose basic values to use in Series object and navigator
this.left = left;
this.top = top;
this.width = width;
this.height = height;
this.bottom = chart.chartHeight - height - top;
this.right = chart.chartWidth - width - left;
// Direction agnostic properties
this.len = mathMax(horiz ? width : height, 0); // mathMax fixes #905
this.pos = horiz ? left : top; // distance from SVG origin
},
/**
* Get the actual axis extremes
*/
getExtremes: function () {
var axis = this,
isLog = axis.isLog;
return {
min: isLog ? correctFloat(lin2log(axis.min)) : axis.min,
max: isLog ? correctFloat(lin2log(axis.max)) : axis.max,
dataMin: axis.dataMin,
dataMax: axis.dataMax,
userMin: axis.userMin,
userMax: axis.userMax
};
},
/**
* Get the zero plane either based on zero or on the min or max value.
* Used in bar and area plots
*/
getThreshold: function (threshold) {
var axis = this,
isLog = axis.isLog,
realMin = isLog ? lin2log(axis.min) : axis.min,
realMax = isLog ? lin2log(axis.max) : axis.max;
// With a threshold of null, make the columns/areas rise from the top or bottom
// depending on the value, assuming an actual threshold of 0 (#4233).
if (threshold === null) {
threshold = realMax < 0 ? realMax : realMin;
} else if (realMin > threshold) {
threshold = realMin;
} else if (realMax < threshold) {
threshold = realMax;
}
return axis.translate(threshold, 0, 1, 0, 1);
},
/**
* Compute auto alignment for the axis label based on which side the axis is on
* and the given rotation for the label
*/
autoLabelAlign: function (rotation) {
var ret,
angle = (pick(rotation, 0) - (this.side * 90) + 720) % 360;
if (angle > 15 && angle < 165) {
ret = 'right';
} else if (angle > 195 && angle < 345) {
ret = 'left';
} else {
ret = 'center';
}
return ret;
},
/**
* Prevent the ticks from getting so close we can't draw the labels. On a horizontal
* axis, this is handled by rotating the labels, removing ticks and adding ellipsis.
* On a vertical axis remove ticks and add ellipsis.
*/
unsquish: function () {
var chart = this.chart,
ticks = this.ticks,
labelOptions = this.options.labels,
horiz = this.horiz,
tickInterval = this.tickInterval,
newTickInterval = tickInterval,
slotSize = this.len / (((this.categories ? 1 : 0) + this.max - this.min) / tickInterval),
rotation,
rotationOption = labelOptions.rotation,
labelMetrics = chart.renderer.fontMetrics(labelOptions.style.fontSize, ticks[0] && ticks[0].label),
step,
bestScore = Number.MAX_VALUE,
autoRotation,
// Return the multiple of tickInterval that is needed to avoid collision
getStep = function (spaceNeeded) {
var step = spaceNeeded / (slotSize || 1);
step = step > 1 ? mathCeil(step) : 1;
return step * tickInterval;
};
if (horiz) {
autoRotation = !labelOptions.staggerLines && !labelOptions.step && ( // #3971
defined(rotationOption) ?
[rotationOption] :
slotSize < pick(labelOptions.autoRotationLimit, 80) && labelOptions.autoRotation
);
if (autoRotation) {
// Loop over the given autoRotation options, and determine which gives the best score. The
// best score is that with the lowest number of steps and a rotation closest to horizontal.
each(autoRotation, function (rot) {
var score;
if (rot === rotationOption || (rot && rot >= -90 && rot <= 90)) { // #3891
step = getStep(mathAbs(labelMetrics.h / mathSin(deg2rad * rot)));
score = step + mathAbs(rot / 360);
if (score < bestScore) {
bestScore = score;
rotation = rot;
newTickInterval = step;
}
}
});
}
} else if (!labelOptions.step) { // #4411
newTickInterval = getStep(labelMetrics.h);
}
this.autoRotation = autoRotation;
this.labelRotation = pick(rotation, rotationOption);
return newTickInterval;
},
renderUnsquish: function () {
var chart = this.chart,
renderer = chart.renderer,
tickPositions = this.tickPositions,
ticks = this.ticks,
labelOptions = this.options.labels,
horiz = this.horiz,
margin = chart.margin,
slotCount = this.categories ? tickPositions.length : tickPositions.length - 1,
slotWidth = this.slotWidth = (horiz && !labelOptions.step && !labelOptions.rotation &&
((this.staggerLines || 1) * chart.plotWidth) / slotCount) ||
(!horiz && ((margin[3] && (margin[3] - chart.spacing[3])) || chart.chartWidth * 0.33)), // #1580, #1931,
innerWidth = mathMax(1, mathRound(slotWidth - 2 * (labelOptions.padding || 5))),
attr = {},
labelMetrics = renderer.fontMetrics(labelOptions.style.fontSize, ticks[0] && ticks[0].label),
textOverflowOption = labelOptions.style.textOverflow,
css,
labelLength = 0,
label,
i,
pos;
// Set rotation option unless it is "auto", like in gauges
if (!isString(labelOptions.rotation)) {
attr.rotation = labelOptions.rotation || 0; // #4443
}
// Handle auto rotation on horizontal axis
if (this.autoRotation) {
// Get the longest label length
each(tickPositions, function (tick) {
tick = ticks[tick];
if (tick && tick.labelLength > labelLength) {
labelLength = tick.labelLength;
}
});
// Apply rotation only if the label is too wide for the slot, and
// the label is wider than its height.
if (labelLength > innerWidth && labelLength > labelMetrics.h) {
attr.rotation = this.labelRotation;
} else {
this.labelRotation = 0;
}
// Handle word-wrap or ellipsis on vertical axis
} else if (slotWidth) {
// For word-wrap or ellipsis
css = { width: innerWidth + PX };
if (!textOverflowOption) {
css.textOverflow = 'clip';
// On vertical axis, only allow word wrap if there is room for more lines.
i = tickPositions.length;
while (!horiz && i--) {
pos = tickPositions[i];
label = ticks[pos].label;
if (label) {
// Reset ellipsis in order to get the correct bounding box (#4070)
if (label.styles.textOverflow === 'ellipsis') {
label.css({ textOverflow: 'clip' });
}
if (label.getBBox().height > this.len / tickPositions.length - (labelMetrics.h - labelMetrics.f)) {
label.specCss = { textOverflow: 'ellipsis' };
}
}
}
}
}
// Add ellipsis if the label length is significantly longer than ideal
if (attr.rotation) {
css = {
width: (labelLength > chart.chartHeight * 0.5 ? chart.chartHeight * 0.33 : chart.chartHeight) + PX
};
if (!textOverflowOption) {
css.textOverflow = 'ellipsis';
}
}
// Set the explicit or automatic label alignment
this.labelAlign = attr.align = labelOptions.align || this.autoLabelAlign(this.labelRotation);
// Apply general and specific CSS
each(tickPositions, function (pos) {
var tick = ticks[pos],
label = tick && tick.label;
if (label) {
label.attr(attr); // This needs to go before the CSS in old IE (#4502)
if (css) {
label.css(merge(css, label.specCss));
}
delete label.specCss;
tick.rotation = attr.rotation;
}
});
// TODO: Why not part of getLabelPosition?
this.tickRotCorr = renderer.rotCorr(labelMetrics.b, this.labelRotation || 0, this.side === 2);
},
/**
* Return true if the axis has associated data
*/
hasData: function () {
return this.hasVisibleSeries || (defined(this.min) && defined(this.max) && !!this.tickPositions);
},
/**
* Render the tick labels to a preliminary position to get their sizes
*/
getOffset: function () {
var axis = this,
chart = axis.chart,
renderer = chart.renderer,
options = axis.options,
tickPositions = axis.tickPositions,
ticks = axis.ticks,
horiz = axis.horiz,
side = axis.side,
invertedSide = chart.inverted ? [1, 0, 3, 2][side] : side,
hasData,
showAxis,
titleOffset = 0,
titleOffsetOption,
titleMargin = 0,
axisTitleOptions = options.title,
labelOptions = options.labels,
labelOffset = 0, // reset
labelOffsetPadded,
axisOffset = chart.axisOffset,
clipOffset = chart.clipOffset,
clip,
directionFactor = [-1, 1, 1, -1][side],
n,
axisParent = axis.axisParent, // Used in color axis
lineHeightCorrection;
// For reuse in Axis.render
hasData = axis.hasData();
axis.showAxis = showAxis = hasData || pick(options.showEmpty, true);
// Set/reset staggerLines
axis.staggerLines = axis.horiz && labelOptions.staggerLines;
// Create the axisGroup and gridGroup elements on first iteration
if (!axis.axisGroup) {
axis.gridGroup = renderer.g('grid')
.attr({ zIndex: options.gridZIndex || 1 })
.add(axisParent);
axis.axisGroup = renderer.g('axis')
.attr({ zIndex: options.zIndex || 2 })
.add(axisParent);
axis.labelGroup = renderer.g('axis-labels')
.attr({ zIndex: labelOptions.zIndex || 7 })
.addClass(PREFIX + axis.coll.toLowerCase() + '-labels')
.add(axisParent);
}
if (hasData || axis.isLinked) {
// Generate ticks
each(tickPositions, function (pos) {
if (!ticks[pos]) {
ticks[pos] = new Tick(axis, pos);
} else {
ticks[pos].addLabel(); // update labels depending on tick interval
}
});
axis.renderUnsquish();
each(tickPositions, function (pos) {
// left side must be align: right and right side must have align: left for labels
if (side === 0 || side === 2 || { 1: 'left', 3: 'right' }[side] === axis.labelAlign) {
// get the highest offset
labelOffset = mathMax(
ticks[pos].getLabelSize(),
labelOffset
);
}
});
if (axis.staggerLines) {
labelOffset *= axis.staggerLines;
axis.labelOffset = labelOffset;
}
} else { // doesn't have data
for (n in ticks) {
ticks[n].destroy();
delete ticks[n];
}
}
if (axisTitleOptions && axisTitleOptions.text && axisTitleOptions.enabled !== false) {
if (!axis.axisTitle) {
axis.axisTitle = renderer.text(
axisTitleOptions.text,
0,
0,
axisTitleOptions.useHTML
)
.attr({
zIndex: 7,
rotation: axisTitleOptions.rotation || 0,
align:
axisTitleOptions.textAlign ||
{ low: 'left', middle: 'center', high: 'right' }[axisTitleOptions.align]
})
.addClass(PREFIX + this.coll.toLowerCase() + '-title')
.css(axisTitleOptions.style)
.add(axis.axisGroup);
axis.axisTitle.isNew = true;
}
if (showAxis) {
titleOffset = axis.axisTitle.getBBox()[horiz ? 'height' : 'width'];
titleOffsetOption = axisTitleOptions.offset;
titleMargin = defined(titleOffsetOption) ? 0 : pick(axisTitleOptions.margin, horiz ? 5 : 10);
}
// hide or show the title depending on whether showEmpty is set
axis.axisTitle[showAxis ? 'show' : 'hide']();
}
// handle automatic or user set offset
axis.offset = directionFactor * pick(options.offset, axisOffset[side]);
axis.tickRotCorr = axis.tickRotCorr || { x: 0, y: 0 }; // polar
lineHeightCorrection = side === 2 ? axis.tickRotCorr.y : 0;
labelOffsetPadded = labelOffset + titleMargin +
(labelOffset && (directionFactor * (horiz ? pick(labelOptions.y, axis.tickRotCorr.y + 8) : labelOptions.x) - lineHeightCorrection));
axis.axisTitleMargin = pick(titleOffsetOption, labelOffsetPadded);
axisOffset[side] = mathMax(
axisOffset[side],
axis.axisTitleMargin + titleOffset + directionFactor * axis.offset,
labelOffsetPadded // #3027
);
// Decide the clipping needed to keep the graph inside the plot area and axis lines
clip = options.offset ? 0 : mathFloor(options.lineWidth / 2) * 2; // #4308, #4371
clipOffset[invertedSide] = mathMax(clipOffset[invertedSide], clip);
},
/**
* Get the path for the axis line
*/
getLinePath: function (lineWidth) {
var chart = this.chart,
opposite = this.opposite,
offset = this.offset,
horiz = this.horiz,
lineLeft = this.left + (opposite ? this.width : 0) + offset,
lineTop = chart.chartHeight - this.bottom - (opposite ? this.height : 0) + offset;
if (opposite) {
lineWidth *= -1; // crispify the other way - #1480, #1687
}
return chart.renderer.crispLine([
M,
horiz ?
this.left :
lineLeft,
horiz ?
lineTop :
this.top,
L,
horiz ?
chart.chartWidth - this.right :
lineLeft,
horiz ?
lineTop :
chart.chartHeight - this.bottom
], lineWidth);
},
/**
* Position the title
*/
getTitlePosition: function () {
// compute anchor points for each of the title align options
var horiz = this.horiz,
axisLeft = this.left,
axisTop = this.top,
axisLength = this.len,
axisTitleOptions = this.options.title,
margin = horiz ? axisLeft : axisTop,
opposite = this.opposite,
offset = this.offset,
xOption = axisTitleOptions.x || 0,
yOption = axisTitleOptions.y || 0,
fontSize = pInt(axisTitleOptions.style.fontSize || 12),
// the position in the length direction of the axis
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
offAxis = (horiz ? axisTop + this.height : axisLeft) +
(horiz ? 1 : -1) * // horizontal axis reverses the margin
(opposite ? -1 : 1) * // so does opposite axes
this.axisTitleMargin +
(this.side === 2 ? fontSize : 0);
return {
x: horiz ?
alongAxis + xOption :
offAxis + (opposite ? this.width : 0) + offset + xOption,
y: horiz ?
offAxis + yOption - (opposite ? this.height : 0) + offset :
alongAxis + yOption
};
},
/**
* Render the axis
*/
render: function () {
var axis = this,
chart = axis.chart,
renderer = chart.renderer,
options = axis.options,
isLog = axis.isLog,
isLinked = axis.isLinked,
tickPositions = axis.tickPositions,
axisTitle = axis.axisTitle,
ticks = axis.ticks,
minorTicks = axis.minorTicks,
alternateBands = axis.alternateBands,
stackLabelOptions = options.stackLabels,
alternateGridColor = options.alternateGridColor,
tickmarkOffset = axis.tickmarkOffset,
lineWidth = options.lineWidth,
linePath,
hasRendered = chart.hasRendered,
slideInTicks = hasRendered && defined(axis.oldMin) && !isNaN(axis.oldMin),
showAxis = axis.showAxis,
globalAnimation = renderer.globalAnimation,
from,
to;
// Reset
axis.labelEdge.length = 0;
//axis.justifyToPlot = overflow === 'justify';
axis.overlap = false;
// Mark all elements inActive before we go over and mark the active ones
each([ticks, minorTicks, alternateBands], function (coll) {
var pos;
for (pos in coll) {
coll[pos].isActive = false;
}
});
// If the series has data draw the ticks. Else only the line and title
if (axis.hasData() || isLinked) {
// minor ticks
if (axis.minorTickInterval && !axis.categories) {
each(axis.getMinorTickPositions(), function (pos) {
if (!minorTicks[pos]) {
minorTicks[pos] = new Tick(axis, pos, 'minor');
}
// render new ticks in old position
if (slideInTicks && minorTicks[pos].isNew) {
minorTicks[pos].render(null, true);
}
minorTicks[pos].render(null, false, 1);
});
}
// Major ticks. Pull out the first item and render it last so that
// we can get the position of the neighbour label. #808.
if (tickPositions.length) { // #1300
each(tickPositions, function (pos, i) {
// linked axes need an extra check to find out if
if (!isLinked || (pos >= axis.min && pos <= axis.max)) {
if (!ticks[pos]) {
ticks[pos] = new Tick(axis, pos);
}
// render new ticks in old position
if (slideInTicks && ticks[pos].isNew) {
ticks[pos].render(i, true, 0.1);
}
ticks[pos].render(i);
}
});
// In a categorized axis, the tick marks are displayed between labels. So
// we need to add a tick mark and grid line at the left edge of the X axis.
if (tickmarkOffset && (axis.min === 0 || axis.single)) {
if (!ticks[-1]) {
ticks[-1] = new Tick(axis, -1, null, true);
}
ticks[-1].render(-1);
}
}
// alternate grid color
if (alternateGridColor) {
each(tickPositions, function (pos, i) {
to = tickPositions[i + 1] !== UNDEFINED ? tickPositions[i + 1] + tickmarkOffset : axis.max - tickmarkOffset;
if (i % 2 === 0 && pos < axis.max && to <= axis.max - tickmarkOffset) { // #2248
if (!alternateBands[pos]) {
alternateBands[pos] = new Highcharts.PlotLineOrBand(axis);
}
from = pos + tickmarkOffset; // #949
alternateBands[pos].options = {
from: isLog ? lin2log(from) : from,
to: isLog ? lin2log(to) : to,
color: alternateGridColor
};
alternateBands[pos].render();
alternateBands[pos].isActive = true;
}
});
}
// custom plot lines and bands
if (!axis._addedPlotLB) { // only first time
each((options.plotLines || []).concat(options.plotBands || []), function (plotLineOptions) {
axis.addPlotBandOrLine(plotLineOptions);
});
axis._addedPlotLB = true;
}
} // end if hasData
// Remove inactive ticks
each([ticks, minorTicks, alternateBands], function (coll) {
var pos,
i,
forDestruction = [],
delay = globalAnimation ? globalAnimation.duration || 500 : 0,
destroyInactiveItems = function () {
i = forDestruction.length;
while (i--) {
// When resizing rapidly, the same items may be destroyed in different timeouts,
// or the may be reactivated
if (coll[forDestruction[i]] && !coll[forDestruction[i]].isActive) {
coll[forDestruction[i]].destroy();
delete coll[forDestruction[i]];
}
}
};
for (pos in coll) {
if (!coll[pos].isActive) {
// Render to zero opacity
coll[pos].render(pos, false, 0);
coll[pos].isActive = false;
forDestruction.push(pos);
}
}
// When the objects are finished fading out, destroy them
if (coll === alternateBands || !chart.hasRendered || !delay) {
destroyInactiveItems();
} else if (delay) {
setTimeout(destroyInactiveItems, delay);
}
});
// Static items. As the axis group is cleared on subsequent calls
// to render, these items are added outside the group.
// axis line
if (lineWidth) {
linePath = axis.getLinePath(lineWidth);
if (!axis.axisLine) {
axis.axisLine = renderer.path(linePath)
.attr({
stroke: options.lineColor,
'stroke-width': lineWidth,
zIndex: 7
})
.add(axis.axisGroup);
} else {
axis.axisLine.animate({ d: linePath });
}
// show or hide the line depending on options.showEmpty
axis.axisLine[showAxis ? 'show' : 'hide']();
}
if (axisTitle && showAxis) {
axisTitle[axisTitle.isNew ? 'attr' : 'animate'](
axis.getTitlePosition()
);
axisTitle.isNew = false;
}
// Stacked totals:
if (stackLabelOptions && stackLabelOptions.enabled) {
axis.renderStackTotals();
}
// End stacked totals
axis.isDirty = false;
},
/**
* Redraw the axis to reflect changes in the data or axis extremes
*/
redraw: function () {
if (this.visible) {
// render the axis
this.render();
// move plot lines and bands
each(this.plotLinesAndBands, function (plotLine) {
plotLine.render();
});
}
// mark associated series as dirty and ready for redraw
each(this.series, function (series) {
series.isDirty = true;
});
},
/**
* Destroys an Axis instance.
*/
destroy: function (keepEvents) {
var axis = this,
stacks = axis.stacks,
stackKey,
plotLinesAndBands = axis.plotLinesAndBands,
i;
// Remove the events
if (!keepEvents) {
removeEvent(axis);
}
// Destroy each stack total
for (stackKey in stacks) {
destroyObjectProperties(stacks[stackKey]);
stacks[stackKey] = null;
}
// Destroy collections
each([axis.ticks, axis.minorTicks, axis.alternateBands], function (coll) {
destroyObjectProperties(coll);
});
i = plotLinesAndBands.length;
while (i--) { // #1975
plotLinesAndBands[i].destroy();
}
// Destroy local variables
each(['stackTotalGroup', 'axisLine', 'axisTitle', 'axisGroup', 'cross', 'gridGroup', 'labelGroup'], function (prop) {
if (axis[prop]) {
axis[prop] = axis[prop].destroy();
}
});
// Destroy crosshair
if (this.cross) {
this.cross.destroy();
}
},
/**
* Draw the crosshair
*/
drawCrosshair: function (e, point) { // docs: Missing docs for Axis.crosshair. Also for properties.
var path,
options = this.crosshair,
animation = options.animation,
pos,
attribs,
categorized;
if (
// Disabled in options
!this.crosshair ||
// Snap
((defined(point) || !pick(this.crosshair.snap, true)) === false) ||
// Not on this axis (#4095, #2888)
(point && point.series && point.series[this.coll] !== this)
) {
this.hideCrosshair();
} else {
// Get the path
if (!pick(options.snap, true)) {
pos = (this.horiz ? e.chartX - this.pos : this.len - e.chartY + this.pos);
} else if (defined(point)) {
/*jslint eqeq: true*/
pos = this.isXAxis ? point.plotX : this.len - point.plotY; // #3834
/*jslint eqeq: false*/
}
if (this.isRadial) {
path = this.getPlotLinePath(this.isXAxis ? point.x : pick(point.stackY, point.y)) || null; // #3189
} else {
path = this.getPlotLinePath(null, null, null, null, pos) || null; // #3189
}
if (path === null) {
this.hideCrosshair();
return;
}
// Draw the cross
if (this.cross) {
this.cross
.attr({ visibility: VISIBLE })[animation ? 'animate' : 'attr']({ d: path }, animation);
} else {
categorized = this.categories && !this.isRadial;
attribs = {
'stroke-width': options.width || (categorized ? this.transA : 1),
stroke: options.color || (categorized ? 'rgba(155,200,255,0.2)' : '#C0C0C0'),
zIndex: options.zIndex || 2
};
if (options.dashStyle) {
attribs.dashstyle = options.dashStyle;
}
this.cross = this.chart.renderer.path(path).attr(attribs).add();
}
}
},
/**
* Hide the crosshair.
*/
hideCrosshair: function () {
if (this.cross) {
this.cross.hide();
}
}
}; // end Axis
extend(Axis.prototype, AxisPlotLineOrBandExtension);
/**
* Set the tick positions to a time unit that makes sense, for example
* on the first of each month or on every Monday. Return an array
* with the time positions. Used in datetime axes as well as for grouping
* data on a datetime axis.
*
* @param {Object} normalizedInterval The interval in axis values (ms) and the count
* @param {Number} min The minimum in axis values
* @param {Number} max The maximum in axis values
* @param {Number} startOfWeek
*/
Axis.prototype.getTimeTicks = function (normalizedInterval, min, max, startOfWeek) {
var tickPositions = [],
i,
higherRanks = {},
useUTC = defaultOptions.global.useUTC,
minYear, // used in months and years as a basis for Date.UTC()
minDate = new Date(min - getTZOffset(min)),
interval = normalizedInterval.unitRange,
count = normalizedInterval.count;
if (defined(min)) { // #1300
minDate[setMilliseconds](interval >= timeUnits.second ? 0 : // #3935
count * mathFloor(minDate.getMilliseconds() / count)); // #3652, #3654
if (interval >= timeUnits.second) { // second
minDate[setSeconds](interval >= timeUnits.minute ? 0 : // #3935
count * mathFloor(minDate.getSeconds() / count));
}
if (interval >= timeUnits.minute) { // minute
minDate[setMinutes](interval >= timeUnits.hour ? 0 :
count * mathFloor(minDate[getMinutes]() / count));
}
if (interval >= timeUnits.hour) { // hour
minDate[setHours](interval >= timeUnits.day ? 0 :
count * mathFloor(minDate[getHours]() / count));
}
if (interval >= timeUnits.day) { // day
minDate[setDate](interval >= timeUnits.month ? 1 :
count * mathFloor(minDate[getDate]() / count));
}
if (interval >= timeUnits.month) { // month
minDate[setMonth](interval >= timeUnits.year ? 0 :
count * mathFloor(minDate[getMonth]() / count));
minYear = minDate[getFullYear]();
}
if (interval >= timeUnits.year) { // year
minYear -= minYear % count;
minDate[setFullYear](minYear);
}
// week is a special case that runs outside the hierarchy
if (interval === timeUnits.week) {
// get start of current week, independent of count
minDate[setDate](minDate[getDate]() - minDate[getDay]() +
pick(startOfWeek, 1));
}
// get tick positions
i = 1;
if (timezoneOffset || getTimezoneOffset) {
minDate = minDate.getTime();
minDate = new Date(minDate + getTZOffset(minDate));
}
minYear = minDate[getFullYear]();
var time = minDate.getTime(),
minMonth = minDate[getMonth](),
minDateDate = minDate[getDate](),
localTimezoneOffset = (timeUnits.day +
(useUTC ? getTZOffset(minDate) : minDate.getTimezoneOffset() * 60 * 1000)
) % timeUnits.day; // #950, #3359
// iterate and add tick positions at appropriate values
while (time < max) {
tickPositions.push(time);
// if the interval is years, use Date.UTC to increase years
if (interval === timeUnits.year) {
time = makeTime(minYear + i * count, 0);
// if the interval is months, use Date.UTC to increase months
} else if (interval === timeUnits.month) {
time = makeTime(minYear, minMonth + i * count);
// if we're using global time, the interval is not fixed as it jumps
// one hour at the DST crossover
} else if (!useUTC && (interval === timeUnits.day || interval === timeUnits.week)) {
time = makeTime(minYear, minMonth, minDateDate +
i * count * (interval === timeUnits.day ? 1 : 7));
// else, the interval is fixed and we use simple addition
} else {
time += interval * count;
}
i++;
}
// push the last time
tickPositions.push(time);
// mark new days if the time is dividible by day (#1649, #1760)
each(grep(tickPositions, function (time) {
return interval <= timeUnits.hour && time % timeUnits.day === localTimezoneOffset;
}), function (time) {
higherRanks[time] = 'day';
});
}
// record information on the chosen unit - for dynamic label formatter
tickPositions.info = extend(normalizedInterval, {
higherRanks: higherRanks,
totalRange: interval * count
});
return tickPositions;
};
/**
* Get a normalized tick interval for dates. Returns a configuration object with
* unit range (interval), count and name. Used to prepare data for getTimeTicks.
* Previously this logic was part of getTimeTicks, but as getTimeTicks now runs
* of segments in stock charts, the normalizing logic was extracted in order to
* prevent it for running over again for each segment having the same interval.
* #662, #697.
*/
Axis.prototype.normalizeTimeTickInterval = function (tickInterval, unitsOption) {
var units = unitsOption || [[
'millisecond', // unit name
[1, 2, 5, 10, 20, 25, 50, 100, 200, 500] // allowed multiples
], [
'second',
[1, 2, 5, 10, 15, 30]
], [
'minute',
[1, 2, 5, 10, 15, 30]
], [
'hour',
[1, 2, 3, 4, 6, 8, 12]
], [
'day',
[1, 2]
], [
'week',
[1, 2]
], [
'month',
[1, 2, 3, 4, 6]
], [
'year',
null
]],
unit = units[units.length - 1], // default unit is years
interval = timeUnits[unit[0]],
multiples = unit[1],
count,
i;
// loop through the units to find the one that best fits the tickInterval
for (i = 0; i < units.length; i++) {
unit = units[i];
interval = timeUnits[unit[0]];
multiples = unit[1];
if (units[i + 1]) {
// lessThan is in the middle between the highest multiple and the next unit.
var lessThan = (interval * multiples[multiples.length - 1] +
timeUnits[units[i + 1][0]]) / 2;
// break and keep the current unit
if (tickInterval <= lessThan) {
break;
}
}
}
// prevent 2.5 years intervals, though 25, 250 etc. are allowed
if (interval === timeUnits.year && tickInterval < 5 * interval) {
multiples = [1, 2, 5];
}
// get the count
count = normalizeTickInterval(
tickInterval / interval,
multiples,
unit[0] === 'year' ? mathMax(getMagnitude(tickInterval / interval), 1) : 1 // #1913, #2360
);
return {
unitRange: interval,
count: count,
unitName: unit[0]
};
};
/**
* Methods defined on the Axis prototype
*/
/**
* Set the tick positions of a logarithmic axis
*/
Axis.prototype.getLogTickPositions = function (interval, min, max, minor) {
var axis = this,
options = axis.options,
axisLength = axis.len,
// Since we use this method for both major and minor ticks,
// use a local variable and return the result
positions = [];
// Reset
if (!minor) {
axis._minorAutoInterval = null;
}
// First case: All ticks fall on whole logarithms: 1, 10, 100 etc.
if (interval >= 0.5) {
interval = mathRound(interval);
positions = axis.getLinearTickPositions(interval, min, max);
// Second case: We need intermediary ticks. For example
// 1, 2, 4, 6, 8, 10, 20, 40 etc.
} else if (interval >= 0.08) {
var roundedMin = mathFloor(min),
intermediate,
i,
j,
len,
pos,
lastPos,
break2;
if (interval > 0.3) {
intermediate = [1, 2, 4];
} else if (interval > 0.15) { // 0.2 equals five minor ticks per 1, 10, 100 etc
intermediate = [1, 2, 4, 6, 8];
} else { // 0.1 equals ten minor ticks per 1, 10, 100 etc
intermediate = [1, 2, 3, 4, 5, 6, 7, 8, 9];
}
for (i = roundedMin; i < max + 1 && !break2; i++) {
len = intermediate.length;
for (j = 0; j < len && !break2; j++) {
pos = log2lin(lin2log(i) * intermediate[j]);
if (pos > min && (!minor || lastPos <= max) && lastPos !== UNDEFINED) { // #1670, lastPos is #3113
positions.push(lastPos);
}
if (lastPos > max) {
break2 = true;
}
lastPos = pos;
}
}
// Third case: We are so deep in between whole logarithmic values that
// we might as well handle the tick positions like a linear axis. For
// example 1.01, 1.02, 1.03, 1.04.
} else {
var realMin = lin2log(min),
realMax = lin2log(max),
tickIntervalOption = options[minor ? 'minorTickInterval' : 'tickInterval'],
filteredTickIntervalOption = tickIntervalOption === 'auto' ? null : tickIntervalOption,
tickPixelIntervalOption = options.tickPixelInterval / (minor ? 5 : 1),
totalPixelLength = minor ? axisLength / axis.tickPositions.length : axisLength;
interval = pick(
filteredTickIntervalOption,
axis._minorAutoInterval,
(realMax - realMin) * tickPixelIntervalOption / (totalPixelLength || 1)
);
interval = normalizeTickInterval(
interval,
null,
getMagnitude(interval)
);
positions = map(axis.getLinearTickPositions(
interval,
realMin,
realMax
), log2lin);
if (!minor) {
axis._minorAutoInterval = interval / 5;
}
}
// Set the axis-level tickInterval variable
if (!minor) {
axis.tickInterval = interval;
}
return positions;
};
/**
* The tooltip object
* @param {Object} chart The chart instance
* @param {Object} options Tooltip options
*/
var Tooltip = Highcharts.Tooltip = function () {
this.init.apply(this, arguments);
};
Tooltip.prototype = {
init: function (chart, options) {
var borderWidth = options.borderWidth,
style = options.style,
padding = pInt(style.padding);
// Save the chart and options
this.chart = chart;
this.options = options;
// Keep track of the current series
//this.currentSeries = UNDEFINED;
// List of crosshairs
this.crosshairs = [];
// Current values of x and y when animating
this.now = { x: 0, y: 0 };
// The tooltip is initially hidden
this.isHidden = true;
// create the label
this.label = chart.renderer.label('', 0, 0, options.shape || 'callout', null, null, options.useHTML, null, 'tooltip')
.attr({
padding: padding,
fill: options.backgroundColor,
'stroke-width': borderWidth,
r: options.borderRadius,
zIndex: 8
})
.css(style)
.css({ padding: 0 }) // Remove it from VML, the padding is applied as an attribute instead (#1117)
.add()
.attr({ y: -9999 }); // #2301, #2657
// When using canVG the shadow shows up as a gray circle
// even if the tooltip is hidden.
if (!useCanVG) {
this.label.shadow(options.shadow);
}
// Public property for getting the shared state.
this.shared = options.shared;
},
/**
* Destroy the tooltip and its elements.
*/
destroy: function () {
// Destroy and clear local variables
if (this.label) {
this.label = this.label.destroy();
}
clearTimeout(this.hideTimer);
clearTimeout(this.tooltipTimeout);
},
/**
* Provide a soft movement for the tooltip
*
* @param {Number} x
* @param {Number} y
* @private
*/
move: function (x, y, anchorX, anchorY) {
var tooltip = this,
now = tooltip.now,
animate = tooltip.options.animation !== false && !tooltip.isHidden &&
// When we get close to the target position, abort animation and land on the right place (#3056)
(mathAbs(x - now.x) > 1 || mathAbs(y - now.y) > 1),
skipAnchor = tooltip.followPointer || tooltip.len > 1;
// Get intermediate values for animation
extend(now, {
x: animate ? (2 * now.x + x) / 3 : x,
y: animate ? (now.y + y) / 2 : y,
anchorX: skipAnchor ? UNDEFINED : animate ? (2 * now.anchorX + anchorX) / 3 : anchorX,
anchorY: skipAnchor ? UNDEFINED : animate ? (now.anchorY + anchorY) / 2 : anchorY
});
// Move to the intermediate value
tooltip.label.attr(now);
// Run on next tick of the mouse tracker
if (animate) {
// Never allow two timeouts
clearTimeout(this.tooltipTimeout);
// Set the fixed interval ticking for the smooth tooltip
this.tooltipTimeout = setTimeout(function () {
// The interval function may still be running during destroy, so check that the chart is really there before calling.
if (tooltip) {
tooltip.move(x, y, anchorX, anchorY);
}
}, 32);
}
},
/**
* Hide the tooltip
*/
hide: function (delay) {
var tooltip = this,
hoverPoints;
clearTimeout(this.hideTimer); // disallow duplicate timers (#1728, #1766)
if (!this.isHidden) {
hoverPoints = this.chart.hoverPoints;
this.hideTimer = setTimeout(function () {
tooltip.label.fadeOut();
tooltip.isHidden = true;
}, pick(delay, this.options.hideDelay, 500));
}
},
/**
* Extendable method to get the anchor position of the tooltip
* from a point or set of points
*/
getAnchor: function (points, mouseEvent) {
var ret,
chart = this.chart,
inverted = chart.inverted,
plotTop = chart.plotTop,
plotLeft = chart.plotLeft,
plotX = 0,
plotY = 0,
yAxis,
xAxis;
points = splat(points);
// Pie uses a special tooltipPos
ret = points[0].tooltipPos;
// When tooltip follows mouse, relate the position to the mouse
if (this.followPointer && mouseEvent) {
if (mouseEvent.chartX === UNDEFINED) {
mouseEvent = chart.pointer.normalize(mouseEvent);
}
ret = [
mouseEvent.chartX - chart.plotLeft,
mouseEvent.chartY - plotTop
];
}
// When shared, use the average position
if (!ret) {
each(points, function (point) {
yAxis = point.series.yAxis;
xAxis = point.series.xAxis;
plotX += point.plotX + (!inverted && xAxis ? xAxis.left - plotLeft : 0);
plotY += (point.plotLow ? (point.plotLow + point.plotHigh) / 2 : point.plotY) +
(!inverted && yAxis ? yAxis.top - plotTop : 0); // #1151
});
plotX /= points.length;
plotY /= points.length;
ret = [
inverted ? chart.plotWidth - plotY : plotX,
this.shared && !inverted && points.length > 1 && mouseEvent ?
mouseEvent.chartY - plotTop : // place shared tooltip next to the mouse (#424)
inverted ? chart.plotHeight - plotX : plotY
];
}
return map(ret, mathRound);
},
/**
* Place the tooltip in a chart without spilling over
* and not covering the point it self.
*/
getPosition: function (boxWidth, boxHeight, point) {
var chart = this.chart,
distance = this.distance,
ret = {},
h = point.h || 0, // #4117
swapped,
first = ['y', chart.chartHeight, boxHeight, point.plotY + chart.plotTop, chart.plotTop, chart.plotTop + chart.plotHeight],
second = ['x', chart.chartWidth, boxWidth, point.plotX + chart.plotLeft, chart.plotLeft, chart.plotLeft + chart.plotWidth],
// The far side is right or bottom
preferFarSide = pick(point.ttBelow, (chart.inverted && !point.negative) || (!chart.inverted && point.negative)),
/**
* Handle the preferred dimension. When the preferred dimension is tooltip
* on top or bottom of the point, it will look for space there.
*/
firstDimension = function (dim, outerSize, innerSize, point, min, max) {
var roomLeft = innerSize < point - distance,
roomRight = point + distance + innerSize < outerSize,
alignedLeft = point - distance - innerSize,
alignedRight = point + distance;
if (preferFarSide && roomRight) {
ret[dim] = alignedRight;
} else if (!preferFarSide && roomLeft) {
ret[dim] = alignedLeft;
} else if (roomLeft) {
ret[dim] = mathMin(max - innerSize, alignedLeft - h < 0 ? alignedLeft : alignedLeft - h);
} else if (roomRight) {
ret[dim] = mathMax(min, alignedRight + h + innerSize > outerSize ? alignedRight : alignedRight + h);
} else {
return false;
}
},
/**
* Handle the secondary dimension. If the preferred dimension is tooltip
* on top or bottom of the point, the second dimension is to align the tooltip
* above the point, trying to align center but allowing left or right
* align within the chart box.
*/
secondDimension = function (dim, outerSize, innerSize, point) {
// Too close to the edge, return false and swap dimensions
if (point < distance || point > outerSize - distance) {
return false;
// Align left/top
} else if (point < innerSize / 2) {
ret[dim] = 1;
// Align right/bottom
} else if (point > outerSize - innerSize / 2) {
ret[dim] = outerSize - innerSize - 2;
// Align center
} else {
ret[dim] = point - innerSize / 2;
}
},
/**
* Swap the dimensions
*/
swap = function (count) {
var temp = first;
first = second;
second = temp;
swapped = count;
},
run = function () {
if (firstDimension.apply(0, first) !== false) {
if (secondDimension.apply(0, second) === false && !swapped) {
swap(true);
run();
}
} else if (!swapped) {
swap(true);
run();
} else {
ret.x = ret.y = 0;
}
};
// Under these conditions, prefer the tooltip on the side of the point
if (chart.inverted || this.len > 1) {
swap();
}
run();
return ret;
},
/**
* In case no user defined formatter is given, this will be used. Note that the context
* here is an object holding point, series, x, y etc.
*/
defaultFormatter: function (tooltip) {
var items = this.points || splat(this),
s;
// build the header
s = [tooltip.tooltipFooterHeaderFormatter(items[0])]; //#3397: abstraction to enable formatting of footer and header
// build the values
s = s.concat(tooltip.bodyFormatter(items));
// footer
s.push(tooltip.tooltipFooterHeaderFormatter(items[0], true)); //#3397: abstraction to enable formatting of footer and header
return s.join('');
},
/**
* Refresh the tooltip's text and position.
* @param {Object} point
*/
refresh: function (point, mouseEvent) {
var tooltip = this,
chart = tooltip.chart,
label = tooltip.label,
options = tooltip.options,
x,
y,
anchor,
textConfig = {},
text,
pointConfig = [],
formatter = options.formatter || tooltip.defaultFormatter,
hoverPoints = chart.hoverPoints,
borderColor,
shared = tooltip.shared,
currentSeries;
clearTimeout(this.hideTimer);
// get the reference point coordinates (pie charts use tooltipPos)
tooltip.followPointer = splat(point)[0].series.tooltipOptions.followPointer;
anchor = tooltip.getAnchor(point, mouseEvent);
x = anchor[0];
y = anchor[1];
// shared tooltip, array is sent over
if (shared && !(point.series && point.series.noSharedTooltip)) {
// hide previous hoverPoints and set new
chart.hoverPoints = point;
if (hoverPoints) {
each(hoverPoints, function (point) {
point.setState();
});
}
each(point, function (item) {
item.setState(HOVER_STATE);
pointConfig.push(item.getLabelConfig());
});
textConfig = {
x: point[0].category,
y: point[0].y
};
textConfig.points = pointConfig;
this.len = pointConfig.length;
point = point[0];
// single point tooltip
} else {
textConfig = point.getLabelConfig();
}
text = formatter.call(textConfig, tooltip);
// register the current series
currentSeries = point.series;
this.distance = pick(currentSeries.tooltipOptions.distance, 16);
// update the inner HTML
if (text === false) {
this.hide();
} else {
// show it
if (tooltip.isHidden) {
stop(label);
label.attr('opacity', 1).show();
}
// update text
label.attr({
text: text
});
// set the stroke color of the box
borderColor = options.borderColor || point.color || currentSeries.color || '#606060';
label.attr({
stroke: borderColor
});
tooltip.updatePosition({
plotX: x,
plotY: y,
negative: point.negative,
ttBelow: point.ttBelow,
h: anchor[2] || 0
});
this.isHidden = false;
}
fireEvent(chart, 'tooltipRefresh', {
text: text,
x: x + chart.plotLeft,
y: y + chart.plotTop,
borderColor: borderColor
});
},
/**
* Find the new position and perform the move
*/
updatePosition: function (point) {
var chart = this.chart,
label = this.label,
pos = (this.options.positioner || this.getPosition).call(
this,
label.width,
label.height,
point
);
// do the move
this.move(
mathRound(pos.x),
mathRound(pos.y || 0), // can be undefined (#3977)
point.plotX + chart.plotLeft,
point.plotY + chart.plotTop
);
},
/**
* Get the best X date format based on the closest point range on the axis.
*/
getXDateFormat: function (point, options, xAxis) {
var xDateFormat,
dateTimeLabelFormats = options.dateTimeLabelFormats,
closestPointRange = xAxis && xAxis.closestPointRange,
n,
blank = '01-01 00:00:00.000',
strpos = {
millisecond: 15,
second: 12,
minute: 9,
hour: 6,
day: 3
},
date,
lastN = 'millisecond'; // for sub-millisecond data, #4223
if (closestPointRange) {
date = dateFormat('%m-%d %H:%M:%S.%L', point.x);
for (n in timeUnits) {
// If the range is exactly one week and we're looking at a Sunday/Monday, go for the week format
if (closestPointRange === timeUnits.week && +dateFormat('%w', point.x) === xAxis.options.startOfWeek &&
date.substr(6) === blank.substr(6)) {
n = 'week';
break;
// The first format that is too great for the range
} else if (timeUnits[n] > closestPointRange) {
n = lastN;
break;
// If the point is placed every day at 23:59, we need to show
// the minutes as well. #2637.
} else if (strpos[n] && date.substr(strpos[n]) !== blank.substr(strpos[n])) {
break;
}
// Weeks are outside the hierarchy, only apply them on Mondays/Sundays like in the first condition
if (n !== 'week') {
lastN = n;
}
}
if (n) {
xDateFormat = dateTimeLabelFormats[n];
}
} else {
xDateFormat = dateTimeLabelFormats.day;
}
return xDateFormat || dateTimeLabelFormats.year; // #2546, 2581
},
/**
* Format the footer/header of the tooltip
* #3397: abstraction to enable formatting of footer and header
*/
tooltipFooterHeaderFormatter: function (point, isFooter) {
var footOrHead = isFooter ? 'footer' : 'header',
series = point.series,
tooltipOptions = series.tooltipOptions,
xDateFormat = tooltipOptions.xDateFormat,
xAxis = series.xAxis,
isDateTime = xAxis && xAxis.options.type === 'datetime' && isNumber(point.key),
formatString = tooltipOptions[footOrHead+'Format'];
// Guess the best date format based on the closest point distance (#568, #3418)
if (isDateTime && !xDateFormat) {
xDateFormat = this.getXDateFormat(point, tooltipOptions, xAxis);
}
// Insert the footer date format if any
if (isDateTime && xDateFormat) {
formatString = formatString.replace('{point.key}', '{point.key:' + xDateFormat + '}');
}
return format(formatString, {
point: point,
series: series
});
},
/**
* Build the body (lines) of the tooltip by iterating over the items and returning one entry for each item,
* abstracting this functionality allows to easily overwrite and extend it.
*/
bodyFormatter: function (items) {
return map(items, function (item) {
var tooltipOptions = item.series.tooltipOptions;
return (tooltipOptions.pointFormatter || item.point.tooltipFormatter).call(item.point, tooltipOptions.pointFormat);
});
}
};
var hoverChartIndex;
// Global flag for touch support
hasTouch = doc.documentElement.ontouchstart !== UNDEFINED;
/**
* The mouse tracker object. All methods starting with "on" are primary DOM event handlers.
* Subsequent methods should be named differently from what they are doing.
* @param {Object} chart The Chart instance
* @param {Object} options The root options object
*/
var Pointer = Highcharts.Pointer = function (chart, options) {
this.init(chart, options);
};
Pointer.prototype = {
/**
* Initialize Pointer
*/
init: function (chart, options) {
var chartOptions = options.chart,
chartEvents = chartOptions.events,
zoomType = useCanVG ? '' : chartOptions.zoomType,
inverted = chart.inverted,
zoomX,
zoomY;
// Store references
this.options = options;
this.chart = chart;
// Zoom status
this.zoomX = zoomX = /x/.test(zoomType);
this.zoomY = zoomY = /y/.test(zoomType);
this.zoomHor = (zoomX && !inverted) || (zoomY && inverted);
this.zoomVert = (zoomY && !inverted) || (zoomX && inverted);
this.hasZoom = zoomX || zoomY;
// Do we need to handle click on a touch device?
this.runChartClick = chartEvents && !!chartEvents.click;
this.pinchDown = [];
this.lastValidTouch = {};
if (Highcharts.Tooltip && options.tooltip.enabled) {
chart.tooltip = new Tooltip(chart, options.tooltip);
this.followTouchMove = pick(options.tooltip.followTouchMove, true);
}
this.setDOMEvents();
},
/**
* Add crossbrowser support for chartX and chartY
* @param {Object} e The event object in standard browsers
*/
normalize: function (e, chartPosition) {
var chartX,
chartY,
ePos;
// common IE normalizing
e = e || window.event;
// Framework specific normalizing (#1165)
e = washMouseEvent(e);
// More IE normalizing, needs to go after washMouseEvent
if (!e.target) {
e.target = e.srcElement;
}
// iOS (#2757)
ePos = e.touches ? (e.touches.length ? e.touches.item(0) : e.changedTouches[0]) : e;
// Get mouse position
if (!chartPosition) {
this.chartPosition = chartPosition = offset(this.chart.container);
}
// chartX and chartY
if (ePos.pageX === UNDEFINED) { // IE < 9. #886.
chartX = mathMax(e.x, e.clientX - chartPosition.left); // #2005, #2129: the second case is
// for IE10 quirks mode within framesets
chartY = e.y;
} else {
chartX = ePos.pageX - chartPosition.left;
chartY = ePos.pageY - chartPosition.top;
}
return extend(e, {
chartX: mathRound(chartX),
chartY: mathRound(chartY)
});
},
/**
* Get the click position in terms of axis values.
*
* @param {Object} e A pointer event
*/
getCoordinates: function (e) {
var coordinates = {
xAxis: [],
yAxis: []
};
each(this.chart.axes, function (axis) {
coordinates[axis.isXAxis ? 'xAxis' : 'yAxis'].push({
axis: axis,
value: axis.toValue(e[axis.horiz ? 'chartX' : 'chartY'])
});
});
return coordinates;
},
/**
* With line type charts with a single tracker, get the point closest to the mouse.
* Run Point.onMouseOver and display tooltip for the point or points.
*/
runPointActions: function (e) {
var pointer = this,
chart = pointer.chart,
series = chart.series,
tooltip = chart.tooltip,
shared = tooltip ? tooltip.shared : false,
followPointer,
hoverPoint = chart.hoverPoint,
hoverSeries = chart.hoverSeries,
i,
distance = Number.MAX_VALUE, // #4511
anchor,
noSharedTooltip,
stickToHoverSeries,
directTouch,
kdpoints = [],
kdpoint,
kdpointT;
// For hovering over the empty parts of the plot area (hoverSeries is undefined).
// If there is one series with point tracking (combo chart), don't go to nearest neighbour.
if (!shared && !hoverSeries) {
for (i = 0; i < series.length; i++) {
if (series[i].directTouch || !series[i].options.stickyTracking) {
series = [];
}
}
}
// If it has a hoverPoint and that series requires direct touch (like columns, #3899), or we're on
// a noSharedTooltip series among shared tooltip series (#4546), use the hoverPoint . Otherwise,
// search the k-d tree.
stickToHoverSeries = hoverSeries && (shared ? hoverSeries.noSharedTooltip : hoverSeries.directTouch);
if (stickToHoverSeries && hoverPoint) {
kdpoint = hoverPoint;
// Handle shared tooltip or cases where a series is not yet hovered
} else {
// Find nearest points on all series
each(series, function (s) {
// Skip hidden series
noSharedTooltip = s.noSharedTooltip && shared;
directTouch = !shared && s.directTouch;
if (s.visible && !noSharedTooltip && !directTouch && pick(s.options.enableMouseTracking, true)) { // #3821
kdpointT = s.searchPoint(e, !noSharedTooltip && s.kdDimensions === 1); // #3828
if (kdpointT) {
kdpoints.push(kdpointT);
}
}
});
// Find absolute nearest point
each(kdpoints, function (p) {
if (p && typeof p.dist === 'number' && p.dist < distance) {
distance = p.dist;
kdpoint = p;
}
});
}
// Refresh tooltip for kdpoint if new hover point or tooltip was hidden // #3926, #4200
if (kdpoint && (kdpoint !== this.prevKDPoint || (tooltip && tooltip.isHidden))) {
// Draw tooltip if necessary
if (shared && !kdpoint.series.noSharedTooltip) {
i = kdpoints.length;
while (i--) {
if (kdpoints[i].clientX !== kdpoint.clientX || kdpoints[i].series.noSharedTooltip) {
kdpoints.splice(i, 1);
}
}
if (kdpoints.length && tooltip) {
tooltip.refresh(kdpoints, e);
}
// Do mouseover on all points (#3919, #3985, #4410)
each(kdpoints, function (point) {
point.onMouseOver(e, point !== ((hoverSeries && hoverSeries.directTouch && hoverPoint) || kdpoint));
});
} else {
if (tooltip) {
tooltip.refresh(kdpoint, e);
}
if(!hoverSeries || !hoverSeries.directTouch) { // #4448
kdpoint.onMouseOver(e);
}
}
this.prevKDPoint = kdpoint;
// Update positions (regardless of kdpoint or hoverPoint)
} else {
followPointer = hoverSeries && hoverSeries.tooltipOptions.followPointer;
if (tooltip && followPointer && !tooltip.isHidden) {
anchor = tooltip.getAnchor([{}], e);
tooltip.updatePosition({ plotX: anchor[0], plotY: anchor[1] });
}
}
// Start the event listener to pick up the tooltip
if (tooltip && !pointer._onDocumentMouseMove) {
pointer._onDocumentMouseMove = function (e) {
if (charts[hoverChartIndex]) {
charts[hoverChartIndex].pointer.onDocumentMouseMove(e);
}
};
addEvent(doc, 'mousemove', pointer._onDocumentMouseMove);
}
// Crosshair
each(chart.axes, function (axis) {
axis.drawCrosshair(e, pick(kdpoint, hoverPoint));
});
},
/**
* Reset the tracking by hiding the tooltip, the hover series state and the hover point
*
* @param allowMove {Boolean} Instead of destroying the tooltip altogether, allow moving it if possible
*/
reset: function (allowMove, delay) {
var pointer = this,
chart = pointer.chart,
hoverSeries = chart.hoverSeries,
hoverPoint = chart.hoverPoint,
hoverPoints = chart.hoverPoints,
tooltip = chart.tooltip,
tooltipPoints = tooltip && tooltip.shared ? hoverPoints : hoverPoint;
// Narrow in allowMove
allowMove = allowMove && tooltip && tooltipPoints;
// Check if the points have moved outside the plot area, #1003
if (allowMove && splat(tooltipPoints)[0].plotX === UNDEFINED) {
allowMove = false;
}
// Just move the tooltip, #349
if (allowMove) {
tooltip.refresh(tooltipPoints);
if (hoverPoint) { // #2500
hoverPoint.setState(hoverPoint.state, true);
each(chart.axes, function (axis) {
if (pick(axis.options.crosshair && axis.options.crosshair.snap, true)) {
axis.drawCrosshair(null, hoverPoint);
} else {
axis.hideCrosshair();
}
});
}
// Full reset
} else {
if (hoverPoint) {
hoverPoint.onMouseOut();
}
if (hoverPoints) {
each(hoverPoints, function (point) {
point.setState();
});
}
if (hoverSeries) {
hoverSeries.onMouseOut();
}
if (tooltip) {
tooltip.hide(delay);
}
if (pointer._onDocumentMouseMove) {
removeEvent(doc, 'mousemove', pointer._onDocumentMouseMove);
pointer._onDocumentMouseMove = null;
}
// Remove crosshairs
each(chart.axes, function (axis) {
axis.hideCrosshair();
});
pointer.hoverX = chart.hoverPoints = chart.hoverPoint = null;
}
},
/**
* Scale series groups to a certain scale and translation
*/
scaleGroups: function (attribs, clip) {
var chart = this.chart,
seriesAttribs;
// Scale each series
each(chart.series, function (series) {
seriesAttribs = attribs || series.getPlotBox(); // #1701
if (series.xAxis && series.xAxis.zoomEnabled) {
series.group.attr(seriesAttribs);
if (series.markerGroup) {
series.markerGroup.attr(seriesAttribs);
series.markerGroup.clip(clip ? chart.clipRect : null);
}
if (series.dataLabelsGroup) {
series.dataLabelsGroup.attr(seriesAttribs);
}
}
});
// Clip
chart.clipRect.attr(clip || chart.clipBox);
},
/**
* Start a drag operation
*/
dragStart: function (e) {
var chart = this.chart;
// Record the start position
chart.mouseIsDown = e.type;
chart.cancelClick = false;
chart.mouseDownX = this.mouseDownX = e.chartX;
chart.mouseDownY = this.mouseDownY = e.chartY;
},
/**
* Perform a drag operation in response to a mousemove event while the mouse is down
*/
drag: function (e) {
var chart = this.chart,
chartOptions = chart.options.chart,
chartX = e.chartX,
chartY = e.chartY,
zoomHor = this.zoomHor,
zoomVert = this.zoomVert,
plotLeft = chart.plotLeft,
plotTop = chart.plotTop,
plotWidth = chart.plotWidth,
plotHeight = chart.plotHeight,
clickedInside,
size,
selectionMarker = this.selectionMarker,
mouseDownX = this.mouseDownX,
mouseDownY = this.mouseDownY,
panKey = chartOptions.panKey && e[chartOptions.panKey + 'Key'];
// If the device supports both touch and mouse (like IE11), and we are touch-dragging
// inside the plot area, don't handle the mouse event. #4339.
if (selectionMarker && selectionMarker.touch) {
return;
}
// If the mouse is outside the plot area, adjust to cooordinates
// inside to prevent the selection marker from going outside
if (chartX < plotLeft) {
chartX = plotLeft;
} else if (chartX > plotLeft + plotWidth) {
chartX = plotLeft + plotWidth;
}
if (chartY < plotTop) {
chartY = plotTop;
} else if (chartY > plotTop + plotHeight) {
chartY = plotTop + plotHeight;
}
// determine if the mouse has moved more than 10px
this.hasDragged = Math.sqrt(
Math.pow(mouseDownX - chartX, 2) +
Math.pow(mouseDownY - chartY, 2)
);
if (this.hasDragged > 10) {
clickedInside = chart.isInsidePlot(mouseDownX - plotLeft, mouseDownY - plotTop);
// make a selection
if (chart.hasCartesianSeries && (this.zoomX || this.zoomY) && clickedInside && !panKey) {
if (!selectionMarker) {
this.selectionMarker = selectionMarker = chart.renderer.rect(
plotLeft,
plotTop,
zoomHor ? 1 : plotWidth,
zoomVert ? 1 : plotHeight,
0
)
.attr({
fill: chartOptions.selectionMarkerFill || 'rgba(69,114,167,0.25)',
zIndex: 7
})
.add();
}
}
// adjust the width of the selection marker
if (selectionMarker && zoomHor) {
size = chartX - mouseDownX;
selectionMarker.attr({
width: mathAbs(size),
x: (size > 0 ? 0 : size) + mouseDownX
});
}
// adjust the height of the selection marker
if (selectionMarker && zoomVert) {
size = chartY - mouseDownY;
selectionMarker.attr({
height: mathAbs(size),
y: (size > 0 ? 0 : size) + mouseDownY
});
}
// panning
if (clickedInside && !selectionMarker && chartOptions.panning) {
chart.pan(e, chartOptions.panning);
}
}
},
/**
* On mouse up or touch end across the entire document, drop the selection.
*/
drop: function (e) {
var pointer = this,
chart = this.chart,
hasPinched = this.hasPinched;
if (this.selectionMarker) {
var selectionData = {
xAxis: [],
yAxis: [],
originalEvent: e.originalEvent || e
},
selectionBox = this.selectionMarker,
selectionLeft = selectionBox.attr ? selectionBox.attr('x') : selectionBox.x,
selectionTop = selectionBox.attr ? selectionBox.attr('y') : selectionBox.y,
selectionWidth = selectionBox.attr ? selectionBox.attr('width') : selectionBox.width,
selectionHeight = selectionBox.attr ? selectionBox.attr('height') : selectionBox.height,
runZoom;
// a selection has been made
if (this.hasDragged || hasPinched) {
// record each axis' min and max
each(chart.axes, function (axis) {
if (axis.zoomEnabled && defined(axis.min) && (hasPinched || pointer[{ xAxis: 'zoomX', yAxis: 'zoomY' }[axis.coll]])) { // #859, #3569
var horiz = axis.horiz,
minPixelPadding = e.type === 'touchend' ? axis.minPixelPadding: 0, // #1207, #3075
selectionMin = axis.toValue((horiz ? selectionLeft : selectionTop) + minPixelPadding),
selectionMax = axis.toValue((horiz ? selectionLeft + selectionWidth : selectionTop + selectionHeight) - minPixelPadding);
selectionData[axis.coll].push({
axis: axis,
min: mathMin(selectionMin, selectionMax), // for reversed axes
max: mathMax(selectionMin, selectionMax)
});
runZoom = true;
}
});
if (runZoom) {
fireEvent(chart, 'selection', selectionData, function (args) {
chart.zoom(extend(args, hasPinched ? { animation: false } : null));
});
}
}
this.selectionMarker = this.selectionMarker.destroy();
// Reset scaling preview
if (hasPinched) {
this.scaleGroups();
}
}
// Reset all
if (chart) { // it may be destroyed on mouse up - #877
css(chart.container, { cursor: chart._cursor });
chart.cancelClick = this.hasDragged > 10; // #370
chart.mouseIsDown = this.hasDragged = this.hasPinched = false;
this.pinchDown = [];
}
},
onContainerMouseDown: function (e) {
e = this.normalize(e);
// issue #295, dragging not always working in Firefox
if (e.preventDefault) {
e.preventDefault();
}
this.dragStart(e);
},
onDocumentMouseUp: function (e) {
if (charts[hoverChartIndex]) {
charts[hoverChartIndex].pointer.drop(e);
}
},
/**
* Special handler for mouse move that will hide the tooltip when the mouse leaves the plotarea.
* Issue #149 workaround. The mouseleave event does not always fire.
*/
onDocumentMouseMove: function (e) {
var chart = this.chart,
chartPosition = this.chartPosition;
e = this.normalize(e, chartPosition);
// If we're outside, hide the tooltip
if (chartPosition && !this.inClass(e.target, 'highcharts-tracker') &&
!chart.isInsidePlot(e.chartX - chart.plotLeft, e.chartY - chart.plotTop)) {
this.reset();
}
},
/**
* When mouse leaves the container, hide the tooltip.
*/
onContainerMouseLeave: function () {
var chart = charts[hoverChartIndex];
if (chart) {
chart.pointer.reset();
chart.pointer.chartPosition = null; // also reset the chart position, used in #149 fix
}
},
// The mousemove, touchmove and touchstart event handler
onContainerMouseMove: function (e) {
var chart = this.chart;
hoverChartIndex = chart.index;
e = this.normalize(e);
e.returnValue = false; // #2251, #3224
if (chart.mouseIsDown === 'mousedown') {
this.drag(e);
}
// Show the tooltip and run mouse over events (#977)
if ((this.inClass(e.target, 'highcharts-tracker') ||
chart.isInsidePlot(e.chartX - chart.plotLeft, e.chartY - chart.plotTop)) && !chart.openMenu) {
this.runPointActions(e);
}
},
/**
* Utility to detect whether an element has, or has a parent with, a specific
* class name. Used on detection of tracker objects and on deciding whether
* hovering the tooltip should cause the active series to mouse out.
*/
inClass: function (element, className) {
var elemClassName;
while (element) {
elemClassName = attr(element, 'class');
if (elemClassName) {
if (elemClassName.indexOf(className) !== -1) {
return true;
} else if (elemClassName.indexOf(PREFIX + 'container') !== -1) {
return false;
}
}
element = element.parentNode;
}
},
onTrackerMouseOut: function (e) {
var series = this.chart.hoverSeries,
relatedTarget = e.relatedTarget || e.toElement;
if (series && !series.options.stickyTracking &&
!this.inClass(relatedTarget, PREFIX + 'tooltip') &&
!this.inClass(relatedTarget, PREFIX + 'series-' + series.index)) { // #2499, #4465
series.onMouseOut();
}
},
onContainerClick: function (e) {
var chart = this.chart,
hoverPoint = chart.hoverPoint,
plotLeft = chart.plotLeft,
plotTop = chart.plotTop;
e = this.normalize(e);
e.originalEvent = e; // #3913
if (!chart.cancelClick) {
// On tracker click, fire the series and point events. #783, #1583
if (hoverPoint && this.inClass(e.target, PREFIX + 'tracker')) {
// the series click event
fireEvent(hoverPoint.series, 'click', extend(e, {
point: hoverPoint
}));
// the point click event
if (chart.hoverPoint) { // it may be destroyed (#1844)
hoverPoint.firePointEvent('click', e);
}
// When clicking outside a tracker, fire a chart event
} else {
extend(e, this.getCoordinates(e));
// fire a click event in the chart
if (chart.isInsidePlot(e.chartX - plotLeft, e.chartY - plotTop)) {
fireEvent(chart, 'click', e);
}
}
}
},
/**
* Set the JS DOM events on the container and document. This method should contain
* a one-to-one assignment between methods and their handlers. Any advanced logic should
* be moved to the handler reflecting the event's name.
*/
setDOMEvents: function () {
var pointer = this,
container = pointer.chart.container;
container.onmousedown = function (e) {
pointer.onContainerMouseDown(e);
};
container.onmousemove = function (e) {
pointer.onContainerMouseMove(e);
};
container.onclick = function (e) {
pointer.onContainerClick(e);
};
addEvent(container, 'mouseleave', pointer.onContainerMouseLeave);
if (chartCount === 1) {
addEvent(doc, 'mouseup', pointer.onDocumentMouseUp);
}
if (hasTouch) {
container.ontouchstart = function (e) {
pointer.onContainerTouchStart(e);
};
container.ontouchmove = function (e) {
pointer.onContainerTouchMove(e);
};
if (chartCount === 1) {
addEvent(doc, 'touchend', pointer.onDocumentTouchEnd);
}
}
},
/**
* Destroys the Pointer object and disconnects DOM events.
*/
destroy: function () {
var prop;
removeEvent(this.chart.container, 'mouseleave', this.onContainerMouseLeave);
if (!chartCount) {
removeEvent(doc, 'mouseup', this.onDocumentMouseUp);
removeEvent(doc, 'touchend', this.onDocumentTouchEnd);
}
// memory and CPU leak
clearInterval(this.tooltipTimeout);
for (prop in this) {
this[prop] = null;
}
}
};
/* Support for touch devices */
extend(Highcharts.Pointer.prototype, {
/**
* Run translation operations
*/
pinchTranslate: function (pinchDown, touches, transform, selectionMarker, clip, lastValidTouch) {
if (this.zoomHor || this.pinchHor) {
this.pinchTranslateDirection(true, pinchDown, touches, transform, selectionMarker, clip, lastValidTouch);
}
if (this.zoomVert || this.pinchVert) {
this.pinchTranslateDirection(false, pinchDown, touches, transform, selectionMarker, clip, lastValidTouch);
}
},
/**
* Run translation operations for each direction (horizontal and vertical) independently
*/
pinchTranslateDirection: function (horiz, pinchDown, touches, transform, selectionMarker, clip, lastValidTouch, forcedScale) {
var chart = this.chart,
xy = horiz ? 'x' : 'y',
XY = horiz ? 'X' : 'Y',
sChartXY = 'chart' + XY,
wh = horiz ? 'width' : 'height',
plotLeftTop = chart['plot' + (horiz ? 'Left' : 'Top')],
selectionWH,
selectionXY,
clipXY,
scale = forcedScale || 1,
inverted = chart.inverted,
bounds = chart.bounds[horiz ? 'h' : 'v'],
singleTouch = pinchDown.length === 1,
touch0Start = pinchDown[0][sChartXY],
touch0Now = touches[0][sChartXY],
touch1Start = !singleTouch && pinchDown[1][sChartXY],
touch1Now = !singleTouch && touches[1][sChartXY],
outOfBounds,
transformScale,
scaleKey,
setScale = function () {
if (!singleTouch && mathAbs(touch0Start - touch1Start) > 20) { // Don't zoom if fingers are too close on this axis
scale = forcedScale || mathAbs(touch0Now - touch1Now) / mathAbs(touch0Start - touch1Start);
}
clipXY = ((plotLeftTop - touch0Now) / scale) + touch0Start;
selectionWH = chart['plot' + (horiz ? 'Width' : 'Height')] / scale;
};
// Set the scale, first pass
setScale();
selectionXY = clipXY; // the clip position (x or y) is altered if out of bounds, the selection position is not
// Out of bounds
if (selectionXY < bounds.min) {
selectionXY = bounds.min;
outOfBounds = true;
} else if (selectionXY + selectionWH > bounds.max) {
selectionXY = bounds.max - selectionWH;
outOfBounds = true;
}
// Is the chart dragged off its bounds, determined by dataMin and dataMax?
if (outOfBounds) {
// Modify the touchNow position in order to create an elastic drag movement. This indicates
// to the user that the chart is responsive but can't be dragged further.
touch0Now -= 0.8 * (touch0Now - lastValidTouch[xy][0]);
if (!singleTouch) {
touch1Now -= 0.8 * (touch1Now - lastValidTouch[xy][1]);
}
// Set the scale, second pass to adapt to the modified touchNow positions
setScale();
} else {
lastValidTouch[xy] = [touch0Now, touch1Now];
}
// Set geometry for clipping, selection and transformation
if (!inverted) { // TODO: implement clipping for inverted charts
clip[xy] = clipXY - plotLeftTop;
clip[wh] = selectionWH;
}
scaleKey = inverted ? (horiz ? 'scaleY' : 'scaleX') : 'scale' + XY;
transformScale = inverted ? 1 / scale : scale;
selectionMarker[wh] = selectionWH;
selectionMarker[xy] = selectionXY;
transform[scaleKey] = scale;
transform['translate' + XY] = (transformScale * plotLeftTop) + (touch0Now - (transformScale * touch0Start));
},
/**
* Handle touch events with two touches
*/
pinch: function (e) {
var self = this,
chart = self.chart,
pinchDown = self.pinchDown,
touches = e.touches,
touchesLength = touches.length,
lastValidTouch = self.lastValidTouch,
hasZoom = self.hasZoom,
selectionMarker = self.selectionMarker,
transform = {},
fireClickEvent = touchesLength === 1 && ((self.inClass(e.target, PREFIX + 'tracker') &&
chart.runTrackerClick) || self.runChartClick),
clip = {};
// Don't initiate panning until the user has pinched. This prevents us from
// blocking page scrolling as users scroll down a long page (#4210).
if (touchesLength > 1) {
self.initiated = true;
}
// On touch devices, only proceed to trigger click if a handler is defined
if (hasZoom && self.initiated && !fireClickEvent) {
e.preventDefault();
}
// Normalize each touch
map(touches, function (e) {
return self.normalize(e);
});
// Register the touch start position
if (e.type === 'touchstart') {
each(touches, function (e, i) {
pinchDown[i] = { chartX: e.chartX, chartY: e.chartY };
});
lastValidTouch.x = [pinchDown[0].chartX, pinchDown[1] && pinchDown[1].chartX];
lastValidTouch.y = [pinchDown[0].chartY, pinchDown[1] && pinchDown[1].chartY];
// Identify the data bounds in pixels
each(chart.axes, function (axis) {
if (axis.zoomEnabled) {
var bounds = chart.bounds[axis.horiz ? 'h' : 'v'],
minPixelPadding = axis.minPixelPadding,
min = axis.toPixels(pick(axis.options.min, axis.dataMin)),
max = axis.toPixels(pick(axis.options.max, axis.dataMax)),
absMin = mathMin(min, max),
absMax = mathMax(min, max);
// Store the bounds for use in the touchmove handler
bounds.min = mathMin(axis.pos, absMin - minPixelPadding);
bounds.max = mathMax(axis.pos + axis.len, absMax + minPixelPadding);
}
});
self.res = true; // reset on next move
// Event type is touchmove, handle panning and pinching
} else if (pinchDown.length) { // can be 0 when releasing, if touchend fires first
// Set the marker
if (!selectionMarker) {
self.selectionMarker = selectionMarker = extend({
destroy: noop,
touch: true
}, chart.plotBox);
}
self.pinchTranslate(pinchDown, touches, transform, selectionMarker, clip, lastValidTouch);
self.hasPinched = hasZoom;
// Scale and translate the groups to provide visual feedback during pinching
self.scaleGroups(transform, clip);
// Optionally move the tooltip on touchmove
if (!hasZoom && self.followTouchMove && touchesLength === 1) {
this.runPointActions(self.normalize(e));
} else if (self.res) {
self.res = false;
this.reset(false, 0);
}
}
},
/**
* General touch handler shared by touchstart and touchmove.
*/
touch: function (e, start) {
var chart = this.chart;
hoverChartIndex = chart.index;
if (e.touches.length === 1) {
e = this.normalize(e);
if (chart.isInsidePlot(e.chartX - chart.plotLeft, e.chartY - chart.plotTop) && !chart.openMenu) {
// Run mouse events and display tooltip etc
if (start) {
this.runPointActions(e);
}
this.pinch(e);
} else if (start) {
// Hide the tooltip on touching outside the plot area (#1203)
this.reset();
}
} else if (e.touches.length === 2) {
this.pinch(e);
}
},
onContainerTouchStart: function (e) {
this.touch(e, true);
},
onContainerTouchMove: function (e) {
this.touch(e);
},
onDocumentTouchEnd: function (e) {
if (charts[hoverChartIndex]) {
charts[hoverChartIndex].pointer.drop(e);
}
}
});
if (win.PointerEvent || win.MSPointerEvent) {
// The touches object keeps track of the points being touched at all times
var touches = {},
hasPointerEvent = !!win.PointerEvent,
getWebkitTouches = function () {
var key, fake = [];
fake.item = function (i) { return this[i]; };
for (key in touches) {
if (touches.hasOwnProperty(key)) {
fake.push({
pageX: touches[key].pageX,
pageY: touches[key].pageY,
target: touches[key].target
});
}
}
return fake;
},
translateMSPointer = function (e, method, wktype, callback) {
var p;
e = e.originalEvent || e;
if ((e.pointerType === 'touch' || e.pointerType === e.MSPOINTER_TYPE_TOUCH) && charts[hoverChartIndex]) {
callback(e);
p = charts[hoverChartIndex].pointer;
p[method]({
type: wktype,
target: e.currentTarget,
preventDefault: noop,
touches: getWebkitTouches()
});
}
};
/**
* Extend the Pointer prototype with methods for each event handler and more
*/
extend(Pointer.prototype, {
onContainerPointerDown: function (e) {
translateMSPointer(e, 'onContainerTouchStart', 'touchstart', function (e) {
touches[e.pointerId] = { pageX: e.pageX, pageY: e.pageY, target: e.currentTarget };
});
},
onContainerPointerMove: function (e) {
translateMSPointer(e, 'onContainerTouchMove', 'touchmove', function (e) {
touches[e.pointerId] = { pageX: e.pageX, pageY: e.pageY };
if (!touches[e.pointerId].target) {
touches[e.pointerId].target = e.currentTarget;
}
});
},
onDocumentPointerUp: function (e) {
translateMSPointer(e, 'onDocumentTouchEnd', 'touchend', function (e) {
delete touches[e.pointerId];
});
},
/**
* Add or remove the MS Pointer specific events
*/
batchMSEvents: function (fn) {
fn(this.chart.container, hasPointerEvent ? 'pointerdown' : 'MSPointerDown', this.onContainerPointerDown);
fn(this.chart.container, hasPointerEvent ? 'pointermove' : 'MSPointerMove', this.onContainerPointerMove);
fn(doc, hasPointerEvent ? 'pointerup' : 'MSPointerUp', this.onDocumentPointerUp);
}
});
// Disable default IE actions for pinch and such on chart element
wrap(Pointer.prototype, 'init', function (proceed, chart, options) {
proceed.call(this, chart, options);
if (this.hasZoom) { // #4014
css(chart.container, {
'-ms-touch-action': NONE,
'touch-action': NONE
});
}
});
// Add IE specific touch events to chart
wrap(Pointer.prototype, 'setDOMEvents', function (proceed) {
proceed.apply(this);
if (this.hasZoom || this.followTouchMove) {
this.batchMSEvents(addEvent);
}
});
// Destroy MS events also
wrap(Pointer.prototype, 'destroy', function (proceed) {
this.batchMSEvents(removeEvent);
proceed.call(this);
});
}
/**
* The overview of the chart's series
*/
var Legend = Highcharts.Legend = function (chart, options) {
this.init(chart, options);
};
Legend.prototype = {
/**
* Initialize the legend
*/
init: function (chart, options) {
var legend = this,
itemStyle = options.itemStyle,
padding,
itemMarginTop = options.itemMarginTop || 0;
this.options = options;
if (!options.enabled) {
return;
}
legend.itemStyle = itemStyle;
legend.itemHiddenStyle = merge(itemStyle, options.itemHiddenStyle);
legend.itemMarginTop = itemMarginTop;
legend.padding = padding = pick(options.padding, 8);
legend.initialItemX = padding;
legend.initialItemY = padding - 5; // 5 is the number of pixels above the text
legend.maxItemWidth = 0;
legend.chart = chart;
legend.itemHeight = 0;
legend.symbolWidth = pick(options.symbolWidth, 16);
legend.pages = [];
// Render it
legend.render();
// move checkboxes
addEvent(legend.chart, 'endResize', function () {
legend.positionCheckboxes();
});
},
/**
* Set the colors for the legend item
* @param {Object} item A Series or Point instance
* @param {Object} visible Dimmed or colored
*/
colorizeItem: function (item, visible) {
var legend = this,
options = legend.options,
legendItem = item.legendItem,
legendLine = item.legendLine,
legendSymbol = item.legendSymbol,
hiddenColor = legend.itemHiddenStyle.color,
textColor = visible ? options.itemStyle.color : hiddenColor,
symbolColor = visible ? (item.legendColor || item.color || '#CCC') : hiddenColor,
markerOptions = item.options && item.options.marker,
symbolAttr = { fill: symbolColor },
key,
val;
if (legendItem) {
legendItem.css({ fill: textColor, color: textColor }); // color for #1553, oldIE
}
if (legendLine) {
legendLine.attr({ stroke: symbolColor });
}
if (legendSymbol) {
// Apply marker options
if (markerOptions && legendSymbol.isMarker) { // #585
symbolAttr.stroke = symbolColor;
markerOptions = item.convertAttribs(markerOptions);
for (key in markerOptions) {
val = markerOptions[key];
if (val !== UNDEFINED) {
symbolAttr[key] = val;
}
}
}
legendSymbol.attr(symbolAttr);
}
},
/**
* Position the legend item
* @param {Object} item A Series or Point instance
*/
positionItem: function (item) {
var legend = this,
options = legend.options,
symbolPadding = options.symbolPadding,
ltr = !options.rtl,
legendItemPos = item._legendItemPos,
itemX = legendItemPos[0],
itemY = legendItemPos[1],
checkbox = item.checkbox,
legendGroup = item.legendGroup;
if (legendGroup && legendGroup.element) {
legendGroup.translate(
ltr ? itemX : legend.legendWidth - itemX - 2 * symbolPadding - 4,
itemY
);
}
if (checkbox) {
checkbox.x = itemX;
checkbox.y = itemY;
}
},
/**
* Destroy a single legend item
* @param {Object} item The series or point
*/
destroyItem: function (item) {
var checkbox = item.checkbox;
// destroy SVG elements
each(['legendItem', 'legendLine', 'legendSymbol', 'legendGroup'], function (key) {
if (item[key]) {
item[key] = item[key].destroy();
}
});
if (checkbox) {
discardElement(item.checkbox);
}
},
/**
* Destroys the legend.
*/
destroy: function () {
var legend = this,
legendGroup = legend.group,
box = legend.box;
if (box) {
legend.box = box.destroy();
}
if (legendGroup) {
legend.group = legendGroup.destroy();
}
},
/**
* Position the checkboxes after the width is determined
*/
positionCheckboxes: function (scrollOffset) {
var alignAttr = this.group.alignAttr,
translateY,
clipHeight = this.clipHeight || this.legendHeight;
if (alignAttr) {
translateY = alignAttr.translateY;
each(this.allItems, function (item) {
var checkbox = item.checkbox,
top;
if (checkbox) {
top = (translateY + checkbox.y + (scrollOffset || 0) + 3);
css(checkbox, {
left: (alignAttr.translateX + item.checkboxOffset + checkbox.x - 20) + PX,
top: top + PX,
display: top > translateY - 6 && top < translateY + clipHeight - 6 ? '' : NONE
});
}
});
}
},
/**
* Render the legend title on top of the legend
*/
renderTitle: function () {
var options = this.options,
padding = this.padding,
titleOptions = options.title,
titleHeight = 0,
bBox;
if (titleOptions.text) {
if (!this.title) {
this.title = this.chart.renderer.label(titleOptions.text, padding - 3, padding - 4, null, null, null, null, null, 'legend-title')
.attr({ zIndex: 1 })
.css(titleOptions.style)
.add(this.group);
}
bBox = this.title.getBBox();
titleHeight = bBox.height;
this.offsetWidth = bBox.width; // #1717
this.contentGroup.attr({ translateY: titleHeight });
}
this.titleHeight = titleHeight;
},
/**
* Set the legend item text
*/
setText: function (item) {
var options = this.options;
item.legendItem.attr({
text: options.labelFormat ? format(options.labelFormat, item) : options.labelFormatter.call(item)
});
},
/**
* Render a single specific legend item
* @param {Object} item A series or point
*/
renderItem: function (item) {
var legend = this,
chart = legend.chart,
renderer = chart.renderer,
options = legend.options,
horizontal = options.layout === 'horizontal',
symbolWidth = legend.symbolWidth,
symbolPadding = options.symbolPadding,
itemStyle = legend.itemStyle,
itemHiddenStyle = legend.itemHiddenStyle,
padding = legend.padding,
itemDistance = horizontal ? pick(options.itemDistance, 20) : 0,
ltr = !options.rtl,
itemHeight,
widthOption = options.width,
itemMarginBottom = options.itemMarginBottom || 0,
itemMarginTop = legend.itemMarginTop,
initialItemX = legend.initialItemX,
bBox,
itemWidth,
li = item.legendItem,
series = item.series && item.series.drawLegendSymbol ? item.series : item,
seriesOptions = series.options,
showCheckbox = legend.createCheckboxForItem && seriesOptions && seriesOptions.showCheckbox,
useHTML = options.useHTML;
if (!li) { // generate it once, later move it
// Generate the group box
// A group to hold the symbol and text. Text is to be appended in Legend class.
item.legendGroup = renderer.g('legend-item')
.attr({ zIndex: 1 })
.add(legend.scrollGroup);
// Generate the list item text and add it to the group
item.legendItem = li = renderer.text(
'',
ltr ? symbolWidth + symbolPadding : -symbolPadding,
legend.baseline || 0,
useHTML
)
.css(merge(item.visible ? itemStyle : itemHiddenStyle)) // merge to prevent modifying original (#1021)
.attr({
align: ltr ? 'left' : 'right',
zIndex: 2
})
.add(item.legendGroup);
// Get the baseline for the first item - the font size is equal for all
if (!legend.baseline) {
legend.fontMetrics = renderer.fontMetrics(itemStyle.fontSize, li);
legend.baseline = legend.fontMetrics.f + 3 + itemMarginTop;
li.attr('y', legend.baseline);
}
// Draw the legend symbol inside the group box
series.drawLegendSymbol(legend, item);
if (legend.setItemEvents) {
legend.setItemEvents(item, li, useHTML, itemStyle, itemHiddenStyle);
}
// Colorize the items
legend.colorizeItem(item, item.visible);
// add the HTML checkbox on top
if (showCheckbox) {
legend.createCheckboxForItem(item);
}
}
// Always update the text
legend.setText(item);
// calculate the positions for the next line
bBox = li.getBBox();
itemWidth = item.checkboxOffset =
options.itemWidth ||
item.legendItemWidth ||
symbolWidth + symbolPadding + bBox.width + itemDistance + (showCheckbox ? 20 : 0);
legend.itemHeight = itemHeight = mathRound(item.legendItemHeight || bBox.height);
// if the item exceeds the width, start a new line
if (horizontal && legend.itemX - initialItemX + itemWidth >
(widthOption || (chart.chartWidth - 2 * padding - initialItemX - options.x))) {
legend.itemX = initialItemX;
legend.itemY += itemMarginTop + legend.lastLineHeight + itemMarginBottom;
legend.lastLineHeight = 0; // reset for next line (#915, #3976)
}
// If the item exceeds the height, start a new column
/*if (!horizontal && legend.itemY + options.y + itemHeight > chart.chartHeight - spacingTop - spacingBottom) {
legend.itemY = legend.initialItemY;
legend.itemX += legend.maxItemWidth;
legend.maxItemWidth = 0;
}*/
// Set the edge positions
legend.maxItemWidth = mathMax(legend.maxItemWidth, itemWidth);
legend.lastItemY = itemMarginTop + legend.itemY + itemMarginBottom;
legend.lastLineHeight = mathMax(itemHeight, legend.lastLineHeight); // #915
// cache the position of the newly generated or reordered items
item._legendItemPos = [legend.itemX, legend.itemY];
// advance
if (horizontal) {
legend.itemX += itemWidth;
} else {
legend.itemY += itemMarginTop + itemHeight + itemMarginBottom;
legend.lastLineHeight = itemHeight;
}
// the width of the widest item
legend.offsetWidth = widthOption || mathMax(
(horizontal ? legend.itemX - initialItemX - itemDistance : itemWidth) + padding,
legend.offsetWidth
);
},
/**
* Get all items, which is one item per series for normal series and one item per point
* for pie series.
*/
getAllItems: function () {
var allItems = [];
each(this.chart.series, function (series) {
var seriesOptions = series.options;
// Handle showInLegend. If the series is linked to another series, defaults to false.
if (!pick(seriesOptions.showInLegend, !defined(seriesOptions.linkedTo) ? UNDEFINED : false, true)) {
return;
}
// use points or series for the legend item depending on legendType
allItems = allItems.concat(
series.legendItems ||
(seriesOptions.legendType === 'point' ?
series.data :
series)
);
});
return allItems;
},
/**
* Adjust the chart margins by reserving space for the legend on only one side
* of the chart. If the position is set to a corner, top or bottom is reserved
* for horizontal legends and left or right for vertical ones.
*/
adjustMargins: function (margin, spacing) {
var chart = this.chart,
options = this.options,
// Use the first letter of each alignment option in order to detect the side
alignment = options.align.charAt(0) + options.verticalAlign.charAt(0) + options.layout.charAt(0); // #4189 - use charAt(x) notation instead of [x] for IE7
if (this.display && !options.floating) {
each([
/(lth|ct|rth)/,
/(rtv|rm|rbv)/,
/(rbh|cb|lbh)/,
/(lbv|lm|ltv)/
], function (alignments, side) {
if (alignments.test(alignment) && !defined(margin[side])) {
// Now we have detected on which side of the chart we should reserve space for the legend
chart[marginNames[side]] = mathMax(
chart[marginNames[side]],
chart.legend[(side + 1) % 2 ? 'legendHeight' : 'legendWidth'] +
[1, -1, -1, 1][side] * options[(side % 2) ? 'x' : 'y'] +
pick(options.margin, 12) +
spacing[side]
);
}
});
}
},
/**
* 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.
*/
render: function () {
var legend = this,
chart = legend.chart,
renderer = chart.renderer,
legendGroup = legend.group,
allItems,
display,
legendWidth,
legendHeight,
box = legend.box,
options = legend.options,
padding = legend.padding,
legendBorderWidth = options.borderWidth,
legendBackgroundColor = options.backgroundColor;
legend.itemX = legend.initialItemX;
legend.itemY = legend.initialItemY;
legend.offsetWidth = 0;
legend.lastItemY = 0;
if (!legendGroup) {
legend.group = legendGroup = renderer.g('legend')
.attr({ zIndex: 7 })
.add();
legend.contentGroup = renderer.g()
.attr({ zIndex: 1 }) // above background
.add(legendGroup);
legend.scrollGroup = renderer.g()
.add(legend.contentGroup);
}
legend.renderTitle();
// add each series or point
allItems = legend.getAllItems();
// sort by legendIndex
stableSort(allItems, function (a, b) {
return ((a.options && a.options.legendIndex) || 0) - ((b.options && b.options.legendIndex) || 0);
});
// reversed legend
if (options.reversed) {
allItems.reverse();
}
legend.allItems = allItems;
legend.display = display = !!allItems.length;
// render the items
legend.lastLineHeight = 0;
each(allItems, function (item) {
legend.renderItem(item);
});
// Get the box
legendWidth = (options.width || legend.offsetWidth) + padding;
legendHeight = legend.lastItemY + legend.lastLineHeight + legend.titleHeight;
legendHeight = legend.handleOverflow(legendHeight);
legendHeight += padding;
// Draw the border and/or background
if (legendBorderWidth || legendBackgroundColor) {
if (!box) {
legend.box = box = renderer.rect(
0,
0,
legendWidth,
legendHeight,
options.borderRadius,
legendBorderWidth || 0
).attr({
stroke: options.borderColor,
'stroke-width': legendBorderWidth || 0,
fill: legendBackgroundColor || NONE
})
.add(legendGroup)
.shadow(options.shadow);
box.isNew = true;
} else if (legendWidth > 0 && legendHeight > 0) {
box[box.isNew ? 'attr' : 'animate'](
box.crisp({ width: legendWidth, height: legendHeight })
);
box.isNew = false;
}
// hide the border if no items
box[display ? 'show' : 'hide']();
}
legend.legendWidth = legendWidth;
legend.legendHeight = legendHeight;
// Now that the legend width and height are established, put the items in the
// final position
each(allItems, function (item) {
legend.positionItem(item);
});
// 1.x compatibility: positioning based on style
/*var props = ['left', 'right', 'top', 'bottom'],
prop,
i = 4;
while (i--) {
prop = props[i];
if (options.style[prop] && options.style[prop] !== 'auto') {
options[i < 2 ? 'align' : 'verticalAlign'] = prop;
options[i < 2 ? 'x' : 'y'] = pInt(options.style[prop]) * (i % 2 ? -1 : 1);
}
}*/
if (display) {
legendGroup.align(extend({
width: legendWidth,
height: legendHeight
}, options), true, 'spacingBox');
}
if (!chart.isResizing) {
this.positionCheckboxes();
}
},
/**
* Set up the overflow handling by adding navigation with up and down arrows below the
* legend.
*/
handleOverflow: function (legendHeight) {
var legend = this,
chart = this.chart,
renderer = chart.renderer,
options = this.options,
optionsY = options.y,
alignTop = options.verticalAlign === 'top',
spaceHeight = chart.spacingBox.height + (alignTop ? -optionsY : optionsY) - this.padding,
maxHeight = options.maxHeight,
clipHeight,
clipRect = this.clipRect,
navOptions = options.navigation,
animation = pick(navOptions.animation, true),
arrowSize = navOptions.arrowSize || 12,
nav = this.nav,
pages = this.pages,
padding = this.padding,
lastY,
allItems = this.allItems,
clipToHeight = function (height) {
clipRect.attr({
height: height
});
// useHTML
if (legend.contentGroup.div) {
legend.contentGroup.div.style.clip = 'rect(' + padding + 'px,9999px,' + (padding + height) + 'px,0)';
}
};
// Adjust the height
if (options.layout === 'horizontal') {
spaceHeight /= 2;
}
if (maxHeight) {
spaceHeight = mathMin(spaceHeight, maxHeight);
}
// Reset the legend height and adjust the clipping rectangle
pages.length = 0;
if (legendHeight > spaceHeight) {
this.clipHeight = clipHeight = mathMax(spaceHeight - 20 - this.titleHeight - padding, 0);
this.currentPage = pick(this.currentPage, 1);
this.fullHeight = legendHeight;
// Fill pages with Y positions so that the top of each a legend item defines
// the scroll top for each page (#2098)
each(allItems, function (item, i) {
var y = item._legendItemPos[1],
h = mathRound(item.legendItem.getBBox().height),
len = pages.length;
if (!len || (y - pages[len - 1] > clipHeight && (lastY || y) !== pages[len - 1])) {
pages.push(lastY || y);
len++;
}
if (i === allItems.length - 1 && y + h - pages[len - 1] > clipHeight) {
pages.push(y);
}
if (y !== lastY) {
lastY = y;
}
});
// Only apply clipping if needed. Clipping causes blurred legend in PDF export (#1787)
if (!clipRect) {
clipRect = legend.clipRect = renderer.clipRect(0, padding, 9999, 0);
legend.contentGroup.clip(clipRect);
}
clipToHeight(clipHeight);
// Add navigation elements
if (!nav) {
this.nav = nav = renderer.g().attr({ zIndex: 1 }).add(this.group);
this.up = renderer.symbol('triangle', 0, 0, arrowSize, arrowSize)
.on('click', function () {
legend.scroll(-1, animation);
})
.add(nav);
this.pager = renderer.text('', 15, 10)
.css(navOptions.style)
.add(nav);
this.down = renderer.symbol('triangle-down', 0, 0, arrowSize, arrowSize)
.on('click', function () {
legend.scroll(1, animation);
})
.add(nav);
}
// Set initial position
legend.scroll(0);
legendHeight = spaceHeight;
} else if (nav) {
clipToHeight(chart.chartHeight);
nav.hide();
this.scrollGroup.attr({
translateY: 1
});
this.clipHeight = 0; // #1379
}
return legendHeight;
},
/**
* Scroll the legend by a number of pages
* @param {Object} scrollBy
* @param {Object} animation
*/
scroll: function (scrollBy, animation) {
var pages = this.pages,
pageCount = pages.length,
currentPage = this.currentPage + scrollBy,
clipHeight = this.clipHeight,
navOptions = this.options.navigation,
activeColor = navOptions.activeColor,
inactiveColor = navOptions.inactiveColor,
pager = this.pager,
padding = this.padding,
scrollOffset;
// When resizing while looking at the last page
if (currentPage > pageCount) {
currentPage = pageCount;
}
if (currentPage > 0) {
if (animation !== UNDEFINED) {
setAnimation(animation, this.chart);
}
this.nav.attr({
translateX: padding,
translateY: clipHeight + this.padding + 7 + this.titleHeight,
visibility: VISIBLE
});
this.up.attr({
fill: currentPage === 1 ? inactiveColor : activeColor
})
.css({
cursor: currentPage === 1 ? 'default' : 'pointer'
});
pager.attr({
text: currentPage + '/' + pageCount
});
this.down.attr({
x: 18 + this.pager.getBBox().width, // adjust to text width
fill: currentPage === pageCount ? inactiveColor : activeColor
})
.css({
cursor: currentPage === pageCount ? 'default' : 'pointer'
});
scrollOffset = -pages[currentPage - 1] + this.initialItemY;
this.scrollGroup.animate({
translateY: scrollOffset
});
this.currentPage = currentPage;
this.positionCheckboxes(scrollOffset);
}
}
};
/*
* LegendSymbolMixin
*/
var LegendSymbolMixin = Highcharts.LegendSymbolMixin = {
/**
* Get the series' symbol in the legend
*
* @param {Object} legend The legend object
* @param {Object} item The series (this) or point
*/
drawRectangle: function (legend, item) {
var symbolHeight = legend.options.symbolHeight || legend.fontMetrics.f;
item.legendSymbol = this.chart.renderer.rect(
0,
legend.baseline - symbolHeight + 1, // #3988
legend.symbolWidth,
symbolHeight,
legend.options.symbolRadius || 0
).attr({
zIndex: 3
}).add(item.legendGroup);
},
/**
* Get the series' symbol in the legend. This method should be overridable to create custom
* symbols through Highcharts.seriesTypes[type].prototype.drawLegendSymbols.
*
* @param {Object} legend The legend object
*/
drawLineMarker: function (legend) {
var options = this.options,
markerOptions = options.marker,
radius,
legendSymbol,
symbolWidth = legend.symbolWidth,
renderer = this.chart.renderer,
legendItemGroup = this.legendGroup,
verticalCenter = legend.baseline - mathRound(legend.fontMetrics.b * 0.3),
attr;
// Draw the line
if (options.lineWidth) {
attr = {
'stroke-width': options.lineWidth
};
if (options.dashStyle) {
attr.dashstyle = options.dashStyle;
}
this.legendLine = renderer.path([
M,
0,
verticalCenter,
L,
symbolWidth,
verticalCenter
])
.attr(attr)
.add(legendItemGroup);
}
// Draw the marker
if (markerOptions && markerOptions.enabled !== false) {
radius = markerOptions.radius;
this.legendSymbol = legendSymbol = renderer.symbol(
this.symbol,
(symbolWidth / 2) - radius,
verticalCenter - radius,
2 * radius,
2 * radius
)
.add(legendItemGroup);
legendSymbol.isMarker = true;
}
}
};
// Workaround for #2030, horizontal legend items not displaying in IE11 Preview,
// and for #2580, a similar drawing flaw in Firefox 26.
// TODO: Explore if there's a general cause for this. The problem may be related
// to nested group elements, as the legend item texts are within 4 group elements.
if (/Trident\/7\.0/.test(userAgent) || isFirefox) {
wrap(Legend.prototype, 'positionItem', function (proceed, item) {
var legend = this,
runPositionItem = function () { // If chart destroyed in sync, this is undefined (#2030)
if (item._legendItemPos) {
proceed.call(legend, item);
}
};
// Do it now, for export and to get checkbox placement
runPositionItem();
// Do it after to work around the core issue
setTimeout(runPositionItem);
});
}
/**
* The chart class
* @param {Object} options
* @param {Function} callback Function to run when the chart has loaded
*/
var Chart = Highcharts.Chart = function () {
this.init.apply(this, arguments);
};
Chart.prototype = {
/**
* Hook for modules
*/
callbacks: [],
/**
* Initialize the chart
*/
init: function (userOptions, callback) {
// Handle regular options
var options,
seriesOptions = userOptions.series; // skip merging data points to increase performance
userOptions.series = null;
options = merge(defaultOptions, userOptions); // do the merge
options.series = userOptions.series = seriesOptions; // set back the series data
this.userOptions = userOptions;
var optionsChart = options.chart;
// Create margin & spacing array
this.margin = this.splashArray('margin', optionsChart);
this.spacing = this.splashArray('spacing', optionsChart);
var chartEvents = optionsChart.events;
//this.runChartClick = chartEvents && !!chartEvents.click;
this.bounds = { h: {}, v: {} }; // Pixel data bounds for touch zoom
this.callback = callback;
this.isResizing = 0;
this.options = options;
//chartTitleOptions = UNDEFINED;
//chartSubtitleOptions = UNDEFINED;
this.axes = [];
this.series = [];
this.hasCartesianSeries = optionsChart.showAxes;
//this.axisOffset = UNDEFINED;
//this.maxTicks = UNDEFINED; // handle the greatest amount of ticks on grouped axes
//this.inverted = UNDEFINED;
//this.loadingShown = UNDEFINED;
//this.container = UNDEFINED;
//this.chartWidth = UNDEFINED;
//this.chartHeight = UNDEFINED;
//this.marginRight = UNDEFINED;
//this.marginBottom = UNDEFINED;
//this.containerWidth = UNDEFINED;
//this.containerHeight = UNDEFINED;
//this.oldChartWidth = UNDEFINED;
//this.oldChartHeight = UNDEFINED;
//this.renderTo = UNDEFINED;
//this.renderToClone = UNDEFINED;
//this.spacingBox = UNDEFINED
//this.legend = UNDEFINED;
// Elements
//this.chartBackground = UNDEFINED;
//this.plotBackground = UNDEFINED;
//this.plotBGImage = UNDEFINED;
//this.plotBorder = UNDEFINED;
//this.loadingDiv = UNDEFINED;
//this.loadingSpan = UNDEFINED;
var chart = this,
eventType;
// Add the chart to the global lookup
chart.index = charts.length;
charts.push(chart);
chartCount++;
// Set up auto resize
if (optionsChart.reflow !== false) {
addEvent(chart, 'load', function () {
chart.initReflow();
});
}
// Chart event handlers
if (chartEvents) {
for (eventType in chartEvents) {
addEvent(chart, eventType, chartEvents[eventType]);
}
}
chart.xAxis = [];
chart.yAxis = [];
// Expose methods and variables
chart.animation = useCanVG ? false : pick(optionsChart.animation, true);
chart.pointCount = chart.colorCounter = chart.symbolCounter = 0;
chart.firstRender();
},
/**
* Initialize an individual series, called internally before render time
*/
initSeries: function (options) {
var chart = this,
optionsChart = chart.options.chart,
type = options.type || optionsChart.type || optionsChart.defaultSeriesType,
series,
constr = seriesTypes[type];
// No such series type
if (!constr) {
error(17, true);
}
series = new constr();
series.init(this, options);
return series;
},
/**
* Check whether a given point is within the plot area
*
* @param {Number} plotX Pixel x relative to the plot area
* @param {Number} plotY Pixel y relative to the plot area
* @param {Boolean} inverted Whether the chart is inverted
*/
isInsidePlot: function (plotX, plotY, inverted) {
var x = inverted ? plotY : plotX,
y = inverted ? plotX : plotY;
return x >= 0 &&
x <= this.plotWidth &&
y >= 0 &&
y <= this.plotHeight;
},
/**
* Redraw legend, axes or series based on updated data
*
* @param {Boolean|Object} animation Whether to apply animation, and optionally animation
* configuration
*/
redraw: function (animation) {
var chart = this,
axes = chart.axes,
series = chart.series,
pointer = chart.pointer,
legend = chart.legend,
redrawLegend = chart.isDirtyLegend,
hasStackedSeries,
hasDirtyStacks,
hasCartesianSeries = chart.hasCartesianSeries,
isDirtyBox = chart.isDirtyBox, // todo: check if it has actually changed?
seriesLength = series.length,
i = seriesLength,
serie,
renderer = chart.renderer,
isHiddenChart = renderer.isHidden(),
afterRedraw = [];
setAnimation(animation, chart);
if (isHiddenChart) {
chart.cloneRenderTo();
}
// Adjust title layout (reflow multiline text)
chart.layOutTitles();
// link stacked series
while (i--) {
serie = series[i];
if (serie.options.stacking) {
hasStackedSeries = true;
if (serie.isDirty) {
hasDirtyStacks = true;
break;
}
}
}
if (hasDirtyStacks) { // 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) {
if (serie.options.legendType === 'point') {
if (serie.updateTotals) {
serie.updateTotals();
}
redrawLegend = true;
}
}
});
// handle added or removed series
if (redrawLegend && legend.options.enabled) { // series or pie points are added or removed
// draw legend graphics
legend.render();
chart.isDirtyLegend = false;
}
// reset stacks
if (hasStackedSeries) {
chart.getStacks();
}
if (hasCartesianSeries) {
if (!chart.isResizing) {
// reset maxTicks
chart.maxTicks = null;
// set axes scales
each(axes, function (axis) {
axis.setScale();
});
}
}
chart.getMargins(); // #3098
if (hasCartesianSeries) {
// If one axis is dirty, all axes must be redrawn (#792, #2169)
each(axes, function (axis) {
if (axis.isDirty) {
isDirtyBox = true;
}
});
// redraw axes
each(axes, function (axis) {
// Fire 'afterSetExtremes' only if extremes are set
var key = axis.min + ',' + axis.max;
if (axis.extKey !== key) { // #821, #4452
axis.extKey = key;
afterRedraw.push(function () { // prevent a recursive call to chart.redraw() (#1119)
fireEvent(axis, 'afterSetExtremes', extend(axis.eventArgs, axis.getExtremes())); // #747, #751
delete axis.eventArgs;
});
}
if (isDirtyBox || hasStackedSeries) {
axis.redraw();
}
});
}
// the plot areas size has changed
if (isDirtyBox) {
chart.drawChartBox();
}
// redraw affected series
each(series, function (serie) {
if (serie.isDirty && serie.visible &&
(!serie.isCartesian || serie.xAxis)) { // issue #153
serie.redraw();
}
});
// move tooltip or reset
if (pointer) {
pointer.reset(true);
}
// redraw if canvas
renderer.draw();
// fire the event
fireEvent(chart, 'redraw'); // jQuery breaks this when calling it from addEvent. Overwrites chart.redraw
if (isHiddenChart) {
chart.cloneRenderTo(true);
}
// Fire callbacks that are put on hold until after the redraw
each(afterRedraw, function (callback) {
callback.call();
});
},
/**
* Get an axis, series or point object by id.
* @param id {String} The id as given in the configuration options
*/
get: function (id) {
var chart = this,
axes = chart.axes,
series = chart.series;
var i,
j,
points;
// 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++) {
points = series[i].points || [];
for (j = 0; j < points.length; j++) {
if (points[j].id === id) {
return points[j];
}
}
}
return null;
},
/**
* Create the Axis instances based on the config options
*/
getAxes: function () {
var chart = this,
options = this.options,
xAxisOptions = options.xAxis = splat(options.xAxis || {}),
yAxisOptions = options.yAxis = splat(options.yAxis || {}),
optionsArray,
axis;
// make sure the options are arrays and add some members
each(xAxisOptions, function (axis, i) {
axis.index = i;
axis.isX = true;
});
each(yAxisOptions, function (axis, i) {
axis.index = i;
});
// concatenate all axis options into one array
optionsArray = xAxisOptions.concat(yAxisOptions);
each(optionsArray, function (axisOptions) {
axis = new Axis(chart, axisOptions);
});
},
/**
* Get the currently selected points from all series
*/
getSelectedPoints: function () {
var points = [];
each(this.series, function (serie) {
points = points.concat(grep(serie.points || [], function (point) {
return point.selected;
}));
});
return points;
},
/**
* Get the currently selected series
*/
getSelectedSeries: function () {
return grep(this.series, function (serie) {
return serie.selected;
});
},
/**
* Show the title and subtitle of the chart
*
* @param titleOptions {Object} New title options
* @param subtitleOptions {Object} New subtitle options
*
*/
setTitle: function (titleOptions, subtitleOptions, redraw) {
var chart = this,
options = chart.options,
chartTitleOptions,
chartSubtitleOptions;
chartTitleOptions = options.title = merge(options.title, titleOptions);
chartSubtitleOptions = options.subtitle = merge(options.subtitle, subtitleOptions);
// add title and subtitle
each([
['title', titleOptions, chartTitleOptions],
['subtitle', subtitleOptions, chartSubtitleOptions]
], function (arr) {
var name = arr[0],
title = chart[name],
titleOptions = arr[1],
chartTitleOptions = arr[2];
if (title && titleOptions) {
chart[name] = title = title.destroy(); // remove old
}
if (chartTitleOptions && chartTitleOptions.text && !title) {
chart[name] = chart.renderer.text(
chartTitleOptions.text,
0,
0,
chartTitleOptions.useHTML
)
.attr({
align: chartTitleOptions.align,
'class': PREFIX + name,
zIndex: chartTitleOptions.zIndex || 4
})
.css(chartTitleOptions.style)
.add();
}
});
chart.layOutTitles(redraw);
},
/**
* Lay out the chart titles and cache the full offset height for use in getMargins
*/
layOutTitles: function (redraw) {
var titleOffset = 0,
title = this.title,
subtitle = this.subtitle,
options = this.options,
titleOptions = options.title,
subtitleOptions = options.subtitle,
requiresDirtyBox,
renderer = this.renderer,
autoWidth = this.spacingBox.width - 44; // 44 makes room for default context button
if (title) {
title
.css({ width: (titleOptions.width || autoWidth) + PX })
.align(extend({
y: renderer.fontMetrics(titleOptions.style.fontSize, title).b - 3
}, titleOptions), false, 'spacingBox');
if (!titleOptions.floating && !titleOptions.verticalAlign) {
titleOffset = title.getBBox().height;
}
}
if (subtitle) {
subtitle
.css({ width: (subtitleOptions.width || autoWidth) + PX })
.align(extend({
y: titleOffset + (titleOptions.margin - 13) + renderer.fontMetrics(subtitleOptions.style.fontSize, title).b
}, subtitleOptions), false, 'spacingBox');
if (!subtitleOptions.floating && !subtitleOptions.verticalAlign) {
titleOffset = mathCeil(titleOffset + subtitle.getBBox().height);
}
}
requiresDirtyBox = this.titleOffset !== titleOffset;
this.titleOffset = titleOffset; // used in getMargins
if (!this.isDirtyBox && requiresDirtyBox) {
this.isDirtyBox = requiresDirtyBox;
// Redraw if necessary (#2719, #2744)
if (this.hasRendered && pick(redraw, true) && this.isDirtyBox) {
this.redraw();
}
}
},
/**
* Get chart width and height according to options and container size
*/
getChartSize: function () {
var chart = this,
optionsChart = chart.options.chart,
widthOption = optionsChart.width,
heightOption = optionsChart.height,
renderTo = chart.renderToClone || chart.renderTo;
// get inner width and height from jQuery (#824)
if (!defined(widthOption)) {
chart.containerWidth = adapterRun(renderTo, 'width');
}
if (!defined(heightOption)) {
chart.containerHeight = adapterRun(renderTo, 'height');
}
chart.chartWidth = mathMax(0, widthOption || chart.containerWidth || 600); // #1393, 1460
chart.chartHeight = mathMax(0, pick(heightOption,
// the offsetHeight of an empty container is 0 in standard browsers, but 19 in IE7:
chart.containerHeight > 19 ? chart.containerHeight : 400));
},
/**
* Create a clone of the chart's renderTo div and place it outside the viewport to allow
* size computation on chart.render and chart.redraw
*/
cloneRenderTo: function (revert) {
var clone = this.renderToClone,
container = this.container;
// Destroy the clone and bring the container back to the real renderTo div
if (revert) {
if (clone) {
this.renderTo.appendChild(container);
discardElement(clone);
delete this.renderToClone;
}
// Set up the clone
} else {
if (container && container.parentNode === this.renderTo) {
this.renderTo.removeChild(container); // do not clone this
}
this.renderToClone = clone = this.renderTo.cloneNode(0);
css(clone, {
position: ABSOLUTE,
top: '-9999px',
display: 'block' // #833
});
if (clone.style.setProperty) { // #2631
clone.style.setProperty('display', 'block', 'important');
}
doc.body.appendChild(clone);
if (container) {
clone.appendChild(container);
}
}
},
/**
* Get the containing element, determine the size and create the inner container
* div to hold the chart
*/
getContainer: function () {
var chart = this,
container,
options = chart.options,
optionsChart = options.chart,
chartWidth,
chartHeight,
renderTo,
indexAttrName = 'data-highcharts-chart',
oldChartIndex,
Ren,
containerId;
chart.renderTo = renderTo = optionsChart.renderTo;
containerId = PREFIX + idCounter++;
if (isString(renderTo)) {
chart.renderTo = renderTo = doc.getElementById(renderTo);
}
// Display an error if the renderTo is wrong
if (!renderTo) {
error(13, true);
}
// If the container already holds a chart, destroy it. The check for hasRendered is there
// because web pages that are saved to disk from the browser, will preserve the data-highcharts-chart
// attribute and the SVG contents, but not an interactive chart. So in this case,
// charts[oldChartIndex] will point to the wrong chart if any (#2609).
oldChartIndex = pInt(attr(renderTo, indexAttrName));
if (!isNaN(oldChartIndex) && charts[oldChartIndex] && charts[oldChartIndex].hasRendered) {
charts[oldChartIndex].destroy();
}
// Make a reference to the chart from the div
attr(renderTo, indexAttrName, chart.index);
// 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. The allowClone option is used in sparklines as a micro optimization,
// saving about 1-2 ms each chart.
if (!optionsChart.skipClone && !renderTo.offsetWidth) {
chart.cloneRenderTo();
}
// get the width and height
chart.getChartSize();
chartWidth = chart.chartWidth;
chartHeight = chart.chartHeight;
// create the inner container
chart.container = container = createElement(DIV, {
className: PREFIX + 'container' +
(optionsChart.className ? ' ' + optionsChart.className : ''),
id: containerId
}, extend({
position: RELATIVE,
overflow: HIDDEN, // needed for context menu (avoid scrollbars) and
// content overflow in IE
width: chartWidth + PX,
height: chartHeight + PX,
textAlign: 'left',
lineHeight: 'normal', // #427
zIndex: 0, // #1072
'-webkit-tap-highlight-color': 'rgba(0,0,0,0)'
}, optionsChart.style),
chart.renderToClone || renderTo
);
// cache the cursor (#1650)
chart._cursor = container.style.cursor;
// Initialize the renderer
Ren = Highcharts[optionsChart.renderer] || Renderer;
chart.renderer = new Ren(
container,
chartWidth,
chartHeight,
optionsChart.style,
optionsChart.forExport,
options.exporting && options.exporting.allowHTML
);
if (useCanVG) {
// If we need canvg library, extend and configure the renderer
// to get the tracker for translating mouse events
chart.renderer.create(chart, container, chartWidth, chartHeight);
}
// Add a reference to the charts index
chart.renderer.chartIndex = chart.index;
},
/**
* Calculate margins by rendering axis labels in a preliminary position. Title,
* subtitle and legend have already been rendered at this stage, but will be
* moved into their final positions
*/
getMargins: function (skipAxes) {
var chart = this,
spacing = chart.spacing,
margin = chart.margin,
titleOffset = chart.titleOffset;
chart.resetMargins();
// Adjust for title and subtitle
if (titleOffset && !defined(margin[0])) {
chart.plotTop = mathMax(chart.plotTop, titleOffset + chart.options.title.margin + spacing[0]);
}
// Adjust for legend
chart.legend.adjustMargins(margin, spacing);
// adjust for scroller
if (chart.extraBottomMargin) {
chart.marginBottom += chart.extraBottomMargin;
}
if (chart.extraTopMargin) {
chart.plotTop += chart.extraTopMargin;
}
if (!skipAxes) {
this.getAxisMargins();
}
},
getAxisMargins: function () {
var chart = this,
axisOffset = chart.axisOffset = [0, 0, 0, 0], // top, right, bottom, left
margin = chart.margin;
// pre-render axes to get labels offset width
if (chart.hasCartesianSeries) {
each(chart.axes, function (axis) {
if (axis.visible) {
axis.getOffset();
}
});
}
// Add the axis offsets
each(marginNames, function (m, side) {
if (!defined(margin[side])) {
chart[m] += axisOffset[side];
}
});
chart.setChartSize();
},
/**
* Resize the chart to its container if size is not explicitly set
*/
reflow: function (e) {
var chart = this,
optionsChart = chart.options.chart,
renderTo = chart.renderTo,
width = optionsChart.width || adapterRun(renderTo, 'width'),
height = optionsChart.height || adapterRun(renderTo, 'height'),
target = e ? e.target : win, // #805 - MooTools doesn't supply e
doReflow = function () {
if (chart.container) { // It may have been destroyed in the meantime (#1257)
chart.setSize(width, height, false);
chart.hasUserSize = null;
}
};
// Width and height checks for display:none. Target is doc in IE8 and Opera,
// win in Firefox, Chrome and IE9.
if (!chart.hasUserSize && !chart.isPrinting && width && height && (target === win || target === doc)) { // #1093
if (width !== chart.containerWidth || height !== chart.containerHeight) {
clearTimeout(chart.reflowTimeout);
if (e) { // Called from window.resize
chart.reflowTimeout = setTimeout(doReflow, 100);
} else { // Called directly (#2224)
doReflow();
}
}
chart.containerWidth = width;
chart.containerHeight = height;
}
},
/**
* Add the event handlers necessary for auto resizing
*/
initReflow: function () {
var chart = this,
reflow = function (e) {
chart.reflow(e);
};
addEvent(win, 'resize', reflow);
addEvent(chart, 'destroy', function () {
removeEvent(win, 'resize', reflow);
});
},
/**
* Resize the chart to a given width and height
* @param {Number} width
* @param {Number} height
* @param {Object|Boolean} animation
*/
setSize: function (width, height, animation) {
var chart = this,
chartWidth,
chartHeight,
fireEndResize,
renderer = chart.renderer,
globalAnimation;
// Handle the isResizing counter
chart.isResizing += 1;
fireEndResize = function () {
if (chart) {
fireEvent(chart, 'endResize', null, function () {
chart.isResizing -= 1;
});
}
};
// set the animation for the current process
setAnimation(animation, chart);
chart.oldChartHeight = chart.chartHeight;
chart.oldChartWidth = chart.chartWidth;
if (defined(width)) {
chart.chartWidth = chartWidth = mathMax(0, mathRound(width));
chart.hasUserSize = !!chartWidth;
}
if (defined(height)) {
chart.chartHeight = chartHeight = mathMax(0, mathRound(height));
}
// Resize the container with the global animation applied if enabled (#2503)
globalAnimation = renderer.globalAnimation;
(globalAnimation ? animate : css)(chart.container, {
width: chartWidth + PX,
height: chartHeight + PX
}, globalAnimation);
chart.setChartSize(true);
renderer.setSize(chartWidth, chartHeight, animation);
// handle axes
chart.maxTicks = null;
each(chart.axes, function (axis) {
axis.isDirty = true;
axis.setScale();
});
// make sure non-cartesian series are also handled
each(chart.series, function (serie) {
serie.isDirty = true;
});
chart.isDirtyLegend = true; // force legend redraw
chart.isDirtyBox = true; // force redraw of plot and chart border
chart.layOutTitles(); // #2857
chart.getMargins();
chart.redraw(animation);
chart.oldChartHeight = null;
fireEvent(chart, 'resize');
// Fire endResize and set isResizing back. If animation is disabled, fire without delay
globalAnimation = renderer.globalAnimation; // Reassign it before using it, it may have changed since the top of this function.
if (globalAnimation === false) {
fireEndResize();
} else { // else set a timeout with the animation duration
setTimeout(fireEndResize, (globalAnimation && globalAnimation.duration) || 500);
}
},
/**
* Set the public chart properties. This is done before and after the pre-render
* to determine margin sizes
*/
setChartSize: function (skipAxes) {
var chart = this,
inverted = chart.inverted,
renderer = chart.renderer,
chartWidth = chart.chartWidth,
chartHeight = chart.chartHeight,
optionsChart = chart.options.chart,
spacing = chart.spacing,
clipOffset = chart.clipOffset,
clipX,
clipY,
plotLeft,
plotTop,
plotWidth,
plotHeight,
plotBorderWidth;
chart.plotLeft = plotLeft = mathRound(chart.plotLeft);
chart.plotTop = plotTop = mathRound(chart.plotTop);
chart.plotWidth = plotWidth = mathMax(0, mathRound(chartWidth - plotLeft - chart.marginRight));
chart.plotHeight = plotHeight = mathMax(0, mathRound(chartHeight - plotTop - chart.marginBottom));
chart.plotSizeX = inverted ? plotHeight : plotWidth;
chart.plotSizeY = inverted ? plotWidth : plotHeight;
chart.plotBorderWidth = optionsChart.plotBorderWidth || 0;
// Set boxes used for alignment
chart.spacingBox = renderer.spacingBox = {
x: spacing[3],
y: spacing[0],
width: chartWidth - spacing[3] - spacing[1],
height: chartHeight - spacing[0] - spacing[2]
};
chart.plotBox = renderer.plotBox = {
x: plotLeft,
y: plotTop,
width: plotWidth,
height: plotHeight
};
plotBorderWidth = 2 * mathFloor(chart.plotBorderWidth / 2);
clipX = mathCeil(mathMax(plotBorderWidth, clipOffset[3]) / 2);
clipY = mathCeil(mathMax(plotBorderWidth, clipOffset[0]) / 2);
chart.clipBox = {
x: clipX,
y: clipY,
width: mathFloor(chart.plotSizeX - mathMax(plotBorderWidth, clipOffset[1]) / 2 - clipX),
height: mathMax(0, mathFloor(chart.plotSizeY - mathMax(plotBorderWidth, clipOffset[2]) / 2 - clipY))
};
if (!skipAxes) {
each(chart.axes, function (axis) {
axis.setAxisSize();
axis.setAxisTranslation();
});
}
},
/**
* Initial margins before auto size margins are applied
*/
resetMargins: function () {
var chart = this;
each(marginNames, function (m, side) {
chart[m] = pick(chart.margin[side], chart.spacing[side]);
});
chart.axisOffset = [0, 0, 0, 0]; // top, right, bottom, left
chart.clipOffset = [0, 0, 0, 0];
},
/**
* Draw the borders and backgrounds for chart and plot area
*/
drawChartBox: function () {
var chart = this,
optionsChart = chart.options.chart,
renderer = chart.renderer,
chartWidth = chart.chartWidth,
chartHeight = chart.chartHeight,
chartBackground = chart.chartBackground,
plotBackground = chart.plotBackground,
plotBorder = chart.plotBorder,
plotBGImage = chart.plotBGImage,
chartBorderWidth = optionsChart.borderWidth || 0,
chartBackgroundColor = optionsChart.backgroundColor,
plotBackgroundColor = optionsChart.plotBackgroundColor,
plotBackgroundImage = optionsChart.plotBackgroundImage,
plotBorderWidth = optionsChart.plotBorderWidth || 0,
mgn,
bgAttr,
plotLeft = chart.plotLeft,
plotTop = chart.plotTop,
plotWidth = chart.plotWidth,
plotHeight = chart.plotHeight,
plotBox = chart.plotBox,
clipRect = chart.clipRect,
clipBox = chart.clipBox;
// Chart area
mgn = chartBorderWidth + (optionsChart.shadow ? 8 : 0);
if (chartBorderWidth || chartBackgroundColor) {
if (!chartBackground) {
bgAttr = {
fill: chartBackgroundColor || NONE
};
if (chartBorderWidth) { // #980
bgAttr.stroke = optionsChart.borderColor;
bgAttr['stroke-width'] = chartBorderWidth;
}
chart.chartBackground = renderer.rect(mgn / 2, mgn / 2, chartWidth - mgn, chartHeight - mgn,
optionsChart.borderRadius, chartBorderWidth)
.attr(bgAttr)
.addClass(PREFIX + 'background')
.add()
.shadow(optionsChart.shadow);
} else { // resize
chartBackground.animate(
chartBackground.crisp({ width: chartWidth - mgn, height: chartHeight - mgn })
);
}
}
// Plot background
if (plotBackgroundColor) {
if (!plotBackground) {
chart.plotBackground = renderer.rect(plotLeft, plotTop, plotWidth, plotHeight, 0)
.attr({
fill: plotBackgroundColor
})
.add()
.shadow(optionsChart.plotShadow);
} else {
plotBackground.animate(plotBox);
}
}
if (plotBackgroundImage) {
if (!plotBGImage) {
chart.plotBGImage = renderer.image(plotBackgroundImage, plotLeft, plotTop, plotWidth, plotHeight)
.add();
} else {
plotBGImage.animate(plotBox);
}
}
// Plot clip
if (!clipRect) {
chart.clipRect = renderer.clipRect(clipBox);
} else {
clipRect.animate({
width: clipBox.width,
height: clipBox.height
});
}
// Plot area border
if (plotBorderWidth) {
if (!plotBorder) {
chart.plotBorder = renderer.rect(plotLeft, plotTop, plotWidth, plotHeight, 0, -plotBorderWidth)
.attr({
stroke: optionsChart.plotBorderColor,
'stroke-width': plotBorderWidth,
fill: NONE,
zIndex: 1
})
.add();
} else {
plotBorder.animate(
plotBorder.crisp({ x: plotLeft, y: plotTop, width: plotWidth, height: plotHeight, strokeWidth: -plotBorderWidth }) //#3282 plotBorder should be negative
);
}
}
// reset
chart.isDirtyBox = false;
},
/**
* Detect whether a certain chart property is needed based on inspecting its options
* and series. This mainly applies to the chart.invert property, and in extensions to
* the chart.angular and chart.polar properties.
*/
propFromSeries: function () {
var chart = this,
optionsChart = chart.options.chart,
klass,
seriesOptions = chart.options.series,
i,
value;
each(['inverted', 'angular', 'polar'], function (key) {
// The default series type's class
klass = seriesTypes[optionsChart.type || optionsChart.defaultSeriesType];
// Get the value from available chart-wide properties
value = (
chart[key] || // 1. it is set before
optionsChart[key] || // 2. it is set in the options
(klass && klass.prototype[key]) // 3. it's default series class requires it
);
// 4. Check if any the chart's series require it
i = seriesOptions && seriesOptions.length;
while (!value && i--) {
klass = seriesTypes[seriesOptions[i].type];
if (klass && klass.prototype[key]) {
value = true;
}
}
// Set the chart property
chart[key] = value;
});
},
/**
* Link two or more series together. This is done initially from Chart.render,
* and after Chart.addSeries and Series.remove.
*/
linkSeries: function () {
var chart = this,
chartSeries = chart.series;
// Reset links
each(chartSeries, function (series) {
series.linkedSeries.length = 0;
});
// Apply new links
each(chartSeries, function (series) {
var linkedTo = series.options.linkedTo;
if (isString(linkedTo)) {
if (linkedTo === ':previous') {
linkedTo = chart.series[series.index - 1];
} else {
linkedTo = chart.get(linkedTo);
}
if (linkedTo) {
linkedTo.linkedSeries.push(series);
series.linkedParent = linkedTo;
series.visible = pick(series.options.visible, linkedTo.options.visible, series.visible); // #3879
}
}
});
},
/**
* Render series for the chart
*/
renderSeries: function () {
each(this.series, function (serie) {
serie.translate();
serie.render();
});
},
/**
* Render labels for the chart
*/
renderLabels: function () {
var chart = this,
labels = chart.options.labels;
if (labels.items) {
each(labels.items, function (label) {
var style = extend(labels.style, label.style),
x = pInt(style.left) + chart.plotLeft,
y = pInt(style.top) + chart.plotTop + 12;
// delete to prevent rewriting in IE
delete style.left;
delete style.top;
chart.renderer.text(
label.html,
x,
y
)
.attr({ zIndex: 2 })
.css(style)
.add();
});
}
},
/**
* Render all graphics for the chart
*/
render: function () {
var chart = this,
axes = chart.axes,
renderer = chart.renderer,
options = chart.options,
tempWidth,
tempHeight,
redoHorizontal,
redoVertical;
// Title
chart.setTitle();
// Legend
chart.legend = new Legend(chart, options.legend);
// Get stacks
if (chart.getStacks) {
chart.getStacks();
}
// Get chart margins
chart.getMargins(true);
chart.setChartSize();
// Record preliminary dimensions for later comparison
tempWidth = chart.plotWidth;
tempHeight = chart.plotHeight = chart.plotHeight - 13; // 13 is the most common height of X axis labels
// Get margins by pre-rendering axes
each(axes, function (axis) {
axis.setScale();
});
chart.getAxisMargins();
// If the plot area size has changed significantly, calculate tick positions again
redoHorizontal = tempWidth / chart.plotWidth > 1.1;
redoVertical = tempHeight / chart.plotHeight > 1.1;
if (redoHorizontal || redoVertical) {
chart.maxTicks = null; // reset for second pass
each(axes, function (axis) {
if ((axis.horiz && redoHorizontal) || (!axis.horiz && redoVertical)) {
axis.setTickInterval(true); // update to reflect the new margins
}
});
chart.getMargins(); // second pass to check for new labels
}
// Draw the borders and backgrounds
chart.drawChartBox();
// Axes
if (chart.hasCartesianSeries) {
each(axes, function (axis) {
if (axis.visible) {
axis.render();
}
});
}
// The series
if (!chart.seriesGroup) {
chart.seriesGroup = renderer.g('series-group')
.attr({ zIndex: 3 })
.add();
}
chart.renderSeries();
// Labels
chart.renderLabels();
// Credits
chart.showCredits(options.credits);
// Set flag
chart.hasRendered = true;
},
/**
* Show chart credits based on config options
*/
showCredits: function (credits) {
if (credits.enabled && !this.credits) {
this.credits = this.renderer.text(
credits.text,
0,
0
)
.on('click', function () {
if (credits.href) {
location.href = credits.href;
}
})
.attr({
align: credits.position.align,
zIndex: 8
})
.css(credits.style)
.add()
.align(credits.position);
}
},
/**
* Clean up memory usage
*/
destroy: function () {
var chart = this,
axes = chart.axes,
series = chart.series,
container = chart.container,
i,
parentNode = container && container.parentNode;
// fire the chart.destoy event
fireEvent(chart, 'destroy');
// Delete the chart from charts lookup array
charts[chart.index] = UNDEFINED;
chartCount--;
chart.renderTo.removeAttribute('data-highcharts-chart');
// remove events
removeEvent(chart);
// ==== Destroy collections:
// Destroy axes
i = axes.length;
while (i--) {
axes[i] = axes[i].destroy();
}
// Destroy each series
i = series.length;
while (i--) {
series[i] = series[i].destroy();
}
// ==== Destroy chart properties:
each(['title', 'subtitle', 'chartBackground', 'plotBackground', 'plotBGImage',
'plotBorder', 'seriesGroup', 'clipRect', 'credits', 'pointer', 'scroller',
'rangeSelector', 'legend', 'resetZoomButton', 'tooltip', 'renderer'], function (name) {
var prop = chart[name];
if (prop && prop.destroy) {
chart[name] = prop.destroy();
}
});
// remove container and all SVG
if (container) { // can break in IE when destroyed before finished loading
container.innerHTML = '';
removeEvent(container);
if (parentNode) {
discardElement(container);
}
}
// clean it all up
for (i in chart) {
delete chart[i];
}
},
/**
* VML namespaces can't be added until after complete. Listening
* for Perini's doScroll hack is not enough.
*/
isReadyToRender: function () {
var chart = this;
// Note: in spite of JSLint's complaints, win == win.top is required
/*jslint eqeq: true*/
if ((!hasSVG && (win == win.top && doc.readyState !== 'complete')) || (useCanVG && !win.canvg)) {
/*jslint eqeq: false*/
if (useCanVG) {
// Delay rendering until canvg library is downloaded and ready
CanVGController.push(function () { chart.firstRender(); }, chart.options.global.canvasToolsURL);
} else {
doc.attachEvent('onreadystatechange', function () {
doc.detachEvent('onreadystatechange', chart.firstRender);
if (doc.readyState === 'complete') {
chart.firstRender();
}
});
}
return false;
}
return true;
},
/**
* Prepare for first rendering after all data are loaded
*/
firstRender: function () {
var chart = this,
options = chart.options,
callback = chart.callback;
// Check whether the chart is ready to render
if (!chart.isReadyToRender()) {
return;
}
// Create the container
chart.getContainer();
// Run an early event after the container and renderer are established
fireEvent(chart, 'init');
chart.resetMargins();
chart.setChartSize();
// Set the common chart properties (mainly invert) from the given series
chart.propFromSeries();
// get axes
chart.getAxes();
// Initialize the series
each(options.series || [], function (serieOptions) {
chart.initSeries(serieOptions);
});
chart.linkSeries();
// Run an event after axes and series are initialized, but before render. At this stage,
// the series data is indexed and cached in the xData and yData arrays, so we can access
// those before rendering. Used in Highstock.
fireEvent(chart, 'beforeRender');
// depends on inverted and on margins being set
if (Highcharts.Pointer) {
chart.pointer = new Pointer(chart, options);
}
chart.render();
// add canvas
chart.renderer.draw();
// run callbacks
if (callback) {
callback.apply(chart, [chart]);
}
each(chart.callbacks, function (fn) {
if (chart.index !== UNDEFINED) { // Chart destroyed in its own callback (#3600)
fn.apply(chart, [chart]);
}
});
// Fire the load event
fireEvent(chart, 'load');
// If the chart was rendered outside the top container, put it back in (#3679)
chart.cloneRenderTo(true);
},
/**
* Creates arrays for spacing and margin from given options.
*/
splashArray: function (target, options) {
var oVar = options[target],
tArray = isObject(oVar) ? oVar : [oVar, oVar, oVar, oVar];
return [pick(options[target + 'Top'], tArray[0]),
pick(options[target + 'Right'], tArray[1]),
pick(options[target + 'Bottom'], tArray[2]),
pick(options[target + 'Left'], tArray[3])];
}
}; // end Chart
var CenteredSeriesMixin = Highcharts.CenteredSeriesMixin = {
/**
* Get the center of the pie based on the size and center options relative to the
* plot area. Borrowed by the polar and gauge series types.
*/
getCenter: function () {
var options = this.options,
chart = this.chart,
slicingRoom = 2 * (options.slicedOffset || 0),
handleSlicingRoom,
plotWidth = chart.plotWidth - 2 * slicingRoom,
plotHeight = chart.plotHeight - 2 * slicingRoom,
centerOption = options.center,
positions = [pick(centerOption[0], '50%'), pick(centerOption[1], '50%'), options.size || '100%', options.innerSize || 0],
smallestSize = mathMin(plotWidth, plotHeight),
i,
value;
for (i = 0; i < 4; ++i) {
value = positions[i];
handleSlicingRoom = i < 2 || (i === 2 && /%$/.test(value));
// i == 0: centerX, relative to width
// i == 1: centerY, relative to height
// i == 2: size, relative to smallestSize
// i == 3: innerSize, relative to size
positions[i] = relativeLength(value, [plotWidth, plotHeight, smallestSize, positions[2]][i]) +
(handleSlicingRoom ? slicingRoom : 0);
}
// innerSize cannot be larger than size (#3632)
if (positions[3] > positions[2]) {
positions[3] = positions[2];
}
return positions;
}
};
/**
* 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, x) {
var point = this,
colors;
point.series = series;
point.color = series.color; // #3445
point.applyOptions(options, x);
point.pointAttr = {};
if (series.options.colorByPoint) {
colors = series.options.colors || series.chart.options.colors;
point.color = point.color || colors[series.colorCounter++];
// loop back to zero
if (series.colorCounter === colors.length) {
series.colorCounter = 0;
}
}
series.chart.pointCount++;
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, x) {
var point = this,
series = point.series,
pointValKey = series.options.pointValKey || series.pointValKey;
options = Point.prototype.optionsToObject.call(this, options);
// copy options directly to point
extend(point, options);
point.options = point.options ? extend(point.options, options) : options;
// For higher dimension series types. For instance, for ranges, point.y is mapped to point.low.
if (pointValKey) {
point.y = point[pointValKey];
}
// 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 && series) {
point.x = x === UNDEFINED ? series.autoIncrement() : x;
}
return point;
},
/**
* Transform number or array configs into objects
*/
optionsToObject: function (options) {
var ret = {},
series = this.series,
keys = series.options.keys,
pointArrayMap = keys || series.pointArrayMap || ['y'],
valueCount = pointArrayMap.length,
firstItemType,
i = 0,
j = 0;
if (typeof options === 'number' || options === null) {
ret[pointArrayMap[0]] = options;
} else if (isArray(options)) {
// with leading x value
if (!keys && options.length > valueCount) {
firstItemType = typeof options[0];
if (firstItemType === 'string') {
ret.name = options[0];
} else if (firstItemType === 'number') {
ret.x = options[0];
}
i++;
}
while (j < valueCount) {
if (!keys || options[i] !== undefined) { // Skip undefined positions for keys
ret[pointArrayMap[j]] = options[i];
}
i++;
j++;
}
} else if (typeof options === 'object') {
ret = options;
// This is the fastest way to detect if there are individual point dataLabels that need
// to be considered in drawDataLabels. These can only occur in object configs.
if (options.dataLabels) {
series._hasPointLabels = true;
}
// Same approach as above for markers
if (options.marker) {
series._hasPointMarkers = true;
}
}
return ret;
},
/**
* Destroy a point to clear memory. Its reference still stays in series.data.
*/
destroy: function () {
var point = this,
series = point.series,
chart = series.chart,
hoverPoints = chart.hoverPoints,
prop;
chart.pointCount--;
if (hoverPoints) {
point.setState();
erase(hoverPoints, point);
if (!hoverPoints.length) {
chart.hoverPoints = null;
}
}
if (point === chart.hoverPoint) {
point.onMouseOut();
}
// remove all events
if (point.graphic || point.dataLabel) { // removeEvent and destroyElements are performance expensive
removeEvent(point);
point.destroyElements();
}
if (point.legendItem) { // pies have legend items
chart.legend.destroyItem(point);
}
for (prop in point) {
point[prop] = null;
}
},
/**
* Destroy SVG elements associated with the point
*/
destroyElements: function () {
var point = this,
props = ['graphic', 'dataLabel', 'dataLabelUpper', 'connector', 'shadowGroup'],
prop,
i = 6;
while (i--) {
prop = props[i];
if (point[prop]) {
point[prop] = point[prop].destroy();
}
}
},
/**
* Return the configuration hash needed for the data label and tooltip formatters
*/
getLabelConfig: function () {
return {
x: this.category,
y: this.y,
color: this.color,
key: this.name || this.category,
series: this.series,
point: this,
percentage: this.percentage,
total: this.total || this.stackTotal
};
},
/**
* Extendable method for formatting each point's tooltip line
*
* @return {String} A string to be concatenated in to the common tooltip text
*/
tooltipFormatter: function (pointFormat) {
// Insert options for valueDecimals, valuePrefix, and valueSuffix
var series = this.series,
seriesTooltipOptions = series.tooltipOptions,
valueDecimals = pick(seriesTooltipOptions.valueDecimals, ''),
valuePrefix = seriesTooltipOptions.valuePrefix || '',
valueSuffix = seriesTooltipOptions.valueSuffix || '';
// Loop over the point array map and replace unformatted values with sprintf formatting markup
each(series.pointArrayMap || ['y'], function (key) {
key = '{point.' + key; // without the closing bracket
if (valuePrefix || valueSuffix) {
pointFormat = pointFormat.replace(key + '}', valuePrefix + key + '}' + valueSuffix);
}
pointFormat = pointFormat.replace(key + '}', key + ':,.' + valueDecimals + 'f}');
});
return format(pointFormat, {
point: this,
series: this.series
});
},
/**
* 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
if (point.select) { // Could be destroyed by prior event handlers (#2911)
point.select(null, event.ctrlKey || event.metaKey || event.shiftKey);
}
};
}
fireEvent(this, eventType, eventArgs, defaultFunction);
},
visible: true
};
/**
* @classDescription The base function which all other series types inherit from. The data in the series is stored
* in various arrays.
*
* - First, series.options.data contains all the original config options for
* each point whether added by options or methods like series.addPoint.
* - Next, series.data contains those values converted to points, but in case the series data length
* exceeds the cropThreshold, or if the data is grouped, series.data doesn't contain all the points. It
* only contains the points that have been created on demand.
* - Then there's series.points that contains all currently visible point objects. In case of cropping,
* the cropped-away points are not part of this array. The series.points array starts at series.cropStart
* compared to series.data and series.options.data. If however the series data is grouped, these can't
* be correlated one to one.
* - series.xData and series.processedXData contain clean x values, equivalent to series.data and series.points.
* - series.yData and series.processedYData contain clean x values, equivalent to series.data and series.points.
*
* @param {Object} chart
* @param {Object} options
*/
var Series = Highcharts.Series = function () {};
Series.prototype = {
isCartesian: true,
type: 'line',
pointClass: Point,
sorted: true, // requires the data to be sorted
requireSorting: true,
pointAttrToOptions: { // mapping between SVG attributes and the corresponding options
stroke: 'lineColor',
'stroke-width': 'lineWidth',
fill: 'fillColor',
r: 'radius'
},
directTouch: false,
axisTypes: ['xAxis', 'yAxis'],
colorCounter: 0,
parallelArrays: ['x', 'y'], // each point's x and y values are stored in this.xData and this.yData
init: function (chart, options) {
var series = this,
eventType,
events,
chartSeries = chart.series,
sortByIndex = function (a, b) {
return pick(a.options.index, a._i) - pick(b.options.index, b._i);
};
series.chart = chart;
series.options = options = series.setOptions(options); // merge with plotOptions
series.linkedSeries = [];
// bind the axes
series.bindAxes();
// set some variables
extend(series, {
name: options.name,
state: NORMAL_STATE,
pointAttr: {},
visible: options.visible !== false, // true by default
selected: options.selected === true // false by default
});
// special
if (useCanVG) {
options.animation = false;
}
// register event listeners
events = options.events;
for (eventType in events) {
addEvent(series, eventType, events[eventType]);
}
if (
(events && events.click) ||
(options.point && options.point.events && options.point.events.click) ||
options.allowPointSelect
) {
chart.runTrackerClick = true;
}
series.getColor();
series.getSymbol();
// Set the data
each(series.parallelArrays, function (key) {
series[key + 'Data'] = [];
});
series.setData(options.data, false);
// Mark cartesian
if (series.isCartesian) {
chart.hasCartesianSeries = true;
}
// Register it in the chart
chartSeries.push(series);
series._i = chartSeries.length - 1;
// Sort series according to index option (#248, #1123, #2456)
stableSort(chartSeries, sortByIndex);
if (this.yAxis) {
stableSort(this.yAxis.series, sortByIndex);
}
each(chartSeries, function (series, i) {
series.index = i;
series.name = series.name || 'Series ' + (i + 1);
});
},
/**
* Set the xAxis and yAxis properties of cartesian series, and register the series
* in the axis.series array
*/
bindAxes: function () {
var series = this,
seriesOptions = series.options,
chart = series.chart,
axisOptions;
each(series.axisTypes || [], function (AXIS) { // repeat for xAxis and yAxis
each(chart[AXIS], function (axis) { // loop through the chart's axis objects
axisOptions = axis.options;
// apply if the series xAxis or yAxis option mathches the number of the
// axis, or if undefined, use the first axis
if ((seriesOptions[AXIS] === axisOptions.index) ||
(seriesOptions[AXIS] !== UNDEFINED && seriesOptions[AXIS] === axisOptions.id) ||
(seriesOptions[AXIS] === UNDEFINED && axisOptions.index === 0)) {
// register this series in the axis.series lookup
axis.series.push(series);
// set this series.xAxis or series.yAxis reference
series[AXIS] = axis;
// mark dirty for redraw
axis.isDirty = true;
}
});
// The series needs an X and an Y axis
if (!series[AXIS] && series.optionalAxis !== AXIS) {
error(18, true);
}
});
},
/**
* For simple series types like line and column, the data values are held in arrays like
* xData and yData for quick lookup to find extremes and more. For multidimensional series
* like bubble and map, this can be extended with arrays like zData and valueData by
* adding to the series.parallelArrays array.
*/
updateParallelArrays: function (point, i) {
var series = point.series,
args = arguments,
fn = typeof i === 'number' ?
// Insert the value in the given position
function (key) {
var val = key === 'y' && series.toYData ? series.toYData(point) : point[key];
series[key + 'Data'][i] = val;
} :
// Apply the method specified in i with the following arguments as arguments
function (key) {
Array.prototype[i].apply(series[key + 'Data'], Array.prototype.slice.call(args, 2));
};
each(series.parallelArrays, fn);
},
/**
* 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 options = this.options,
xIncrement = this.xIncrement,
date,
pointInterval,
pointIntervalUnit = options.pointIntervalUnit;
xIncrement = pick(xIncrement, options.pointStart, 0);
this.pointInterval = pointInterval = pick(this.pointInterval, options.pointInterval, 1);
// Added code for pointInterval strings
if (pointIntervalUnit === 'month' || pointIntervalUnit === 'year') {
date = new Date(xIncrement);
date = (pointIntervalUnit === 'month') ?
+date[setMonth](date[getMonth]() + pointInterval) :
+date[setFullYear](date[getFullYear]() + pointInterval);
pointInterval = date - xIncrement;
}
this.xIncrement = xIncrement + pointInterval;
return xIncrement;
},
/**
* Divide the series data into segments divided by null values.
*/
getSegments: function () {
var series = this,
lastNull = -1,
segments = [],
i,
points = series.points,
pointsLength = points.length;
if (pointsLength) { // no action required for []
// if connect nulls, just remove null points
if (series.options.connectNulls) {
i = pointsLength;
while (i--) {
if (points[i].y === null) {
points.splice(i, 1);
}
}
if (points.length) {
segments = [points];
}
// else, split on null points
} else {
each(points, function (point, i) {
if (point.y === null) {
if (i > lastNull + 1) {
segments.push(points.slice(lastNull + 1, i));
}
lastNull = i;
} else if (i === pointsLength - 1) { // last value
segments.push(points.slice(lastNull + 1, i + 1));
}
});
}
}
// register it
series.segments = segments;
},
/**
* Set the series options by merging from the options tree
* @param {Object} itemOptions
*/
setOptions: function (itemOptions) {
var chart = this.chart,
chartOptions = chart.options,
plotOptions = chartOptions.plotOptions,
userOptions = chart.userOptions || {},
userPlotOptions = userOptions.plotOptions || {},
typeOptions = plotOptions[this.type],
options,
zones;
this.userOptions = itemOptions;
// General series options take precedence over type options because otherwise, default
// type options like column.animation would be overwritten by the general option.
// But issues have been raised here (#3881), and the solution may be to distinguish
// between default option and userOptions like in the tooltip below.
options = merge(
typeOptions,
plotOptions.series,
itemOptions
);
// The tooltip options are merged between global and series specific options
this.tooltipOptions = merge(
defaultOptions.tooltip,
defaultOptions.plotOptions[this.type].tooltip,
userOptions.tooltip,
userPlotOptions.series && userPlotOptions.series.tooltip,
userPlotOptions[this.type] && userPlotOptions[this.type].tooltip,
itemOptions.tooltip
);
// Delete marker object if not allowed (#1125)
if (typeOptions.marker === null) {
delete options.marker;
}
// Handle color zones
this.zoneAxis = options.zoneAxis;
zones = this.zones = (options.zones || []).slice();
if ((options.negativeColor || options.negativeFillColor) && !options.zones) {
zones.push({
value: options[this.zoneAxis + 'Threshold'] || options.threshold || 0,
color: options.negativeColor,
fillColor: options.negativeFillColor
});
}
if (zones.length) { // Push one extra zone for the rest
if (defined(zones[zones.length - 1].value)) {
zones.push({
color: this.color,
fillColor: this.fillColor
});
}
}
return options;
},
getCyclic: function (prop, value, defaults) {
var i,
userOptions = this.userOptions,
indexName = '_' + prop + 'Index',
counterName = prop + 'Counter';
if (!value) {
if (defined(userOptions[indexName])) { // after Series.update()
i = userOptions[indexName];
} else {
userOptions[indexName] = i = this.chart[counterName] % defaults.length;
this.chart[counterName] += 1;
}
value = defaults[i];
}
this[prop] = value;
},
/**
* Get the series' color
*/
getColor: function () {
if (this.options.colorByPoint) {
this.options.color = null; // #4359, selected slice got series.color even when colorByPoint was set.
} else {
this.getCyclic('color', this.options.color || defaultPlotOptions[this.type].color, this.chart.options.colors);
}
},
/**
* Get the series' symbol
*/
getSymbol: function () {
var seriesMarkerOption = this.options.marker;
this.getCyclic('symbol', seriesMarkerOption.symbol, this.chart.options.symbols);
// don't substract radius in image symbols (#604)
if (/^url/.test(this.symbol)) {
seriesMarkerOption.radius = 0;
}
},
drawLegendSymbol: LegendSymbolMixin.drawLineMarker,
/**
* Replace the series data with a new set of data
* @param {Object} data
* @param {Object} redraw
*/
setData: function (data, redraw, animation, updatePoints) {
var series = this,
oldData = series.points,
oldDataLength = (oldData && oldData.length) || 0,
dataLength,
options = series.options,
chart = series.chart,
firstPoint = null,
xAxis = series.xAxis,
hasCategories = xAxis && !!xAxis.categories,
i,
turboThreshold = options.turboThreshold,
pt,
xData = this.xData,
yData = this.yData,
pointArrayMap = series.pointArrayMap,
valueCount = pointArrayMap && pointArrayMap.length;
data = data || [];
dataLength = data.length;
redraw = pick(redraw, true);
// If the point count is the same as is was, just run Point.update which is
// cheaper, allows animation, and keeps references to points.
if (updatePoints !== false && dataLength && oldDataLength === dataLength && !series.cropped && !series.hasGroupedData && series.visible) {
each(data, function (point, i) {
if (oldData[i].update) { // Linked, previously hidden series (#3709)
oldData[i].update(point, false, null, false);
}
});
} else {
// Reset properties
series.xIncrement = null;
series.pointRange = hasCategories ? 1 : options.pointRange;
series.colorCounter = 0; // for series with colorByPoint (#1547)
// Update parallel arrays
each(this.parallelArrays, function (key) {
series[key + 'Data'].length = 0;
});
// In turbo mode, only one- or twodimensional arrays of numbers are allowed. The
// first value is tested, and we assume that all the rest are defined the same
// way. Although the 'for' loops are similar, they are repeated inside each
// if-else conditional for max performance.
if (turboThreshold && dataLength > turboThreshold) {
// find the first non-null point
i = 0;
while (firstPoint === null && i < dataLength) {
firstPoint = data[i];
i++;
}
if (isNumber(firstPoint)) { // assume all points are numbers
var x = pick(options.pointStart, 0),
pointInterval = pick(options.pointInterval, 1);
for (i = 0; i < dataLength; i++) {
xData[i] = x;
yData[i] = data[i];
x += pointInterval;
}
series.xIncrement = x;
} else if (isArray(firstPoint)) { // assume all points are arrays
if (valueCount) { // [x, low, high] or [x, o, h, l, c]
for (i = 0; i < dataLength; i++) {
pt = data[i];
xData[i] = pt[0];
yData[i] = pt.slice(1, valueCount + 1);
}
} else { // [x, y]
for (i = 0; i < dataLength; i++) {
pt = data[i];
xData[i] = pt[0];
yData[i] = pt[1];
}
}
} else {
error(12); // Highcharts expects configs to be numbers or arrays in turbo mode
}
} else {
for (i = 0; i < dataLength; i++) {
if (data[i] !== UNDEFINED) { // stray commas in oldIE
pt = { series: series };
series.pointClass.prototype.applyOptions.apply(pt, [data[i]]);
series.updateParallelArrays(pt, i);
if (hasCategories && defined(pt.name)) { // #4401
xAxis.names[pt.x] = pt.name; // #2046
}
}
}
}
// Forgetting to cast strings to numbers is a common caveat when handling CSV or JSON
if (isString(yData[0])) {
error(14, true);
}
series.data = [];
series.options.data = data;
//series.zData = zData;
// destroy old points
i = oldDataLength;
while (i--) {
if (oldData[i] && oldData[i].destroy) {
oldData[i].destroy();
}
}
// reset minRange (#878)
if (xAxis) {
xAxis.minRange = xAxis.userMinRange;
}
// redraw
series.isDirty = series.isDirtyData = chart.isDirtyBox = true;
animation = false;
}
// Typically for pie series, points need to be processed and generated
// prior to rendering the legend
if (options.legendType === 'point') { // docs: legendType now supported on more series types (at least column and pie)
this.processData();
this.generatePoints();
}
if (redraw) {
chart.redraw(animation);
}
},
/**
* Process the data by cropping away unused data points if the series is longer
* than the crop threshold. This saves computing time for lage series.
*/
processData: function (force) {
var series = this,
processedXData = series.xData, // copied during slice operation below
processedYData = series.yData,
dataLength = processedXData.length,
croppedData,
cropStart = 0,
cropped,
distance,
closestPointRange,
xAxis = series.xAxis,
i, // loop variable
options = series.options,
cropThreshold = options.cropThreshold,
getExtremesFromAll = series.getExtremesFromAll || options.getExtremesFromAll, // #4599
isCartesian = series.isCartesian,
xExtremes,
min,
max;
// If the series data or axes haven't changed, don't go through this. Return false to pass
// the message on to override methods like in data grouping.
if (isCartesian && !series.isDirty && !xAxis.isDirty && !series.yAxis.isDirty && !force) {
return false;
}
if (xAxis) {
xExtremes = xAxis.getExtremes(); // corrected for log axis (#3053)
min = xExtremes.min;
max = xExtremes.max;
}
// optionally filter out points outside the plot area
if (isCartesian && series.sorted && !getExtremesFromAll && (!cropThreshold || dataLength > cropThreshold || series.forceCrop)) {
// it's outside current extremes
if (processedXData[dataLength - 1] < min || processedXData[0] > max) {
processedXData = [];
processedYData = [];
// only crop if it's actually spilling out
} else if (processedXData[0] < min || processedXData[dataLength - 1] > max) {
croppedData = this.cropData(series.xData, series.yData, min, max);
processedXData = croppedData.xData;
processedYData = croppedData.yData;
cropStart = croppedData.start;
cropped = true;
}
}
// Find the closest distance between processed points
for (i = processedXData.length - 1; i >= 0; i--) {
distance = processedXData[i] - processedXData[i - 1];
if (distance > 0 && (closestPointRange === UNDEFINED || distance < closestPointRange)) {
closestPointRange = distance;
// Unsorted data is not supported by the line tooltip, as well as data grouping and
// navigation in Stock charts (#725) and width calculation of columns (#1900)
} else if (distance < 0 && series.requireSorting) {
error(15);
}
}
// Record the properties
series.cropped = cropped; // undefined or true
series.cropStart = cropStart;
series.processedXData = processedXData;
series.processedYData = processedYData;
if (options.pointRange === null) { // null means auto, as for columns, candlesticks and OHLC
series.pointRange = closestPointRange || 1;
}
series.closestPointRange = closestPointRange;
},
/**
* Iterate over xData and crop values between min and max. Returns object containing crop start/end
* cropped xData with corresponding part of yData, dataMin and dataMax within the cropped range
*/
cropData: function (xData, yData, min, max) {
var dataLength = xData.length,
cropStart = 0,
cropEnd = dataLength,
cropShoulder = pick(this.cropShoulder, 1), // line-type series need one point outside
i;
// iterate up to find slice start
for (i = 0; i < dataLength; i++) {
if (xData[i] >= min) {
cropStart = mathMax(0, i - cropShoulder);
break;
}
}
// proceed to find slice end
for (; i < dataLength; i++) {
if (xData[i] > max) {
cropEnd = i + cropShoulder;
break;
}
}
return {
xData: xData.slice(cropStart, cropEnd),
yData: yData.slice(cropStart, cropEnd),
start: cropStart,
end: cropEnd
};
},
/**
* Generate the data point after the data has been processed by cropping away
* unused points and optionally grouped in Highcharts Stock.
*/
generatePoints: function () {
var series = this,
options = series.options,
dataOptions = options.data,
data = series.data,
dataLength,
processedXData = series.processedXData,
processedYData = series.processedYData,
pointClass = series.pointClass,
processedDataLength = processedXData.length,
cropStart = series.cropStart || 0,
cursor,
hasGroupedData = series.hasGroupedData,
point,
points = [],
i;
if (!data && !hasGroupedData) {
var arr = [];
arr.length = dataOptions.length;
data = series.data = arr;
}
for (i = 0; i < processedDataLength; i++) {
cursor = cropStart + i;
if (!hasGroupedData) {
if (data[cursor]) {
point = data[cursor];
} else if (dataOptions[cursor] !== UNDEFINED) { // #970
data[cursor] = point = (new pointClass()).init(series, dataOptions[cursor], processedXData[i]);
}
points[i] = point;
} else {
// splat the y data in case of ohlc data array
points[i] = (new pointClass()).init(series, [processedXData[i]].concat(splat(processedYData[i])));
}
points[i].index = cursor; // For faster access in Point.update
}
// Hide cropped-away points - this only runs when the number of points is above cropThreshold, or when
// swithching view from non-grouped data to grouped data (#637)
if (data && (processedDataLength !== (dataLength = data.length) || hasGroupedData)) {
for (i = 0; i < dataLength; i++) {
if (i === cropStart && !hasGroupedData) { // when has grouped data, clear all points
i += processedDataLength;
}
if (data[i]) {
data[i].destroyElements();
data[i].plotX = UNDEFINED; // #1003
}
}
}
series.data = data;
series.points = points;
},
/**
* Calculate Y extremes for visible data
*/
getExtremes: function (yData) {
var xAxis = this.xAxis,
yAxis = this.yAxis,
xData = this.processedXData,
yDataLength,
activeYData = [],
activeCounter = 0,
xExtremes = xAxis.getExtremes(), // #2117, need to compensate for log X axis
xMin = xExtremes.min,
xMax = xExtremes.max,
validValue,
withinRange,
x,
y,
i,
j;
yData = yData || this.stackedYData || this.processedYData;
yDataLength = yData.length;
for (i = 0; i < yDataLength; i++) {
x = xData[i];
y = yData[i];
// For points within the visible range, including the first point outside the
// visible range, consider y extremes
validValue = y !== null && y !== UNDEFINED && (!yAxis.isLog || (y.length || y > 0));
withinRange = this.getExtremesFromAll || this.options.getExtremesFromAll || this.cropped ||
((xData[i + 1] || x) >= xMin && (xData[i - 1] || x) <= xMax);
if (validValue && withinRange) {
j = y.length;
if (j) { // array, like ohlc or range data
while (j--) {
if (y[j] !== null) {
activeYData[activeCounter++] = y[j];
}
}
} else {
activeYData[activeCounter++] = y;
}
}
}
this.dataMin = arrayMin(activeYData);
this.dataMax = arrayMax(activeYData);
},
/**
* Translate data points from raw data values to chart specific positioning data
* needed later in drawPoints, drawGraph and drawTracker.
*/
translate: function () {
if (!this.processedXData) { // hidden series
this.processData();
}
this.generatePoints();
var series = this,
options = series.options,
stacking = options.stacking,
xAxis = series.xAxis,
categories = xAxis.categories,
yAxis = series.yAxis,
points = series.points,
dataLength = points.length,
hasModifyValue = !!series.modifyValue,
i,
pointPlacement = options.pointPlacement,
dynamicallyPlaced = pointPlacement === 'between' || isNumber(pointPlacement),
threshold = options.threshold,
stackThreshold = options.startFromThreshold ? threshold : 0,
plotX,
plotY,
lastPlotX,
stackIndicator,
closestPointRangePx = Number.MAX_VALUE;
// Translate each point
for (i = 0; i < dataLength; i++) {
var point = points[i],
xValue = point.x,
yValue = point.y,
yBottom = point.low,
stack = stacking && yAxis.stacks[(series.negStacks && yValue < (stackThreshold ? 0 : threshold) ? '-' : '') + series.stackKey],
pointStack,
stackValues;
// Discard disallowed y values for log axes (#3434)
if (yAxis.isLog && yValue !== null && yValue <= 0) {
point.y = yValue = null;
error(10);
}
// Get the plotX translation
point.plotX = plotX = mathMin(mathMax(-1e5, xAxis.translate(xValue, 0, 0, 0, 1, pointPlacement, this.type === 'flags')), 1e5); // #3923
// Calculate the bottom y value for stacked series
if (stacking && series.visible && stack && stack[xValue]) {
stackIndicator = series.getStackIndicator(stackIndicator, xValue, series.index);
pointStack = stack[xValue];
stackValues = pointStack.points[stackIndicator.key];
yBottom = stackValues[0];
yValue = stackValues[1];
if (yBottom === stackThreshold) {
yBottom = pick(threshold, yAxis.min);
}
if (yAxis.isLog && yBottom <= 0) { // #1200, #1232
yBottom = null;
}
point.total = point.stackTotal = pointStack.total;
point.percentage = pointStack.total && (point.y / pointStack.total * 100);
point.stackY = yValue;
// Place the stack label
pointStack.setOffset(series.pointXOffset || 0, series.barW || 0);
}
// Set translated yBottom or remove it
point.yBottom = defined(yBottom) ?
yAxis.translate(yBottom, 0, 1, 0, 1) :
null;
// general hook, used for Highstock compare mode
if (hasModifyValue) {
yValue = series.modifyValue(yValue, point);
}
// Set the the plotY value, reset it for redraws
point.plotY = plotY = (typeof yValue === 'number' && yValue !== Infinity) ?
mathMin(mathMax(-1e5, yAxis.translate(yValue, 0, 1, 0, 1)), 1e5) : // #3201
UNDEFINED;
point.isInside = plotY !== UNDEFINED && plotY >= 0 && plotY <= yAxis.len && // #3519
plotX >= 0 && plotX <= xAxis.len;
// Set client related positions for mouse tracking
point.clientX = dynamicallyPlaced ? xAxis.translate(xValue, 0, 0, 0, 1) : plotX; // #1514
point.negative = point.y < (threshold || 0);
// some API data
point.category = categories && categories[point.x] !== UNDEFINED ?
categories[point.x] : point.x;
// Determine auto enabling of markers (#3635)
if (i) {
closestPointRangePx = mathMin(closestPointRangePx, mathAbs(plotX - lastPlotX));
}
lastPlotX = plotX;
}
series.closestPointRangePx = closestPointRangePx;
// now that we have the cropped data, build the segments
series.getSegments();
},
/**
* Set the clipping for the series. For animated series it is called twice, first to initiate
* animating the clip then the second time without the animation to set the final clip.
*/
setClip: function (animation) {
var chart = this.chart,
options = this.options,
renderer = chart.renderer,
inverted = chart.inverted,
seriesClipBox = this.clipBox,
clipBox = seriesClipBox || chart.clipBox,
sharedClipKey = this.sharedClipKey || ['_sharedClip', animation && animation.duration, animation && animation.easing, clipBox.height, options.xAxis, options.yAxis].join(','), // #4526
clipRect = chart[sharedClipKey],
markerClipRect = chart[sharedClipKey + 'm'];
// If a clipping rectangle with the same properties is currently present in the chart, use that.
if (!clipRect) {
// When animation is set, prepare the initial positions
if (animation) {
clipBox.width = 0;
chart[sharedClipKey + 'm'] = markerClipRect = renderer.clipRect(
-99, // include the width of the first marker
inverted ? -chart.plotLeft : -chart.plotTop,
99,
inverted ? chart.chartWidth : chart.chartHeight
);
}
chart[sharedClipKey] = clipRect = renderer.clipRect(clipBox);
}
if (animation) {
clipRect.count += 1;
}
if (options.clip !== false) {
this.group.clip(animation || seriesClipBox ? clipRect : chart.clipRect);
this.markerGroup.clip(markerClipRect);
this.sharedClipKey = sharedClipKey;
}
// Remove the shared clipping rectangle when all series are shown
if (!animation) {
clipRect.count -= 1;
if (clipRect.count <= 0 && sharedClipKey && chart[sharedClipKey]) {
if (!seriesClipBox) {
chart[sharedClipKey] = chart[sharedClipKey].destroy();
}
if (chart[sharedClipKey + 'm']) {
chart[sharedClipKey + 'm'] = chart[sharedClipKey + 'm'].destroy();
}
}
}
},
/**
* Animate in the series
*/
animate: function (init) {
var series = this,
chart = series.chart,
clipRect,
animation = series.options.animation,
sharedClipKey;
// Animation option is set to true
if (animation && !isObject(animation)) {
animation = defaultPlotOptions[series.type].animation;
}
// Initialize the animation. Set up the clipping rectangle.
if (init) {
series.setClip(animation);
// Run the animation
} else {
sharedClipKey = this.sharedClipKey;
clipRect = chart[sharedClipKey];
if (clipRect) {
clipRect.animate({
width: chart.plotSizeX
}, animation);
}
if (chart[sharedClipKey + 'm']) {
chart[sharedClipKey + 'm'].animate({
width: chart.plotSizeX + 99
}, animation);
}
// Delete this function to allow it only once
series.animate = null;
}
},
/**
* This runs after animation to land on the final plot clipping
*/
afterAnimate: function () {
this.setClip();
fireEvent(this, 'afterAnimate');
},
/**
* Draw the markers
*/
drawPoints: function () {
var series = this,
pointAttr,
points = series.points,
chart = series.chart,
plotX,
plotY,
i,
point,
radius,
symbol,
isImage,
graphic,
options = series.options,
seriesMarkerOptions = options.marker,
seriesPointAttr = series.pointAttr[''],
pointMarkerOptions,
hasPointMarker,
enabled,
isInside,
markerGroup = series.markerGroup,
xAxis = series.xAxis,
globallyEnabled = pick(
seriesMarkerOptions.enabled,
xAxis.isRadial,
series.closestPointRangePx > 2 * seriesMarkerOptions.radius
);
if (seriesMarkerOptions.enabled !== false || series._hasPointMarkers) {
i = points.length;
while (i--) {
point = points[i];
plotX = mathFloor(point.plotX); // #1843
plotY = point.plotY;
graphic = point.graphic;
pointMarkerOptions = point.marker || {};
hasPointMarker = !!point.marker;
enabled = (globallyEnabled && pointMarkerOptions.enabled === UNDEFINED) || pointMarkerOptions.enabled;
isInside = point.isInside;
// only draw the point if y is defined
if (enabled && plotY !== UNDEFINED && !isNaN(plotY) && point.y !== null) {
// shortcuts
pointAttr = point.pointAttr[point.selected ? SELECT_STATE : NORMAL_STATE] || seriesPointAttr;
radius = pointAttr.r;
symbol = pick(pointMarkerOptions.symbol, series.symbol);
isImage = symbol.indexOf('url') === 0;
if (graphic) { // update
graphic[isInside ? 'show' : 'hide'](true) // Since the marker group isn't clipped, each individual marker must be toggled
.animate(extend({
x: plotX - radius,
y: plotY - radius
}, graphic.symbolName ? { // don't apply to image symbols #507
width: 2 * radius,
height: 2 * radius
} : {}));
} else if (isInside && (radius > 0 || isImage)) {
point.graphic = graphic = chart.renderer.symbol(
symbol,
plotX - radius,
plotY - radius,
2 * radius,
2 * radius,
hasPointMarker ? pointMarkerOptions : seriesMarkerOptions
)
.attr(pointAttr)
.add(markerGroup);
}
} else if (graphic) {
point.graphic = graphic.destroy(); // #1269
}
}
}
},
/**
* 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,
seriesOptions = series.options,
normalOptions = defaultPlotOptions[series.type].marker ? seriesOptions.marker : seriesOptions,
stateOptions = normalOptions.states,
stateOptionsHover = stateOptions[HOVER_STATE],
pointStateOptionsHover,
seriesColor = series.color,
seriesNegativeColor = series.options.negativeColor,
normalDefaults = {
stroke: seriesColor,
fill: seriesColor
},
points = series.points || [], // #927
i,
j,
threshold,
point,
seriesPointAttr = [],
pointAttr,
pointAttrToOptions = series.pointAttrToOptions,
hasPointSpecificOptions = series.hasPointSpecificOptions,
defaultLineColor = normalOptions.lineColor,
defaultFillColor = normalOptions.fillColor,
turboThreshold = seriesOptions.turboThreshold,
zones = series.zones,
zoneAxis = series.zoneAxis || 'y',
attr,
key;
// series type specific modifications
if (seriesOptions.marker) { // line, spline, area, areaspline, scatter
// if no hover radius is given, default to normal radius + 2
stateOptionsHover.radius = stateOptionsHover.radius || normalOptions.radius + stateOptionsHover.radiusPlus;
stateOptionsHover.lineWidth = stateOptionsHover.lineWidth || normalOptions.lineWidth + stateOptionsHover.lineWidthPlus;
} else { // column, bar, pie
// if no hover color is given, brighten the normal color
stateOptionsHover.color = stateOptionsHover.color ||
Color(stateOptionsHover.color || seriesColor)
.brighten(stateOptionsHover.brightness).get();
// if no hover negativeColor is given, brighten the normal negativeColor
stateOptionsHover.negativeColor = stateOptionsHover.negativeColor ||
Color(stateOptionsHover.negativeColor || seriesNegativeColor)
.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 = points.length;
if (!turboThreshold || i < turboThreshold || hasPointSpecificOptions) {
while (i--) {
point = points[i];
normalOptions = (point.options && point.options.marker) || point.options;
if (normalOptions && normalOptions.enabled === false) {
normalOptions.radius = 0;
}
if (zones.length) {
j = 0;
threshold = zones[j];
while (point[zoneAxis] >= threshold.value) {
threshold = zones[++j];
}
point.color = point.fillColor = pick(threshold.color, series.color); // #3636, #4267, #4430 - inherit color from series, when color is undefined
}
hasPointSpecificOptions = seriesOptions.colorByPoint || point.color; // #868
// check if the point has specific visual options
if (point.options) {
for (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) {
normalOptions = normalOptions || {};
pointAttr = [];
stateOptions = normalOptions.states || {}; // reassign for individual point
pointStateOptionsHover = stateOptions[HOVER_STATE] = stateOptions[HOVER_STATE] || {};
// Handle colors for column and pies
if (!seriesOptions.marker || (point.negative && !pointStateOptionsHover.fillColor && !stateOptionsHover.fillColor)) { // column, bar, point or negative threshold for series with markers (#3636)
// If no hover color is given, brighten the normal color. #1619, #2579
pointStateOptionsHover[series.pointAttrToOptions.fill] = pointStateOptionsHover.color || (!point.options.color && stateOptionsHover[(point.negative && seriesNegativeColor ? 'negativeColor' : 'color')]) ||
Color(point.color)
.brighten(pointStateOptionsHover.brightness || stateOptionsHover.brightness)
.get();
}
// normal point state inherits series wide normal state
attr = { color: point.color }; // #868
if (!defaultFillColor) { // Individual point color or negative color markers (#2219)
attr.fillColor = point.color;
}
if (!defaultLineColor) {
attr.lineColor = point.color; // Bubbles take point color, line markers use white
}
// Color is explicitly set to null or undefined (#1288, #4068)
if (normalOptions.hasOwnProperty('color') && !normalOptions.color) {
delete normalOptions.color;
}
pointAttr[NORMAL_STATE] = series.convertAttribs(extend(attr, 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,
issue134 = /AppleWebKit\/533/.test(userAgent),
destroy,
i,
data = series.data || [],
point,
prop,
axis;
// add event hook
fireEvent(series, 'destroy');
// remove all events
removeEvent(series);
// erase from axes
each(series.axisTypes || [], function (AXIS) {
axis = series[AXIS];
if (axis) {
erase(axis.series, series);
axis.isDirty = axis.forceRedraw = true;
}
});
// remove legend items
if (series.legendItem) {
series.chart.legend.destroyItem(series);
}
// destroy all points with their elements
i = data.length;
while (i--) {
point = data[i];
if (point && point.destroy) {
point.destroy();
}
}
series.points = null;
// Clear the animation timeout if we are destroying the series during initial animation
clearTimeout(series.animationTimeout);
// Destroy all SVGElements associated to the series
for (prop in series) {
if (series[prop] instanceof SVGElement && !series[prop].survive) { // Survive provides a hook for not destroying
// issue 134 workaround
destroy = issue134 && prop === 'group' ?
'hide' :
'destroy';
series[prop][destroy]();
}
}
// remove from hoverSeries
if (chart.hoverSeries === series) {
chart.hoverSeries = null;
}
erase(chart.series, series);
// clear all members
for (prop in series) {
delete series[prop];
}
},
/**
* Return the graph path of a segment
*/
getSegmentPath: function (segment) {
var series = this,
segmentPath = [],
step = series.options.step;
// build the segment line
each(segment, function (point, i) {
var plotX = point.plotX,
plotY = point.plotY,
lastPoint;
if (series.getPointSpline) { // generate the spline as defined in the SplineSeries object
segmentPath.push.apply(segmentPath, series.getPointSpline(segment, point, i));
} else {
// moveTo or lineTo
segmentPath.push(i ? L : M);
// step line?
if (step && i) {
lastPoint = segment[i - 1];
if (step === 'right') {
segmentPath.push(
lastPoint.plotX,
plotY,
L
);
} else if (step === 'center') {
segmentPath.push(
(lastPoint.plotX + plotX) / 2,
lastPoint.plotY,
L,
(lastPoint.plotX + plotX) / 2,
plotY,
L
);
} else {
segmentPath.push(
plotX,
lastPoint.plotY,
L
);
}
}
// normal line to next point
segmentPath.push(
point.plotX,
point.plotY
);
}
});
return segmentPath;
},
/**
* Get the graph path
*/
getGraphPath: function () {
var series = this,
graphPath = [],
segmentPath,
singlePoints = []; // used in drawTracker
// Divide into segments and build graph and area paths
each(series.segments, function (segment) {
segmentPath = series.getSegmentPath(segment);
// add the segment to the graph, or a single point for tracking
if (segment.length > 1) {
graphPath = graphPath.concat(segmentPath);
} else {
singlePoints.push(segment[0]);
}
});
// Record it for use in drawGraph and drawTracker, and return graphPath
series.singlePoints = singlePoints;
series.graphPath = graphPath;
return graphPath;
},
/**
* Draw the actual graph
*/
drawGraph: function () {
var series = this,
options = this.options,
props = [['graph', options.lineColor || this.color, options.dashStyle]],
lineWidth = options.lineWidth,
roundCap = options.linecap !== 'square',
graphPath = this.getGraphPath(),
fillColor = (this.fillGraph && this.color) || NONE, // polygon series use filled graph
zones = this.zones;
each(zones, function (threshold, i) {
props.push(['zoneGraph' + i, threshold.color || series.color, threshold.dashStyle || options.dashStyle]);
});
// Draw the graph
each(props, function (prop, i) {
var graphKey = prop[0],
graph = series[graphKey],
attribs;
if (graph) {
graph.animate({ d: graphPath });
} else if ((lineWidth || fillColor) && graphPath.length) { // #1487
attribs = {
stroke: prop[1],
'stroke-width': lineWidth,
fill: fillColor,
zIndex: 1 // #1069
};
if (prop[2]) {
attribs.dashstyle = prop[2];
} else if (roundCap) {
attribs['stroke-linecap'] = attribs['stroke-linejoin'] = 'round';
}
series[graphKey] = series.chart.renderer.path(graphPath)
.attr(attribs)
.add(series.group)
.shadow((i < 2) && options.shadow); // add shadow to normal series (0) or to first zone (1) #3932
}
});
},
/**
* Clip the graphs into the positive and negative coloured graphs
*/
applyZones: function () {
var series = this,
chart = this.chart,
renderer = chart.renderer,
zones = this.zones,
translatedFrom,
translatedTo,
clips = this.clips || [],
clipAttr,
graph = this.graph,
area = this.area,
chartSizeMax = mathMax(chart.chartWidth, chart.chartHeight),
axis = this[(this.zoneAxis || 'y') + 'Axis'],
extremes,
reversed = axis.reversed,
inverted = chart.inverted,
horiz = axis.horiz,
pxRange,
pxPosMin,
pxPosMax,
ignoreZones = false;
if (zones.length && (graph || area) && axis.min !== UNDEFINED) {
// The use of the Color Threshold assumes there are no gaps
// so it is safe to hide the original graph and area
if (graph) {
graph.hide();
}
if (area) {
area.hide();
}
// Create the clips
extremes = axis.getExtremes();
each(zones, function (threshold, i) {
translatedFrom = reversed ?
(horiz ? chart.plotWidth : 0) :
(horiz ? 0 : axis.toPixels(extremes.min));
translatedFrom = mathMin(mathMax(pick(translatedTo, translatedFrom), 0), chartSizeMax);
translatedTo = mathMin(mathMax(mathRound(axis.toPixels(pick(threshold.value, extremes.max), true)), 0), chartSizeMax);
if (ignoreZones) {
translatedFrom = translatedTo = axis.toPixels(extremes.max);
}
pxRange = Math.abs(translatedFrom - translatedTo);
pxPosMin = mathMin(translatedFrom, translatedTo);
pxPosMax = mathMax(translatedFrom, translatedTo);
if (axis.isXAxis) {
clipAttr = {
x: inverted ? pxPosMax : pxPosMin,
y: 0,
width: pxRange,
height: chartSizeMax
};
if (!horiz) {
clipAttr.x = chart.plotHeight - clipAttr.x;
}
} else {
clipAttr = {
x: 0,
y: inverted ? pxPosMax : pxPosMin,
width: chartSizeMax,
height: pxRange
};
if (horiz) {
clipAttr.y = chart.plotWidth - clipAttr.y;
}
}
/// VML SUPPPORT
if (chart.inverted && renderer.isVML) {
if (axis.isXAxis) {
clipAttr = {
x: 0,
y: reversed ? pxPosMin : pxPosMax,
height: clipAttr.width,
width: chart.chartWidth
};
} else {
clipAttr = {
x: clipAttr.y - chart.plotLeft - chart.spacingBox.x,
y: 0,
width: clipAttr.height,
height: chart.chartHeight
};
}
}
/// END OF VML SUPPORT
if (clips[i]) {
clips[i].animate(clipAttr);
} else {
clips[i] = renderer.clipRect(clipAttr);
if (graph) {
series['zoneGraph' + i].clip(clips[i]);
}
if (area) {
series['zoneArea' + i].clip(clips[i]);
}
}
// if this zone extends out of the axis, ignore the others
ignoreZones = threshold.value > extremes.max;
});
this.clips = clips;
}
},
/**
* Initialize and perform group inversion on series.group and series.markerGroup
*/
invertGroups: function () {
var series = this,
chart = series.chart;
// Pie, go away (#1736)
if (!series.xAxis) {
return;
}
// A fixed size is needed for inversion to work
function setInvert() {
var size = {
width: series.yAxis.len,
height: series.xAxis.len
};
each(['group', 'markerGroup'], function (groupName) {
if (series[groupName]) {
series[groupName].attr(size).invert();
}
});
}
addEvent(chart, 'resize', setInvert); // do it on resize
addEvent(series, 'destroy', function () {
removeEvent(chart, 'resize', setInvert);
});
// Do it now
setInvert(); // do it now
// On subsequent render and redraw, just do setInvert without setting up events again
series.invertGroups = setInvert;
},
/**
* General abstraction for creating plot groups like series.group, series.dataLabelsGroup and
* series.markerGroup. On subsequent calls, the group will only be adjusted to the updated plot size.
*/
plotGroup: function (prop, name, visibility, zIndex, parent) {
var group = this[prop],
isNew = !group;
// Generate it on first call
if (isNew) {
this[prop] = group = this.chart.renderer.g(name)
.attr({
visibility: visibility,
zIndex: zIndex || 0.1 // IE8 needs this
})
.add(parent);
group.addClass('highcharts-series-' + this.index);
}
// Place it on first and subsequent (redraw) calls
group[isNew ? 'attr' : 'animate'](this.getPlotBox());
return group;
},
/**
* Get the translation and scale for the plot area of this series
*/
getPlotBox: function () {
var chart = this.chart,
xAxis = this.xAxis,
yAxis = this.yAxis;
// Swap axes for inverted (#2339)
if (chart.inverted) {
xAxis = yAxis;
yAxis = this.xAxis;
}
return {
translateX: xAxis ? xAxis.left : chart.plotLeft,
translateY: yAxis ? yAxis.top : chart.plotTop,
scaleX: 1, // #1623
scaleY: 1
};
},
/**
* Render the graph and markers
*/
render: function () {
var series = this,
chart = series.chart,
group,
options = series.options,
animation = options.animation,
// Animation doesn't work in IE8 quirks when the group div is hidden,
// and looks bad in other oldIE
animDuration = (animation && !!series.animate && chart.renderer.isSVG && pick(animation.duration, 500)) || 0,
visibility = series.visible ? VISIBLE : HIDDEN,
zIndex = options.zIndex,
hasRendered = series.hasRendered,
chartSeriesGroup = chart.seriesGroup;
// the group
group = series.plotGroup(
'group',
'series',
visibility,
zIndex,
chartSeriesGroup
);
series.markerGroup = series.plotGroup(
'markerGroup',
'markers',
visibility,
zIndex,
chartSeriesGroup
);
// initiate the animation
if (animDuration) {
series.animate(true);
}
// cache attributes for shapes
series.getAttribs();
// SVGRenderer needs to know this before drawing elements (#1089, #1795)
group.inverted = series.isCartesian ? chart.inverted : false;
// draw the graph if any
if (series.drawGraph) {
series.drawGraph();
series.applyZones();
}
each(series.points, function (point) {
if (point.redraw) {
point.redraw();
}
});
// draw the data labels (inn pies they go before the points)
if (series.drawDataLabels) {
series.drawDataLabels();
}
// draw the points
if (series.visible) {
series.drawPoints();
}
// draw the mouse tracking area
if (series.drawTracker && series.options.enableMouseTracking !== false) {
series.drawTracker();
}
// Handle inverted series and tracker groups
if (chart.inverted) {
series.invertGroups();
}
// Initial clipping, must be defined after inverting groups for VML. Applies to columns etc. (#3839).
if (options.clip !== false && !series.sharedClipKey && !hasRendered) {
group.clip(chart.clipRect);
}
// Run the animation
if (animDuration) {
series.animate();
}
// Call the afterAnimate function on animation complete (but don't overwrite the animation.complete option
// which should be available to the user).
if (!hasRendered) {
if (animDuration) {
series.animationTimeout = setTimeout(function () {
series.afterAnimate();
}, animDuration);
} else {
series.afterAnimate();
}
}
series.isDirty = series.isDirtyData = false; // means data is in accordance with what you see
// (See #322) series.isDirty = series.isDirtyData = false; // means data is in accordance with what you see
series.hasRendered = true;
},
/**
* Redraw the series after an update in the axes.
*/
redraw: function () {
var series = this,
chart = series.chart,
wasDirtyData = series.isDirtyData, // cache it here as it is set to false in render, but used after
wasDirty = series.isDirty,
group = series.group,
xAxis = series.xAxis,
yAxis = series.yAxis;
// reposition on resize
if (group) {
if (chart.inverted) {
group.attr({
width: chart.plotWidth,
height: chart.plotHeight
});
}
group.animate({
translateX: pick(xAxis && xAxis.left, chart.plotLeft),
translateY: pick(yAxis && yAxis.top, chart.plotTop)
});
}
series.translate();
series.render();
if (wasDirtyData) {
fireEvent(series, 'updatedData');
}
if (wasDirty || wasDirtyData) { // #3945 recalculate the kdtree when dirty
delete this.kdTree; // #3868 recalculate the kdtree with dirty data
}
},
/**
* KD Tree && PointSearching Implementation
*/
kdDimensions: 1,
kdAxisArray: ['clientX', 'plotY'],
searchPoint: function (e, compareX) {
var series = this,
xAxis = series.xAxis,
yAxis = series.yAxis,
inverted = series.chart.inverted;
return this.searchKDTree({
clientX: inverted ? xAxis.len - e.chartY + xAxis.pos : e.chartX - xAxis.pos,
plotY: inverted ? yAxis.len - e.chartX + yAxis.pos : e.chartY - yAxis.pos
}, compareX);
},
buildKDTree: function () {
var series = this,
dimensions = series.kdDimensions;
// Internal function
function _kdtree(points, depth, dimensions) {
var axis, median, length = points && points.length;
if (length) {
// alternate between the axis
axis = series.kdAxisArray[depth % dimensions];
// sort point array
points.sort(function(a, b) {
return a[axis] - b[axis];
});
median = Math.floor(length / 2);
// build and return nod
return {
point: points[median],
left: _kdtree(points.slice(0, median), depth + 1, dimensions),
right: _kdtree(points.slice(median + 1), depth + 1, dimensions)
};
}
}
// Start the recursive build process with a clone of the points array and null points filtered out (#3873)
function startRecursive() {
var points = grep(series.points || [], function (point) { // #4390
return point.y !== null;
});
series.kdTree = _kdtree(points, dimensions, dimensions);
}
delete series.kdTree;
if (series.options.kdSync) { // For testing tooltips, don't build async
startRecursive();
} else {
setTimeout(startRecursive);
}
},
searchKDTree: function (point, compareX) {
var series = this,
kdX = this.kdAxisArray[0],
kdY = this.kdAxisArray[1],
kdComparer = compareX ? 'distX' : 'dist';
// Set the one and two dimensional distance on the point object
function setDistance(p1, p2) {
var x = (defined(p1[kdX]) && defined(p2[kdX])) ? Math.pow(p1[kdX] - p2[kdX], 2) : null,
y = (defined(p1[kdY]) && defined(p2[kdY])) ? Math.pow(p1[kdY] - p2[kdY], 2) : null,
r = (x || 0) + (y || 0);
p2.dist = defined(r) ? Math.sqrt(r) : Number.MAX_VALUE;
p2.distX = defined(x) ? Math.sqrt(x) : Number.MAX_VALUE;
}
function _search(search, tree, depth, dimensions) {
var point = tree.point,
axis = series.kdAxisArray[depth % dimensions],
tdist,
sideA,
sideB,
ret = point,
nPoint1,
nPoint2;
setDistance(search, point);
// Pick side based on distance to splitting point
tdist = search[axis] - point[axis];
sideA = tdist < 0 ? 'left' : 'right';
sideB = tdist < 0 ? 'right' : 'left';
// End of tree
if (tree[sideA]) {
nPoint1 =_search(search, tree[sideA], depth + 1, dimensions);
ret = (nPoint1[kdComparer] < ret[kdComparer] ? nPoint1 : point);
}
if (tree[sideB]) {
// compare distance to current best to splitting point to decide wether to check side B or not
if (Math.sqrt(tdist * tdist) < ret[kdComparer]) {
nPoint2 = _search(search, tree[sideB], depth + 1, dimensions);
ret = (nPoint2[kdComparer] < ret[kdComparer] ? nPoint2 : ret);
}
}
return ret;
}
if (!this.kdTree) {
this.buildKDTree();
}
if (this.kdTree) {
return _search(point,
this.kdTree, this.kdDimensions, this.kdDimensions);
}
}
}; // end Series prototype
/**
* The class for stack items
*/
function StackItem(axis, options, isNegative, x, stackOption) {
var inverted = axis.chart.inverted;
this.axis = axis;
// Tells if the stack is negative
this.isNegative = isNegative;
// Save the options to be able to style the label
this.options = options;
// Save the x value to be able to position the label later
this.x = x;
// Initialize total value
this.total = null;
// This will keep each points' extremes stored by series.index and point index
this.points = {};
// Save the stack option on the series configuration object, and whether to treat it as percent
this.stack = stackOption;
// The align options and text align varies on whether the stack is negative and
// if the chart is inverted or not.
// First test the user supplied value, then use the dynamic.
this.alignOptions = {
align: options.align || (inverted ? (isNegative ? 'left' : 'right') : 'center'),
verticalAlign: options.verticalAlign || (inverted ? 'middle' : (isNegative ? 'bottom' : 'top')),
y: pick(options.y, inverted ? 4 : (isNegative ? 14 : -6)),
x: pick(options.x, inverted ? (isNegative ? -6 : 6) : 0)
};
this.textAlign = options.textAlign || (inverted ? (isNegative ? 'right' : 'left') : 'center');
}
StackItem.prototype = {
destroy: function () {
destroyObjectProperties(this, this.axis);
},
/**
* Renders the stack total label and adds it to the stack label group.
*/
render: function (group) {
var options = this.options,
formatOption = options.format,
str = formatOption ?
format(formatOption, this) :
options.formatter.call(this); // format the text in the label
// Change the text to reflect the new total and set visibility to hidden in case the serie is hidden
if (this.label) {
this.label.attr({text: str, visibility: HIDDEN});
// Create new label
} else {
this.label =
this.axis.chart.renderer.text(str, null, null, options.useHTML) // dummy positions, actual position updated with setOffset method in columnseries
.css(options.style) // apply style
.attr({
align: this.textAlign, // fix the text-anchor
rotation: options.rotation, // rotation
visibility: HIDDEN // hidden until setOffset is called
})
.add(group); // add to the labels-group
}
},
/**
* Sets the offset that the stack has from the x value and repositions the label.
*/
setOffset: function (xOffset, xWidth) {
var stackItem = this,
axis = stackItem.axis,
chart = axis.chart,
inverted = chart.inverted,
reversed = axis.reversed,
neg = (this.isNegative && !reversed) || (!this.isNegative && reversed), // #4056
y = axis.translate(axis.usePercentage ? 100 : this.total, 0, 0, 0, 1), // stack value translated mapped to chart coordinates
yZero = axis.translate(0), // stack origin
h = mathAbs(y - yZero), // stack height
x = chart.xAxis[0].translate(this.x) + xOffset, // stack x position
plotHeight = chart.plotHeight,
stackBox = { // this is the box for the complete stack
x: inverted ? (neg ? y : y - h) : x,
y: inverted ? plotHeight - x - xWidth : (neg ? (plotHeight - y - h) : plotHeight - y),
width: inverted ? h : xWidth,
height: inverted ? xWidth : h
},
label = this.label,
alignAttr;
if (label) {
label.align(this.alignOptions, null, stackBox); // align the label to the box
// Set visibility (#678)
alignAttr = label.alignAttr;
label[this.options.crop === false || chart.isInsidePlot(alignAttr.x, alignAttr.y) ? 'show' : 'hide'](true);
}
}
};
/**
* Generate stacks for each series and calculate stacks total values
*/
Chart.prototype.getStacks = function () {
var chart = this;
// reset stacks for each yAxis
each(chart.yAxis, function (axis) {
if (axis.stacks && axis.hasVisibleSeries) {
axis.oldStacks = axis.stacks;
}
});
each(chart.series, function (series) {
if (series.options.stacking && (series.visible === true || chart.options.chart.ignoreHiddenSeries === false)) {
series.stackKey = series.type + pick(series.options.stack, '');
}
});
};
// Stacking methods defined on the Axis prototype
/**
* Build the stacks from top down
*/
Axis.prototype.buildStacks = function () {
var series = this.series,
reversedStacks = pick(this.options.reversedStacks, true),
i = series.length;
if (!this.isXAxis) {
this.usePercentage = false;
while (i--) {
series[reversedStacks ? i : series.length - i - 1].setStackedPoints();
}
// Loop up again to compute percent stack
if (this.usePercentage) {
for (i = 0; i < series.length; i++) {
series[i].setPercentStacks();
}
}
}
};
Axis.prototype.renderStackTotals = function () {
var axis = this,
chart = axis.chart,
renderer = chart.renderer,
stacks = axis.stacks,
stackKey,
oneStack,
stackCategory,
stackTotalGroup = axis.stackTotalGroup;
// Create a separate group for the stack total labels
if (!stackTotalGroup) {
axis.stackTotalGroup = stackTotalGroup =
renderer.g('stack-labels')
.attr({
visibility: VISIBLE,
zIndex: 6
})
.add();
}
// plotLeft/Top will change when y axis gets wider so we need to translate the
// stackTotalGroup at every render call. See bug #506 and #516
stackTotalGroup.translate(chart.plotLeft, chart.plotTop);
// Render each stack total
for (stackKey in stacks) {
oneStack = stacks[stackKey];
for (stackCategory in oneStack) {
oneStack[stackCategory].render(stackTotalGroup);
}
}
};
/**
* Set all the stacks to initial states and destroy unused ones.
*/
Axis.prototype.resetStacks = function () {
var stacks = this.stacks,
type,
i;
if (!this.isXAxis) {
for (type in stacks) {
for (i in stacks[type]) {
// Clean up memory after point deletion (#1044, #4320)
if (stacks[type][i].touched < this.stacksTouched) {
stacks[type][i].destroy();
delete stacks[type][i];
// Reset stacks
} else {
stacks[type][i].total = null;
stacks[type][i].cum = 0;
}
}
}
}
};
Axis.prototype.cleanStacks = function () {
var stacks, type, i;
if (!this.isXAxis) {
if (this.oldStacks) {
stacks = this.stacks = this.oldStacks;
}
// reset stacks
for (type in stacks) {
for (i in stacks[type]) {
stacks[type][i].cum = stacks[type][i].total;
}
}
}
};
// Stacking methods defnied for Series prototype
/**
* Adds series' points value to corresponding stack
*/
Series.prototype.setStackedPoints = function () {
if (!this.options.stacking || (this.visible !== true && this.chart.options.chart.ignoreHiddenSeries !== false)) {
return;
}
var series = this,
xData = series.processedXData,
yData = series.processedYData,
stackedYData = [],
yDataLength = yData.length,
seriesOptions = series.options,
threshold = seriesOptions.threshold,
stackThreshold = seriesOptions.startFromThreshold ? threshold : 0,
stackOption = seriesOptions.stack,
stacking = seriesOptions.stacking,
stackKey = series.stackKey,
negKey = '-' + stackKey,
negStacks = series.negStacks,
yAxis = series.yAxis,
stacks = yAxis.stacks,
oldStacks = yAxis.oldStacks,
stackIndicator,
isNegative,
stack,
other,
key,
pointKey,
i,
x,
y;
yAxis.stacksTouched += 1;
// loop over the non-null y values and read them into a local array
for (i = 0; i < yDataLength; i++) {
x = xData[i];
y = yData[i];
stackIndicator = series.getStackIndicator(stackIndicator, x, series.index);
pointKey = stackIndicator.key;
// Read stacked values into a stack based on the x value,
// the sign of y and the stack key. Stacking is also handled for null values (#739)
isNegative = negStacks && y < (stackThreshold ? 0 : threshold);
key = isNegative ? negKey : stackKey;
// Create empty object for this stack if it doesn't exist yet
if (!stacks[key]) {
stacks[key] = {};
}
// Initialize StackItem for this x
if (!stacks[key][x]) {
if (oldStacks[key] && oldStacks[key][x]) {
stacks[key][x] = oldStacks[key][x];
stacks[key][x].total = null;
} else {
stacks[key][x] = new StackItem(yAxis, yAxis.options.stackLabels, isNegative, x, stackOption);
}
}
// If the StackItem doesn't exist, create it first
stack = stacks[key][x];
//stack.points[pointKey] = [stack.cum || stackThreshold];
stack.points[pointKey] = [pick(stack.cum, stackThreshold)];
stack.touched = yAxis.stacksTouched;
// Add value to the stack total
if (stacking === 'percent') {
// Percent stacked column, totals are the same for the positive and negative stacks
other = isNegative ? stackKey : negKey;
if (negStacks && stacks[other] && stacks[other][x]) {
other = stacks[other][x];
stack.total = other.total = mathMax(other.total, stack.total) + mathAbs(y) || 0;
// Percent stacked areas
} else {
stack.total = correctFloat(stack.total + (mathAbs(y) || 0));
}
} else {
stack.total = correctFloat(stack.total + (y || 0));
}
stack.cum = pick(stack.cum, stackThreshold) + (y || 0);
stack.points[pointKey].push(stack.cum);
stackedYData[i] = stack.cum;
}
if (stacking === 'percent') {
yAxis.usePercentage = true;
}
this.stackedYData = stackedYData; // To be used in getExtremes
// Reset old stacks
yAxis.oldStacks = {};
};
/**
* Iterate over all stacks and compute the absolute values to percent
*/
Series.prototype.setPercentStacks = function () {
var series = this,
stackKey = series.stackKey,
stacks = series.yAxis.stacks,
processedXData = series.processedXData,
stackIndicator;
each([stackKey, '-' + stackKey], function (key) {
var i = processedXData.length,
x,
stack,
pointExtremes,
totalFactor;
while (i--) {
x = processedXData[i];
stackIndicator = series.getStackIndicator(stackIndicator, x, series.index);
stack = stacks[key] && stacks[key][x];
pointExtremes = stack && stack.points[stackIndicator.key];
if (pointExtremes) {
totalFactor = stack.total ? 100 / stack.total : 0;
pointExtremes[0] = correctFloat(pointExtremes[0] * totalFactor); // Y bottom value
pointExtremes[1] = correctFloat(pointExtremes[1] * totalFactor); // Y value
series.stackedYData[i] = pointExtremes[1];
}
}
});
};
/**
* Get stack indicator, according to it's x-value, to determine points with the same x-value
*/
Series.prototype.getStackIndicator = function(stackIndicator, x, index) {
if (!defined(stackIndicator) || stackIndicator.x !== x) {
stackIndicator = {
x: x,
index: 0
};
} else {
stackIndicator.index++;
}
stackIndicator.key = [index, x, stackIndicator.index].join(',');
return stackIndicator;
};
// Extend the Chart prototype for dynamic methods
extend(Chart.prototype, {
/**
* 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.
* @param {Boolean|Object} animation Whether to apply animation, and optionally animation
* configuration
*
* @return {Object} series The newly created series object
*/
addSeries: function (options, redraw, animation) {
var series,
chart = this;
if (options) {
redraw = pick(redraw, true); // defaults to true
fireEvent(chart, 'addSeries', { options: options }, function () {
series = chart.initSeries(options);
chart.isDirtyLegend = true; // the series array is out of sync with the display
chart.linkSeries();
if (redraw) {
chart.redraw(animation);
}
});
}
return series;
},
/**
* Add an axis to the chart
* @param {Object} options The axis option
* @param {Boolean} isX Whether it is an X axis or a value axis
*/
addAxis: function (options, isX, redraw, animation) {
var key = isX ? 'xAxis' : 'yAxis',
chartOptions = this.options,
axis;
/*jslint unused: false*/
axis = new Axis(this, merge(options, {
index: this[key].length,
isX: isX
}));
/*jslint unused: true*/
// Push the new axis options to the chart options
chartOptions[key] = splat(chartOptions[key] || {});
chartOptions[key].push(options);
if (pick(redraw, true)) {
this.redraw(animation);
}
},
/**
* 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
*/
showLoading: function (str) {
var chart = this,
options = chart.options,
loadingDiv = chart.loadingDiv,
loadingOptions = options.loading,
setLoadingSize = function () {
if (loadingDiv) {
css(loadingDiv, {
left: chart.plotLeft + PX,
top: chart.plotTop + PX,
width: chart.plotWidth + PX,
height: chart.plotHeight + PX
});
}
};
// create the layer at the first call
if (!loadingDiv) {
chart.loadingDiv = loadingDiv = createElement(DIV, {
className: PREFIX + 'loading'
}, extend(loadingOptions.style, {
zIndex: 10,
display: NONE
}), chart.container);
chart.loadingSpan = createElement(
'span',
null,
loadingOptions.labelStyle,
loadingDiv
);
addEvent(chart, 'redraw', setLoadingSize); // #1080
}
// update text
chart.loadingSpan.innerHTML = str || options.lang.loading;
// show it
if (!chart.loadingShown) {
css(loadingDiv, {
opacity: 0,
display: ''
});
animate(loadingDiv, {
opacity: loadingOptions.style.opacity
}, {
duration: loadingOptions.showDuration || 0
});
chart.loadingShown = true;
}
setLoadingSize();
},
/**
* Hide the loading layer
*/
hideLoading: function () {
var options = this.options,
loadingDiv = this.loadingDiv;
if (loadingDiv) {
animate(loadingDiv, {
opacity: 0
}, {
duration: options.loading.hideDuration || 100,
complete: function () {
css(loadingDiv, { display: NONE });
}
});
}
this.loadingShown = false;
}
});
// extend the Point prototype for dynamic methods
extend(Point.prototype, {
/**
* 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
* @param {Boolean|Object} animation Whether to apply animation, and optionally animation
* configuration
*
*/
update: function (options, redraw, animation, runEvent) {
var point = this,
series = point.series,
graphic = point.graphic,
i,
chart = series.chart,
seriesOptions = series.options,
names = series.xAxis && series.xAxis.names;
redraw = pick(redraw, true);
function update() {
point.applyOptions(options);
// Update visuals
if (point.y === null && graphic) { // #4146
point.graphic = graphic.destroy();
}
if (isObject(options) && !isArray(options)) {
// Defer the actual redraw until getAttribs has been called (#3260)
point.redraw = function () {
if (graphic && graphic.element) {
if (options && options.marker && options.marker.symbol) {
point.graphic = graphic.destroy();
}
}
if (options && options.dataLabels && point.dataLabel) { // #2468
point.dataLabel = point.dataLabel.destroy();
}
point.redraw = null;
};
}
// record changes in the parallel arrays
i = point.index;
series.updateParallelArrays(point, i);
if (names && point.name) {
names[point.x] = point.name;
}
seriesOptions.data[i] = point.options;
// redraw
series.isDirty = series.isDirtyData = true;
if (!series.fixedBox && series.hasCartesianSeries) { // #1906, #2320
chart.isDirtyBox = true;
}
if (seriesOptions.legendType === 'point') { // #1831, #1885
chart.isDirtyLegend = true;
}
if (redraw) {
chart.redraw(animation);
}
}
// Fire the event with a default handler of doing the update
if (runEvent === false) { // When called from setData
update();
} else {
point.firePointEvent('update', { options: options }, update);
}
},
/**
* 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
* @param {Boolean|Object} animation Whether to apply animation, and optionally animation
* configuration
*/
remove: function (redraw, animation) {
this.series.removePoint(inArray(this, this.series.data), redraw, animation);
}
});
// Extend the series prototype for dynamic methods
extend(Series.prototype, {
/**
* 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.
* @param {Boolean|Object} animation Whether to apply animation, and optionally animation
* configuration
*/
addPoint: function (options, redraw, shift, animation) {
var series = this,
seriesOptions = series.options,
data = series.data,
graph = series.graph,
area = series.area,
chart = series.chart,
names = series.xAxis && series.xAxis.names,
currentShift = (graph && graph.shift) || 0,
shiftShapes = ['graph', 'area'],
dataOptions = seriesOptions.data,
point,
isInTheMiddle,
xData = series.xData,
i,
x;
setAnimation(animation, chart);
// Make graph animate sideways
if (shift) {
i = series.zones.length;
while (i--) {
shiftShapes.push('zoneGraph' + i, 'zoneArea' + i);
}
each(shiftShapes, function (shape) {
if (series[shape]) {
series[shape].shift = currentShift + (seriesOptions.step ? 2 : 1);
}
});
}
if (area) {
area.isArea = true; // needed in animation, both with and without shift
}
// Optional redraw, defaults to true
redraw = pick(redraw, true);
// Get options and push the point to xData, yData and series.options. In series.generatePoints
// the Point instance will be created on demand and pushed to the series.data array.
point = { series: series };
series.pointClass.prototype.applyOptions.apply(point, [options]);
x = point.x;
// Get the insertion point
i = xData.length;
if (series.requireSorting && x < xData[i - 1]) {
isInTheMiddle = true;
while (i && xData[i - 1] > x) {
i--;
}
}
series.updateParallelArrays(point, 'splice', i, 0, 0); // insert undefined item
series.updateParallelArrays(point, i); // update it
if (names && point.name) {
names[x] = point.name;
}
dataOptions.splice(i, 0, options);
if (isInTheMiddle) {
series.data.splice(i, 0, null);
series.processData();
}
// Generate points to be added to the legend (#1329)
if (seriesOptions.legendType === 'point') {
series.generatePoints();
}
// Shift the first point off the parallel arrays
// todo: consider series.removePoint(i) method
if (shift) {
if (data[0] && data[0].remove) {
data[0].remove(false);
} else {
data.shift();
series.updateParallelArrays(point, 'shift');
dataOptions.shift();
}
}
// redraw
series.isDirty = true;
series.isDirtyData = true;
if (redraw) {
series.getAttribs(); // #1937
chart.redraw();
}
},
/**
* Remove a point (rendered or not), by index
*/
removePoint: function (i, redraw, animation) {
var series = this,
data = series.data,
point = data[i],
points = series.points,
chart = series.chart,
remove = function () {
if (data.length === points.length) {
points.splice(i, 1);
}
data.splice(i, 1);
series.options.data.splice(i, 1);
series.updateParallelArrays(point || { series: series }, 'splice', i, 1);
if (point) {
point.destroy();
}
// redraw
series.isDirty = true;
series.isDirtyData = true;
if (redraw) {
chart.redraw();
}
};
setAnimation(animation, chart);
redraw = pick(redraw, true);
// Fire the event with a default handler of removing the point
if (point) {
point.firePointEvent('remove', null, remove);
} else {
remove();
}
},
/**
* Remove a series and optionally redraw the chart
*
* @param {Boolean} redraw Whether to redraw the chart or wait for an explicit call
* @param {Boolean|Object} animation Whether to apply animation, and optionally animation
* configuration
*/
remove: function (redraw, animation) {
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.isDirtyLegend = chart.isDirtyBox = true;
chart.linkSeries();
if (redraw) {
chart.redraw(animation);
}
});
}
series.isRemoving = false;
},
/**
* Update the series with a new set of options
*/
update: function (newOptions, redraw) {
var series = this,
chart = this.chart,
// must use user options when changing type because this.options is merged
// in with type specific plotOptions
oldOptions = this.userOptions,
oldType = this.type,
proto = seriesTypes[oldType].prototype,
preserve = ['group', 'markerGroup', 'dataLabelsGroup'],
n;
// If we're changing type or zIndex, create new groups (#3380, #3404)
if ((newOptions.type && newOptions.type !== oldType) || newOptions.zIndex !== undefined) {
preserve.length = 0;
}
// Make sure groups are not destroyed (#3094)
each(preserve, function (prop) {
preserve[prop] = series[prop];
delete series[prop];
});
// Do the merge, with some forced options
newOptions = merge(oldOptions, {
animation: false,
index: this.index,
pointStart: this.xData[0] // when updating after addPoint
}, { data: this.options.data }, newOptions);
// Destroy the series and delete all properties. Reinsert all methods
// and properties from the new type prototype (#2270, #3719)
this.remove(false);
for (n in proto) {
this[n] = UNDEFINED;
}
extend(this, seriesTypes[newOptions.type || oldType].prototype);
// Re-register groups (#3094)
each(preserve, function (prop) {
series[prop] = preserve[prop];
});
this.init(chart, newOptions);
chart.linkSeries(); // Links are lost in this.remove (#3028)
if (pick(redraw, true)) {
chart.redraw(false);
}
}
});
// Extend the Axis.prototype for dynamic methods
extend(Axis.prototype, {
/**
* Update the axis with a new options structure
*/
update: function (newOptions, redraw) {
var chart = this.chart;
newOptions = chart.options[this.coll][this.options.index] = merge(this.userOptions, newOptions);
this.destroy(true);
this._addedPlotLB = this.chart._labelPanes = UNDEFINED; // #1611, #2887, #4314
this.init(chart, extend(newOptions, { events: UNDEFINED }));
chart.isDirtyBox = true;
if (pick(redraw, true)) {
chart.redraw();
}
},
/**
* Remove the axis from the chart
*/
remove: function (redraw) {
var chart = this.chart,
key = this.coll, // xAxis or yAxis
axisSeries = this.series,
i = axisSeries.length;
// Remove associated series (#2687)
while (i--) {
if (axisSeries[i]) {
axisSeries[i].remove(false);
}
}
// Remove the axis
erase(chart.axes, this);
erase(chart[key], this);
chart.options[key].splice(this.options.index, 1);
each(chart[key], function (axis, i) { // Re-index, #1706
axis.options.index = i;
});
this.destroy();
chart.isDirtyBox = true;
if (pick(redraw, true)) {
chart.redraw();
}
},
/**
* Update the axis title by options
*/
setTitle: function (newTitleOptions, redraw) {
this.update({ title: newTitleOptions }, redraw);
},
/**
* Set new axis categories and optionally redraw
* @param {Array} categories
* @param {Boolean} redraw
*/
setCategories: function (categories, redraw) {
this.update({ categories: categories }, redraw);
}
});
/**
* LineSeries object
*/
var LineSeries = extendClass(Series);
seriesTypes.line = LineSeries;
/**
* Set the default options for area
*/
defaultPlotOptions.area = merge(defaultSeriesOptions, {
softThreshold: false,
threshold: 0
// trackByArea: false,
// lineColor: null, // overrides color, but lets fillColor be unaltered
// fillOpacity: 0.75,
// fillColor: null
});
/**
* AreaSeries object
*/
var AreaSeries = extendClass(Series, {
type: 'area',
/**
* For stacks, don't split segments on null values. Instead, draw null values with
* no marker. Also insert dummy points for any X position that exists in other series
* in the stack.
*/
getSegments: function () {
var series = this,
segments = [],
segment = [],
keys = [],
xAxis = this.xAxis,
yAxis = this.yAxis,
stack = yAxis.stacks[this.stackKey],
pointMap = {},
plotX,
plotY,
points = this.points,
connectNulls = this.options.connectNulls,
stackIndicator,
i,
x;
if (this.options.stacking && !this.cropped) { // cropped causes artefacts in Stock, and perf issue
// Create a map where we can quickly look up the points by their X value.
for (i = 0; i < points.length; i++) {
pointMap[points[i].x] = points[i];
}
// Sort the keys (#1651)
for (x in stack) {
if (stack[x].total !== null) { // nulled after switching between grouping and not (#1651, #2336)
keys.push(+x);
}
}
keys.sort(function (a, b) {
return a - b;
});
each(keys, function (x) {
var threshold = null,
stackPoint;
if (connectNulls && (!pointMap[x] || pointMap[x].y === null)) { // #1836
return;
// The point exists, push it to the segment
} else if (pointMap[x]) {
segment.push(pointMap[x]);
// There is no point for this X value in this series, so we
// insert a dummy point in order for the areas to be drawn
// correctly.
} else {
// Loop down the stack to find the series below this one that has
// a value (#1991)
for (i = series.index; i <= yAxis.series.length; i++) {
stackIndicator = series.getStackIndicator(null, x, i);
stackPoint = stack[x].points[stackIndicator.key];
if (stackPoint) {
threshold = stackPoint[1];
break;
}
}
plotX = xAxis.translate(x);
plotY = yAxis.getThreshold(threshold);
segment.push({
y: null,
plotX: plotX,
clientX: plotX,
plotY: plotY,
yBottom: plotY,
onMouseOver: noop
});
}
});
if (segment.length) {
segments.push(segment);
}
} else {
Series.prototype.getSegments.call(this);
segments = this.segments;
}
this.segments = segments;
},
/**
* Extend the base Series getSegmentPath method by adding the path for the area.
* This path is pushed to the series.areaPath property.
*/
getSegmentPath: function (segment) {
var segmentPath = Series.prototype.getSegmentPath.call(this, segment), // call base method
areaSegmentPath = [].concat(segmentPath), // work on a copy for the area path
i,
options = this.options,
segLength = segmentPath.length,
translatedThreshold = this.yAxis.getThreshold(options.threshold), // #2181
yBottom;
if (segLength === 3) { // for animation from 1 to two points
areaSegmentPath.push(L, segmentPath[1], segmentPath[2]);
}
if (options.stacking && !this.closedStacks) {
// Follow stack back. Todo: implement areaspline. A general solution could be to
// reverse the entire graphPath of the previous series, though may be hard with
// splines and with series with different extremes
for (i = segment.length - 1; i >= 0; i--) {
yBottom = pick(segment[i].yBottom, translatedThreshold);
// step line?
if (i < segment.length - 1 && options.step) {
areaSegmentPath.push(segment[i + 1].plotX, yBottom);
}
areaSegmentPath.push(segment[i].plotX, yBottom);
}
} else { // follow zero line back
this.closeSegment(areaSegmentPath, segment, translatedThreshold);
}
this.areaPath = this.areaPath.concat(areaSegmentPath);
return segmentPath;
},
/**
* Extendable method to close the segment path of an area. This is overridden in polar
* charts.
*/
closeSegment: function (path, segment, translatedThreshold) {
path.push(
L,
segment[segment.length - 1].plotX,
translatedThreshold,
L,
segment[0].plotX,
translatedThreshold
);
},
/**
* Draw the graph and the underlying area. This method calls the Series base
* function and adds the area. The areaPath is calculated in the getSegmentPath
* method called from Series.prototype.drawGraph.
*/
drawGraph: function () {
// Define or reset areaPath
this.areaPath = [];
// Call the base method
Series.prototype.drawGraph.apply(this);
// Define local variables
var series = this,
areaPath = this.areaPath,
options = this.options,
zones = this.zones,
props = [['area', this.color, options.fillColor]]; // area name, main color, fill color
each(zones, function (threshold, i) {
props.push(['zoneArea' + i, threshold.color || series.color, threshold.fillColor || options.fillColor]);
});
each(props, function (prop) {
var areaKey = prop[0],
area = series[areaKey];
// Create or update the area
if (area) { // update
area.animate({ d: areaPath });
} else { // create
series[areaKey] = series.chart.renderer.path(areaPath)
.attr({
fill: pick(
prop[2],
Color(prop[1]).setOpacity(pick(options.fillOpacity, 0.75)).get()
),
zIndex: 0 // #1069
}).add(series.group);
}
});
},
drawLegendSymbol: LegendSymbolMixin.drawRectangle
});
seriesTypes.area = AreaSeries;
/**
* Set the default options for spline
*/
defaultPlotOptions.spline = merge(defaultSeriesOptions);
/**
* SplineSeries object
*/
var SplineSeries = extendClass(Series, {
type: 'spline',
/**
* Get the spline segment from a given point's previous neighbour to the given point
*/
getPointSpline: function (segment, point, i) {
var smoothing = 1.5, // 1 means control points midway between points, 2 means 1/3 from the point, 3 is 1/4 etc
denom = smoothing + 1,
plotX = point.plotX,
plotY = point.plotY,
lastPoint = segment[i - 1],
nextPoint = segment[i + 1],
leftContX,
leftContY,
rightContX,
rightContY,
ret;
// find control points
if (lastPoint && nextPoint) {
var lastX = lastPoint.plotX,
lastY = lastPoint.plotY,
nextX = nextPoint.plotX,
nextY = nextPoint.plotY,
correction;
leftContX = (smoothing * plotX + lastX) / denom;
leftContY = (smoothing * plotY + lastY) / denom;
rightContX = (smoothing * plotX + nextX) / denom;
rightContY = (smoothing * plotY + nextY) / denom;
// have the two control points make a straight line through main point
correction = ((rightContY - leftContY) * (rightContX - plotX)) /
(rightContX - leftContX) + plotY - rightContY;
leftContY += correction;
rightContY += correction;
// to prevent false extremes, check that control points are between
// neighbouring points' y values
if (leftContY > lastY && leftContY > plotY) {
leftContY = mathMax(lastY, plotY);
rightContY = 2 * plotY - leftContY; // mirror of left control point
} else if (leftContY < lastY && leftContY < plotY) {
leftContY = mathMin(lastY, plotY);
rightContY = 2 * plotY - leftContY;
}
if (rightContY > nextY && rightContY > plotY) {
rightContY = mathMax(nextY, plotY);
leftContY = 2 * plotY - rightContY;
} else if (rightContY < nextY && rightContY < plotY) {
rightContY = mathMin(nextY, plotY);
leftContY = 2 * plotY - rightContY;
}
// record for drawing in next point
point.rightContX = rightContX;
point.rightContY = rightContY;
}
// Visualize control points for debugging
/*
if (leftContX) {
this.chart.renderer.circle(leftContX + this.chart.plotLeft, leftContY + this.chart.plotTop, 2)
.attr({
stroke: 'red',
'stroke-width': 1,
fill: 'none'
})
.add();
this.chart.renderer.path(['M', leftContX + this.chart.plotLeft, leftContY + this.chart.plotTop,
'L', plotX + this.chart.plotLeft, plotY + this.chart.plotTop])
.attr({
stroke: 'red',
'stroke-width': 1
})
.add();
this.chart.renderer.circle(rightContX + this.chart.plotLeft, rightContY + this.chart.plotTop, 2)
.attr({
stroke: 'green',
'stroke-width': 1,
fill: 'none'
})
.add();
this.chart.renderer.path(['M', rightContX + this.chart.plotLeft, rightContY + this.chart.plotTop,
'L', plotX + this.chart.plotLeft, plotY + this.chart.plotTop])
.attr({
stroke: 'green',
'stroke-width': 1
})
.add();
}
*/
// moveTo or lineTo
if (!i) {
ret = [M, plotX, plotY];
} else { // curve from last point to this
ret = [
'C',
lastPoint.rightContX || lastPoint.plotX,
lastPoint.rightContY || lastPoint.plotY,
leftContX || plotX,
leftContY || plotY,
plotX,
plotY
];
lastPoint.rightContX = lastPoint.rightContY = null; // reset for updating series later
}
return ret;
}
});
seriesTypes.spline = SplineSeries;
/**
* Set the default options for areaspline
*/
defaultPlotOptions.areaspline = merge(defaultPlotOptions.area);
/**
* AreaSplineSeries object
*/
var areaProto = AreaSeries.prototype,
AreaSplineSeries = extendClass(SplineSeries, {
type: 'areaspline',
closedStacks: true, // instead of following the previous graph back, follow the threshold back
// Mix in methods from the area series
getSegmentPath: areaProto.getSegmentPath,
closeSegment: areaProto.closeSegment,
drawGraph: areaProto.drawGraph,
drawLegendSymbol: LegendSymbolMixin.drawRectangle
});
seriesTypes.areaspline = AreaSplineSeries;
/**
* Set the default options for column
*/
defaultPlotOptions.column = merge(defaultSeriesOptions, {
borderColor: '#FFFFFF',
//borderWidth: 1,
borderRadius: 0,
//colorByPoint: undefined,
groupPadding: 0.2,
//grouping: true,
marker: null, // point options are specified in the base options
pointPadding: 0.1,
//pointWidth: null,
minPointLength: 0,
cropThreshold: 50, // when there are more points, they will not animate out of the chart on xAxis.setExtremes
pointRange: null, // null means auto, meaning 1 in a categorized axis and least distance between points if not categories
states: {
hover: {
brightness: 0.1,
shadow: false,
halo: false
},
select: {
color: '#C0C0C0',
borderColor: '#000000',
shadow: false
}
},
dataLabels: {
align: null, // auto
verticalAlign: null, // auto
y: null
},
softThreshold: false,
startFromThreshold: true, // docs (but false doesn't work well): http://jsfiddle.net/highcharts/hz8fopan/14/
stickyTracking: false,
tooltip: {
distance: 6
},
threshold: 0
});
/**
* ColumnSeries object
*/
var ColumnSeries = extendClass(Series, {
type: 'column',
pointAttrToOptions: { // mapping between SVG attributes and the corresponding options
stroke: 'borderColor',
fill: 'color',
r: 'borderRadius'
},
cropShoulder: 0,
directTouch: true, // When tooltip is not shared, this series (and derivatives) requires direct touch/hover. KD-tree does not apply.
trackerGroups: ['group', 'dataLabelsGroup'],
negStacks: true, // use separate negative stacks, unlike area stacks where a negative
// point is substracted from previous (#1910)
/**
* Initialize the series
*/
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;
}
});
}
},
/**
* Return the width and x offset of the columns adjusted for grouping, groupPadding, pointPadding,
* pointWidth etc.
*/
getColumnMetrics: function () {
var series = this,
options = series.options,
xAxis = series.xAxis,
yAxis = series.yAxis,
reversedXAxis = xAxis.reversed,
stackKey,
stackGroups = {},
columnIndex,
columnCount = 0;
// 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
if (options.grouping === false) {
columnCount = 1;
} else {
each(series.chart.series, function (otherSeries) {
var otherOptions = otherSeries.options,
otherYAxis = otherSeries.yAxis;
if (otherSeries.type === series.type && otherSeries.visible &&
yAxis.len === otherYAxis.len && yAxis.pos === otherYAxis.pos) { // #642, #2086
if (otherOptions.stacking) {
stackKey = otherSeries.stackKey;
if (stackGroups[stackKey] === UNDEFINED) {
stackGroups[stackKey] = columnCount++;
}
columnIndex = stackGroups[stackKey];
} else if (otherOptions.grouping !== false) { // #1162
columnIndex = columnCount++;
}
otherSeries.columnIndex = columnIndex;
}
});
}
var categoryWidth = mathMin(
mathAbs(xAxis.transA) * (xAxis.ordinalSlope || options.pointRange || xAxis.closestPointRange || xAxis.tickInterval || 1), // #2610
xAxis.len // #1535
),
groupPadding = categoryWidth * options.groupPadding,
groupWidth = categoryWidth - 2 * groupPadding,
pointOffsetWidth = groupWidth / columnCount,
pointWidth = mathMin(
options.maxPointWidth || xAxis.len,
pick(options.pointWidth, pointOffsetWidth * (1 - 2 * options.pointPadding))
),
pointPadding = (pointOffsetWidth - pointWidth) / 2,
colIndex = (reversedXAxis ?
columnCount - (series.columnIndex || 0) : // #1251
series.columnIndex) || 0,
pointXOffset = pointPadding + (groupPadding + colIndex *
pointOffsetWidth - (categoryWidth / 2)) *
(reversedXAxis ? -1 : 1);
// Save it for reading in linked series (Error bars particularly)
return (series.columnMetrics = {
width: pointWidth,
offset: pointXOffset
});
},
/**
* Make the columns crisp. The edges are rounded to the nearest full pixel.
*/
crispCol: function (x, y, w, h) {
var chart = this.chart,
borderWidth = this.borderWidth,
xCrisp = -(borderWidth % 2 ? 0.5 : 0),
yCrisp = borderWidth % 2 ? 0.5 : 1,
right,
bottom,
fromTop;
if (chart.inverted && chart.renderer.isVML) {
yCrisp += 1;
}
// Horizontal. We need to first compute the exact right edge, then round it
// and compute the width from there.
right = Math.round(x + w) + xCrisp;
x = Math.round(x) + xCrisp;
w = right - x;
// Vertical
fromTop = mathAbs(y) <= 0.5; // #4504
bottom = Math.round(y + h) + yCrisp;
y = Math.round(y) + yCrisp;
h = bottom - y;
// Top edges are exceptions
if (fromTop) {
y -= 1;
h += 1;
}
return {
x: x,
y: y,
width: w,
height: h
};
},
/**
* Translate each point to the plot area coordinate system and find shape positions
*/
translate: function () {
var series = this,
chart = series.chart,
options = series.options,
borderWidth = series.borderWidth = pick(
options.borderWidth,
series.closestPointRange * series.xAxis.transA < 2 ? 0 : 1 // #3635
),
yAxis = series.yAxis,
threshold = options.threshold,
translatedThreshold = series.translatedThreshold = yAxis.getThreshold(threshold),
minPointLength = pick(options.minPointLength, 5),
metrics = series.getColumnMetrics(),
pointWidth = metrics.width,
seriesBarW = series.barW = mathMax(pointWidth, 1 + 2 * borderWidth), // postprocessed for border width
pointXOffset = series.pointXOffset = metrics.offset;
if (chart.inverted) {
translatedThreshold -= 0.5; // #3355
}
// When the pointPadding is 0, we want the columns to be packed tightly, so we allow individual
// columns to have individual sizes. When pointPadding is greater, we strive for equal-width
// columns (#2694).
if (options.pointPadding) {
seriesBarW = mathCeil(seriesBarW);
}
Series.prototype.translate.apply(series);
// Record the new values
each(series.points, function (point) {
var yBottom = mathMin(pick(point.yBottom, translatedThreshold), 9e4), // #3575
safeDistance = 999 + mathAbs(yBottom),
plotY = mathMin(mathMax(-safeDistance, point.plotY), yAxis.len + safeDistance), // Don't draw too far outside plot area (#1303, #2241, #4264)
barX = point.plotX + pointXOffset,
barW = seriesBarW,
barY = mathMin(plotY, yBottom),
up,
barH = mathMax(plotY, yBottom) - barY;
// Handle options.minPointLength
if (mathAbs(barH) < minPointLength) {
if (minPointLength) {
barH = minPointLength;
up = (!yAxis.reversed && !point.negative) || (yAxis.reversed && point.negative);
barY = mathAbs(barY - translatedThreshold) > minPointLength ? // stacked
yBottom - minPointLength : // keep position
translatedThreshold - (up ? minPointLength : 0); // #1485, #4051
}
}
// Cache for access in polar
point.barX = barX;
point.pointWidth = pointWidth;
// Fix the tooltip on center of grouped columns (#1216, #424, #3648)
point.tooltipPos = chart.inverted ?
[yAxis.len + yAxis.pos - chart.plotLeft - plotY, series.xAxis.len - barX - barW / 2, barH] :
[barX + barW / 2, plotY + yAxis.pos - chart.plotTop, barH];
// Register shape type and arguments to be used in drawPoints
point.shapeType = 'rect';
point.shapeArgs = series.crispCol(barX, barY, barW, barH);
});
},
getSymbol: noop,
/**
* Use a solid rectangle like the area series types
*/
drawLegendSymbol: LegendSymbolMixin.drawRectangle,
/**
* Columns have no graph
*/
drawGraph: noop,
/**
* 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,
chart = this.chart,
options = series.options,
renderer = chart.renderer,
animationLimit = options.animationLimit || 250,
shapeArgs,
pointAttr;
// draw the columns
each(series.points, function (point) {
var plotY = point.plotY,
graphic = point.graphic,
borderAttr;
if (plotY !== UNDEFINED && !isNaN(plotY) && point.y !== null) {
shapeArgs = point.shapeArgs;
borderAttr = defined(series.borderWidth) ? {
'stroke-width': series.borderWidth
} : {};
pointAttr = point.pointAttr[point.selected ? SELECT_STATE : NORMAL_STATE] || series.pointAttr[NORMAL_STATE];
if (graphic) { // update
stop(graphic);
graphic.attr(borderAttr)[chart.pointCount < animationLimit ? 'animate' : 'attr'](merge(shapeArgs));
} else {
point.graphic = graphic = renderer[point.shapeType](shapeArgs)
.attr(borderAttr)
.attr(pointAttr)
.add(point.group || series.group)
.shadow(options.shadow, null, options.stacking && !options.borderRadius);
}
} else if (graphic) {
point.graphic = graphic.destroy(); // #1269
}
});
},
/**
* 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,
yAxis = this.yAxis,
options = series.options,
inverted = this.chart.inverted,
attr = {},
translatedThreshold;
if (hasSVG) { // VML is too slow anyway
if (init) {
attr.scaleY = 0.001;
translatedThreshold = mathMin(yAxis.pos + yAxis.len, mathMax(yAxis.pos, yAxis.toPixels(options.threshold)));
if (inverted) {
attr.translateX = translatedThreshold - yAxis.len;
} else {
attr.translateY = translatedThreshold;
}
series.group.attr(attr);
} else { // run the animation
attr.scaleY = 1;
attr[inverted ? 'translateX' : 'translateY'] = yAxis.pos;
series.group.animate(attr, series.options.animation);
// 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;
/**
* Set the default options for bar
*/
defaultPlotOptions.bar = merge(defaultPlotOptions.column);
/**
* The Bar series class
*/
var BarSeries = extendClass(ColumnSeries, {
type: 'bar',
inverted: true
});
seriesTypes.bar = BarSeries;
/**
* Set the default options for scatter
*/
defaultPlotOptions.scatter = merge(defaultSeriesOptions, {
lineWidth: 0,
marker: {
enabled: true // Overrides auto-enabling in line series (#3647)
},
tooltip: {
headerFormat: '\u25CF {series.name} ',
pointFormat: 'x: {point.x} y: {point.y} '
}
});
/**
* The scatter series class
*/
var ScatterSeries = extendClass(Series, {
type: 'scatter',
sorted: false,
requireSorting: false,
noSharedTooltip: true,
trackerGroups: ['group', 'markerGroup', 'dataLabelsGroup'],
takeOrdinalPosition: false, // #2342
kdDimensions: 2,
drawGraph: function () {
if (this.options.lineWidth) {
Series.prototype.drawGraph.call(this);
}
}
});
seriesTypes.scatter = ScatterSeries;
/**
* Set the default options for pie
*/
defaultPlotOptions.pie = merge(defaultSeriesOptions, {
borderColor: '#FFFFFF',
borderWidth: 1,
center: [null, null],
clip: false,
colorByPoint: true, // always true for pies
dataLabels: {
// align: null,
// connectorWidth: 1,
// connectorColor: point.color,
// connectorPadding: 5,
distance: 30,
enabled: true,
formatter: function () { // #2945
return this.y === null ? undefined : this.point.name;
},
// softConnector: true,
x: 0
// y: 0
},
ignoreHiddenPoint: true,
//innerSize: 0,
legendType: 'point',
marker: null, // point options are specified in the base options
size: null,
showInLegend: false,
slicedOffset: 10,
states: {
hover: {
brightness: 0.1,
shadow: false
}
},
stickyTracking: false,
tooltip: {
followPointer: true
}
});
/**
* Extended point object for pies
*/
var PiePoint = extendClass(Point, {
/**
* Initiate the pie slice
*/
init: function () {
Point.prototype.init.apply(this, arguments);
var point = this,
toggleSlice;
point.name = pick(point.name, 'Slice');
// add event listener for select
toggleSlice = function (e) {
point.slice(e.type === 'select');
};
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, redraw) {
var point = this,
series = point.series,
chart = series.chart,
ignoreHiddenPoint = series.options.ignoreHiddenPoint;
redraw = pick(redraw, ignoreHiddenPoint);
if (vis !== point.visible) {
// If called without an argument, toggle visibility
point.visible = point.options.visible = vis = vis === UNDEFINED ? !point.visible : vis;
series.options.data[inArray(point, series.data)] = point.options; // update userOptions.data
// Show and hide associated elements. This is performed regardless of redraw or not,
// because chart.redraw only handles full series.
each(['graphic', 'dataLabel', 'connector', 'shadowGroup'], function (key) {
if (point[key]) {
point[key][vis ? 'show' : 'hide'](true);
}
});
if (point.legendItem) {
chart.legend.colorizeItem(point, vis);
}
// #4170, hide halo after hiding point
if (!vis && point.state === 'hover') {
point.setState('');
}
// Handle ignore hidden slices
if (ignoreHiddenPoint) {
series.isDirty = true;
}
if (redraw) {
chart.redraw();
}
}
},
/**
* 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, animation) {
var point = this,
series = point.series,
chart = series.chart,
translation;
setAnimation(animation, chart);
// redraw is true by default
redraw = pick(redraw, true);
// if called without an argument, toggle
point.sliced = point.options.sliced = sliced = defined(sliced) ? sliced : !point.sliced;
series.options.data[inArray(point, series.data)] = point.options; // update userOptions.data
translation = sliced ? point.slicedTranslation : {
translateX: 0,
translateY: 0
};
point.graphic.animate(translation);
if (point.shadowGroup) {
point.shadowGroup.animate(translation);
}
},
haloPath: function (size) {
var shapeArgs = this.shapeArgs,
chart = this.series.chart;
return this.sliced || !this.visible ? [] : this.series.chart.renderer.symbols.arc(chart.plotLeft + shapeArgs.x, chart.plotTop + shapeArgs.y, shapeArgs.r + size, shapeArgs.r + size, {
innerR: this.shapeArgs.r,
start: shapeArgs.start,
end: shapeArgs.end
});
}
});
/**
* The Pie series class
*/
var PieSeries = {
type: 'pie',
isCartesian: false,
pointClass: PiePoint,
requireSorting: false,
directTouch: true,
noSharedTooltip: true,
trackerGroups: ['group', 'dataLabelsGroup'],
axisTypes: [],
pointAttrToOptions: { // mapping between SVG attributes and the corresponding options
stroke: 'borderColor',
'stroke-width': 'borderWidth',
fill: 'color'
},
/**
* Animate the pies in
*/
animate: function (init) {
var series = this,
points = series.points,
startAngleRad = series.startAngleRad;
if (!init) {
each(points, function (point) {
var graphic = point.graphic,
args = point.shapeArgs;
if (graphic) {
// start values
graphic.attr({
r: point.startR || (series.center[3] / 2), // animate from inner radius (#779)
start: startAngleRad,
end: startAngleRad
});
// animate
graphic.animate({
r: args.r,
start: args.start,
end: args.end
}, series.options.animation);
}
});
// delete this function to allow it only once
series.animate = null;
}
},
/**
* Recompute total chart sum and update percentages of points.
*/
updateTotals: function () {
var i,
total = 0,
points = this.points,
len = points.length,
point,
ignoreHiddenPoint = this.options.ignoreHiddenPoint;
// Get the total sum
for (i = 0; i < len; i++) {
point = points[i];
total += (ignoreHiddenPoint && !point.visible) ? 0 : point.y;
}
this.total = total;
// Set each point's properties
for (i = 0; i < len; i++) {
point = points[i];
point.percentage = (total > 0 && (point.visible || !ignoreHiddenPoint)) ? point.y / total * 100 : 0;
point.total = total;
}
},
/**
* Extend the generatePoints method by adding total and percentage properties to each point
*/
generatePoints: function () {
Series.prototype.generatePoints.call(this);
this.updateTotals();
},
/**
* Do translation for pie slices
*/
translate: function (positions) {
this.generatePoints();
var series = this,
cumulative = 0,
precision = 1000, // issue #172
options = series.options,
slicedOffset = options.slicedOffset,
connectorOffset = slicedOffset + options.borderWidth,
start,
end,
angle,
startAngle = options.startAngle || 0,
startAngleRad = series.startAngleRad = mathPI / 180 * (startAngle - 90),
endAngleRad = series.endAngleRad = mathPI / 180 * ((pick(options.endAngle, startAngle + 360)) - 90),
circ = endAngleRad - startAngleRad, //2 * mathPI,
points = series.points,
radiusX, // the x component of the radius vector for a given point
radiusY,
labelDistance = options.dataLabels.distance,
ignoreHiddenPoint = options.ignoreHiddenPoint,
i,
len = points.length,
point;
// Get positions - either an integer or a percentage string must be given.
// If positions are passed as a parameter, we're in a recursive loop for adjusting
// space for data labels.
if (!positions) {
series.center = positions = series.getCenter();
}
// utility for getting the x value from a given y, used for anticollision logic in data labels
series.getX = function (y, left) {
angle = math.asin(mathMin((y - positions[1]) / (positions[2] / 2 + labelDistance), 1));
return positions[0] +
(left ? -1 : 1) *
(mathCos(angle) * (positions[2] / 2 + labelDistance));
};
// Calculate the geometry for each point
for (i = 0; i < len; i++) {
point = points[i];
// set start and end angle
start = startAngleRad + (cumulative * circ);
if (!ignoreHiddenPoint || point.visible) {
cumulative += point.percentage / 100;
}
end = startAngleRad + (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: mathRound(start * precision) / precision,
end: mathRound(end * precision) / precision
};
// The angle must stay within -90 and 270 (#2645)
angle = (end + start) / 2;
if (angle > 1.5 * mathPI) {
angle -= 2 * mathPI;
} else if (angle < -mathPI / 2) {
angle += 2 * mathPI;
}
// Center for the sliced out slice
point.slicedTranslation = {
translateX: mathRound(mathCos(angle) * slicedOffset),
translateY: mathRound(mathSin(angle) * slicedOffset)
};
// set the anchor point for tooltips
radiusX = mathCos(angle) * positions[2] / 2;
radiusY = mathSin(angle) * positions[2] / 2;
point.tooltipPos = [
positions[0] + radiusX * 0.7,
positions[1] + radiusY * 0.7
];
point.half = angle < -mathPI / 2 || angle > mathPI / 2 ? 1 : 0;
point.angle = angle;
// set the anchor point for data labels
connectorOffset = mathMin(connectorOffset, labelDistance / 2); // #1678
point.labelPos = [
positions[0] + radiusX + mathCos(angle) * labelDistance, // first break of connector
positions[1] + radiusY + mathSin(angle) * labelDistance, // a/a
positions[0] + radiusX + mathCos(angle) * connectorOffset, // second break, right outside pie
positions[1] + radiusY + mathSin(angle) * connectorOffset, // a/a
positions[0] + radiusX, // landing point for connector
positions[1] + radiusY, // a/a
labelDistance < 0 ? // alignment
'center' :
point.half ? 'right' : 'left', // alignment
angle // center angle
];
}
},
drawGraph: null,
/**
* Draw the data points
*/
drawPoints: function () {
var series = this,
chart = series.chart,
renderer = chart.renderer,
groupTranslation,
//center,
graphic,
//group,
shadow = series.options.shadow,
shadowGroup,
shapeArgs,
attr;
if (shadow && !series.shadowGroup) {
series.shadowGroup = renderer.g('shadow')
.add(series.group);
}
// draw the slices
each(series.points, function (point) {
if (point.y !== null) {
graphic = point.graphic;
shapeArgs = point.shapeArgs;
shadowGroup = point.shadowGroup;
// put the shadow behind all points
if (shadow && !shadowGroup) {
shadowGroup = point.shadowGroup = renderer.g('shadow')
.add(series.shadowGroup);
}
// if the point is sliced, use special translation, else use plot area traslation
groupTranslation = point.sliced ? point.slicedTranslation : {
translateX: 0,
translateY: 0
};
//group.translate(groupTranslation[0], groupTranslation[1]);
if (shadowGroup) {
shadowGroup.attr(groupTranslation);
}
// draw the slice
if (graphic) {
graphic
.setRadialReference(series.center)
.animate(extend(shapeArgs, groupTranslation));
} else {
attr = { 'stroke-linejoin': 'round' };
if (!point.visible) {
attr.visibility = 'hidden';
}
point.graphic = graphic = renderer[point.shapeType](shapeArgs)
.setRadialReference(series.center)
.attr(
point.pointAttr[point.selected ? SELECT_STATE : NORMAL_STATE]
)
.attr(attr)
.attr(groupTranslation)
.add(series.group)
.shadow(shadow, shadowGroup);
}
}
});
},
searchPoint: noop,
/**
* Utility for sorting data labels
*/
sortByAngle: function (points, sign) {
points.sort(function (a, b) {
return a.angle !== undefined && (b.angle - a.angle) * sign;
});
},
/**
* Use a simple symbol from LegendSymbolMixin
*/
drawLegendSymbol: LegendSymbolMixin.drawRectangle,
/**
* Use the getCenter method from drawLegendSymbol
*/
getCenter: CenteredSeriesMixin.getCenter,
/**
* Pies don't have point marker symbols
*/
getSymbol: noop
};
PieSeries = extendClass(Series, PieSeries);
seriesTypes.pie = PieSeries;
/**
* Draw the data labels
*/
Series.prototype.drawDataLabels = function () {
var series = this,
seriesOptions = series.options,
cursor = seriesOptions.cursor,
options = seriesOptions.dataLabels,
points = series.points,
pointOptions,
generalOptions,
hasRendered = series.hasRendered || 0,
str,
dataLabelsGroup,
renderer = series.chart.renderer;
if (options.enabled || series._hasPointLabels) {
// Process default alignment of data labels for columns
if (series.dlProcessOptions) {
series.dlProcessOptions(options);
}
// Create a separate group for the data labels to avoid rotation
dataLabelsGroup = series.plotGroup(
'dataLabelsGroup',
'data-labels',
options.defer ? HIDDEN : VISIBLE,
options.zIndex || 6
);
if (pick(options.defer, true)) {
dataLabelsGroup.attr({ opacity: +hasRendered }); // #3300
if (!hasRendered) {
addEvent(series, 'afterAnimate', function () {
if (series.visible) { // #3023, #3024
dataLabelsGroup.show();
}
dataLabelsGroup[seriesOptions.animation ? 'animate' : 'attr']({ opacity: 1 }, { duration: 200 });
});
}
}
// Make the labels for each point
generalOptions = options;
each(points, function (point) {
var enabled,
dataLabel = point.dataLabel,
labelConfig,
attr,
name,
rotation,
connector = point.connector,
isNew = true,
style,
moreStyle = {};
// Determine if each data label is enabled
pointOptions = point.dlOptions || (point.options && point.options.dataLabels); // dlOptions is used in treemaps
enabled = pick(pointOptions && pointOptions.enabled, generalOptions.enabled); // #2282
// If the point is outside the plot area, destroy it. #678, #820
if (dataLabel && !enabled) {
point.dataLabel = dataLabel.destroy();
// Individual labels are disabled if the are explicitly disabled
// in the point options, or if they fall outside the plot area.
} else if (enabled) {
// Create individual options structure that can be extended without
// affecting others
options = merge(generalOptions, pointOptions);
style = options.style;
rotation = options.rotation;
// Get the string
labelConfig = point.getLabelConfig();
str = options.format ?
format(options.format, labelConfig) :
options.formatter.call(labelConfig, options);
// Determine the color
style.color = pick(options.color, style.color, series.color, 'black');
// update existing label
if (dataLabel) {
if (defined(str)) {
dataLabel
.attr({
text: str
});
isNew = false;
} else { // #1437 - the label is shown conditionally
point.dataLabel = dataLabel = dataLabel.destroy();
if (connector) {
point.connector = connector.destroy();
}
}
// create new label
} else if (defined(str)) {
attr = {
//align: align,
fill: options.backgroundColor,
stroke: options.borderColor,
'stroke-width': options.borderWidth,
r: options.borderRadius || 0,
rotation: rotation,
padding: options.padding,
zIndex: 1
};
// Get automated contrast color
if (style.color === 'contrast') {
moreStyle.color = options.inside || options.distance < 0 || !!seriesOptions.stacking ?
renderer.getContrast(point.color || series.color) :
'#000000';
}
if (cursor) {
moreStyle.cursor = cursor;
}
// Remove unused attributes (#947)
for (name in attr) {
if (attr[name] === UNDEFINED) {
delete attr[name];
}
}
dataLabel = point.dataLabel = renderer[rotation ? 'text' : 'label']( // labels don't support rotation
str,
0,
-999,
options.shape,
null,
null,
options.useHTML
)
.attr(attr)
.css(extend(style, moreStyle))
.add(dataLabelsGroup)
.shadow(options.shadow);
}
if (dataLabel) {
// Now the data label is created and placed at 0,0, so we need to align it
series.alignDataLabel(point, dataLabel, options, null, isNew);
}
}
});
}
};
/**
* Align each individual data label
*/
Series.prototype.alignDataLabel = function (point, dataLabel, options, alignTo, isNew) {
var chart = this.chart,
inverted = chart.inverted,
plotX = pick(point.plotX, -999),
plotY = pick(point.plotY, -999),
bBox = dataLabel.getBBox(),
baseline = chart.renderer.fontMetrics(options.style.fontSize).b,
rotCorr, // rotation correction
// Math.round for rounding errors (#2683), alignTo to allow column labels (#2700)
visible = this.visible && (point.series.forceDL || chart.isInsidePlot(plotX, mathRound(plotY), inverted) ||
(alignTo && chart.isInsidePlot(plotX, inverted ? alignTo.x + 1 : alignTo.y + alignTo.height - 1, inverted))),
alignAttr; // the final position;
if (visible) {
// The alignment box is a singular point
alignTo = extend({
x: inverted ? chart.plotWidth - plotY : plotX,
y: mathRound(inverted ? chart.plotHeight - plotX : plotY),
width: 0,
height: 0
}, alignTo);
// Add the text size for alignment calculation
extend(options, {
width: bBox.width,
height: bBox.height
});
// Allow a hook for changing alignment in the last moment, then do the alignment
if (options.rotation) { // Fancy box alignment isn't supported for rotated text
rotCorr = chart.renderer.rotCorr(baseline, options.rotation); // #3723
dataLabel[isNew ? 'attr' : 'animate']({
x: alignTo.x + options.x + alignTo.width / 2 + rotCorr.x,
y: alignTo.y + options.y + alignTo.height / 2
})
.attr({ // #3003
align: options.align
});
} else {
dataLabel.align(options, null, alignTo);
alignAttr = dataLabel.alignAttr;
// Handle justify or crop
if (pick(options.overflow, 'justify') === 'justify') {
this.justifyDataLabel(dataLabel, options, alignAttr, bBox, alignTo, isNew);
} else if (pick(options.crop, true)) {
// Now check that the data label is within the plot area
visible = chart.isInsidePlot(alignAttr.x, alignAttr.y) && chart.isInsidePlot(alignAttr.x + bBox.width, alignAttr.y + bBox.height);
}
// When we're using a shape, make it possible with a connector or an arrow pointing to thie point
if (options.shape) {
dataLabel.attr({
anchorX: point.plotX,
anchorY: point.plotY
});
}
}
}
// Show or hide based on the final aligned position
if (!visible) {
stop(dataLabel);
dataLabel.attr({ y: -999 });
dataLabel.placed = false; // don't animate back in
}
};
/**
* If data labels fall partly outside the plot area, align them back in, in a way that
* doesn't hide the point.
*/
Series.prototype.justifyDataLabel = function (dataLabel, options, alignAttr, bBox, alignTo, isNew) {
var chart = this.chart,
align = options.align,
verticalAlign = options.verticalAlign,
off,
justified,
padding = dataLabel.box ? 0 : (dataLabel.padding || 0);
// Off left
off = alignAttr.x + padding;
if (off < 0) {
if (align === 'right') {
options.align = 'left';
} else {
options.x = -off;
}
justified = true;
}
// Off right
off = alignAttr.x + bBox.width - padding;
if (off > chart.plotWidth) {
if (align === 'left') {
options.align = 'right';
} else {
options.x = chart.plotWidth - off;
}
justified = true;
}
// Off top
off = alignAttr.y + padding;
if (off < 0) {
if (verticalAlign === 'bottom') {
options.verticalAlign = 'top';
} else {
options.y = -off;
}
justified = true;
}
// Off bottom
off = alignAttr.y + bBox.height - padding;
if (off > chart.plotHeight) {
if (verticalAlign === 'top') {
options.verticalAlign = 'bottom';
} else {
options.y = chart.plotHeight - off;
}
justified = true;
}
if (justified) {
dataLabel.placed = !isNew;
dataLabel.align(options, null, alignTo);
}
};
/**
* Override the base drawDataLabels method by pie specific functionality
*/
if (seriesTypes.pie) {
seriesTypes.pie.prototype.drawDataLabels = function () {
var series = this,
data = series.data,
point,
chart = series.chart,
options = series.options.dataLabels,
connectorPadding = pick(options.connectorPadding, 10),
connectorWidth = pick(options.connectorWidth, 1),
plotWidth = chart.plotWidth,
plotHeight = chart.plotHeight,
connector,
connectorPath,
softConnector = pick(options.softConnector, true),
distanceOption = options.distance,
seriesCenter = series.center,
radius = seriesCenter[2] / 2,
centerY = seriesCenter[1],
outside = distanceOption > 0,
dataLabel,
dataLabelWidth,
labelPos,
labelHeight,
halves = [// divide the points into right and left halves for anti collision
[], // right
[] // left
],
x,
y,
visibility,
rankArr,
i,
j,
overflow = [0, 0, 0, 0], // top, right, bottom, left
sort = function (a, b) {
return b.y - a.y;
};
// get out if not enabled
if (!series.visible || (!options.enabled && !series._hasPointLabels)) {
return;
}
// run parent method
Series.prototype.drawDataLabels.apply(series);
// arrange points for detection collision
each(data, function (point) {
if (point.dataLabel && point.visible) { // #407, #2510
halves[point.half].push(point);
}
});
/* Loop over the points in each half, starting from the top and bottom
* of the pie to detect overlapping labels.
*/
i = 2;
while (i--) {
var slots = [],
slotsLength,
usedSlots = [],
points = halves[i],
pos,
bottom,
length = points.length,
slotIndex;
if (!length) {
continue;
}
// Sort by angle
series.sortByAngle(points, i - 0.5);
// Assume equal label heights on either hemisphere (#2630)
j = labelHeight = 0;
while (!labelHeight && points[j]) { // #1569
labelHeight = points[j] && points[j].dataLabel && (points[j].dataLabel.getBBox().height || 21); // 21 is for #968
j++;
}
// Only do anti-collision when we are outside the pie and have connectors (#856)
if (distanceOption > 0) {
// Build the slots
bottom = mathMin(centerY + radius + distanceOption, chart.plotHeight);
for (pos = mathMax(0, centerY - radius - distanceOption); pos <= bottom; pos += labelHeight) {
slots.push(pos);
}
slotsLength = slots.length;
/* Visualize the slots
if (!series.slotElements) {
series.slotElements = [];
}
if (i === 1) {
series.slotElements.forEach(function (elem) {
elem.destroy();
});
series.slotElements.length = 0;
}
slots.forEach(function (pos, no) {
var slotX = series.getX(pos, i) + chart.plotLeft - (i ? 100 : 0),
slotY = pos + chart.plotTop;
if (!isNaN(slotX)) {
series.slotElements.push(chart.renderer.rect(slotX, slotY - 7, 100, labelHeight, 1)
.attr({
'stroke-width': 1,
stroke: 'silver',
fill: 'rgba(0,0,255,0.1)'
})
.add());
series.slotElements.push(chart.renderer.text('Slot '+ no, slotX, slotY + 4)
.attr({
fill: 'silver'
}).add());
}
});
// */
// if there are more values than available slots, remove lowest values
if (length > slotsLength) {
// create an array for sorting and ranking the points within each quarter
rankArr = [].concat(points);
rankArr.sort(sort);
j = length;
while (j--) {
rankArr[j].rank = j;
}
j = length;
while (j--) {
if (points[j].rank >= slotsLength) {
points.splice(j, 1);
}
}
length = points.length;
}
// The label goes to the nearest open slot, but not closer to the edge than
// the label's index.
for (j = 0; j < length; j++) {
point = points[j];
labelPos = point.labelPos;
var closest = 9999,
distance,
slotI;
// find the closest slot index
for (slotI = 0; slotI < slotsLength; slotI++) {
distance = mathAbs(slots[slotI] - labelPos[1]);
if (distance < closest) {
closest = distance;
slotIndex = slotI;
}
}
// if that slot index is closer to the edges of the slots, move it
// to the closest appropriate slot
if (slotIndex < j && slots[j] !== null) { // cluster at the top
slotIndex = j;
} else if (slotsLength < length - j + slotIndex && slots[j] !== null) { // cluster at the bottom
slotIndex = slotsLength - length + j;
while (slots[slotIndex] === null) { // make sure it is not taken
slotIndex++;
}
} else {
// Slot is taken, find next free slot below. In the next run, the next slice will find the
// slot above these, because it is the closest one
while (slots[slotIndex] === null) { // make sure it is not taken
slotIndex++;
}
}
usedSlots.push({ i: slotIndex, y: slots[slotIndex] });
slots[slotIndex] = null; // mark as taken
}
// sort them in order to fill in from the top
usedSlots.sort(sort);
}
// now the used slots are sorted, fill them up sequentially
for (j = 0; j < length; j++) {
var slot, naturalY;
point = points[j];
labelPos = point.labelPos;
dataLabel = point.dataLabel;
visibility = point.visible === false ? HIDDEN : 'inherit';
naturalY = labelPos[1];
if (distanceOption > 0) {
slot = usedSlots.pop();
slotIndex = slot.i;
// if the slot next to currrent slot is free, the y value is allowed
// to fall back to the natural position
y = slot.y;
if ((naturalY > y && slots[slotIndex + 1] !== null) ||
(naturalY < y && slots[slotIndex - 1] !== null)) {
y = mathMin(mathMax(0, naturalY), chart.plotHeight);
}
} else {
y = naturalY;
}
// get the x - use the natural x position for first and last slot, to prevent the top
// and botton slice connectors from touching each other on either side
x = options.justify ?
seriesCenter[0] + (i ? -1 : 1) * (radius + distanceOption) :
series.getX(y === centerY - radius - distanceOption || y === centerY + radius + distanceOption ? naturalY : y, i);
// Record the placement and visibility
dataLabel._attr = {
visibility: visibility,
align: labelPos[6]
};
dataLabel._pos = {
x: x + options.x +
({ left: connectorPadding, right: -connectorPadding }[labelPos[6]] || 0),
y: y + options.y - 10 // 10 is for the baseline (label vs text)
};
dataLabel.connX = x;
dataLabel.connY = y;
// Detect overflowing data labels
if (this.options.size === null) {
dataLabelWidth = dataLabel.width;
// Overflow left
if (x - dataLabelWidth < connectorPadding) {
overflow[3] = mathMax(mathRound(dataLabelWidth - x + connectorPadding), overflow[3]);
// Overflow right
} else if (x + dataLabelWidth > plotWidth - connectorPadding) {
overflow[1] = mathMax(mathRound(x + dataLabelWidth - plotWidth + connectorPadding), overflow[1]);
}
// Overflow top
if (y - labelHeight / 2 < 0) {
overflow[0] = mathMax(mathRound(-y + labelHeight / 2), overflow[0]);
// Overflow left
} else if (y + labelHeight / 2 > plotHeight) {
overflow[2] = mathMax(mathRound(y + labelHeight / 2 - plotHeight), overflow[2]);
}
}
} // for each point
} // for each half
// Do not apply the final placement and draw the connectors until we have verified
// that labels are not spilling over.
if (arrayMax(overflow) === 0 || this.verifyDataLabelOverflow(overflow)) {
// Place the labels in the final position
this.placeDataLabels();
// Draw the connectors
if (outside && connectorWidth) {
each(this.points, function (point) {
connector = point.connector;
labelPos = point.labelPos;
dataLabel = point.dataLabel;
if (dataLabel && dataLabel._pos && point.visible) {
visibility = dataLabel._attr.visibility;
x = dataLabel.connX;
y = dataLabel.connY;
connectorPath = softConnector ? [
M,
x + (labelPos[6] === 'left' ? 5 : -5), y, // end of the string at the label
'C',
x, y, // first break, next to the label
2 * labelPos[2] - labelPos[4], 2 * labelPos[3] - labelPos[5],
labelPos[2], labelPos[3], // second break
L,
labelPos[4], labelPos[5] // base
] : [
M,
x + (labelPos[6] === 'left' ? 5 : -5), y, // end of the string at the label
L,
labelPos[2], labelPos[3], // second break
L,
labelPos[4], labelPos[5] // base
];
if (connector) {
connector.animate({ d: connectorPath });
connector.attr('visibility', visibility);
} else {
point.connector = connector = series.chart.renderer.path(connectorPath).attr({
'stroke-width': connectorWidth,
stroke: options.connectorColor || point.color || '#606060',
visibility: visibility
//zIndex: 0 // #2722 (reversed)
})
.add(series.dataLabelsGroup);
}
} else if (connector) {
point.connector = connector.destroy();
}
});
}
}
};
/**
* Perform the final placement of the data labels after we have verified that they
* fall within the plot area.
*/
seriesTypes.pie.prototype.placeDataLabels = function () {
each(this.points, function (point) {
var dataLabel = point.dataLabel,
_pos;
if (dataLabel && point.visible) {
_pos = dataLabel._pos;
if (_pos) {
dataLabel.attr(dataLabel._attr);
dataLabel[dataLabel.moved ? 'animate' : 'attr'](_pos);
dataLabel.moved = true;
} else if (dataLabel) {
dataLabel.attr({ y: -999 });
}
}
});
};
seriesTypes.pie.prototype.alignDataLabel = noop;
/**
* Verify whether the data labels are allowed to draw, or we should run more translation and data
* label positioning to keep them inside the plot area. Returns true when data labels are ready
* to draw.
*/
seriesTypes.pie.prototype.verifyDataLabelOverflow = function (overflow) {
var center = this.center,
options = this.options,
centerOption = options.center,
minSize = options.minSize || 80,
newSize = minSize,
ret;
// Handle horizontal size and center
if (centerOption[0] !== null) { // Fixed center
newSize = mathMax(center[2] - mathMax(overflow[1], overflow[3]), minSize);
} else { // Auto center
newSize = mathMax(
center[2] - overflow[1] - overflow[3], // horizontal overflow
minSize
);
center[0] += (overflow[3] - overflow[1]) / 2; // horizontal center
}
// Handle vertical size and center
if (centerOption[1] !== null) { // Fixed center
newSize = mathMax(mathMin(newSize, center[2] - mathMax(overflow[0], overflow[2])), minSize);
} else { // Auto center
newSize = mathMax(
mathMin(
newSize,
center[2] - overflow[0] - overflow[2] // vertical overflow
),
minSize
);
center[1] += (overflow[0] - overflow[2]) / 2; // vertical center
}
// If the size must be decreased, we need to run translate and drawDataLabels again
if (newSize < center[2]) {
center[2] = newSize;
center[3] = Math.min(relativeLength(options.innerSize || 0, newSize), newSize); // #3632
this.translate(center);
each(this.points, function (point) {
if (point.dataLabel) {
point.dataLabel._pos = null; // reset
}
});
if (this.drawDataLabels) {
this.drawDataLabels();
}
// Else, return true to indicate that the pie and its labels is within the plot area
} else {
ret = true;
}
return ret;
};
}
if (seriesTypes.column) {
/**
* Override the basic data label alignment by adjusting for the position of the column
*/
seriesTypes.column.prototype.alignDataLabel = function (point, dataLabel, options, alignTo, isNew) {
var inverted = this.chart.inverted,
series = point.series,
dlBox = point.dlBox || point.shapeArgs, // data label box for alignment
below = pick(point.below, point.plotY > pick(this.translatedThreshold, series.yAxis.len)), // point.below is used in range series
inside = pick(options.inside, !!this.options.stacking); // draw it inside the box?
// Align to the column itself, or the top of it
if (dlBox) { // Area range uses this method but not alignTo
alignTo = merge(dlBox);
if (inverted) {
alignTo = {
x: series.yAxis.len - alignTo.y - alignTo.height,
y: series.xAxis.len - alignTo.x - alignTo.width,
width: alignTo.height,
height: alignTo.width
};
}
// Compute the alignment box
if (!inside) {
if (inverted) {
alignTo.x += below ? 0 : alignTo.width;
alignTo.width = 0;
} else {
alignTo.y += below ? alignTo.height : 0;
alignTo.height = 0;
}
}
}
// When alignment is undefined (typically columns and bars), display the individual
// point below or above the point depending on the threshold
options.align = pick(
options.align,
!inverted || inside ? 'center' : below ? 'right' : 'left'
);
options.verticalAlign = pick(
options.verticalAlign,
inverted || inside ? 'middle' : below ? 'top' : 'bottom'
);
// Call the parent method
Series.prototype.alignDataLabel.call(this, point, dataLabel, options, alignTo, isNew);
};
}
/**
* TrackerMixin for points and graphs
*/
var TrackerMixin = Highcharts.TrackerMixin = {
drawTrackerPoint: function () {
var series = this,
chart = series.chart,
pointer = chart.pointer,
cursor = series.options.cursor,
css = cursor && { cursor: cursor },
onMouseOver = function (e) {
var target = e.target,
point;
while (target && !point) {
point = target.point;
target = target.parentNode;
}
if (point !== UNDEFINED && point !== chart.hoverPoint) { // undefined on graph in scatterchart
point.onMouseOver(e);
}
};
// Add reference to the point
each(series.points, function (point) {
if (point.graphic) {
point.graphic.element.point = point;
}
if (point.dataLabel) {
point.dataLabel.element.point = point;
}
});
// Add the event listeners, we need to do this only once
if (!series._hasTracking) {
each(series.trackerGroups, function (key) {
if (series[key]) { // we don't always have dataLabelsGroup
series[key]
.addClass(PREFIX + 'tracker')
.on('mouseover', onMouseOver)
.on('mouseout', function (e) { pointer.onTrackerMouseOut(e); })
.css(css);
if (hasTouch) {
series[key].on('touchstart', onMouseOver);
}
}
});
series._hasTracking = true;
}
},
/**
* 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.
*/
drawTrackerGraph: function () {
var series = this,
options = series.options,
trackByArea = options.trackByArea,
trackerPath = [].concat(trackByArea ? series.areaPath : series.graphPath),
trackerPathLength = trackerPath.length,
chart = series.chart,
pointer = chart.pointer,
renderer = chart.renderer,
snap = chart.options.tooltip.snap,
tracker = series.tracker,
cursor = options.cursor,
css = cursor && { cursor: cursor },
singlePoints = series.singlePoints,
singlePoint,
i,
onMouseOver = function () {
if (chart.hoverSeries !== series) {
series.onMouseOver();
}
},
/*
* Empirical lowest possible opacities for TRACKER_FILL for an element to stay invisible but clickable
* IE6: 0.002
* IE7: 0.002
* IE8: 0.002
* IE9: 0.00000000001 (unlimited)
* IE10: 0.0001 (exporting only)
* FF: 0.00000000001 (unlimited)
* Chrome: 0.000001
* Safari: 0.000001
* Opera: 0.00000000001 (unlimited)
*/
TRACKER_FILL = 'rgba(192,192,192,' + (hasSVG ? 0.0001 : 0.002) + ')';
// Extend end points. A better way would be to use round linecaps,
// but those are not clickable in VML.
if (trackerPathLength && !trackByArea) {
i = trackerPathLength + 1;
while (i--) {
if (trackerPath[i] === M) { // extend left side
trackerPath.splice(i + 1, 0, trackerPath[i + 1] - snap, trackerPath[i + 2], L);
}
if ((i && trackerPath[i] === M) || i === trackerPathLength) { // extend right side
trackerPath.splice(i, 0, L, trackerPath[i - 2] + snap, trackerPath[i - 1]);
}
}
}
// handle single points
for (i = 0; i < singlePoints.length; i++) {
singlePoint = singlePoints[i];
trackerPath.push(M, singlePoint.plotX - snap, singlePoint.plotY,
L, singlePoint.plotX + snap, singlePoint.plotY);
}
// draw the tracker
if (tracker) {
tracker.attr({ d: trackerPath });
} else { // create
series.tracker = renderer.path(trackerPath)
.attr({
'stroke-linejoin': 'round', // #1225
visibility: series.visible ? VISIBLE : HIDDEN,
stroke: TRACKER_FILL,
fill: trackByArea ? TRACKER_FILL : NONE,
'stroke-width' : options.lineWidth + (trackByArea ? 0 : 2 * snap),
zIndex: 2
})
.add(series.group);
// The tracker is added to the series group, which is clipped, but is covered
// by the marker group. So the marker group also needs to capture events.
each([series.tracker, series.markerGroup], function (tracker) {
tracker.addClass(PREFIX + 'tracker')
.on('mouseover', onMouseOver)
.on('mouseout', function (e) { pointer.onTrackerMouseOut(e); })
.css(css);
if (hasTouch) {
tracker.on('touchstart', onMouseOver);
}
});
}
}
};
/* End TrackerMixin */
/**
* Add tracking event listener to the series group, so the point graphics
* themselves act as trackers
*/
if (seriesTypes.column) {
ColumnSeries.prototype.drawTracker = TrackerMixin.drawTrackerPoint;
}
if (seriesTypes.pie) {
seriesTypes.pie.prototype.drawTracker = TrackerMixin.drawTrackerPoint;
}
if (seriesTypes.scatter) {
ScatterSeries.prototype.drawTracker = TrackerMixin.drawTrackerPoint;
}
/*
* Extend Legend for item events
*/
extend(Legend.prototype, {
setItemEvents: function (item, legendItem, useHTML, itemStyle, itemHiddenStyle) {
var legend = this;
// Set the events on the item group, or in case of useHTML, the item itself (#1249)
(useHTML ? legendItem : item.legendGroup).on('mouseover', function () {
item.setState(HOVER_STATE);
legendItem.css(legend.options.itemHoverStyle);
})
.on('mouseout', function () {
legendItem.css(item.visible ? itemStyle : itemHiddenStyle);
item.setState();
})
.on('click', function (event) {
var strLegendItemClick = 'legendItemClick',
fnLegendItemClick = function () {
if (item.setVisible) {
item.setVisible();
}
};
// Pass over the click/touch event. #4.
event = {
browserEvent: event
};
// click the name or symbol
if (item.firePointEvent) { // point
item.firePointEvent(strLegendItemClick, event, fnLegendItemClick);
} else {
fireEvent(item, strLegendItemClick, event, fnLegendItemClick);
}
});
},
createCheckboxForItem: function (item) {
var legend = this;
item.checkbox = createElement('input', {
type: 'checkbox',
checked: item.selected,
defaultChecked: item.selected // required by IE7
}, legend.options.itemCheckboxStyle, legend.chart.container);
addEvent(item.checkbox, 'click', function (event) {
var target = event.target;
fireEvent(item.series || item, 'checkboxClick', { // #3712
checked: target.checked,
item: item
},
function () {
item.select();
}
);
});
}
});
/*
* Add pointer cursor to legend itemstyle in defaultOptions
*/
defaultOptions.legend.itemStyle.cursor = 'pointer';
/*
* Extend the Chart object with interaction
*/
extend(Chart.prototype, {
/**
* Display the zoom button
*/
showResetZoom: function () {
var chart = this,
lang = defaultOptions.lang,
btnOptions = chart.options.chart.resetZoomButton,
theme = btnOptions.theme,
states = theme.states,
alignTo = btnOptions.relativeTo === 'chart' ? null : 'plotBox';
this.resetZoomButton = chart.renderer.button(lang.resetZoom, null, null, function () { chart.zoomOut(); }, theme, states && states.hover)
.attr({
align: btnOptions.position.align,
title: lang.resetZoomTitle
})
.add()
.align(btnOptions.position, false, alignTo);
},
/**
* Zoom out to 1:1
*/
zoomOut: function () {
var chart = this;
fireEvent(chart, 'selection', { resetSelection: true }, function () {
chart.zoom();
});
},
/**
* Zoom into a given portion of the chart given by axis coordinates
* @param {Object} event
*/
zoom: function (event) {
var chart = this,
hasZoomed,
pointer = chart.pointer,
displayButton = false,
resetZoomButton;
// If zoom is called with no arguments, reset the axes
if (!event || event.resetSelection) {
each(chart.axes, function (axis) {
hasZoomed = axis.zoom();
});
} else { // else, zoom in on all axes
each(event.xAxis.concat(event.yAxis), function (axisData) {
var axis = axisData.axis,
isXAxis = axis.isXAxis;
// don't zoom more than minRange
if (pointer[isXAxis ? 'zoomX' : 'zoomY'] || pointer[isXAxis ? 'pinchX' : 'pinchY']) {
hasZoomed = axis.zoom(axisData.min, axisData.max);
if (axis.displayBtn) {
displayButton = true;
}
}
});
}
// Show or hide the Reset zoom button
resetZoomButton = chart.resetZoomButton;
if (displayButton && !resetZoomButton) {
chart.showResetZoom();
} else if (!displayButton && isObject(resetZoomButton)) {
chart.resetZoomButton = resetZoomButton.destroy();
}
// Redraw
if (hasZoomed) {
chart.redraw(
pick(chart.options.chart.animation, event && event.animation, chart.pointCount < 100) // animation
);
}
},
/**
* Pan the chart by dragging the mouse across the pane. This function is called
* on mouse move, and the distance to pan is computed from chartX compared to
* the first chartX position in the dragging operation.
*/
pan: function (e, panning) {
var chart = this,
hoverPoints = chart.hoverPoints,
doRedraw;
// remove active points for shared tooltip
if (hoverPoints) {
each(hoverPoints, function (point) {
point.setState();
});
}
each(panning === 'xy' ? [1, 0] : [1], function (isX) { // xy is used in maps
var mousePos = e[isX ? 'chartX' : 'chartY'],
axis = chart[isX ? 'xAxis' : 'yAxis'][0],
startPos = chart[isX ? 'mouseDownX' : 'mouseDownY'],
halfPointRange = (axis.pointRange || 0) / 2,
extremes = axis.getExtremes(),
newMin = axis.toValue(startPos - mousePos, true) + halfPointRange,
newMax = axis.toValue(startPos + chart[isX ? 'plotWidth' : 'plotHeight'] - mousePos, true) - halfPointRange,
goingLeft = startPos > mousePos; // #3613
if (axis.series.length &&
(goingLeft || newMin > mathMin(extremes.dataMin, extremes.min)) &&
(!goingLeft || newMax < mathMax(extremes.dataMax, extremes.max))) {
axis.setExtremes(newMin, newMax, false, false, { trigger: 'pan' });
doRedraw = true;
}
chart[isX ? 'mouseDownX' : 'mouseDownY'] = mousePos; // set new reference for next run
});
if (doRedraw) {
chart.redraw(false);
}
css(chart.container, { cursor: 'move' });
}
});
/*
* Extend the Point object with interaction
*/
extend(Point.prototype, {
/**
* 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;
selected = pick(selected, !point.selected);
// fire the event with the defalut handler
point.firePointEvent(selected ? 'select' : 'unselect', { accumulate: accumulate }, function () {
point.selected = point.options.selected = selected;
series.options.data[inArray(point, series.data)] = point.options;
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 = loopPoint.options.selected = false;
series.options.data[inArray(loopPoint, series.data)] = loopPoint.options;
loopPoint.setState(NORMAL_STATE);
loopPoint.firePointEvent('unselect');
}
});
}
});
},
/**
* Runs on mouse over the point
*
* @param {Object} e The event arguments
* @param {Boolean} byProximity Falsy for kd points that are closest to the mouse, or to
* actually hovered points. True for other points in shared tooltip.
*/
onMouseOver: function (e, byProximity) {
var point = this,
series = point.series,
chart = series.chart,
tooltip = chart.tooltip,
hoverPoint = chart.hoverPoint;
if (chart.hoverSeries !== series) {
series.onMouseOver();
}
// set normal state to previous series
if (hoverPoint && hoverPoint !== point) {
hoverPoint.onMouseOut();
}
if (point.series) { // It may have been destroyed, #4130
// trigger the event
point.firePointEvent('mouseOver');
// update the tooltip
if (tooltip && (!tooltip.shared || series.noSharedTooltip)) {
tooltip.refresh(point, e);
}
// hover this
point.setState(HOVER_STATE);
if (!byProximity) {
chart.hoverPoint = point;
}
}
},
/**
* Runs on mouse out from the point
*/
onMouseOut: function () {
var chart = this.series.chart,
hoverPoints = chart.hoverPoints;
this.firePointEvent('mouseOut');
if (!hoverPoints || inArray(this, hoverPoints) === -1) { // #887, #2240
this.setState();
chart.hoverPoint = null;
}
},
/**
* 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, move) {
var point = this,
plotX = mathFloor(point.plotX), // #4586
plotY = point.plotY,
series = point.series,
stateOptions = series.options.states,
markerOptions = defaultPlotOptions[series.type].marker && series.options.marker,
normalDisabled = markerOptions && !markerOptions.enabled,
markerStateOptions = markerOptions && markerOptions.states[state],
stateDisabled = markerStateOptions && markerStateOptions.enabled === false,
stateMarkerGraphic = series.stateMarkerGraphic,
pointMarker = point.marker || {},
chart = series.chart,
radius,
halo = series.halo,
haloOptions,
newSymbol,
pointAttr;
state = state || NORMAL_STATE; // empty string
pointAttr = point.pointAttr[state] || series.pointAttr[state];
if (
// already has this state
(state === point.state && !move) ||
// selected points don't respond to hover
(point.selected && state !== SELECT_STATE) ||
// series' state options is disabled
(stateOptions[state] && stateOptions[state].enabled === false) ||
// general point marker's state options is disabled
(state && (stateDisabled || (normalDisabled && markerStateOptions.enabled === false))) ||
// individual point marker's state options is disabled
(state && pointMarker.states && pointMarker.states[state] && pointMarker.states[state].enabled === false) // #1610
) {
return;
}
// apply hover styles to the existing point
if (point.graphic) {
radius = markerOptions && point.graphic.symbolName && pointAttr.r;
point.graphic.attr(merge(
pointAttr,
radius ? { // new symbol attributes (#507, #612)
x: plotX - radius,
y: plotY - radius,
width: 2 * radius,
height: 2 * radius
} : {}
));
// Zooming in from a range with no markers to a range with markers
if (stateMarkerGraphic) {
stateMarkerGraphic.hide();
}
} else {
// if a graphic is not applied to each point in the normal state, create a shared
// graphic for the hover state
if (state && markerStateOptions) {
radius = markerStateOptions.radius;
newSymbol = pointMarker.symbol || series.symbol;
// If the point has another symbol than the previous one, throw away the
// state marker graphic and force a new one (#1459)
if (stateMarkerGraphic && stateMarkerGraphic.currentSymbol !== newSymbol) {
stateMarkerGraphic = stateMarkerGraphic.destroy();
}
// Add a new state marker graphic
if (!stateMarkerGraphic) {
if (newSymbol) {
series.stateMarkerGraphic = stateMarkerGraphic = chart.renderer.symbol(
newSymbol,
plotX - radius,
plotY - radius,
2 * radius,
2 * radius
)
.attr(pointAttr)
.add(series.markerGroup);
stateMarkerGraphic.currentSymbol = newSymbol;
}
// Move the existing graphic
} else {
stateMarkerGraphic[move ? 'animate' : 'attr']({ // #1054
x: plotX - radius,
y: plotY - radius
});
}
}
if (stateMarkerGraphic) {
stateMarkerGraphic[state && chart.isInsidePlot(plotX, plotY, chart.inverted) ? 'show' : 'hide'](); // #2450
stateMarkerGraphic.element.point = point; // #4310
}
}
// Show me your halo
haloOptions = stateOptions[state] && stateOptions[state].halo;
if (haloOptions && haloOptions.size) {
if (!halo) {
series.halo = halo = chart.renderer.path()
.add(chart.seriesGroup);
}
halo.attr(extend({
fill: Color(point.color || series.color).setOpacity(haloOptions.opacity).get()
}, haloOptions.attributes))[move ? 'animate' : 'attr']({
d: point.haloPath(haloOptions.size)
});
} else if (halo) {
halo.attr({ d: [] });
}
point.state = state;
},
haloPath: function (size) {
var series = this.series,
chart = series.chart,
plotBox = series.getPlotBox(),
inverted = chart.inverted;
return chart.renderer.symbols.circle(
plotBox.translateX + (inverted ? series.yAxis.len - this.plotY : this.plotX) - size,
plotBox.translateY + (inverted ? series.xAxis.len - this.plotX : this.plotY) - size,
size * 2,
size * 2
);
}
});
/*
* Extend the Series object with interaction
*/
extend(Series.prototype, {
/**
* Series mouse over handler
*/
onMouseOver: function () {
var series = this,
chart = series.chart,
hoverSeries = chart.hoverSeries;
// 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');
}
// 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;
chart.hoverSeries = null; // #182, set to null before the mouseOut event fires
// 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.shared || series.noSharedTooltip)) {
tooltip.hide();
}
// set normal state
series.setState();
},
/**
* Set the state of the graph
*/
setState: function (state) {
var series = this,
options = series.options,
graph = series.graph,
stateOptions = options.states,
lineWidth = options.lineWidth,
attribs,
i = 0;
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 + (stateOptions[state].lineWidthPlus || 0); // #4035
}
if (graph && !graph.dashstyle) { // hover is turned off for dashed lines in VML
attribs = {
'stroke-width': lineWidth
};
// use attr because animate will cause any other animation on the graph to stop
graph.attr(attribs);
while (series['zoneGraph' + i]) {
series['zoneGraph' + i].attr(attribs);
i = i + 1;
}
}
}
},
/**
* 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,
showOrHide,
ignoreHiddenSeries = chart.options.chart.ignoreHiddenSeries,
oldVisibility = series.visible;
// if called without an argument, toggle visibility
series.visible = vis = series.userOptions.visible = vis === UNDEFINED ? !oldVisibility : vis;
showOrHide = vis ? 'show' : 'hide';
// show or hide elements
each(['group', 'dataLabelsGroup', 'markerGroup', 'tracker'], function (key) {
if (series[key]) {
series[key][showOrHide]();
}
});
// hide tooltip (#1361)
if (chart.hoverSeries === series || (chart.hoverPoint && chart.hoverPoint.series) === series) {
series.onMouseOut();
}
if (legendItem) {
chart.legend.colorizeItem(series, vis);
}
// rescale or adapt to resized chart
series.isDirty = true;
// 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;
}
});
}
// show or hide linked series
each(series.linkedSeries, function (otherSeries) {
otherSeries.setVisible(vis, false);
});
if (ignoreHiddenSeries) {
chart.isDirtyBox = 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');
},
drawTracker: TrackerMixin.drawTrackerGraph
});
/* ****************************************************************************
* Start ordinal axis logic *
*****************************************************************************/
wrap(Series.prototype, 'init', function (proceed) {
var series = this,
xAxis;
// call the original function
proceed.apply(this, Array.prototype.slice.call(arguments, 1));
xAxis = series.xAxis;
// Destroy the extended ordinal index on updated data
if (xAxis && xAxis.options.ordinal) {
addEvent(series, 'updatedData', function () {
delete xAxis.ordinalIndex;
});
}
});
/**
* In an ordinal axis, there might be areas with dense consentrations of points, then large
* gaps between some. Creating equally distributed ticks over this entire range
* may lead to a huge number of ticks that will later be removed. So instead, break the
* positions up in segments, find the tick positions for each segment then concatenize them.
* This method is used from both data grouping logic and X axis tick position logic.
*/
wrap(Axis.prototype, 'getTimeTicks', function (proceed, normalizedInterval, min, max, startOfWeek, positions, closestDistance, findHigherRanks) {
var start = 0,
end = 0,
segmentPositions,
higherRanks = {},
hasCrossedHigherRank,
info,
posLength,
outsideMax,
groupPositions = [],
lastGroupPosition = -Number.MAX_VALUE,
tickPixelIntervalOption = this.options.tickPixelInterval;
// The positions are not always defined, for example for ordinal positions when data
// has regular interval (#1557, #2090)
if ((!this.options.ordinal && !this.options.breaks) || !positions || positions.length < 3 || min === UNDEFINED) {
return proceed.call(this, normalizedInterval, min, max, startOfWeek);
}
// Analyze the positions array to split it into segments on gaps larger than 5 times
// the closest distance. The closest distance is already found at this point, so
// we reuse that instead of computing it again.
posLength = positions.length;
for (; end < posLength; end++) {
outsideMax = end && positions[end - 1] > max;
if (positions[end] < min) { // Set the last position before min
start = end;
}
if (end === posLength - 1 || positions[end + 1] - positions[end] > closestDistance * 5 || outsideMax) {
// For each segment, calculate the tick positions from the getTimeTicks utility
// function. The interval will be the same regardless of how long the segment is.
if (positions[end] > lastGroupPosition) { // #1475
segmentPositions = proceed.call(this, normalizedInterval, positions[start], positions[end], startOfWeek);
// Prevent duplicate groups, for example for multiple segments within one larger time frame (#1475)
while (segmentPositions.length && segmentPositions[0] <= lastGroupPosition) {
segmentPositions.shift();
}
if (segmentPositions.length) {
lastGroupPosition = segmentPositions[segmentPositions.length - 1];
}
groupPositions = groupPositions.concat(segmentPositions);
}
// Set start of next segment
start = end + 1;
}
if (outsideMax) {
break;
}
}
// Get the grouping info from the last of the segments. The info is the same for
// all segments.
info = segmentPositions.info;
// Optionally identify ticks with higher rank, for example when the ticks
// have crossed midnight.
if (findHigherRanks && info.unitRange <= timeUnits.hour) {
end = groupPositions.length - 1;
// Compare points two by two
for (start = 1; start < end; start++) {
if (dateFormat('%d', groupPositions[start]) !== dateFormat('%d', groupPositions[start - 1])) {
higherRanks[groupPositions[start]] = 'day';
hasCrossedHigherRank = true;
}
}
// If the complete array has crossed midnight, we want to mark the first
// positions also as higher rank
if (hasCrossedHigherRank) {
higherRanks[groupPositions[0]] = 'day';
}
info.higherRanks = higherRanks;
}
// Save the info
groupPositions.info = info;
// Don't show ticks within a gap in the ordinal axis, where the space between
// two points is greater than a portion of the tick pixel interval
if (findHigherRanks && defined(tickPixelIntervalOption)) { // check for squashed ticks
var length = groupPositions.length,
i = length,
itemToRemove,
translated,
translatedArr = [],
lastTranslated,
medianDistance,
distance,
distances = [];
// Find median pixel distance in order to keep a reasonably even distance between
// ticks (#748)
while (i--) {
translated = this.translate(groupPositions[i]);
if (lastTranslated) {
distances[i] = lastTranslated - translated;
}
translatedArr[i] = lastTranslated = translated;
}
distances.sort();
medianDistance = distances[mathFloor(distances.length / 2)];
if (medianDistance < tickPixelIntervalOption * 0.6) {
medianDistance = null;
}
// Now loop over again and remove ticks where needed
i = groupPositions[length - 1] > max ? length - 1 : length; // #817
lastTranslated = undefined;
while (i--) {
translated = translatedArr[i];
distance = lastTranslated - translated;
// Remove ticks that are closer than 0.6 times the pixel interval from the one to the right,
// but not if it is close to the median distance (#748).
if (lastTranslated && distance < tickPixelIntervalOption * 0.8 &&
(medianDistance === null || distance < medianDistance * 0.8)) {
// Is this a higher ranked position with a normal position to the right?
if (higherRanks[groupPositions[i]] && !higherRanks[groupPositions[i + 1]]) {
// Yes: remove the lower ranked neighbour to the right
itemToRemove = i + 1;
lastTranslated = translated; // #709
} else {
// No: remove this one
itemToRemove = i;
}
groupPositions.splice(itemToRemove, 1);
} else {
lastTranslated = translated;
}
}
}
return groupPositions;
});
// Extend the Axis prototype
extend(Axis.prototype, {
/**
* Calculate the ordinal positions before tick positions are calculated.
*/
beforeSetTickPositions: function () {
var axis = this,
len,
ordinalPositions = [],
useOrdinal = false,
dist,
extremes = axis.getExtremes(),
min = extremes.min,
max = extremes.max,
minIndex,
maxIndex,
slope,
hasBreaks = axis.isXAxis && !!axis.options.breaks,
isOrdinal = axis.options.ordinal,
i;
// apply the ordinal logic
if (isOrdinal || hasBreaks) { // #4167 YAxis is never ordinal ?
each(axis.series, function (series, i) {
if (series.visible !== false && (series.takeOrdinalPosition !== false || hasBreaks)) {
// concatenate the processed X data into the existing positions, or the empty array
ordinalPositions = ordinalPositions.concat(series.processedXData);
len = ordinalPositions.length;
// remove duplicates (#1588)
ordinalPositions.sort(function (a, b) {
return a - b; // without a custom function it is sorted as strings
});
if (len) {
i = len - 1;
while (i--) {
if (ordinalPositions[i] === ordinalPositions[i + 1]) {
ordinalPositions.splice(i, 1);
}
}
}
}
});
// cache the length
len = ordinalPositions.length;
// Check if we really need the overhead of mapping axis data against the ordinal positions.
// If the series consist of evenly spaced data any way, we don't need any ordinal logic.
if (len > 2) { // two points have equal distance by default
dist = ordinalPositions[1] - ordinalPositions[0];
i = len - 1;
while (i-- && !useOrdinal) {
if (ordinalPositions[i + 1] - ordinalPositions[i] !== dist) {
useOrdinal = true;
}
}
// When zooming in on a week, prevent axis padding for weekends even though the data within
// the week is evenly spaced.
if (!axis.options.keepOrdinalPadding && (ordinalPositions[0] - min > dist || max - ordinalPositions[ordinalPositions.length - 1] > dist)) {
useOrdinal = true;
}
}
// Record the slope and offset to compute the linear values from the array index.
// Since the ordinal positions may exceed the current range, get the start and
// end positions within it (#719, #665b)
if (useOrdinal) {
// Register
axis.ordinalPositions = ordinalPositions;
// This relies on the ordinalPositions being set. Use mathMax and mathMin to prevent
// padding on either sides of the data.
minIndex = axis.val2lin(mathMax(min, ordinalPositions[0]), true);
maxIndex = mathMax(axis.val2lin(mathMin(max, ordinalPositions[ordinalPositions.length - 1]), true), 1); // #3339
// Set the slope and offset of the values compared to the indices in the ordinal positions
axis.ordinalSlope = slope = (max - min) / (maxIndex - minIndex);
axis.ordinalOffset = min - (minIndex * slope);
} else {
axis.ordinalPositions = axis.ordinalSlope = axis.ordinalOffset = UNDEFINED;
}
}
axis.doPostTranslate = (isOrdinal && useOrdinal) || hasBreaks; // #3818, #4196
axis.groupIntervalFactor = null; // reset for next run
},
/**
* Translate from a linear axis value to the corresponding ordinal axis position. If there
* are no gaps in the ordinal axis this will be the same. The translated value is the value
* that the point would have if the axis were linear, using the same min and max.
*
* @param Number val The axis value
* @param Boolean toIndex Whether to return the index in the ordinalPositions or the new value
*/
val2lin: function (val, toIndex) {
var axis = this,
ordinalPositions = axis.ordinalPositions;
if (!ordinalPositions) {
return val;
} else {
var ordinalLength = ordinalPositions.length,
i,
distance,
ordinalIndex;
// first look for an exact match in the ordinalpositions array
i = ordinalLength;
while (i--) {
if (ordinalPositions[i] === val) {
ordinalIndex = i;
break;
}
}
// if that failed, find the intermediate position between the two nearest values
i = ordinalLength - 1;
while (i--) {
if (val > ordinalPositions[i] || i === 0) { // interpolate
distance = (val - ordinalPositions[i]) / (ordinalPositions[i + 1] - ordinalPositions[i]); // something between 0 and 1
ordinalIndex = i + distance;
break;
}
}
return toIndex ?
ordinalIndex :
axis.ordinalSlope * (ordinalIndex || 0) + axis.ordinalOffset;
}
},
/**
* Translate from linear (internal) to axis value
*
* @param Number val The linear abstracted value
* @param Boolean fromIndex Translate from an index in the ordinal positions rather than a value
*/
lin2val: function (val, fromIndex) {
var axis = this,
ordinalPositions = axis.ordinalPositions;
if (!ordinalPositions) { // the visible range contains only equally spaced values
return val;
} else {
var ordinalSlope = axis.ordinalSlope,
ordinalOffset = axis.ordinalOffset,
i = ordinalPositions.length - 1,
linearEquivalentLeft,
linearEquivalentRight,
distance;
// Handle the case where we translate from the index directly, used only
// when panning an ordinal axis
if (fromIndex) {
if (val < 0) { // out of range, in effect panning to the left
val = ordinalPositions[0];
} else if (val > i) { // out of range, panning to the right
val = ordinalPositions[i];
} else { // split it up
i = mathFloor(val);
distance = val - i; // the decimal
}
// Loop down along the ordinal positions. When the linear equivalent of i matches
// an ordinal position, interpolate between the left and right values.
} else {
while (i--) {
linearEquivalentLeft = (ordinalSlope * i) + ordinalOffset;
if (val >= linearEquivalentLeft) {
linearEquivalentRight = (ordinalSlope * (i + 1)) + ordinalOffset;
distance = (val - linearEquivalentLeft) / (linearEquivalentRight - linearEquivalentLeft); // something between 0 and 1
break;
}
}
}
// If the index is within the range of the ordinal positions, return the associated
// or interpolated value. If not, just return the value
return distance !== UNDEFINED && ordinalPositions[i] !== UNDEFINED ?
ordinalPositions[i] + (distance ? distance * (ordinalPositions[i + 1] - ordinalPositions[i]) : 0) :
val;
}
},
/**
* Get the ordinal positions for the entire data set. This is necessary in chart panning
* because we need to find out what points or data groups are available outside the
* visible range. When a panning operation starts, if an index for the given grouping
* does not exists, it is created and cached. This index is deleted on updated data, so
* it will be regenerated the next time a panning operation starts.
*/
getExtendedPositions: function () {
var axis = this,
chart = axis.chart,
grouping = axis.series[0].currentDataGrouping,
ordinalIndex = axis.ordinalIndex,
key = grouping ? grouping.count + grouping.unitName : 'raw',
extremes = axis.getExtremes(),
fakeAxis,
fakeSeries;
// If this is the first time, or the ordinal index is deleted by updatedData,
// create it.
if (!ordinalIndex) {
ordinalIndex = axis.ordinalIndex = {};
}
if (!ordinalIndex[key]) {
// Create a fake axis object where the extended ordinal positions are emulated
fakeAxis = {
series: [],
getExtremes: function () {
return {
min: extremes.dataMin,
max: extremes.dataMax
};
},
options: {
ordinal: true
},
val2lin: Axis.prototype.val2lin // #2590
};
// Add the fake series to hold the full data, then apply processData to it
each(axis.series, function (series) {
fakeSeries = {
xAxis: fakeAxis,
xData: series.xData,
chart: chart,
destroyGroupedData: noop
};
fakeSeries.options = {
dataGrouping : grouping ? {
enabled: true,
forced: true,
approximation: 'open', // doesn't matter which, use the fastest
units: [[grouping.unitName, [grouping.count]]]
} : {
enabled: false
}
};
series.processData.apply(fakeSeries);
fakeAxis.series.push(fakeSeries);
});
// Run beforeSetTickPositions to compute the ordinalPositions
axis.beforeSetTickPositions.apply(fakeAxis);
// Cache it
ordinalIndex[key] = fakeAxis.ordinalPositions;
}
return ordinalIndex[key];
},
/**
* Find the factor to estimate how wide the plot area would have been if ordinal
* gaps were included. This value is used to compute an imagined plot width in order
* to establish the data grouping interval.
*
* A real world case is the intraday-candlestick
* example. Without this logic, it would show the correct data grouping when viewing
* a range within each day, but once moving the range to include the gap between two
* days, the interval would include the cut-away night hours and the data grouping
* would be wrong. So the below method tries to compensate by identifying the most
* common point interval, in this case days.
*
* An opposite case is presented in issue #718. We have a long array of daily data,
* then one point is appended one hour after the last point. We expect the data grouping
* not to change.
*
* In the future, if we find cases where this estimation doesn't work optimally, we
* might need to add a second pass to the data grouping logic, where we do another run
* with a greater interval if the number of data groups is more than a certain fraction
* of the desired group count.
*/
getGroupIntervalFactor: function (xMin, xMax, series) {
var i = 0,
processedXData = series.processedXData,
len = processedXData.length,
distances = [],
median,
groupIntervalFactor = this.groupIntervalFactor;
// Only do this computation for the first series, let the other inherit it (#2416)
if (!groupIntervalFactor) {
// Register all the distances in an array
for (; i < len - 1; i++) {
distances[i] = processedXData[i + 1] - processedXData[i];
}
// Sort them and find the median
distances.sort(function (a, b) {
return a - b;
});
median = distances[mathFloor(len / 2)];
// Compensate for series that don't extend through the entire axis extent. #1675.
xMin = mathMax(xMin, processedXData[0]);
xMax = mathMin(xMax, processedXData[len - 1]);
this.groupIntervalFactor = groupIntervalFactor = (len * median) / (xMax - xMin);
}
// Return the factor needed for data grouping
return groupIntervalFactor;
},
/**
* Make the tick intervals closer because the ordinal gaps make the ticks spread out or cluster
*/
postProcessTickInterval: function (tickInterval) {
// TODO: http://jsfiddle.net/highcharts/FQm4E/1/
// This is a case where this algorithm doesn't work optimally. In this case, the
// tick labels are spread out per week, but all the gaps reside within weeks. So
// we have a situation where the labels are courser than the ordinal gaps, and
// thus the tick interval should not be altered
var ordinalSlope = this.ordinalSlope;
if (ordinalSlope) {
if (!this.options.breaks) {
return tickInterval / (ordinalSlope / this.closestPointRange);
} else {
return this.closestPointRange;
}
} else {
return tickInterval;
}
}
});
// Extending the Chart.pan method for ordinal axes
wrap(Chart.prototype, 'pan', function (proceed, e) {
var chart = this,
xAxis = chart.xAxis[0],
chartX = e.chartX,
runBase = false;
if (xAxis.options.ordinal && xAxis.series.length) {
var mouseDownX = chart.mouseDownX,
extremes = xAxis.getExtremes(),
dataMax = extremes.dataMax,
min = extremes.min,
max = extremes.max,
trimmedRange,
hoverPoints = chart.hoverPoints,
closestPointRange = xAxis.closestPointRange,
pointPixelWidth = xAxis.translationSlope * (xAxis.ordinalSlope || closestPointRange),
movedUnits = (mouseDownX - chartX) / pointPixelWidth, // how many ordinal units did we move?
extendedAxis = { ordinalPositions: xAxis.getExtendedPositions() }, // get index of all the chart's points
ordinalPositions,
searchAxisLeft,
lin2val = xAxis.lin2val,
val2lin = xAxis.val2lin,
searchAxisRight;
if (!extendedAxis.ordinalPositions) { // we have an ordinal axis, but the data is equally spaced
runBase = true;
} else if (mathAbs(movedUnits) > 1) {
// Remove active points for shared tooltip
if (hoverPoints) {
each(hoverPoints, function (point) {
point.setState();
});
}
if (movedUnits < 0) {
searchAxisLeft = extendedAxis;
searchAxisRight = xAxis.ordinalPositions ? xAxis : extendedAxis;
} else {
searchAxisLeft = xAxis.ordinalPositions ? xAxis : extendedAxis;
searchAxisRight = extendedAxis;
}
// In grouped data series, the last ordinal position represents the grouped data, which is
// to the left of the real data max. If we don't compensate for this, we will be allowed
// to pan grouped data series passed the right of the plot area.
ordinalPositions = searchAxisRight.ordinalPositions;
if (dataMax > ordinalPositions[ordinalPositions.length - 1]) {
ordinalPositions.push(dataMax);
}
// Get the new min and max values by getting the ordinal index for the current extreme,
// then add the moved units and translate back to values. This happens on the
// extended ordinal positions if the new position is out of range, else it happens
// on the current x axis which is smaller and faster.
chart.fixedRange = max - min;
trimmedRange = xAxis.toFixedRange(null, null,
lin2val.apply(searchAxisLeft, [
val2lin.apply(searchAxisLeft, [min, true]) + movedUnits, // the new index
true // translate from index
]),
lin2val.apply(searchAxisRight, [
val2lin.apply(searchAxisRight, [max, true]) + movedUnits, // the new index
true // translate from index
])
);
// Apply it if it is within the available data range
if (trimmedRange.min >= mathMin(extremes.dataMin, min) && trimmedRange.max <= mathMax(dataMax, max)) {
xAxis.setExtremes(trimmedRange.min, trimmedRange.max, true, false, { trigger: 'pan' });
}
chart.mouseDownX = chartX; // set new reference for next run
css(chart.container, { cursor: 'move' });
}
} else {
runBase = true;
}
// revert to the linear chart.pan version
if (runBase) {
// call the original function
proceed.apply(this, Array.prototype.slice.call(arguments, 1));
}
});
/**
* Extend getSegments by identifying gaps in the ordinal data so that we can draw a gap in the
* line or area
*/
wrap(Series.prototype, 'getSegments', function (proceed) {
var series = this,
segments,
gapSize = series.options.gapSize,
xAxis = series.xAxis;
// call base method
proceed.apply(this, Array.prototype.slice.call(arguments, 1));
if (gapSize) {
// properties
segments = series.segments;
// extension for ordinal breaks
each(segments, function (segment, no) {
var i = segment.length - 1;
while (i--) {
if (segment[i].x < xAxis.min && segment[i + 1].x > xAxis.max) {
segments.length = 0;
break;
} else if (segment[i + 1].x - segment[i].x > xAxis.closestPointRange * gapSize) {
segments.splice( // insert after this one
no + 1,
0,
segment.splice(i + 1, segment.length - i)
);
}
}
});
}
});
/* ****************************************************************************
* End ordinal axis logic *
*****************************************************************************/
/* ****************************************************************************
* Start data grouping module *
******************************************************************************/
/*jslint white:true */
var DATA_GROUPING = 'dataGrouping',
seriesProto = Series.prototype,
tooltipProto = Tooltip.prototype,
baseProcessData = seriesProto.processData,
baseGeneratePoints = seriesProto.generatePoints,
baseDestroy = seriesProto.destroy,
baseTooltipFooterHeaderFormatter = tooltipProto.tooltipFooterHeaderFormatter,
NUMBER = 'number',
commonOptions = {
approximation: 'average', // average, open, high, low, close, sum
//enabled: null, // (true for stock charts, false for basic),
//forced: undefined,
groupPixelWidth: 2,
// the first one is the point or start value, the second is the start value if we're dealing with range,
// the third one is the end value if dealing with a range
dateTimeLabelFormats: {
millisecond: ['%A, %b %e, %H:%M:%S.%L', '%A, %b %e, %H:%M:%S.%L', '-%H:%M:%S.%L'],
second: ['%A, %b %e, %H:%M:%S', '%A, %b %e, %H:%M:%S', '-%H:%M:%S'],
minute: ['%A, %b %e, %H:%M', '%A, %b %e, %H:%M', '-%H:%M'],
hour: ['%A, %b %e, %H:%M', '%A, %b %e, %H:%M', '-%H:%M'],
day: ['%A, %b %e, %Y', '%A, %b %e', '-%A, %b %e, %Y'],
week: ['Week from %A, %b %e, %Y', '%A, %b %e', '-%A, %b %e, %Y'],
month: ['%B %Y', '%B', '-%B %Y'],
year: ['%Y', '%Y', '-%Y']
}
// smoothed = false, // enable this for navigator series only
},
specificOptions = { // extends common options
line: {},
spline: {},
area: {},
areaspline: {},
column: {
approximation: 'sum',
groupPixelWidth: 10
},
arearange: {
approximation: 'range'
},
areasplinerange: {
approximation: 'range'
},
columnrange: {
approximation: 'range',
groupPixelWidth: 10
},
candlestick: {
approximation: 'ohlc',
groupPixelWidth: 10
},
ohlc: {
approximation: 'ohlc',
groupPixelWidth: 5
}
},
// units are defined in a separate array to allow complete overriding in case of a user option
defaultDataGroupingUnits = [[
'millisecond', // unit name
[1, 2, 5, 10, 20, 25, 50, 100, 200, 500] // allowed multiples
], [
'second',
[1, 2, 5, 10, 15, 30]
], [
'minute',
[1, 2, 5, 10, 15, 30]
], [
'hour',
[1, 2, 3, 4, 6, 8, 12]
], [
'day',
[1]
], [
'week',
[1]
], [
'month',
[1, 3, 6]
], [
'year',
null
]
],
/**
* Define the available approximation types. The data grouping approximations takes an array
* or numbers as the first parameter. In case of ohlc, four arrays are sent in as four parameters.
* Each array consists only of numbers. In case null values belong to the group, the property
* .hasNulls will be set to true on the array.
*/
approximations = {
sum: function (arr) {
var len = arr.length,
ret;
// 1. it consists of nulls exclusively
if (!len && arr.hasNulls) {
ret = null;
// 2. it has a length and real values
} else if (len) {
ret = 0;
while (len--) {
ret += arr[len];
}
}
// 3. it has zero length, so just return undefined
// => doNothing()
return ret;
},
average: function (arr) {
var len = arr.length,
ret = approximations.sum(arr);
// If we have a number, return it divided by the length. If not, return
// null or undefined based on what the sum method finds.
if (typeof ret === NUMBER && len) {
ret = ret / len;
}
return ret;
},
open: function (arr) {
return arr.length ? arr[0] : (arr.hasNulls ? null : UNDEFINED);
},
high: function (arr) {
return arr.length ? arrayMax(arr) : (arr.hasNulls ? null : UNDEFINED);
},
low: function (arr) {
return arr.length ? arrayMin(arr) : (arr.hasNulls ? null : UNDEFINED);
},
close: function (arr) {
return arr.length ? arr[arr.length - 1] : (arr.hasNulls ? null : UNDEFINED);
},
// ohlc and range are special cases where a multidimensional array is input and an array is output
ohlc: function (open, high, low, close) {
open = approximations.open(open);
high = approximations.high(high);
low = approximations.low(low);
close = approximations.close(close);
if (typeof open === NUMBER || typeof high === NUMBER || typeof low === NUMBER || typeof close === NUMBER) {
return [open, high, low, close];
}
// else, return is undefined
},
range: function (low, high) {
low = approximations.low(low);
high = approximations.high(high);
if (typeof low === NUMBER || typeof high === NUMBER) {
return [low, high];
}
// else, return is undefined
}
};
/*jslint white:false */
/**
* Takes parallel arrays of x and y data and groups the data into intervals defined by groupPositions, a collection
* of starting x values for each group.
*/
seriesProto.groupData = function (xData, yData, groupPositions, approximation) {
var series = this,
data = series.data,
dataOptions = series.options.data,
groupedXData = [],
groupedYData = [],
dataLength = xData.length,
pointX,
pointY,
groupedY,
handleYData = !!yData, // when grouping the fake extended axis for panning, we don't need to consider y
values = [[], [], [], []],
approximationFn = typeof approximation === 'function' ? approximation : approximations[approximation],
pointArrayMap = series.pointArrayMap,
pointArrayMapLength = pointArrayMap && pointArrayMap.length,
i;
// Start with the first point within the X axis range (#2696)
for (i = 0; i <= dataLength; i++) {
if (xData[i] >= groupPositions[0]) {
break;
}
}
for (; i <= dataLength; i++) {
// when a new group is entered, summarize and initiate the previous group
while ((groupPositions[1] !== UNDEFINED && xData[i] >= groupPositions[1]) ||
i === dataLength) { // get the last group
// get group x and y
pointX = groupPositions.shift();
groupedY = approximationFn.apply(0, values);
// push the grouped data
if (groupedY !== UNDEFINED) {
groupedXData.push(pointX);
groupedYData.push(groupedY);
}
// reset the aggregate arrays
values[0] = [];
values[1] = [];
values[2] = [];
values[3] = [];
// don't loop beyond the last group
if (i === dataLength) {
break;
}
}
// break out
if (i === dataLength) {
break;
}
// for each raw data point, push it to an array that contains all values for this specific group
if (pointArrayMap) {
var index = series.cropStart + i,
point = (data && data[index]) || series.pointClass.prototype.applyOptions.apply({ series: series }, [dataOptions[index]]),
j,
val;
for (j = 0; j < pointArrayMapLength; j++) {
val = point[pointArrayMap[j]];
if (typeof val === NUMBER) {
values[j].push(val);
} else if (val === null) {
values[j].hasNulls = true;
}
}
} else {
pointY = handleYData ? yData[i] : null;
if (typeof pointY === NUMBER) {
values[0].push(pointY);
} else if (pointY === null) {
values[0].hasNulls = true;
}
}
}
return [groupedXData, groupedYData];
};
/**
* Extend the basic processData method, that crops the data to the current zoom
* range, with data grouping logic.
*/
seriesProto.processData = function () {
var series = this,
chart = series.chart,
options = series.options,
dataGroupingOptions = options[DATA_GROUPING],
groupingEnabled = series.allowDG !== false && dataGroupingOptions && pick(dataGroupingOptions.enabled, chart.options._stock),
hasGroupedData;
// run base method
series.forceCrop = groupingEnabled; // #334
series.groupPixelWidth = null; // #2110
series.hasProcessed = true; // #2692
// skip if processData returns false or if grouping is disabled (in that order)
if (baseProcessData.apply(series, arguments) === false || !groupingEnabled) {
return;
} else {
series.destroyGroupedData();
}
var i,
processedXData = series.processedXData,
processedYData = series.processedYData,
plotSizeX = chart.plotSizeX,
xAxis = series.xAxis,
ordinal = xAxis.options.ordinal,
groupPixelWidth = series.groupPixelWidth = xAxis.getGroupPixelWidth && xAxis.getGroupPixelWidth(),
nonGroupedPointRange = series.pointRange;
// Execute grouping if the amount of points is greater than the limit defined in groupPixelWidth
if (groupPixelWidth) {
hasGroupedData = true;
series.points = null; // force recreation of point instances in series.translate
var extremes = xAxis.getExtremes(),
xMin = extremes.min,
xMax = extremes.max,
groupIntervalFactor = (ordinal && xAxis.getGroupIntervalFactor(xMin, xMax, series)) || 1,
interval = (groupPixelWidth * (xMax - xMin) / plotSizeX) * groupIntervalFactor,
groupPositions = xAxis.getTimeTicks(
xAxis.normalizeTimeTickInterval(interval, dataGroupingOptions.units || defaultDataGroupingUnits),
xMin,
xMax,
xAxis.options.startOfWeek,
processedXData,
series.closestPointRange
),
groupedXandY = seriesProto.groupData.apply(series, [processedXData, processedYData, groupPositions, dataGroupingOptions.approximation]),
groupedXData = groupedXandY[0],
groupedYData = groupedXandY[1];
// prevent the smoothed data to spill out left and right, and make
// sure data is not shifted to the left
if (dataGroupingOptions.smoothed) {
i = groupedXData.length - 1;
groupedXData[i] = Math.min(groupedXData[i], xMax);
while (i-- && i > 0) {
groupedXData[i] += interval / 2;
}
groupedXData[0] = Math.max(groupedXData[0], xMin);
}
// record what data grouping values were used
series.currentDataGrouping = groupPositions.info;
if (options.pointRange === null) { // null means auto, as for columns, candlesticks and OHLC
series.pointRange = groupPositions.info.totalRange;
}
series.closestPointRange = groupPositions.info.totalRange;
// Make sure the X axis extends to show the first group (#2533)
if (defined(groupedXData[0]) && groupedXData[0] < xAxis.dataMin) {
if (xAxis.min === xAxis.dataMin) {
xAxis.min = groupedXData[0];
}
xAxis.dataMin = groupedXData[0];
}
// set series props
series.processedXData = groupedXData;
series.processedYData = groupedYData;
} else {
series.currentDataGrouping = null;
series.pointRange = nonGroupedPointRange;
}
series.hasGroupedData = hasGroupedData;
};
/**
* Destroy the grouped data points. #622, #740
*/
seriesProto.destroyGroupedData = function () {
var groupedData = this.groupedData;
// clear previous groups
each(groupedData || [], function (point, i) {
if (point) {
groupedData[i] = point.destroy ? point.destroy() : null;
}
});
this.groupedData = null;
};
/**
* Override the generatePoints method by adding a reference to grouped data
*/
seriesProto.generatePoints = function () {
baseGeneratePoints.apply(this);
// record grouped data in order to let it be destroyed the next time processData runs
this.destroyGroupedData(); // #622
this.groupedData = this.hasGroupedData ? this.points : null;
};
/**
* Extend the original method, make the tooltip's header reflect the grouped range
*/
tooltipProto.tooltipFooterHeaderFormatter = function (point, isFooter) {
var tooltip = this,
series = point.series,
options = series.options,
tooltipOptions = series.tooltipOptions,
dataGroupingOptions = options.dataGrouping,
xDateFormat = tooltipOptions.xDateFormat,
xDateFormatEnd,
xAxis = series.xAxis,
currentDataGrouping,
dateTimeLabelFormats,
labelFormats,
formattedKey,
ret;
// apply only to grouped series
if (xAxis && xAxis.options.type === 'datetime' && dataGroupingOptions && isNumber(point.key)) {
// set variables
currentDataGrouping = series.currentDataGrouping;
dateTimeLabelFormats = dataGroupingOptions.dateTimeLabelFormats;
// if we have grouped data, use the grouping information to get the right format
if (currentDataGrouping) {
labelFormats = dateTimeLabelFormats[currentDataGrouping.unitName];
if (currentDataGrouping.count === 1) {
xDateFormat = labelFormats[0];
} else {
xDateFormat = labelFormats[1];
xDateFormatEnd = labelFormats[2];
}
// if not grouped, and we don't have set the xDateFormat option, get the best fit,
// so if the least distance between points is one minute, show it, but if the
// least distance is one day, skip hours and minutes etc.
} else if (!xDateFormat && dateTimeLabelFormats) {
xDateFormat = tooltip.getXDateFormat(point, tooltipOptions, xAxis);
}
// now format the key
formattedKey = dateFormat(xDateFormat, point.key);
if (xDateFormatEnd) {
formattedKey += dateFormat(xDateFormatEnd, point.key + currentDataGrouping.totalRange - 1);
}
// return the replaced format
ret = tooltipOptions[(isFooter ? 'footer' : 'header') + 'Format'].replace('{point.key}', formattedKey);
// else, fall back to the regular formatter
} else {
ret = baseTooltipFooterHeaderFormatter.call(tooltip, point, isFooter);
}
return ret;
};
/**
* Extend the series destroyer
*/
seriesProto.destroy = function () {
var series = this,
groupedData = series.groupedData || [],
i = groupedData.length;
while (i--) {
if (groupedData[i]) {
groupedData[i].destroy();
}
}
baseDestroy.apply(series);
};
// Handle default options for data grouping. This must be set at runtime because some series types are
// defined after this.
wrap(seriesProto, 'setOptions', function (proceed, itemOptions) {
var options = proceed.call(this, itemOptions),
type = this.type,
plotOptions = this.chart.options.plotOptions,
defaultOptions = defaultPlotOptions[type].dataGrouping;
if (specificOptions[type]) { // #1284
if (!defaultOptions) {
defaultOptions = merge(commonOptions, specificOptions[type]);
}
options.dataGrouping = merge(
defaultOptions,
plotOptions.series && plotOptions.series.dataGrouping, // #1228
plotOptions[type].dataGrouping, // Set by the StockChart constructor
itemOptions.dataGrouping
);
}
if (this.chart.options._stock) {
this.requireSorting = true;
}
return options;
});
/**
* When resetting the scale reset the hasProccessed flag to avoid taking previous data grouping
* of neighbour series into accound when determining group pixel width (#2692).
*/
wrap(Axis.prototype, 'setScale', function (proceed) {
proceed.call(this);
each(this.series, function (series) {
series.hasProcessed = false;
});
});
/**
* Get the data grouping pixel width based on the greatest defined individual width
* of the axis' series, and if whether one of the axes need grouping.
*/
Axis.prototype.getGroupPixelWidth = function () {
var series = this.series,
len = series.length,
i,
groupPixelWidth = 0,
doGrouping = false,
dataLength,
dgOptions;
// If multiple series are compared on the same x axis, give them the same
// group pixel width (#334)
i = len;
while (i--) {
dgOptions = series[i].options.dataGrouping;
if (dgOptions) {
groupPixelWidth = mathMax(groupPixelWidth, dgOptions.groupPixelWidth);
}
}
// If one of the series needs grouping, apply it to all (#1634)
i = len;
while (i--) {
dgOptions = series[i].options.dataGrouping;
if (dgOptions && series[i].hasProcessed) { // #2692
dataLength = (series[i].processedXData || series[i].data).length;
// Execute grouping if the amount of points is greater than the limit defined in groupPixelWidth
if (series[i].groupPixelWidth || dataLength > (this.chart.plotSizeX / groupPixelWidth) || (dataLength && dgOptions.forced)) {
doGrouping = true;
}
}
}
return doGrouping ? groupPixelWidth : 0;
};
/**
* Force data grouping on all the axis' series.
*/
Axis.prototype.setDataGrouping = function (dataGrouping, redraw) {
var i;
redraw = pick(redraw, true);
if (!dataGrouping) {
dataGrouping = {
forced: false,
units: null
};
}
// Axis is instantiated, update all series
if (this instanceof Axis) {
i = this.series.length;
while (i--) {
this.series[i].update({
dataGrouping: dataGrouping
}, false);
}
// Axis not yet instanciated, alter series options
} else {
each(this.chart.options.series, function (seriesOptions) {
seriesOptions.dataGrouping = dataGrouping;
}, false);
}
if (redraw) {
this.chart.redraw();
}
};
/* ****************************************************************************
* End data grouping module *
******************************************************************************/
/* ****************************************************************************
* Start OHLC series code *
*****************************************************************************/
// 1 - Set default options
defaultPlotOptions.ohlc = merge(defaultPlotOptions.column, {
lineWidth: 1,
tooltip: {
pointFormat: '\u25CF {series.name} ' + // docs
'Open: {point.open} ' +
'High: {point.high} ' +
'Low: {point.low} ' +
'Close: {point.close} '
},
states: {
hover: {
lineWidth: 3
}
},
threshold: null
//upColor: undefined
});
// 2 - Create the OHLCSeries object
var OHLCSeries = extendClass(seriesTypes.column, {
type: 'ohlc',
pointArrayMap: ['open', 'high', 'low', 'close'], // array point configs are mapped to this
toYData: function (point) { // return a plain array for speedy calculation
return [point.open, point.high, point.low, point.close];
},
pointValKey: 'high',
pointAttrToOptions: { // mapping between SVG attributes and the corresponding options
stroke: 'color',
'stroke-width': 'lineWidth'
},
upColorProp: 'stroke',
/**
* Postprocess mapping between options and SVG attributes
*/
getAttribs: function () {
seriesTypes.column.prototype.getAttribs.apply(this, arguments);
var series = this,
options = series.options,
stateOptions = options.states,
upColor = options.upColor || series.color,
seriesDownPointAttr = merge(series.pointAttr),
upColorProp = series.upColorProp;
seriesDownPointAttr[''][upColorProp] = upColor;
seriesDownPointAttr.hover[upColorProp] = stateOptions.hover.upColor || upColor;
seriesDownPointAttr.select[upColorProp] = stateOptions.select.upColor || upColor;
each(series.points, function (point) {
if (point.open < point.close && !point.options.color) {
point.pointAttr = seriesDownPointAttr;
}
});
},
/**
* Translate data points from raw values x and y to plotX and plotY
*/
translate: function () {
var series = this,
yAxis = series.yAxis;
seriesTypes.column.prototype.translate.apply(series);
// do the translation
each(series.points, function (point) {
// the graphics
if (point.open !== null) {
point.plotOpen = yAxis.translate(point.open, 0, 1, 0, 1);
}
if (point.close !== null) {
point.plotClose = yAxis.translate(point.close, 0, 1, 0, 1);
}
});
},
/**
* Draw the data points
*/
drawPoints: function () {
var series = this,
points = series.points,
chart = series.chart,
pointAttr,
plotOpen,
plotClose,
crispCorr,
halfWidth,
path,
graphic,
crispX;
each(points, function (point) {
if (point.plotY !== UNDEFINED) {
graphic = point.graphic;
pointAttr = point.pointAttr[point.selected ? 'selected' : ''] || series.pointAttr[NORMAL_STATE];
// crisp vector coordinates
crispCorr = (pointAttr['stroke-width'] % 2) / 2;
crispX = mathRound(point.plotX) - crispCorr; // #2596
halfWidth = mathRound(point.shapeArgs.width / 2);
// the vertical stem
path = [
'M',
crispX, mathRound(point.yBottom),
'L',
crispX, mathRound(point.plotY)
];
// open
if (point.open !== null) {
plotOpen = mathRound(point.plotOpen) + crispCorr;
path.push(
'M',
crispX,
plotOpen,
'L',
crispX - halfWidth,
plotOpen
);
}
// close
if (point.close !== null) {
plotClose = mathRound(point.plotClose) + crispCorr;
path.push(
'M',
crispX,
plotClose,
'L',
crispX + halfWidth,
plotClose
);
}
// create and/or update the graphic
if (graphic) {
graphic
.attr(pointAttr) // #3897
.animate({ d: path });
} else {
point.graphic = chart.renderer.path(path)
.attr(pointAttr)
.add(series.group);
}
}
});
},
/**
* Disable animation
*/
animate: null
});
seriesTypes.ohlc = OHLCSeries;
/* ****************************************************************************
* End OHLC series code *
*****************************************************************************/
/* ****************************************************************************
* Start Candlestick series code *
*****************************************************************************/
// 1 - set default options
defaultPlotOptions.candlestick = merge(defaultPlotOptions.column, {
lineColor: 'black',
lineWidth: 1,
states: {
hover: {
lineWidth: 2
}
},
tooltip: defaultPlotOptions.ohlc.tooltip,
threshold: null,
upColor: 'white'
// upLineColor: null
});
// 2 - Create the CandlestickSeries object
var CandlestickSeries = extendClass(OHLCSeries, {
type: 'candlestick',
/**
* One-to-one mapping from options to SVG attributes
*/
pointAttrToOptions: { // mapping between SVG attributes and the corresponding options
fill: 'color',
stroke: 'lineColor',
'stroke-width': 'lineWidth'
},
upColorProp: 'fill',
/**
* Postprocess mapping between options and SVG attributes
*/
getAttribs: function () {
seriesTypes.ohlc.prototype.getAttribs.apply(this, arguments);
var series = this,
options = series.options,
stateOptions = options.states,
upLineColor = options.upLineColor || options.lineColor,
hoverStroke = stateOptions.hover.upLineColor || upLineColor,
selectStroke = stateOptions.select.upLineColor || upLineColor;
// Add custom line color for points going up (close > open).
// Fill is handled by OHLCSeries' getAttribs.
each(series.points, function (point) {
if (point.open < point.close) {
// If an individual line color is set, we need to merge the
// point attributes, because they are shared between all up
// points by inheritance from OHCLSeries.
if (point.lineColor) {
point.pointAttr = merge(point.pointAttr);
upLineColor = point.lineColor;
}
point.pointAttr[''].stroke = upLineColor;
point.pointAttr.hover.stroke = hoverStroke;
point.pointAttr.select.stroke = selectStroke;
}
});
},
/**
* Draw the data points
*/
drawPoints: function () {
var series = this, //state = series.state,
points = series.points,
chart = series.chart,
pointAttr,
seriesPointAttr = series.pointAttr[''],
plotOpen,
plotClose,
topBox,
bottomBox,
hasTopWhisker,
hasBottomWhisker,
crispCorr,
crispX,
graphic,
path,
halfWidth;
each(points, function (point) {
graphic = point.graphic;
if (point.plotY !== UNDEFINED) {
pointAttr = point.pointAttr[point.selected ? 'selected' : ''] || seriesPointAttr;
// crisp vector coordinates
crispCorr = (pointAttr['stroke-width'] % 2) / 2;
crispX = mathRound(point.plotX) - crispCorr; // #2596
plotOpen = point.plotOpen;
plotClose = point.plotClose;
topBox = math.min(plotOpen, plotClose);
bottomBox = math.max(plotOpen, plotClose);
halfWidth = mathRound(point.shapeArgs.width / 2);
hasTopWhisker = mathRound(topBox) !== mathRound(point.plotY);
hasBottomWhisker = bottomBox !== point.yBottom;
topBox = mathRound(topBox) + crispCorr;
bottomBox = mathRound(bottomBox) + crispCorr;
// create the path
path = [
'M',
crispX - halfWidth, bottomBox,
'L',
crispX - halfWidth, topBox,
'L',
crispX + halfWidth, topBox,
'L',
crispX + halfWidth, bottomBox,
'Z', // Use a close statement to ensure a nice rectangle #2602
'M',
crispX, topBox,
'L',
crispX, hasTopWhisker ? mathRound(point.plotY) : topBox, // #460, #2094
'M',
crispX, bottomBox,
'L',
crispX, hasBottomWhisker ? mathRound(point.yBottom) : bottomBox // #460, #2094
];
if (graphic) {
graphic
.attr(pointAttr) // #3897
.animate({ d: path });
} else {
point.graphic = chart.renderer.path(path)
.attr(pointAttr)
.add(series.group)
.shadow(series.options.shadow);
}
}
});
}
});
seriesTypes.candlestick = CandlestickSeries;
/* ****************************************************************************
* End Candlestick series code *
*****************************************************************************/
/* ****************************************************************************
* Start Flags series code *
*****************************************************************************/
var symbols = SVGRenderer.prototype.symbols;
// 1 - set default options
defaultPlotOptions.flags = merge(defaultPlotOptions.column, {
fillColor: 'white',
lineWidth: 1,
pointRange: 0, // #673
//radius: 2,
shape: 'flag',
stackDistance: 12,
states: {
hover: {
lineColor: 'black',
fillColor: '#FCFFC5'
}
},
style: {
fontSize: '11px',
fontWeight: 'bold',
textAlign: 'center'
},
tooltip: {
pointFormat: '{point.text} '
},
threshold: null,
y: -30
});
// 2 - Create the CandlestickSeries object
seriesTypes.flags = extendClass(seriesTypes.column, {
type: 'flags',
sorted: false,
noSharedTooltip: true,
allowDG: false,
takeOrdinalPosition: false, // #1074
trackerGroups: ['markerGroup'],
forceCrop: true,
/**
* Inherit the initialization from base Series
*/
init: Series.prototype.init,
/**
* One-to-one mapping from options to SVG attributes
*/
pointAttrToOptions: { // mapping between SVG attributes and the corresponding options
fill: 'fillColor',
stroke: 'color',
'stroke-width': 'lineWidth',
r: 'radius'
},
/**
* Extend the translate method by placing the point on the related series
*/
translate: function () {
seriesTypes.column.prototype.translate.apply(this);
var series = this,
options = series.options,
chart = series.chart,
points = series.points,
cursor = points.length - 1,
point,
lastPoint,
optionsOnSeries = options.onSeries,
onSeries = optionsOnSeries && chart.get(optionsOnSeries),
step = onSeries && onSeries.options.step,
onData = onSeries && onSeries.points,
i = onData && onData.length,
xAxis = series.xAxis,
xAxisExt = xAxis.getExtremes(),
leftPoint,
lastX,
rightPoint,
currentDataGrouping;
// relate to a master series
if (onSeries && onSeries.visible && i) {
currentDataGrouping = onSeries.currentDataGrouping;
lastX = onData[i - 1].x + (currentDataGrouping ? currentDataGrouping.totalRange : 0); // #2374
// sort the data points
points.sort(function (a, b) {
return (a.x - b.x);
});
while (i-- && points[cursor]) {
point = points[cursor];
leftPoint = onData[i];
if (leftPoint.x <= point.x && leftPoint.plotY !== UNDEFINED) {
if (point.x <= lastX) { // #803
point.plotY = leftPoint.plotY;
// interpolate between points, #666
if (leftPoint.x < point.x && !step) {
rightPoint = onData[i + 1];
if (rightPoint && rightPoint.plotY !== UNDEFINED) {
point.plotY +=
((point.x - leftPoint.x) / (rightPoint.x - leftPoint.x)) * // the distance ratio, between 0 and 1
(rightPoint.plotY - leftPoint.plotY); // the y distance
}
}
}
cursor--;
i++; // check again for points in the same x position
if (cursor < 0) {
break;
}
}
}
}
// Add plotY position and handle stacking
each(points, function (point, i) {
var stackIndex;
// Undefined plotY means the point is either on axis, outside series range or hidden series.
// If the series is outside the range of the x axis it should fall through with
// an undefined plotY, but then we must remove the shapeArgs (#847).
if (point.plotY === UNDEFINED) {
if (point.x >= xAxisExt.min && point.x <= xAxisExt.max) { // we're inside xAxis range
point.plotY = chart.chartHeight - xAxis.bottom - (xAxis.opposite ? xAxis.height : 0) + xAxis.offset - chart.plotTop;
} else {
point.shapeArgs = {}; // 847
}
}
// if multiple flags appear at the same x, order them into a stack
lastPoint = points[i - 1];
if (lastPoint && lastPoint.plotX === point.plotX) {
if (lastPoint.stackIndex === UNDEFINED) {
lastPoint.stackIndex = 0;
}
stackIndex = lastPoint.stackIndex + 1;
}
point.stackIndex = stackIndex; // #3639
});
},
/**
* Draw the markers
*/
drawPoints: function () {
var series = this,
pointAttr,
seriesPointAttr = series.pointAttr[''],
points = series.points,
chart = series.chart,
renderer = chart.renderer,
plotX,
plotY,
options = series.options,
optionsY = options.y,
shape,
i,
point,
graphic,
stackIndex,
anchorX,
anchorY,
outsideRight;
i = points.length;
while (i--) {
point = points[i];
outsideRight = point.plotX > series.xAxis.len;
plotX = point.plotX;
if (plotX > 0) { // #3119
plotX -= pick(point.lineWidth, options.lineWidth) % 2; // #4285
}
stackIndex = point.stackIndex;
shape = point.options.shape || options.shape;
plotY = point.plotY;
if (plotY !== UNDEFINED) {
plotY = point.plotY + optionsY - (stackIndex !== UNDEFINED && stackIndex * options.stackDistance);
}
anchorX = stackIndex ? UNDEFINED : point.plotX; // skip connectors for higher level stacked points
anchorY = stackIndex ? UNDEFINED : point.plotY;
graphic = point.graphic;
// only draw the point if y is defined and the flag is within the visible area
if (plotY !== UNDEFINED && plotX >= 0 && !outsideRight) {
// shortcuts
pointAttr = point.pointAttr[point.selected ? 'select' : ''] || seriesPointAttr;
if (graphic) { // update
graphic.attr({
x: plotX,
y: plotY,
r: pointAttr.r,
anchorX: anchorX,
anchorY: anchorY
});
} else {
graphic = point.graphic = renderer.label(
point.options.title || options.title || 'A',
plotX,
plotY,
shape,
anchorX,
anchorY,
options.useHTML
)
.css(merge(options.style, point.style))
.attr(pointAttr)
.attr({
align: shape === 'flag' ? 'left' : 'center',
width: options.width,
height: options.height
})
.add(series.markerGroup)
.shadow(options.shadow);
}
// Set the tooltip anchor position
point.tooltipPos = [plotX, plotY];
} else if (graphic) {
point.graphic = graphic.destroy();
}
}
},
/**
* Extend the column trackers with listeners to expand and contract stacks
*/
drawTracker: function () {
var series = this,
points = series.points;
TrackerMixin.drawTrackerPoint.apply(this);
// Bring each stacked flag up on mouse over, this allows readability of vertically
// stacked elements as well as tight points on the x axis. #1924.
each(points, function (point) {
var graphic = point.graphic;
if (graphic) {
addEvent(graphic.element, 'mouseover', function () {
// Raise this point
if (point.stackIndex > 0 && !point.raised) {
point._y = graphic.y;
graphic.attr({
y: point._y - 8
});
point.raised = true;
}
// Revert other raised points
each(points, function (otherPoint) {
if (otherPoint !== point && otherPoint.raised && otherPoint.graphic) {
otherPoint.graphic.attr({
y: otherPoint._y
});
otherPoint.raised = false;
}
});
});
}
});
},
/**
* Disable animation
*/
animate: noop,
buildKDTree: noop,
setClip: noop
});
// create the flag icon with anchor
symbols.flag = function (x, y, w, h, options) {
var anchorX = (options && options.anchorX) || x,
anchorY = (options && options.anchorY) || y;
return [
'M', anchorX, anchorY,
'L', x, y + h,
x, y,
x + w, y,
x + w, y + h,
x, y + h,
'Z'
];
};
// create the circlepin and squarepin icons with anchor
each(['circle', 'square'], function (shape) {
symbols[shape + 'pin'] = function (x, y, w, h, options) {
var anchorX = options && options.anchorX,
anchorY = options && options.anchorY,
path,
labelTopOrBottomY;
// For single-letter flags, make sure circular flags are not taller than their width
if (shape === 'circle' && h > w) {
x -= mathRound((h - w) / 2);
w = h;
}
path = symbols[shape](x, y, w, h);
if (anchorX && anchorY) {
// if the label is below the anchor, draw the connecting line from the top edge of the label
// otherwise start drawing from the bottom edge
labelTopOrBottomY = (y > anchorY) ? y : y + h;
path.push('M', anchorX, labelTopOrBottomY, 'L', anchorX, anchorY);
}
return path;
};
});
// The symbol callbacks are generated on the SVGRenderer object in all browsers. Even
// VML browsers need this in order to generate shapes in export. Now share
// them with the VMLRenderer.
if (Renderer === Highcharts.VMLRenderer) {
each(['flag', 'circlepin', 'squarepin'], function (shape) {
VMLRenderer.prototype.symbols[shape] = symbols[shape];
});
}
/* ****************************************************************************
* End Flags series code *
*****************************************************************************/
/* ****************************************************************************
* Start Scroller code *
*****************************************************************************/
var units = [].concat(defaultDataGroupingUnits), // copy
defaultSeriesType,
// Finding the min or max of a set of variables where we don't know if they are defined,
// is a pattern that is repeated several places in Highcharts. Consider making this
// a global utility method.
numExt = function (extreme) {
var numbers = grep(arguments, function (n) { return typeof n === 'number'; });
if (numbers.length) {
return Math[extreme].apply(0, numbers);
}
};
// add more resolution to units
units[4] = ['day', [1, 2, 3, 4]]; // allow more days
units[5] = ['week', [1, 2, 3]]; // allow more weeks
defaultSeriesType = seriesTypes.areaspline === UNDEFINED ? 'line' : 'areaspline';
extend(defaultOptions, {
navigator: {
//enabled: true,
handles: {
backgroundColor: '#ebe7e8',
borderColor: '#b2b1b6'
},
height: 40,
margin: 25,
maskFill: 'rgba(128,179,236,0.3)',
maskInside: true,
outlineColor: '#b2b1b6',
outlineWidth: 1,
series: {
type: defaultSeriesType,
color: '#4572A7',
compare: null,
fillOpacity: 0.05,
dataGrouping: {
approximation: 'average',
enabled: true,
groupPixelWidth: 2,
smoothed: true,
units: units
},
dataLabels: {
enabled: false,
zIndex: 2 // #1839
},
id: PREFIX + 'navigator-series',
lineColor: null, // Allow color setting while disallowing default candlestick setting (#4602)
lineWidth: 1,
marker: {
enabled: false
},
pointRange: 0,
shadow: false,
threshold: null
},
//top: undefined,
xAxis: {
tickWidth: 0,
lineWidth: 0,
gridLineColor: '#EEE',
gridLineWidth: 1,
tickPixelInterval: 200,
labels: {
align: 'left',
style: {
color: '#888'
},
x: 3,
y: -4
},
crosshair: false
},
yAxis: {
gridLineWidth: 0,
startOnTick: false,
endOnTick: false,
minPadding: 0.1,
maxPadding: 0.1,
labels: {
enabled: false
},
crosshair: false,
title: {
text: null
},
tickWidth: 0
}
},
scrollbar: {
//enabled: true
height: isTouchDevice ? 20 : 14,
barBackgroundColor: '#bfc8d1',
barBorderRadius: 0,
barBorderWidth: 1,
barBorderColor: '#bfc8d1',
buttonArrowColor: '#666',
buttonBackgroundColor: '#ebe7e8',
buttonBorderColor: '#bbb',
buttonBorderRadius: 0,
buttonBorderWidth: 1,
minWidth: 6,
rifleColor: '#666',
trackBackgroundColor: '#eeeeee',
trackBorderColor: '#eeeeee',
trackBorderWidth: 1,
// trackBorderRadius: 0
liveRedraw: hasSVG && !isTouchDevice
}
});
/**
* The Scroller class
* @param {Object} chart
*/
function Scroller(chart) {
var chartOptions = chart.options,
navigatorOptions = chartOptions.navigator,
navigatorEnabled = navigatorOptions.enabled,
scrollbarOptions = chartOptions.scrollbar,
scrollbarEnabled = scrollbarOptions.enabled,
height = navigatorEnabled ? navigatorOptions.height : 0,
scrollbarHeight = scrollbarEnabled ? scrollbarOptions.height : 0;
this.handles = [];
this.scrollbarButtons = [];
this.elementsToDestroy = []; // Array containing the elements to destroy when Scroller is destroyed
this.chart = chart;
this.setBaseSeries();
this.height = height;
this.scrollbarHeight = scrollbarHeight;
this.scrollbarEnabled = scrollbarEnabled;
this.navigatorEnabled = navigatorEnabled;
this.navigatorOptions = navigatorOptions;
this.scrollbarOptions = scrollbarOptions;
this.outlineHeight = height + scrollbarHeight;
// Run scroller
this.init();
}
Scroller.prototype = {
/**
* Draw one of the handles on the side of the zoomed range in the navigator
* @param {Number} x The x center for the handle
* @param {Number} index 0 for left and 1 for right
*/
drawHandle: function (x, index) {
var scroller = this,
chart = scroller.chart,
renderer = chart.renderer,
elementsToDestroy = scroller.elementsToDestroy,
handles = scroller.handles,
handlesOptions = scroller.navigatorOptions.handles,
attr = {
fill: handlesOptions.backgroundColor,
stroke: handlesOptions.borderColor,
'stroke-width': 1
},
tempElem;
// create the elements
if (!scroller.rendered) {
// the group
handles[index] = renderer.g('navigator-handle-' + ['left', 'right'][index])
.css({ cursor: 'ew-resize' })
.attr({ zIndex: 4 - index }) // zIndex = 3 for right handle, 4 for left
.add();
// the rectangle
tempElem = renderer.rect(-4.5, 0, 9, 16, 0, 1)
.attr(attr)
.add(handles[index]);
elementsToDestroy.push(tempElem);
// the rifles
tempElem = renderer.path([
'M',
-1.5, 4,
'L',
-1.5, 12,
'M',
0.5, 4,
'L',
0.5, 12
]).attr(attr)
.add(handles[index]);
elementsToDestroy.push(tempElem);
}
// Place it
handles[index][chart.isResizing ? 'animate' : 'attr']({
translateX: scroller.scrollerLeft + scroller.scrollbarHeight + parseInt(x, 10),
translateY: scroller.top + scroller.height / 2 - 8
});
},
/**
* Draw the scrollbar buttons with arrows
* @param {Number} index 0 is left, 1 is right
*/
drawScrollbarButton: function (index) {
var scroller = this,
chart = scroller.chart,
renderer = chart.renderer,
elementsToDestroy = scroller.elementsToDestroy,
scrollbarButtons = scroller.scrollbarButtons,
scrollbarHeight = scroller.scrollbarHeight,
scrollbarOptions = scroller.scrollbarOptions,
tempElem;
if (!scroller.rendered) {
scrollbarButtons[index] = renderer.g().add(scroller.scrollbarGroup);
tempElem = renderer.rect(
-0.5,
-0.5,
scrollbarHeight + 1, // +1 to compensate for crispifying in rect method
scrollbarHeight + 1,
scrollbarOptions.buttonBorderRadius,
scrollbarOptions.buttonBorderWidth
).attr({
stroke: scrollbarOptions.buttonBorderColor,
'stroke-width': scrollbarOptions.buttonBorderWidth,
fill: scrollbarOptions.buttonBackgroundColor
}).add(scrollbarButtons[index]);
elementsToDestroy.push(tempElem);
tempElem = renderer.path([
'M',
scrollbarHeight / 2 + (index ? -1 : 1), scrollbarHeight / 2 - 3,
'L',
scrollbarHeight / 2 + (index ? -1 : 1), scrollbarHeight / 2 + 3,
scrollbarHeight / 2 + (index ? 2 : -2), scrollbarHeight / 2
]).attr({
fill: scrollbarOptions.buttonArrowColor
}).add(scrollbarButtons[index]);
elementsToDestroy.push(tempElem);
}
// adjust the right side button to the varying length of the scroll track
if (index) {
scrollbarButtons[index].attr({
translateX: scroller.scrollerWidth - scrollbarHeight
});
}
},
/**
* Render the navigator and scroll bar
* @param {Number} min X axis value minimum
* @param {Number} max X axis value maximum
* @param {Number} pxMin Pixel value minimum
* @param {Number} pxMax Pixel value maximum
*/
render: function (min, max, pxMin, pxMax) {
var scroller = this,
chart = scroller.chart,
renderer = chart.renderer,
navigatorLeft,
navigatorWidth,
scrollerLeft,
scrollerWidth,
scrollbarGroup = scroller.scrollbarGroup,
navigatorGroup = scroller.navigatorGroup,
scrollbar = scroller.scrollbar,
xAxis = scroller.xAxis,
scrollbarTrack = scroller.scrollbarTrack,
scrollbarHeight = scroller.scrollbarHeight,
scrollbarEnabled = scroller.scrollbarEnabled,
navigatorOptions = scroller.navigatorOptions,
scrollbarOptions = scroller.scrollbarOptions,
scrollbarMinWidth = scrollbarOptions.minWidth,
height = scroller.height,
top = scroller.top,
navigatorEnabled = scroller.navigatorEnabled,
outlineWidth = navigatorOptions.outlineWidth,
halfOutline = outlineWidth / 2,
zoomedMin,
zoomedMax,
range,
scrX,
scrWidth,
scrollbarPad = 0,
outlineHeight = scroller.outlineHeight,
barBorderRadius = scrollbarOptions.barBorderRadius,
strokeWidth,
scrollbarStrokeWidth = scrollbarOptions.barBorderWidth,
centerBarX,
outlineTop = top + halfOutline,
verb,
unionExtremes;
// Don't render the navigator until we have data (#486, #4202)
if (!defined(min) || isNaN(min)) {
return;
}
scroller.navigatorLeft = navigatorLeft = pick(
xAxis.left,
chart.plotLeft + scrollbarHeight // in case of scrollbar only, without navigator
);
scroller.navigatorWidth = navigatorWidth = pick(xAxis.len, chart.plotWidth - 2 * scrollbarHeight);
scroller.scrollerLeft = scrollerLeft = navigatorLeft - scrollbarHeight;
scroller.scrollerWidth = scrollerWidth = scrollerWidth = navigatorWidth + 2 * scrollbarHeight;
// Set the scroller x axis extremes to reflect the total. The navigator extremes
// should always be the extremes of the union of all series in the chart as
// well as the navigator series.
if (xAxis.getExtremes) {
unionExtremes = scroller.getUnionExtremes(true);
if (unionExtremes && (unionExtremes.dataMin !== xAxis.min || unionExtremes.dataMax !== xAxis.max)) {
xAxis.setExtremes(unionExtremes.dataMin, unionExtremes.dataMax, true, false);
}
}
// Get the pixel position of the handles
pxMin = pick(pxMin, xAxis.translate(min));
pxMax = pick(pxMax, xAxis.translate(max));
if (isNaN(pxMin) || mathAbs(pxMin) === Infinity) { // Verify (#1851, #2238)
pxMin = 0;
pxMax = scrollerWidth;
}
// Are we below the minRange? (#2618)
if (xAxis.translate(pxMax, true) - xAxis.translate(pxMin, true) < chart.xAxis[0].minRange) {
return;
}
// handles are allowed to cross, but never exceed the plot area
scroller.zoomedMax = mathMin(mathMax(pxMin, pxMax, 0), navigatorWidth);
scroller.zoomedMin =
mathMax(scroller.fixedWidth ? scroller.zoomedMax - scroller.fixedWidth : mathMin(pxMin, pxMax), 0);
scroller.range = scroller.zoomedMax - scroller.zoomedMin;
zoomedMax = mathRound(scroller.zoomedMax);
zoomedMin = mathRound(scroller.zoomedMin);
range = zoomedMax - zoomedMin;
// on first render, create all elements
if (!scroller.rendered) {
if (navigatorEnabled) {
// draw the navigator group
scroller.navigatorGroup = navigatorGroup = renderer.g('navigator')
.attr({
zIndex: 3
})
.add();
scroller.leftShade = renderer.rect()
.attr({
fill: navigatorOptions.maskFill
}).add(navigatorGroup);
if (navigatorOptions.maskInside) {
scroller.leftShade.css({ cursor: 'ew-resize '});
} else {
scroller.rightShade = renderer.rect()
.attr({
fill: navigatorOptions.maskFill
}).add(navigatorGroup);
}
scroller.outline = renderer.path()
.attr({
'stroke-width': outlineWidth,
stroke: navigatorOptions.outlineColor
})
.add(navigatorGroup);
}
if (scrollbarEnabled) {
// draw the scrollbar group
scroller.scrollbarGroup = scrollbarGroup = renderer.g('scrollbar').add();
// the scrollbar track
strokeWidth = scrollbarOptions.trackBorderWidth;
scroller.scrollbarTrack = scrollbarTrack = renderer.rect().attr({
x: 0,
y: -strokeWidth % 2 / 2,
fill: scrollbarOptions.trackBackgroundColor,
stroke: scrollbarOptions.trackBorderColor,
'stroke-width': strokeWidth,
r: scrollbarOptions.trackBorderRadius || 0,
height: scrollbarHeight
}).add(scrollbarGroup);
// the scrollbar itself
scroller.scrollbar = scrollbar = renderer.rect()
.attr({
y: -scrollbarStrokeWidth % 2 / 2,
height: scrollbarHeight,
fill: scrollbarOptions.barBackgroundColor,
stroke: scrollbarOptions.barBorderColor,
'stroke-width': scrollbarStrokeWidth,
r: barBorderRadius
})
.add(scrollbarGroup);
scroller.scrollbarRifles = renderer.path()
.attr({
stroke: scrollbarOptions.rifleColor,
'stroke-width': 1
})
.add(scrollbarGroup);
}
}
// place elements
verb = chart.isResizing ? 'animate' : 'attr';
if (navigatorEnabled) {
scroller.leftShade[verb](navigatorOptions.maskInside ? {
x: navigatorLeft + zoomedMin,
y: top,
width: zoomedMax - zoomedMin,
height: height
} : {
x: navigatorLeft,
y: top,
width: zoomedMin,
height: height
});
if (scroller.rightShade) {
scroller.rightShade[verb]({
x: navigatorLeft + zoomedMax,
y: top,
width: navigatorWidth - zoomedMax,
height: height
});
}
scroller.outline[verb]({ d: [
M,
scrollerLeft, outlineTop, // left
L,
navigatorLeft + zoomedMin - halfOutline, outlineTop, // upper left of zoomed range
navigatorLeft + zoomedMin - halfOutline, outlineTop + outlineHeight, // lower left of z.r.
L,
navigatorLeft + zoomedMax - halfOutline, outlineTop + outlineHeight, // lower right of z.r.
L,
navigatorLeft + zoomedMax - halfOutline, outlineTop, // upper right of z.r.
scrollerLeft + scrollerWidth, outlineTop // right
].concat(navigatorOptions.maskInside ? [
M,
navigatorLeft + zoomedMin + halfOutline, outlineTop, // upper left of zoomed range
L,
navigatorLeft + zoomedMax - halfOutline, outlineTop // upper right of z.r.
] : [])});
// draw handles
scroller.drawHandle(zoomedMin + halfOutline, 0);
scroller.drawHandle(zoomedMax + halfOutline, 1);
}
// draw the scrollbar
if (scrollbarEnabled && scrollbarGroup) {
// draw the buttons
scroller.drawScrollbarButton(0);
scroller.drawScrollbarButton(1);
scrollbarGroup[verb]({
translateX: scrollerLeft,
translateY: mathRound(outlineTop + height)
});
scrollbarTrack[verb]({
width: scrollerWidth
});
// prevent the scrollbar from drawing to small (#1246)
scrX = scrollbarHeight + zoomedMin;
scrWidth = range - scrollbarStrokeWidth;
if (scrWidth < scrollbarMinWidth) {
scrollbarPad = (scrollbarMinWidth - scrWidth) / 2;
scrWidth = scrollbarMinWidth;
scrX -= scrollbarPad;
}
scroller.scrollbarPad = scrollbarPad;
scrollbar[verb]({
x: mathFloor(scrX) + (scrollbarStrokeWidth % 2 / 2),
width: scrWidth
});
centerBarX = scrollbarHeight + zoomedMin + range / 2 - 0.5;
scroller.scrollbarRifles
.attr({
visibility: range > 12 ? VISIBLE : HIDDEN
})[verb]({
d: [
M,
centerBarX - 3, scrollbarHeight / 4,
L,
centerBarX - 3, 2 * scrollbarHeight / 3,
M,
centerBarX, scrollbarHeight / 4,
L,
centerBarX, 2 * scrollbarHeight / 3,
M,
centerBarX + 3, scrollbarHeight / 4,
L,
centerBarX + 3, 2 * scrollbarHeight / 3
]
});
}
scroller.scrollbarPad = scrollbarPad;
scroller.rendered = true;
},
/**
* Set up the mouse and touch events for the navigator and scrollbar
*/
addEvents: function () {
var container = this.chart.container,
mouseDownHandler = this.mouseDownHandler,
mouseMoveHandler = this.mouseMoveHandler,
mouseUpHandler = this.mouseUpHandler,
_events;
// Mouse events
_events = [
[container, 'mousedown', mouseDownHandler],
[container, 'mousemove', mouseMoveHandler],
[document, 'mouseup', mouseUpHandler]
];
// Touch events
if (hasTouch) {
_events.push(
[container, 'touchstart', mouseDownHandler],
[container, 'touchmove', mouseMoveHandler],
[document, 'touchend', mouseUpHandler]
);
}
// Add them all
each(_events, function (args) {
addEvent.apply(null, args);
});
this._events = _events;
},
/**
* Removes the event handlers attached previously with addEvents.
*/
removeEvents: function () {
each(this._events, function (args) {
removeEvent.apply(null, args);
});
this._events = UNDEFINED;
if (this.navigatorEnabled && this.baseSeries) {
removeEvent(this.baseSeries, 'updatedData', this.updatedDataHandler);
}
},
/**
* Initiate the Scroller object
*/
init: function () {
var scroller = this,
chart = scroller.chart,
xAxis,
yAxis,
scrollbarHeight = scroller.scrollbarHeight,
navigatorOptions = scroller.navigatorOptions,
height = scroller.height,
top = scroller.top,
dragOffset,
hasDragged,
baseSeries = scroller.baseSeries;
/**
* Event handler for the mouse down event.
*/
scroller.mouseDownHandler = function (e) {
e = chart.pointer.normalize(e);
var zoomedMin = scroller.zoomedMin,
zoomedMax = scroller.zoomedMax,
top = scroller.top,
scrollbarHeight = scroller.scrollbarHeight,
scrollerLeft = scroller.scrollerLeft,
scrollerWidth = scroller.scrollerWidth,
navigatorLeft = scroller.navigatorLeft,
navigatorWidth = scroller.navigatorWidth,
scrollbarPad = scroller.scrollbarPad,
range = scroller.range,
chartX = e.chartX,
chartY = e.chartY,
baseXAxis = chart.xAxis[0],
fixedMax,
ext,
handleSensitivity = isTouchDevice ? 10 : 7,
left,
isOnNavigator;
if (chartY > top && chartY < top + height + scrollbarHeight) { // we're vertically inside the navigator
isOnNavigator = !scroller.scrollbarEnabled || chartY < top + height;
// grab the left handle
if (isOnNavigator && math.abs(chartX - zoomedMin - navigatorLeft) < handleSensitivity) {
scroller.grabbedLeft = true;
scroller.otherHandlePos = zoomedMax;
scroller.fixedExtreme = baseXAxis.max;
chart.fixedRange = null;
// grab the right handle
} else if (isOnNavigator && math.abs(chartX - zoomedMax - navigatorLeft) < handleSensitivity) {
scroller.grabbedRight = true;
scroller.otherHandlePos = zoomedMin;
scroller.fixedExtreme = baseXAxis.min;
chart.fixedRange = null;
// grab the zoomed range
} else if (chartX > navigatorLeft + zoomedMin - scrollbarPad && chartX < navigatorLeft + zoomedMax + scrollbarPad) {
scroller.grabbedCenter = chartX;
scroller.fixedWidth = range;
dragOffset = chartX - zoomedMin;
// shift the range by clicking on shaded areas, scrollbar track or scrollbar buttons
} else if (chartX > scrollerLeft && chartX < scrollerLeft + scrollerWidth) {
// Center around the clicked point
if (isOnNavigator) {
left = chartX - navigatorLeft - range / 2;
// Click on scrollbar
} else {
// Click left scrollbar button
if (chartX < navigatorLeft) {
left = zoomedMin - range * 0.2;
// Click right scrollbar button
} else if (chartX > scrollerLeft + scrollerWidth - scrollbarHeight) {
left = zoomedMin + range * 0.2;
// Click on scrollbar track, shift the scrollbar by one range
} else {
left = chartX < navigatorLeft + zoomedMin ? // on the left
zoomedMin - range :
zoomedMax;
}
}
if (left < 0) {
left = 0;
} else if (left + range >= navigatorWidth) {
left = navigatorWidth - range;
fixedMax = scroller.getUnionExtremes().dataMax; // #2293, #3543
}
if (left !== zoomedMin) { // it has actually moved
scroller.fixedWidth = range; // #1370
ext = xAxis.toFixedRange(left, left + range, null, fixedMax);
baseXAxis.setExtremes(
ext.min,
ext.max,
true,
false,
{ trigger: 'navigator' }
);
}
}
}
};
/**
* Event handler for the mouse move event.
*/
scroller.mouseMoveHandler = function (e) {
var scrollbarHeight = scroller.scrollbarHeight,
navigatorLeft = scroller.navigatorLeft,
navigatorWidth = scroller.navigatorWidth,
scrollerLeft = scroller.scrollerLeft,
scrollerWidth = scroller.scrollerWidth,
range = scroller.range,
chartX;
// In iOS, a mousemove event with e.pageX === 0 is fired when holding the finger
// down in the center of the scrollbar. This should be ignored.
if (e.pageX !== 0) {
e = chart.pointer.normalize(e);
chartX = e.chartX;
// validation for handle dragging
if (chartX < navigatorLeft) {
chartX = navigatorLeft;
} else if (chartX > scrollerLeft + scrollerWidth - scrollbarHeight) {
chartX = scrollerLeft + scrollerWidth - scrollbarHeight;
}
// drag left handle
if (scroller.grabbedLeft) {
hasDragged = true;
scroller.render(0, 0, chartX - navigatorLeft, scroller.otherHandlePos);
// drag right handle
} else if (scroller.grabbedRight) {
hasDragged = true;
scroller.render(0, 0, scroller.otherHandlePos, chartX - navigatorLeft);
// drag scrollbar or open area in navigator
} else if (scroller.grabbedCenter) {
hasDragged = true;
if (chartX < dragOffset) { // outside left
chartX = dragOffset;
} else if (chartX > navigatorWidth + dragOffset - range) { // outside right
chartX = navigatorWidth + dragOffset - range;
}
scroller.render(0, 0, chartX - dragOffset, chartX - dragOffset + range);
}
if (hasDragged && scroller.scrollbarOptions.liveRedraw) {
setTimeout(function () {
scroller.mouseUpHandler(e);
}, 0);
}
}
};
/**
* Event handler for the mouse up event.
*/
scroller.mouseUpHandler = function (e) {
var ext,
fixedMin,
fixedMax;
if (hasDragged) {
// When dragging one handle, make sure the other one doesn't change
if (scroller.zoomedMin === scroller.otherHandlePos) {
fixedMin = scroller.fixedExtreme;
} else if (scroller.zoomedMax === scroller.otherHandlePos) {
fixedMax = scroller.fixedExtreme;
}
ext = xAxis.toFixedRange(scroller.zoomedMin, scroller.zoomedMax, fixedMin, fixedMax);
chart.xAxis[0].setExtremes(
ext.min,
ext.max,
true,
false,
{
trigger: 'navigator',
triggerOp: 'navigator-drag',
DOMEvent: e // #1838
}
);
}
if (e.type !== 'mousemove') {
scroller.grabbedLeft = scroller.grabbedRight = scroller.grabbedCenter = scroller.fixedWidth =
scroller.fixedExtreme = scroller.otherHandlePos = hasDragged = dragOffset = null;
}
};
var xAxisIndex = chart.xAxis.length,
yAxisIndex = chart.yAxis.length;
// make room below the chart
chart.extraBottomMargin = scroller.outlineHeight + navigatorOptions.margin;
if (scroller.navigatorEnabled) {
// an x axis is required for scrollbar also
scroller.xAxis = xAxis = new Axis(chart, merge({
// inherit base xAxis' break and ordinal options
breaks: baseSeries && baseSeries.xAxis.options.breaks,
ordinal: baseSeries && baseSeries.xAxis.options.ordinal
}, navigatorOptions.xAxis, {
id: 'navigator-x-axis',
isX: true,
type: 'datetime',
index: xAxisIndex,
height: height,
offset: 0,
offsetLeft: scrollbarHeight,
offsetRight: -scrollbarHeight,
keepOrdinalPadding: true, // #2436
startOnTick: false,
endOnTick: false,
minPadding: 0,
maxPadding: 0,
zoomEnabled: false
}));
scroller.yAxis = yAxis = new Axis(chart, merge(navigatorOptions.yAxis, {
id: 'navigator-y-axis',
alignTicks: false,
height: height,
offset: 0,
index: yAxisIndex,
zoomEnabled: false
}));
// If we have a base series, initialize the navigator series
if (baseSeries || navigatorOptions.series.data) {
scroller.addBaseSeries();
// If not, set up an event to listen for added series
} else if (chart.series.length === 0) {
wrap(chart, 'redraw', function (proceed, animation) {
// We've got one, now add it as base and reset chart.redraw
if (chart.series.length > 0 && !scroller.series) {
scroller.setBaseSeries();
chart.redraw = proceed; // reset
}
proceed.call(chart, animation);
});
}
// in case of scrollbar only, fake an x axis to get translation
} else {
scroller.xAxis = xAxis = {
translate: function (value, reverse) {
var axis = chart.xAxis[0],
ext = axis.getExtremes(),
scrollTrackWidth = chart.plotWidth - 2 * scrollbarHeight,
min = numExt('min', axis.options.min, ext.dataMin),
valueRange = numExt('max', axis.options.max, ext.dataMax) - min;
return reverse ?
// from pixel to value
(value * valueRange / scrollTrackWidth) + min :
// from value to pixel
scrollTrackWidth * (value - min) / valueRange;
},
toFixedRange: Axis.prototype.toFixedRange
};
}
/**
* For stock charts, extend the Chart.getMargins method so that we can set the final top position
* of the navigator once the height of the chart, including the legend, is determined. #367.
*/
wrap(chart, 'getMargins', function (proceed) {
var legend = this.legend,
legendOptions = legend.options;
proceed.apply(this, [].slice.call(arguments, 1));
// Compute the top position
scroller.top = top = scroller.navigatorOptions.top ||
this.chartHeight - scroller.height - scroller.scrollbarHeight - this.spacing[2] -
(legendOptions.verticalAlign === 'bottom' && legendOptions.enabled && !legendOptions.floating ?
legend.legendHeight + pick(legendOptions.margin, 10) : 0);
if (xAxis && yAxis) { // false if navigator is disabled (#904)
xAxis.options.top = yAxis.options.top = top;
xAxis.setAxisSize();
yAxis.setAxisSize();
}
});
scroller.addEvents();
},
/**
* Get the union data extremes of the chart - the outer data extremes of the base
* X axis and the navigator axis.
*/
getUnionExtremes: function (returnFalseOnNoBaseSeries) {
var baseAxis = this.chart.xAxis[0],
navAxis = this.xAxis,
navAxisOptions = navAxis.options,
baseAxisOptions = baseAxis.options,
ret;
if (!returnFalseOnNoBaseSeries || baseAxis.dataMin !== null) {
ret = {
dataMin: pick( // #4053
navAxisOptions && navAxisOptions.min,
numExt(
'min',
baseAxisOptions.min,
baseAxis.dataMin,
navAxis.dataMin
)
),
dataMax: pick(
navAxisOptions && navAxisOptions.max,
numExt(
'max',
baseAxisOptions.max,
baseAxis.dataMax,
navAxis.dataMax
)
)
};
}
return ret;
},
/**
* Set the base series. With a bit of modification we should be able to make
* this an API method to be called from the outside
*/
setBaseSeries: function (baseSeriesOption) {
var chart = this.chart;
baseSeriesOption = baseSeriesOption || chart.options.navigator.baseSeries;
// If we're resetting, remove the existing series
if (this.series) {
this.series.remove();
}
// Set the new base series
this.baseSeries = chart.series[baseSeriesOption] ||
(typeof baseSeriesOption === 'string' && chart.get(baseSeriesOption)) ||
chart.series[0];
// When run after render, this.xAxis already exists
if (this.xAxis) {
this.addBaseSeries();
}
},
addBaseSeries: function () {
var baseSeries = this.baseSeries,
baseOptions = baseSeries ? baseSeries.options : {},
baseData = baseOptions.data,
mergedNavSeriesOptions,
navigatorSeriesOptions = this.navigatorOptions.series,
navigatorData;
// remove it to prevent merging one by one
navigatorData = navigatorSeriesOptions.data;
this.hasNavigatorData = !!navigatorData;
// Merge the series options
mergedNavSeriesOptions = merge(baseOptions, navigatorSeriesOptions, {
enableMouseTracking: false,
group: 'nav', // for columns
padXAxis: false,
xAxis: 'navigator-x-axis',
yAxis: 'navigator-y-axis',
name: 'Navigator',
showInLegend: false,
isInternal: true,
visible: true
});
// set the data back
mergedNavSeriesOptions.data = navigatorData || baseData;
// add the series
this.series = this.chart.initSeries(mergedNavSeriesOptions);
// Respond to updated data in the base series.
// Abort if lazy-loading data from the server.
if (baseSeries && this.navigatorOptions.adaptToUpdatedData !== false) {
addEvent(baseSeries, 'updatedData', this.updatedDataHandler);
// Survive Series.update()
baseSeries.userOptions.events = extend(baseSeries.userOptions.event, { updatedData: this.updatedDataHandler });
}
},
updatedDataHandler: function () {
var scroller = this.chart.scroller,
baseSeries = scroller.baseSeries,
baseXAxis = baseSeries.xAxis,
baseExtremes = baseXAxis.getExtremes(),
baseMin = baseExtremes.min,
baseMax = baseExtremes.max,
baseDataMin = baseExtremes.dataMin,
baseDataMax = baseExtremes.dataMax,
range = baseMax - baseMin,
stickToMin,
stickToMax,
newMax,
newMin,
doRedraw,
navigatorSeries = scroller.series,
navXData = navigatorSeries.xData,
hasSetExtremes = !!baseXAxis.setExtremes;
// detect whether to move the range
stickToMax = baseMax >= navXData[navXData.length - 1] - (this.closestPointRange || 0); // #570
stickToMin = baseMin <= baseDataMin;
// set the navigator series data to the new data of the base series
if (!scroller.hasNavigatorData) {
navigatorSeries.options.pointStart = baseSeries.xData[0];
navigatorSeries.setData(baseSeries.options.data, false);
doRedraw = true;
}
// if the zoomed range is already at the min, move it to the right as new data
// comes in
if (stickToMin) {
newMin = baseDataMin;
newMax = newMin + range;
}
// if the zoomed range is already at the max, move it to the right as new data
// comes in
if (stickToMax) {
newMax = baseDataMax;
if (!stickToMin) { // if stickToMin is true, the new min value is set above
newMin = mathMax(newMax - range, navigatorSeries.xData[0]);
}
}
// update the extremes
if (hasSetExtremes && (stickToMin || stickToMax)) {
if (!isNaN(newMin)) {
baseXAxis.setExtremes(newMin, newMax, true, false, { trigger: 'updatedData' });
}
// if it is not at any edge, just move the scroller window to reflect the new series data
} else {
if (doRedraw) {
this.chart.redraw(false);
}
scroller.render(
mathMax(baseMin, baseDataMin),
mathMin(baseMax, baseDataMax)
);
}
},
/**
* Destroys allocated elements.
*/
destroy: function () {
var scroller = this;
// Disconnect events added in addEvents
scroller.removeEvents();
// Destroy properties
each([scroller.xAxis, scroller.yAxis, scroller.leftShade, scroller.rightShade, scroller.outline, scroller.scrollbarTrack, scroller.scrollbarRifles, scroller.scrollbarGroup, scroller.scrollbar], function (prop) {
if (prop && prop.destroy) {
prop.destroy();
}
});
scroller.xAxis = scroller.yAxis = scroller.leftShade = scroller.rightShade = scroller.outline = scroller.scrollbarTrack = scroller.scrollbarRifles = scroller.scrollbarGroup = scroller.scrollbar = null;
// Destroy elements in collection
each([scroller.scrollbarButtons, scroller.handles, scroller.elementsToDestroy], function (coll) {
destroyObjectProperties(coll);
});
}
};
Highcharts.Scroller = Scroller;
/**
* For Stock charts, override selection zooming with some special features because
* X axis zooming is already allowed by the Navigator and Range selector.
*/
wrap(Axis.prototype, 'zoom', function (proceed, newMin, newMax) {
var chart = this.chart,
chartOptions = chart.options,
zoomType = chartOptions.chart.zoomType,
previousZoom,
navigator = chartOptions.navigator,
rangeSelector = chartOptions.rangeSelector,
ret;
if (this.isXAxis && ((navigator && navigator.enabled) ||
(rangeSelector && rangeSelector.enabled))) {
// For x only zooming, fool the chart.zoom method not to create the zoom button
// because the property already exists
if (zoomType === 'x') {
chart.resetZoomButton = 'blocked';
// For y only zooming, ignore the X axis completely
} else if (zoomType === 'y') {
ret = false;
// For xy zooming, record the state of the zoom before zoom selection, then when
// the reset button is pressed, revert to this state
} else if (zoomType === 'xy') {
previousZoom = this.previousZoom;
if (defined(newMin)) {
this.previousZoom = [this.min, this.max];
} else if (previousZoom) {
newMin = previousZoom[0];
newMax = previousZoom[1];
delete this.previousZoom;
}
}
}
return ret !== UNDEFINED ? ret : proceed.call(this, newMin, newMax);
});
// Initialize scroller for stock charts
wrap(Chart.prototype, 'init', function (proceed, options, callback) {
addEvent(this, 'beforeRender', function () {
var options = this.options;
if (options.navigator.enabled || options.scrollbar.enabled) {
this.scroller = new Scroller(this);
}
});
proceed.call(this, options, callback);
});
// Pick up badly formatted point options to addPoint
wrap(Series.prototype, 'addPoint', function (proceed, options, redraw, shift, animation) {
var turboThreshold = this.options.turboThreshold;
if (turboThreshold && this.xData.length > turboThreshold && isObject(options) && !isArray(options) && this.chart.scroller) {
error(20, true);
}
proceed.call(this, options, redraw, shift, animation);
});
/* ****************************************************************************
* End Scroller code *
*****************************************************************************/
/* ****************************************************************************
* Start Range Selector code *
*****************************************************************************/
extend(defaultOptions, {
rangeSelector: {
// allButtonsEnabled: false,
// enabled: true,
// buttons: {Object}
// buttonSpacing: 0,
buttonTheme: {
width: 28,
height: 18,
fill: '#f7f7f7',
padding: 2,
r: 0,
'stroke-width': 0,
style: {
color: '#444',
cursor: 'pointer',
fontWeight: 'normal'
},
zIndex: 7, // #484, #852
states: {
hover: {
fill: '#e7e7e7'
},
select: {
fill: '#e7f0f9',
style: {
color: 'black',
fontWeight: 'bold'
}
}
}
},
height: 35, // reserved space for buttons and input
inputPosition: {
align: 'right'
},
// inputDateFormat: '%b %e, %Y',
// inputEditDateFormat: '%Y-%m-%d',
// inputEnabled: true,
// inputStyle: {},
labelStyle: {
color: '#666'
}
// selected: undefined
}
});
defaultOptions.lang = merge(defaultOptions.lang, {
rangeSelectorZoom: 'Zoom',
rangeSelectorFrom: 'From',
rangeSelectorTo: 'To'
});
/**
* The object constructor for the range selector
* @param {Object} chart
*/
function RangeSelector(chart) {
// Run RangeSelector
this.init(chart);
}
RangeSelector.prototype = {
/**
* The method to run when one of the buttons in the range selectors is clicked
* @param {Number} i The index of the button
* @param {Object} rangeOptions
* @param {Boolean} redraw
*/
clickButton: function (i, redraw) {
var rangeSelector = this,
selected = rangeSelector.selected,
chart = rangeSelector.chart,
buttons = rangeSelector.buttons,
rangeOptions = rangeSelector.buttonOptions[i],
baseAxis = chart.xAxis[0],
unionExtremes = (chart.scroller && chart.scroller.getUnionExtremes()) || baseAxis || {},
dataMin = unionExtremes.dataMin,
dataMax = unionExtremes.dataMax,
newMin,
newMax = baseAxis && mathRound(mathMin(baseAxis.max, pick(dataMax, baseAxis.max))), // #1568
now,
type = rangeOptions.type,
baseXAxisOptions,
range = rangeOptions._range,
rangeMin,
year,
minSetting,
rangeSetting,
ctx,
dataGrouping = rangeOptions.dataGrouping;
if (dataMin === null || dataMax === null || // chart has no data, base series is removed
i === rangeSelector.selected) { // same button is clicked twice
return;
}
// Set the fixed range before range is altered
chart.fixedRange = range;
// Apply dataGrouping associated to button
if (dataGrouping) {
this.forcedDataGrouping = true;
Axis.prototype.setDataGrouping.call(baseAxis || { chart: this.chart }, dataGrouping, false);
}
// Apply range
if (type === 'month' || type === 'year') {
if (!baseAxis) {
// This is set to the user options and picked up later when the axis is instantiated
// so that we know the min and max.
range = rangeOptions;
} else {
ctx = {
range: rangeOptions,
max: newMax,
dataMin: dataMin,
dataMax: dataMax
};
newMin = baseAxis.minFromRange.call(ctx);
if (typeof ctx.newMax === 'number') {
newMax = ctx.newMax;
}
}
// Fixed times like minutes, hours, days
} else if (range) {
newMin = mathMax(newMax - range, dataMin);
newMax = mathMin(newMin + range, dataMax);
} else if (type === 'ytd') {
// On user clicks on the buttons, or a delayed action running from the beforeRender
// event (below), the baseAxis is defined.
if (baseAxis) {
// When "ytd" is the pre-selected button for the initial view, its calculation
// is delayed and rerun in the beforeRender event (below). When the series
// are initialized, but before the chart is rendered, we have access to the xData
// array (#942).
if (dataMax === UNDEFINED) {
dataMin = Number.MAX_VALUE;
dataMax = Number.MIN_VALUE;
each(chart.series, function (series) {
var xData = series.xData; // reassign it to the last item
dataMin = mathMin(xData[0], dataMin);
dataMax = mathMax(xData[xData.length - 1], dataMax);
});
redraw = false;
}
now = new Date(dataMax);
year = now.getFullYear();
newMin = rangeMin = mathMax(dataMin || 0, Date.UTC(year, 0, 1));
now = now.getTime();
newMax = mathMin(dataMax || now, now);
// "ytd" is pre-selected. We don't yet have access to processed point and extremes data
// (things like pointStart and pointInterval are missing), so we delay the process (#942)
} else {
addEvent(chart, 'beforeRender', function () {
rangeSelector.clickButton(i);
});
return;
}
} else if (type === 'all' && baseAxis) {
newMin = dataMin;
newMax = dataMax;
}
// Deselect previous button
if (buttons[selected]) {
buttons[selected].setState(0);
}
// Select this button
if (buttons[i]) {
buttons[i].setState(2);
}
// Update the chart
if (!baseAxis) {
// Axis not yet instanciated. Temporarily set min and range
// options and remove them on chart load (#4317).
baseXAxisOptions = chart.options.xAxis[0];
rangeSetting = baseXAxisOptions.range;
baseXAxisOptions.range = range;
minSetting = baseXAxisOptions.min;
baseXAxisOptions.min = rangeMin;
rangeSelector.setSelected(i);
addEvent(chart, 'load', function resetMinAndRange() {
baseXAxisOptions.range = rangeSetting;
baseXAxisOptions.min = minSetting;
});
} else {
// Existing axis object. Set extremes after render time.
baseAxis.setExtremes(
newMin,
newMax,
pick(redraw, 1),
0,
{
trigger: 'rangeSelectorButton',
rangeSelectorButton: rangeOptions
}
);
rangeSelector.setSelected(i);
}
},
/**
* Set the selected option. This method only sets the internal flag, it doesn't
* update the buttons or the actual zoomed range.
*/
setSelected: function (selected) {
this.selected = this.options.selected = selected;
},
/**
* The default buttons for pre-selecting time frames
*/
defaultButtons: [{
type: 'month',
count: 1,
text: '1m'
}, {
type: 'month',
count: 3,
text: '3m'
}, {
type: 'month',
count: 6,
text: '6m'
}, {
type: 'ytd',
text: 'YTD'
}, {
type: 'year',
count: 1,
text: '1y'
}, {
type: 'all',
text: 'All'
}],
/**
* Initialize the range selector
*/
init: function (chart) {
var rangeSelector = this,
options = chart.options.rangeSelector,
buttonOptions = options.buttons || [].concat(rangeSelector.defaultButtons),
selectedOption = options.selected,
blurInputs = rangeSelector.blurInputs = function () {
var minInput = rangeSelector.minInput,
maxInput = rangeSelector.maxInput;
if (minInput && minInput.blur) { //#3274 in some case blur is not defined
fireEvent(minInput, 'blur'); //#3274
}
if (maxInput && maxInput.blur) { //#3274 in some case blur is not defined
fireEvent(maxInput, 'blur'); //#3274
}
};
rangeSelector.chart = chart;
rangeSelector.options = options;
rangeSelector.buttons = [];
chart.extraTopMargin = options.height;
rangeSelector.buttonOptions = buttonOptions;
addEvent(chart.container, 'mousedown', blurInputs);
addEvent(chart, 'resize', blurInputs);
// Extend the buttonOptions with actual range
each(buttonOptions, rangeSelector.computeButtonRange);
// zoomed range based on a pre-selected button index
if (selectedOption !== UNDEFINED && buttonOptions[selectedOption]) {
this.clickButton(selectedOption, false);
}
addEvent(chart, 'load', function () {
// If a data grouping is applied to the current button, release it when extremes change
addEvent(chart.xAxis[0], 'setExtremes', function (e) {
if (this.max - this.min !== chart.fixedRange && e.trigger !== 'rangeSelectorButton' &&
e.trigger !== 'updatedData' && rangeSelector.forcedDataGrouping) {
this.setDataGrouping(false, false);
}
});
// Normalize the pressed button whenever a new range is selected
addEvent(chart.xAxis[0], 'afterSetExtremes', function () {
rangeSelector.updateButtonStates(true);
});
});
},
/**
* Dynamically update the range selector buttons after a new range has been set
*/
updateButtonStates: function (updating) {
var rangeSelector = this,
chart = this.chart,
baseAxis = chart.xAxis[0],
unionExtremes = (chart.scroller && chart.scroller.getUnionExtremes()) || baseAxis,
dataMin = unionExtremes.dataMin,
dataMax = unionExtremes.dataMax,
selected = rangeSelector.selected,
allButtonsEnabled = rangeSelector.options.allButtonsEnabled,
buttons = rangeSelector.buttons;
if (updating && chart.fixedRange !== mathRound(baseAxis.max - baseAxis.min)) {
if (buttons[selected]) {
buttons[selected].setState(0);
}
rangeSelector.setSelected(null);
}
each(rangeSelector.buttonOptions, function (rangeOptions, i) {
var actualRange = mathRound(baseAxis.max - baseAxis.min),
range = rangeOptions._range,
type = rangeOptions.type,
count = rangeOptions.count || 1,
// Disable buttons where the range exceeds what is allowed in the current view
isTooGreatRange = range > dataMax - dataMin,
// Disable buttons where the range is smaller than the minimum range
isTooSmallRange = range < baseAxis.minRange,
// Disable the All button if we're already showing all
isAllButAlreadyShowingAll = rangeOptions.type === 'all' && baseAxis.max - baseAxis.min >= dataMax - dataMin &&
buttons[i].state !== 2,
// Disable the YTD button if the complete range is within the same year
isYTDButNotAvailable = rangeOptions.type === 'ytd' && dateFormat('%Y', dataMin) === dateFormat('%Y', dataMax),
// Set a button on export
isSelectedForExport = chart.renderer.forExport && i === selected,
isSameRange = range === actualRange;
// Months and years have a variable range so we check the extremes
if ((type === 'month' || type === 'year') && (actualRange >= { month: 28, year: 365 }[type] * 24 * 36e5 * count) &&
(actualRange <= { month: 31, year: 366 }[type] * 24 * 36e5 * count)) {
isSameRange = true;
}
// The new zoom area happens to match the range for a button - mark it selected.
// This happens when scrolling across an ordinal gap. It can be seen in the intraday
// demos when selecting 1h and scroll across the night gap.
if (isSelectedForExport || (isSameRange && i !== selected)) {
rangeSelector.setSelected(i);
buttons[i].setState(2);
} else if (!allButtonsEnabled && (isTooGreatRange || isTooSmallRange || isAllButAlreadyShowingAll || isYTDButNotAvailable)) {
buttons[i].setState(3);
} else if (buttons[i].state === 3) {
buttons[i].setState(0);
}
});
},
/**
* Compute and cache the range for an individual button
*/
computeButtonRange: function (rangeOptions) {
var type = rangeOptions.type,
count = rangeOptions.count || 1,
// these time intervals have a fixed number of milliseconds, as opposed
// to month, ytd and year
fixedTimes = {
millisecond: 1,
second: 1000,
minute: 60 * 1000,
hour: 3600 * 1000,
day: 24 * 3600 * 1000,
week: 7 * 24 * 3600 * 1000
};
// Store the range on the button object
if (fixedTimes[type]) {
rangeOptions._range = fixedTimes[type] * count;
} else if (type === 'month' || type === 'year') {
rangeOptions._range = { month: 30, year: 365 }[type] * 24 * 36e5 * count;
}
},
/**
* Set the internal and displayed value of a HTML input for the dates
* @param {String} name
* @param {Number} time
*/
setInputValue: function (name, time) {
var options = this.chart.options.rangeSelector;
if (defined(time)) {
this[name + 'Input'].HCTime = time;
}
this[name + 'Input'].value = dateFormat(options.inputEditDateFormat || '%Y-%m-%d', this[name + 'Input'].HCTime);
this[name + 'DateBox'].attr({ text: dateFormat(options.inputDateFormat || '%b %e, %Y', this[name + 'Input'].HCTime) });
},
showInput: function (name) {
var inputGroup = this.inputGroup,
dateBox = this[name + 'DateBox'];
css(this[name + 'Input'], {
left: (inputGroup.translateX + dateBox.x) + PX,
top: inputGroup.translateY + PX,
width: (dateBox.width - 2) + PX,
height: (dateBox.height - 2) + PX,
border: '2px solid silver'
});
},
hideInput: function (name) {
css(this[name + 'Input'], {
border: 0,
width: '1px',
height: '1px'
});
this.setInputValue(name);
},
/**
* Draw either the 'from' or the 'to' HTML input box of the range selector
* @param {Object} name
*/
drawInput: function (name) {
var rangeSelector = this,
chart = rangeSelector.chart,
chartStyle = chart.renderer.style,
renderer = chart.renderer,
options = chart.options.rangeSelector,
lang = defaultOptions.lang,
div = rangeSelector.div,
isMin = name === 'min',
input,
label,
dateBox,
inputGroup = this.inputGroup;
// Create the text label
this[name + 'Label'] = label = renderer.label(lang[isMin ? 'rangeSelectorFrom' : 'rangeSelectorTo'], this.inputGroup.offset)
.attr({
padding: 2
})
.css(merge(chartStyle, options.labelStyle))
.add(inputGroup);
inputGroup.offset += label.width + 5;
// Create an SVG label that shows updated date ranges and and records click events that
// bring in the HTML input.
this[name + 'DateBox'] = dateBox = renderer.label('', inputGroup.offset)
.attr({
padding: 2,
width: options.inputBoxWidth || 90,
height: options.inputBoxHeight || 17,
stroke: options.inputBoxBorderColor || 'silver',
'stroke-width': 1
})
.css(merge({
textAlign: 'center',
color: '#444'
}, chartStyle, options.inputStyle))
.on('click', function () {
rangeSelector.showInput(name); // If it is already focused, the onfocus event doesn't fire (#3713)
rangeSelector[name + 'Input'].focus();
})
.add(inputGroup);
inputGroup.offset += dateBox.width + (isMin ? 10 : 0);
// Create the HTML input element. This is rendered as 1x1 pixel then set to the right size
// when focused.
this[name + 'Input'] = input = createElement('input', {
name: name,
className: PREFIX + 'range-selector',
type: 'text'
}, extend({
position: ABSOLUTE,
border: 0,
width: '1px', // Chrome needs a pixel to see it
height: '1px',
padding: 0,
textAlign: 'center',
fontSize: chartStyle.fontSize,
fontFamily: chartStyle.fontFamily,
top: chart.plotTop + PX // prevent jump on focus in Firefox
}, options.inputStyle), div);
// Blow up the input box
input.onfocus = function () {
rangeSelector.showInput(name);
};
// Hide away the input box
input.onblur = function () {
rangeSelector.hideInput(name);
};
// handle changes in the input boxes
input.onchange = function () {
var inputValue = input.value,
value = (options.inputDateParser || Date.parse)(inputValue),
xAxis = chart.xAxis[0],
dataMin = xAxis.dataMin,
dataMax = xAxis.dataMax;
// If the value isn't parsed directly to a value by the browser's Date.parse method,
// like YYYY-MM-DD in IE, try parsing it a different way
if (isNaN(value)) {
value = inputValue.split('-');
value = Date.UTC(pInt(value[0]), pInt(value[1]) - 1, pInt(value[2]));
}
if (!isNaN(value)) {
// Correct for timezone offset (#433)
if (!defaultOptions.global.useUTC) {
value = value + new Date().getTimezoneOffset() * 60 * 1000;
}
// Validate the extremes. If it goes beyound the data min or max, use the
// actual data extreme (#2438).
if (isMin) {
if (value > rangeSelector.maxInput.HCTime) {
value = UNDEFINED;
} else if (value < dataMin) {
value = dataMin;
}
} else {
if (value < rangeSelector.minInput.HCTime) {
value = UNDEFINED;
} else if (value > dataMax) {
value = dataMax;
}
}
// Set the extremes
if (value !== UNDEFINED) {
chart.xAxis[0].setExtremes(
isMin ? value : xAxis.min,
isMin ? xAxis.max : value,
UNDEFINED,
UNDEFINED,
{ trigger: 'rangeSelectorInput' }
);
}
}
};
},
/**
* Get the position of the range selector buttons and inputs. This can be overridden from outside for custom positioning.
*/
getPosition: function () {
var chart = this.chart,
options = chart.options.rangeSelector,
buttonTop = pick((options.buttonPosition || {}).y, chart.plotTop - chart.axisOffset[0] - options.height);
return {
buttonTop: buttonTop,
inputTop: buttonTop - 10
};
},
/**
* Render the range selector including the buttons and the inputs. The first time render
* is called, the elements are created and positioned. On subsequent calls, they are
* moved and updated.
* @param {Number} min X axis minimum
* @param {Number} max X axis maximum
*/
render: function (min, max) {
var rangeSelector = this,
chart = rangeSelector.chart,
renderer = chart.renderer,
container = chart.container,
chartOptions = chart.options,
navButtonOptions = chartOptions.exporting && chartOptions.navigation && chartOptions.navigation.buttonOptions,
options = chartOptions.rangeSelector,
buttons = rangeSelector.buttons,
lang = defaultOptions.lang,
div = rangeSelector.div,
inputGroup = rangeSelector.inputGroup,
buttonTheme = options.buttonTheme,
buttonPosition = options.buttonPosition || {},
inputEnabled = options.inputEnabled,
states = buttonTheme && buttonTheme.states,
plotLeft = chart.plotLeft,
buttonLeft,
pos = this.getPosition(),
buttonGroup = rangeSelector.group,
buttonBBox,
rendered = rangeSelector.rendered;
// create the elements
if (!rendered) {
rangeSelector.group = buttonGroup = renderer.g('range-selector-buttons').add();
rangeSelector.zoomText = renderer.text(lang.rangeSelectorZoom, pick(buttonPosition.x, plotLeft), 15)
.css(options.labelStyle)
.add(buttonGroup);
// button starting position
buttonLeft = pick(buttonPosition.x, plotLeft) + rangeSelector.zoomText.getBBox().width + 5;
each(rangeSelector.buttonOptions, function (rangeOptions, i) {
buttons[i] = renderer.button(
rangeOptions.text,
buttonLeft,
0,
function () {
rangeSelector.clickButton(i);
rangeSelector.isActive = true;
},
buttonTheme,
states && states.hover,
states && states.select,
states && states.disabled
)
.css({
textAlign: 'center'
})
.add(buttonGroup);
// increase button position for the next button
buttonLeft += buttons[i].width + pick(options.buttonSpacing, 5);
if (rangeSelector.selected === i) {
buttons[i].setState(2);
}
});
rangeSelector.updateButtonStates();
// first create a wrapper outside the container in order to make
// the inputs work and make export correct
if (inputEnabled !== false) {
rangeSelector.div = div = createElement('div', null, {
position: 'relative',
height: 0,
zIndex: 1 // above container
});
container.parentNode.insertBefore(div, container);
// Create the group to keep the inputs
rangeSelector.inputGroup = inputGroup = renderer.g('input-group')
.add();
inputGroup.offset = 0;
rangeSelector.drawInput('min');
rangeSelector.drawInput('max');
}
}
// Set or update the group position
buttonGroup[rendered ? 'animate' : 'attr']({
translateY: pos.buttonTop
});
if (inputEnabled !== false) {
// Update the alignment to the updated spacing box
inputGroup.align(extend({
y: pos.inputTop,
width: inputGroup.offset,
// Detect collision with the exporting buttons
x: navButtonOptions && (pos.inputTop < (navButtonOptions.y || 0) + navButtonOptions.height - chart.spacing[0]) ?
-40 : 0
}, options.inputPosition), true, chart.spacingBox);
// Hide if overlapping - inputEnabled is null or undefined
if (!defined(inputEnabled)) {
buttonBBox = buttonGroup.getBBox();
inputGroup[inputGroup.translateX < buttonBBox.x + buttonBBox.width + 10 ? 'hide' : 'show']();
}
// Set or reset the input values
rangeSelector.setInputValue('min', min);
rangeSelector.setInputValue('max', max);
}
rangeSelector.rendered = true;
},
/**
* Destroys allocated elements.
*/
destroy: function () {
var minInput = this.minInput,
maxInput = this.maxInput,
chart = this.chart,
blurInputs = this.blurInputs,
key;
removeEvent(chart.container, 'mousedown', blurInputs);
removeEvent(chart, 'resize', blurInputs);
// Destroy elements in collections
destroyObjectProperties(this.buttons);
// Clear input element events
if (minInput) {
minInput.onfocus = minInput.onblur = minInput.onchange = null;
}
if (maxInput) {
maxInput.onfocus = maxInput.onblur = maxInput.onchange = null;
}
// Destroy HTML and SVG elements
for (key in this) {
if (this[key] && key !== 'chart') {
if (this[key].destroy) { // SVGElement
this[key].destroy();
} else if (this[key].nodeType) { // HTML element
discardElement(this[key]);
}
}
this[key] = null;
}
}
};
/**
* Add logic to normalize the zoomed range in order to preserve the pressed state of range selector buttons
*/
Axis.prototype.toFixedRange = function (pxMin, pxMax, fixedMin, fixedMax) {
var fixedRange = this.chart && this.chart.fixedRange,
newMin = pick(fixedMin, this.translate(pxMin, true)),
newMax = pick(fixedMax, this.translate(pxMax, true)),
changeRatio = fixedRange && (newMax - newMin) / fixedRange;
// If the difference between the fixed range and the actual requested range is
// too great, the user is dragging across an ordinal gap, and we need to release
// the range selector button.
if (changeRatio > 0.7 && changeRatio < 1.3) {
if (fixedMax) {
newMin = newMax - fixedRange;
} else {
newMax = newMin + fixedRange;
}
}
return {
min: newMin,
max: newMax
};
};
Axis.prototype.minFromRange = function () {
var rangeOptions = this.range,
type = rangeOptions.type,
timeName = { month: 'Month', year: 'FullYear'}[type],
min,
max = this.max,
dataMin,
range,
// Get the true range from a start date
getTrueRange = function (base, count) {
var date = new Date(base);
date['set' + timeName](date['get' + timeName]() + count);
return date.getTime() - base;
};
if (typeof rangeOptions === 'number') {
min = this.max - rangeOptions;
range = rangeOptions;
} else {
min = max + getTrueRange(max, -rangeOptions.count);
}
dataMin = pick(this.dataMin, Number.MIN_VALUE);
if (isNaN(min)) {
min = dataMin;
}
if (min <= dataMin) {
min = dataMin;
if (range === undefined) { // #4501
range = getTrueRange(min, rangeOptions.count);
}
this.newMax = mathMin(min + range, this.dataMax);
}
if (isNaN(max)) {
min = undefined;
}
return min;
};
// Initialize scroller for stock charts
wrap(Chart.prototype, 'init', function (proceed, options, callback) {
addEvent(this, 'init', function () {
if (this.options.rangeSelector.enabled) {
this.rangeSelector = new RangeSelector(this);
}
});
proceed.call(this, options, callback);
});
Highcharts.RangeSelector = RangeSelector;
/* ****************************************************************************
* End Range Selector code *
*****************************************************************************/
Chart.prototype.callbacks.push(function (chart) {
var extremes,
scroller = chart.scroller,
rangeSelector = chart.rangeSelector;
function renderScroller() {
extremes = chart.xAxis[0].getExtremes();
scroller.render(extremes.min, extremes.max);
}
function renderRangeSelector() {
extremes = chart.xAxis[0].getExtremes();
if (!isNaN(extremes.min)) {
rangeSelector.render(extremes.min, extremes.max);
}
}
function afterSetExtremesHandlerScroller(e) {
if (e.triggerOp !== 'navigator-drag') {
scroller.render(e.min, e.max);
}
}
function afterSetExtremesHandlerRangeSelector(e) {
rangeSelector.render(e.min, e.max);
}
function destroyEvents() {
if (scroller) {
removeEvent(chart.xAxis[0], 'afterSetExtremes', afterSetExtremesHandlerScroller);
}
if (rangeSelector) {
removeEvent(chart, 'resize', renderRangeSelector);
removeEvent(chart.xAxis[0], 'afterSetExtremes', afterSetExtremesHandlerRangeSelector);
}
}
// initiate the scroller
if (scroller) {
// redraw the scroller on setExtremes
addEvent(chart.xAxis[0], 'afterSetExtremes', afterSetExtremesHandlerScroller);
// redraw the scroller on chart resize or box resize
wrap(chart, 'drawChartBox', function (proceed) {
var isDirtyBox = this.isDirtyBox;
proceed.call(this);
if (isDirtyBox) {
renderScroller();
}
});
// do it now
renderScroller();
}
if (rangeSelector) {
// redraw the scroller on setExtremes
addEvent(chart.xAxis[0], 'afterSetExtremes', afterSetExtremesHandlerRangeSelector);
// redraw the scroller chart resize
addEvent(chart, 'resize', renderRangeSelector);
// do it now
renderRangeSelector();
}
// Remove resize/afterSetExtremes at chart destroy
addEvent(chart, 'destroy', destroyEvents);
});
/**
* A wrapper for Chart with all the default values for a Stock chart
*/
Highcharts.StockChart = function (options, callback) {
var seriesOptions = options.series, // to increase performance, don't merge the data
opposite,
// Always disable startOnTick:true on the main axis when the navigator is enabled (#1090)
navigatorEnabled = pick(options.navigator && options.navigator.enabled, true),
disableStartOnTick = navigatorEnabled ? {
startOnTick: false,
endOnTick: false
} : null,
lineOptions = {
marker: {
enabled: false,
radius: 2
}
// gapSize: 0
},
columnOptions = {
shadow: false,
borderWidth: 0
};
// apply X axis options to both single and multi y axes
options.xAxis = map(splat(options.xAxis || {}), function (xAxisOptions) {
return merge({ // defaults
minPadding: 0,
maxPadding: 0,
ordinal: true,
title: {
text: null
},
labels: {
overflow: 'justify'
},
showLastLabel: true
}, xAxisOptions, // user options
{ // forced options
type: 'datetime',
categories: null
},
disableStartOnTick
);
});
// apply Y axis options to both single and multi y axes
options.yAxis = map(splat(options.yAxis || {}), function (yAxisOptions) {
opposite = pick(yAxisOptions.opposite, true);
return merge({ // defaults
labels: {
y: -2
},
opposite: opposite,
showLastLabel: false,
title: {
text: null
}
}, yAxisOptions // user options
);
});
options.series = null;
options = merge({
chart: {
panning: true,
pinchType: 'x'
},
navigator: {
enabled: true
},
scrollbar: {
enabled: true
},
rangeSelector: {
enabled: true
},
title: {
text: null,
style: {
fontSize: '16px'
}
},
tooltip: {
shared: true,
crosshairs: true
},
legend: {
enabled: false
},
plotOptions: {
line: lineOptions,
spline: lineOptions,
area: lineOptions,
areaspline: lineOptions,
arearange: lineOptions,
areasplinerange: lineOptions,
column: columnOptions,
columnrange: columnOptions,
candlestick: columnOptions,
ohlc: columnOptions
}
},
options, // user's options
{ // forced options
_stock: true, // internal flag
chart: {
inverted: false
}
});
options.series = seriesOptions;
return new Chart(options, callback);
};
// Implement the pinchType option
wrap(Pointer.prototype, 'init', function (proceed, chart, options) {
var pinchType = options.chart.pinchType || '';
proceed.call(this, chart, options);
// Pinch status
this.pinchX = this.pinchHor = pinchType.indexOf('x') !== -1;
this.pinchY = this.pinchVert = pinchType.indexOf('y') !== -1;
this.hasZoom = this.hasZoom || this.pinchHor || this.pinchVert;
});
// Override the automatic label alignment so that the first Y axis' labels
// are drawn on top of the grid line, and subsequent axes are drawn outside
wrap(Axis.prototype, 'autoLabelAlign', function (proceed) {
var chart = this.chart,
options = this.options,
panes = chart._labelPanes = chart._labelPanes || {},
key,
labelOptions = this.options.labels;
if (this.chart.options._stock && this.coll === 'yAxis') {
key = options.top + ',' + options.height;
if (!panes[key] && labelOptions.enabled) { // do it only for the first Y axis of each pane
if (labelOptions.x === 15) { // default
labelOptions.x = 0;
}
if (labelOptions.align === undefined) {
labelOptions.align = 'right';
}
panes[key] = 1;
return 'right';
}
}
return proceed.call(this, [].slice.call(arguments, 1));
});
// Override getPlotLinePath to allow for multipane charts
wrap(Axis.prototype, 'getPlotLinePath', function (proceed, value, lineWidth, old, force, translatedValue) {
var axis = this,
series = (this.isLinked && !this.series ? this.linkedParent.series : this.series),
chart = axis.chart,
renderer = chart.renderer,
axisLeft = axis.left,
axisTop = axis.top,
x1,
y1,
x2,
y2,
result = [],
axes = [], //#3416 need a default array
axes2,
uniqueAxes;
// Ignore in case of color Axis. #3360, #3524
if (axis.coll === 'colorAxis') {
return proceed.apply(this, [].slice.call(arguments, 1));
}
// Get the related axes based on series
axes = (axis.isXAxis ?
(defined(axis.options.yAxis) ?
[chart.yAxis[axis.options.yAxis]] :
map(series, function (S) { return S.yAxis; })
) :
(defined(axis.options.xAxis) ?
[chart.xAxis[axis.options.xAxis]] :
map(series, function (S) { return S.xAxis; })
)
);
// Get the related axes based options.*Axis setting #2810
axes2 = (axis.isXAxis ? chart.yAxis : chart.xAxis);
each(axes2, function (A) {
if (defined(A.options.id) ? A.options.id.indexOf('navigator') === -1 : true) {
var a = (A.isXAxis ? 'yAxis' : 'xAxis'),
rax = (defined(A.options[a]) ? chart[a][A.options[a]] : chart[a][0]);
if (axis === rax) {
axes.push(A);
}
}
});
// Remove duplicates in the axes array. If there are no axes in the axes array,
// we are adding an axis without data, so we need to populate this with grid
// lines (#2796).
uniqueAxes = axes.length ? [] : [axis.isXAxis ? chart.yAxis[0] : chart.xAxis[0]]; //#3742
each(axes, function (axis2) {
if (inArray(axis2, uniqueAxes) === -1) {
uniqueAxes.push(axis2);
}
});
translatedValue = pick(translatedValue, axis.translate(value, null, null, old));
if (!isNaN(translatedValue)) {
if (axis.horiz) {
each(uniqueAxes, function (axis2) {
var skip;
y1 = axis2.pos;
y2 = y1 + axis2.len;
x1 = x2 = mathRound(translatedValue + axis.transB);
if (x1 < axisLeft || x1 > axisLeft + axis.width) { // outside plot area
if (force) {
x1 = x2 = mathMin(mathMax(axisLeft, x1), axisLeft + axis.width);
} else {
skip = true;
}
}
if (!skip) {
result.push('M', x1, y1, 'L', x2, y2);
}
});
} else {
each(uniqueAxes, function (axis2) {
var skip;
x1 = axis2.pos;
x2 = x1 + axis2.len;
y1 = y2 = mathRound(axisTop + axis.height - translatedValue);
if (y1 < axisTop || y1 > axisTop + axis.height) { // outside plot area
if (force) {
y1 = y2 = mathMin(mathMax(axisTop, y1), axis.top + axis.height);
} else {
skip = true;
}
}
if (!skip) {
result.push('M', x1, y1, 'L', x2, y2);
}
});
}
}
if (result.length > 0) {
return renderer.crispPolyLine(result, lineWidth || 1);
} else {
return null; //#3557 getPlotLinePath in regular Highcharts also returns null
}
});
// Override getPlotBandPath to allow for multipane charts
Axis.prototype.getPlotBandPath = function (from, to) {
var toPath = this.getPlotLinePath(to, null, null, true),
path = this.getPlotLinePath(from, null, null, true),
result = [],
i;
if (path && toPath && path.toString() !== toPath.toString()) {
// Go over each subpath
for (i = 0; i < path.length; i += 6) {
result.push('M', path[i + 1], path[i + 2], 'L', path[i + 4], path[i + 5], toPath[i + 4], toPath[i + 5], toPath[i + 1], toPath[i + 2]);
}
} else { // outside the axis area
result = null;
}
return result;
};
// Function to crisp a line with multiple segments
SVGRenderer.prototype.crispPolyLine = function (points, width) {
// points format: [M, 0, 0, L, 100, 0]
// normalize to a crisp line
var i;
for (i = 0; i < points.length; i = i + 6) {
if (points[i + 1] === points[i + 4]) {
// Substract due to #1129. Now bottom and left axis gridlines behave the same.
points[i + 1] = points[i + 4] = mathRound(points[i + 1]) - (width % 2 / 2);
}
if (points[i + 2] === points[i + 5]) {
points[i + 2] = points[i + 5] = mathRound(points[i + 2]) + (width % 2 / 2);
}
}
return points;
};
if (Renderer === Highcharts.VMLRenderer) {
VMLRenderer.prototype.crispPolyLine = SVGRenderer.prototype.crispPolyLine;
}
// Wrapper to hide the label
wrap(Axis.prototype, 'hideCrosshair', function (proceed, i) {
proceed.call(this, i);
if (!defined(this.crossLabelArray)) { return; }
if (defined(i)) {
if (this.crossLabelArray[i]) { this.crossLabelArray[i].hide(); }
} else {
each(this.crossLabelArray, function (crosslabel) {
crosslabel.hide();
});
}
});
// Wrapper to draw the label
wrap(Axis.prototype, 'drawCrosshair', function (proceed, e, point) {
// Draw the crosshair
proceed.call(this, e, point);
// Check if the label has to be drawn
if (!defined(this.crosshair.label) || !this.crosshair.label.enabled || !defined(point)) {
return;
}
var chart = this.chart,
options = this.options.crosshair.label, // the label's options
axis = this.isXAxis ? 'x' : 'y', // axis name
horiz = this.horiz, // axis orientation
opposite = this.opposite, // axis position
left = this.left, // left position
top = this.top, // top position
crossLabel = this.crossLabel, // reference to the svgElement
posx,
posy,
crossBox,
formatOption = options.format,
formatFormat = '',
limit;
// If the label does not exist yet, create it.
if (!crossLabel) {
crossLabel = this.crossLabel = chart.renderer.label()
.attr({
align: options.align || (horiz ? 'center' : opposite ? (this.labelAlign === 'right' ? 'right' : 'left') : (this.labelAlign === 'left' ? 'left' : 'center')),
zIndex: 12,
height: horiz ? 16 : UNDEFINED,
fill: options.backgroundColor || (this.series[0] && this.series[0].color) || 'gray',
padding: pick(options.padding, 2),
stroke: options.borderColor || null,
'stroke-width': options.borderWidth || 0
})
.css(extend({
color: 'white',
fontWeight: 'normal',
fontSize: '11px',
textAlign: 'center'
}, options.style))
.add();
}
if (horiz) {
posx = point.plotX + left;
posy = top + (opposite ? 0 : this.height);
} else {
posx = opposite ? this.width + left : 0;
posy = point.plotY + top;
}
// if the crosshair goes out of view (too high or too low, hide it and hide the label)
if (posy < top || posy > top + this.height) {
this.hideCrosshair();
return;
}
// TODO: Dynamic date formats like in Series.tooltipHeaderFormat.
if (!formatOption && !options.formatter) {
if (this.isDatetimeAxis) {
formatFormat = '%b %d, %Y';
}
formatOption = '{value' + (formatFormat ? ':' + formatFormat : '') + '}';
}
// show the label
crossLabel.attr({
text: formatOption ? format(formatOption, {value: point[axis]}) : options.formatter.call(this, point[axis]),
x: posx,
y: posy,
visibility: VISIBLE
});
crossBox = crossLabel.getBBox();
// now it is placed we can correct its position
if (horiz) {
if (((this.options.tickPosition === 'inside') && !opposite) ||
((this.options.tickPosition !== 'inside') && opposite)) {
posy = crossLabel.y - crossBox.height;
}
} else {
posy = crossLabel.y - (crossBox.height / 2);
}
// check the edges
if (horiz) {
limit = {
left: left - crossBox.x,
right: left + this.width - crossBox.x
};
} else {
limit = {
left: this.labelAlign === 'left' ? left : 0,
right: this.labelAlign === 'right' ? left + this.width : chart.chartWidth
};
}
// left edge
if (crossLabel.translateX < limit.left) {
posx += limit.left - crossLabel.translateX;
}
// right edge
if (crossLabel.translateX + crossBox.width >= limit.right) {
posx -= crossLabel.translateX + crossBox.width - limit.right;
}
// show the crosslabel
crossLabel.attr({x: posx, y: posy, visibility: VISIBLE});
});
/* ****************************************************************************
* Start value compare logic *
*****************************************************************************/
var seriesInit = seriesProto.init,
seriesProcessData = seriesProto.processData,
pointTooltipFormatter = Point.prototype.tooltipFormatter;
/**
* Extend series.init by adding a method to modify the y value used for plotting
* on the y axis. This method is called both from the axis when finding dataMin
* and dataMax, and from the series.translate method.
*/
seriesProto.init = function () {
// Call base method
seriesInit.apply(this, arguments);
// Set comparison mode
this.setCompare(this.options.compare);
};
/**
* The setCompare method can be called also from the outside after render time
*/
seriesProto.setCompare = function (compare) {
// Set or unset the modifyValue method
this.modifyValue = (compare === 'value' || compare === 'percent') ? function (value, point) {
var compareValue = this.compareValue;
if (value !== UNDEFINED) { // #2601
// get the modified value
value = compare === 'value' ?
value - compareValue : // compare value
value = 100 * (value / compareValue) - 100; // compare percent
// record for tooltip etc.
if (point) {
point.change = value;
}
}
return value;
} : null;
// Mark dirty
if (this.chart.hasRendered) {
this.isDirty = true;
}
};
/**
* Extend series.processData by finding the first y value in the plot area,
* used for comparing the following values
*/
seriesProto.processData = function () {
var series = this,
i = 0,
processedXData,
processedYData,
length;
// call base method
seriesProcessData.apply(this, arguments);
if (series.xAxis && series.processedYData) { // not pies
// local variables
processedXData = series.processedXData;
processedYData = series.processedYData;
length = processedYData.length;
// find the first value for comparison
for (; i < length; i++) {
if (typeof processedYData[i] === NUMBER && processedXData[i] >= series.xAxis.min) {
series.compareValue = processedYData[i];
break;
}
}
}
};
/**
* Modify series extremes
*/
wrap(seriesProto, 'getExtremes', function (proceed) {
proceed.apply(this, [].slice.call(arguments, 1));
if (this.modifyValue) {
this.dataMax = this.modifyValue(this.dataMax);
this.dataMin = this.modifyValue(this.dataMin);
}
});
/**
* Add a utility method, setCompare, to the Y axis
*/
Axis.prototype.setCompare = function (compare, redraw) {
if (!this.isXAxis) {
each(this.series, function (series) {
series.setCompare(compare);
});
if (pick(redraw, true)) {
this.chart.redraw();
}
}
};
/**
* Extend the tooltip formatter by adding support for the point.change variable
* as well as the changeDecimals option
*/
Point.prototype.tooltipFormatter = function (pointFormat) {
var point = this;
pointFormat = pointFormat.replace(
'{point.change}',
(point.change > 0 ? '+' : '') + Highcharts.numberFormat(point.change, pick(point.series.tooltipOptions.changeDecimals, 2))
);
return pointTooltipFormatter.apply(this, [pointFormat]);
};
/* ****************************************************************************
* End value compare logic *
*****************************************************************************/
/**
* Extend the Series prototype to create a separate series clip box. This is related
* to using multiple panes, and a future pane logic should incorporate this feature (#2754).
*/
wrap(Series.prototype, 'render', function (proceed) {
// Only do this on stock charts (#2939), and only if the series type handles clipping
// in the animate method (#2975).
if (this.chart.options._stock && this.xAxis) {
// First render, initial clip box
if (!this.clipBox && this.animate) {
this.clipBox = merge(this.chart.clipBox);
this.clipBox.width = this.xAxis.len;
this.clipBox.height = this.yAxis.len;
// On redrawing, resizing etc, update the clip rectangle
} else if (this.chart[this.sharedClipKey]) {
stop(this.chart[this.sharedClipKey]); // #2998
this.chart[this.sharedClipKey].attr({
width: this.xAxis.len,
height: this.yAxis.len
});
}
}
proceed.call(this);
});
/**
* The Pane object allows options that are common to a set of X and Y axes.
*
* In the future, this can be extended to basic Highcharts and Highstock.
*/
function Pane(options, chart, firstAxis) {
this.init.call(this, options, chart, firstAxis);
}
// Extend the Pane prototype
extend(Pane.prototype, {
/**
* Initiate the Pane object
*/
init: function (options, chart, firstAxis) {
var pane = this,
backgroundOption,
defaultOptions = pane.defaultOptions;
pane.chart = chart;
// Set options. Angular charts have a default background (#3318)
pane.options = options = merge(defaultOptions, chart.angular ? { background: {} } : undefined, options);
backgroundOption = options.background;
// To avoid having weighty logic to place, update and remove the backgrounds,
// push them to the first axis' plot bands and borrow the existing logic there.
if (backgroundOption) {
each([].concat(splat(backgroundOption)).reverse(), function (config) {
var backgroundColor = config.backgroundColor, // if defined, replace the old one (specific for gradients)
axisUserOptions = firstAxis.userOptions;
config = merge(pane.defaultBackgroundOptions, config);
if (backgroundColor) {
config.backgroundColor = backgroundColor;
}
config.color = config.backgroundColor; // due to naming in plotBands
firstAxis.options.plotBands.unshift(config);
axisUserOptions.plotBands = axisUserOptions.plotBands || []; // #3176
if (axisUserOptions.plotBands !== firstAxis.options.plotBands) {
axisUserOptions.plotBands.unshift(config);
}
});
}
},
/**
* The default options object
*/
defaultOptions: {
// background: {conditional},
center: ['50%', '50%'],
size: '85%',
startAngle: 0
//endAngle: startAngle + 360
},
/**
* The default background options
*/
defaultBackgroundOptions: {
shape: 'circle',
borderWidth: 1,
borderColor: 'silver',
backgroundColor: {
linearGradient: { x1: 0, y1: 0, x2: 0, y2: 1 },
stops: [
[0, '#FFF'],
[1, '#DDD']
]
},
from: -Number.MAX_VALUE, // corrected to axis min
innerRadius: 0,
to: Number.MAX_VALUE, // corrected to axis max
outerRadius: '105%'
}
});
var axisProto = Axis.prototype,
tickProto = Tick.prototype;
/**
* Augmented methods for the x axis in order to hide it completely, used for the X axis in gauges
*/
var hiddenAxisMixin = {
getOffset: noop,
redraw: function () {
this.isDirty = false; // prevent setting Y axis dirty
},
render: function () {
this.isDirty = false; // prevent setting Y axis dirty
},
setScale: noop,
setCategories: noop,
setTitle: noop
};
/**
* Augmented methods for the value axis
*/
/*jslint unparam: true*/
var radialAxisMixin = {
isRadial: true,
/**
* The default options extend defaultYAxisOptions
*/
defaultRadialGaugeOptions: {
labels: {
align: 'center',
x: 0,
y: null // auto
},
minorGridLineWidth: 0,
minorTickInterval: 'auto',
minorTickLength: 10,
minorTickPosition: 'inside',
minorTickWidth: 1,
tickLength: 10,
tickPosition: 'inside',
tickWidth: 2,
title: {
rotation: 0
},
zIndex: 2 // behind dials, points in the series group
},
// Circular axis around the perimeter of a polar chart
defaultRadialXOptions: {
gridLineWidth: 1, // spokes
labels: {
align: null, // auto
distance: 15,
x: 0,
y: null // auto
},
maxPadding: 0,
minPadding: 0,
showLastLabel: false,
tickLength: 0
},
// Radial axis, like a spoke in a polar chart
defaultRadialYOptions: {
gridLineInterpolation: 'circle',
labels: {
align: 'right',
x: -3,
y: -2
},
showLastLabel: false,
title: {
x: 4,
text: null,
rotation: 90
}
},
/**
* Merge and set options
*/
setOptions: function (userOptions) {
var options = this.options = merge(
this.defaultOptions,
this.defaultRadialOptions,
userOptions
);
// Make sure the plotBands array is instanciated for each Axis (#2649)
if (!options.plotBands) {
options.plotBands = [];
}
},
/**
* Wrap the getOffset method to return zero offset for title or labels in a radial
* axis
*/
getOffset: function () {
// Call the Axis prototype method (the method we're in now is on the instance)
axisProto.getOffset.call(this);
// Title or label offsets are not counted
this.chart.axisOffset[this.side] = 0;
// Set the center array
this.center = this.pane.center = CenteredSeriesMixin.getCenter.call(this.pane);
},
/**
* Get the path for the axis line. This method is also referenced in the getPlotLinePath
* method.
*/
getLinePath: function (lineWidth, radius) {
var center = this.center;
radius = pick(radius, center[2] / 2 - this.offset);
return this.chart.renderer.symbols.arc(
this.left + center[0],
this.top + center[1],
radius,
radius,
{
start: this.startAngleRad,
end: this.endAngleRad,
open: true,
innerR: 0
}
);
},
/**
* Override setAxisTranslation by setting the translation to the difference
* in rotation. This allows the translate method to return angle for
* any given value.
*/
setAxisTranslation: function () {
// Call uber method
axisProto.setAxisTranslation.call(this);
// Set transA and minPixelPadding
if (this.center) { // it's not defined the first time
if (this.isCircular) {
this.transA = (this.endAngleRad - this.startAngleRad) /
((this.max - this.min) || 1);
} else {
this.transA = (this.center[2] / 2) / ((this.max - this.min) || 1);
}
if (this.isXAxis) {
this.minPixelPadding = this.transA * this.minPointOffset;
} else {
// This is a workaround for regression #2593, but categories still don't position correctly.
// TODO: Implement true handling of Y axis categories on gauges.
this.minPixelPadding = 0;
}
}
},
/**
* In case of auto connect, add one closestPointRange to the max value right before
* tickPositions are computed, so that ticks will extend passed the real max.
*/
beforeSetTickPositions: function () {
if (this.autoConnect) {
this.max += (this.categories && 1) || this.pointRange || this.closestPointRange || 0; // #1197, #2260
}
},
/**
* Override the setAxisSize method to use the arc's circumference as length. This
* allows tickPixelInterval to apply to pixel lengths along the perimeter
*/
setAxisSize: function () {
axisProto.setAxisSize.call(this);
if (this.isRadial) {
// Set the center array
this.center = this.pane.center = Highcharts.CenteredSeriesMixin.getCenter.call(this.pane);
// The sector is used in Axis.translate to compute the translation of reversed axis points (#2570)
if (this.isCircular) {
this.sector = this.endAngleRad - this.startAngleRad;
}
// Axis len is used to lay out the ticks
this.len = this.width = this.height = this.center[2] * pick(this.sector, 1) / 2;
}
},
/**
* Returns the x, y coordinate of a point given by a value and a pixel distance
* from center
*/
getPosition: function (value, length) {
return this.postTranslate(
this.isCircular ? this.translate(value) : 0, // #2848
pick(this.isCircular ? length : this.translate(value), this.center[2] / 2) - this.offset
);
},
/**
* Translate from intermediate plotX (angle), plotY (axis.len - radius) to final chart coordinates.
*/
postTranslate: function (angle, radius) {
var chart = this.chart,
center = this.center;
angle = this.startAngleRad + angle;
return {
x: chart.plotLeft + center[0] + Math.cos(angle) * radius,
y: chart.plotTop + center[1] + Math.sin(angle) * radius
};
},
/**
* Find the path for plot bands along the radial axis
*/
getPlotBandPath: function (from, to, options) {
var center = this.center,
startAngleRad = this.startAngleRad,
fullRadius = center[2] / 2,
radii = [
pick(options.outerRadius, '100%'),
options.innerRadius,
pick(options.thickness, 10)
],
percentRegex = /%$/,
start,
end,
open,
isCircular = this.isCircular, // X axis in a polar chart
ret;
// Polygonal plot bands
if (this.options.gridLineInterpolation === 'polygon') {
ret = this.getPlotLinePath(from).concat(this.getPlotLinePath(to, true));
// Circular grid bands
} else {
// Keep within bounds
from = Math.max(from, this.min);
to = Math.min(to, this.max);
// Plot bands on Y axis (radial axis) - inner and outer radius depend on to and from
if (!isCircular) {
radii[0] = this.translate(from);
radii[1] = this.translate(to);
}
// Convert percentages to pixel values
radii = map(radii, function (radius) {
if (percentRegex.test(radius)) {
radius = (pInt(radius, 10) * fullRadius) / 100;
}
return radius;
});
// Handle full circle
if (options.shape === 'circle' || !isCircular) {
start = -Math.PI / 2;
end = Math.PI * 1.5;
open = true;
} else {
start = startAngleRad + this.translate(from);
end = startAngleRad + this.translate(to);
}
ret = this.chart.renderer.symbols.arc(
this.left + center[0],
this.top + center[1],
radii[0],
radii[0],
{
start: Math.min(start, end), // Math is for reversed yAxis (#3606)
end: Math.max(start, end),
innerR: pick(radii[1], radii[0] - radii[2]),
open: open
}
);
}
return ret;
},
/**
* Find the path for plot lines perpendicular to the radial axis.
*/
getPlotLinePath: function (value, reverse) {
var axis = this,
center = axis.center,
chart = axis.chart,
end = axis.getPosition(value),
xAxis,
xy,
tickPositions,
ret;
// Spokes
if (axis.isCircular) {
ret = ['M', center[0] + chart.plotLeft, center[1] + chart.plotTop, 'L', end.x, end.y];
// Concentric circles
} else if (axis.options.gridLineInterpolation === 'circle') {
value = axis.translate(value);
if (value) { // a value of 0 is in the center
ret = axis.getLinePath(0, value);
}
// Concentric polygons
} else {
// Find the X axis in the same pane
each(chart.xAxis, function (a) {
if (a.pane === axis.pane) {
xAxis = a;
}
});
ret = [];
value = axis.translate(value);
tickPositions = xAxis.tickPositions;
if (xAxis.autoConnect) {
tickPositions = tickPositions.concat([tickPositions[0]]);
}
// Reverse the positions for concatenation of polygonal plot bands
if (reverse) {
tickPositions = [].concat(tickPositions).reverse();
}
each(tickPositions, function (pos, i) {
xy = xAxis.getPosition(pos, value);
ret.push(i ? 'L' : 'M', xy.x, xy.y);
});
}
return ret;
},
/**
* Find the position for the axis title, by default inside the gauge
*/
getTitlePosition: function () {
var center = this.center,
chart = this.chart,
titleOptions = this.options.title;
return {
x: chart.plotLeft + center[0] + (titleOptions.x || 0),
y: chart.plotTop + center[1] - ({ high: 0.5, middle: 0.25, low: 0 }[titleOptions.align] *
center[2]) + (titleOptions.y || 0)
};
}
};
/*jslint unparam: false*/
/**
* Override axisProto.init to mix in special axis instance functions and function overrides
*/
wrap(axisProto, 'init', function (proceed, chart, userOptions) {
var axis = this,
angular = chart.angular,
polar = chart.polar,
isX = userOptions.isX,
isHidden = angular && isX,
isCircular,
startAngleRad,
endAngleRad,
options,
chartOptions = chart.options,
paneIndex = userOptions.pane || 0,
pane,
paneOptions;
// Before prototype.init
if (angular) {
extend(this, isHidden ? hiddenAxisMixin : radialAxisMixin);
isCircular = !isX;
if (isCircular) {
this.defaultRadialOptions = this.defaultRadialGaugeOptions;
}
} else if (polar) {
//extend(this, userOptions.isX ? radialAxisMixin : radialAxisMixin);
extend(this, radialAxisMixin);
isCircular = isX;
this.defaultRadialOptions = isX ? this.defaultRadialXOptions : merge(this.defaultYAxisOptions, this.defaultRadialYOptions);
}
// Run prototype.init
proceed.call(this, chart, userOptions);
if (!isHidden && (angular || polar)) {
options = this.options;
// Create the pane and set the pane options.
if (!chart.panes) {
chart.panes = [];
}
this.pane = pane = chart.panes[paneIndex] = chart.panes[paneIndex] || new Pane(
splat(chartOptions.pane)[paneIndex],
chart,
axis
);
paneOptions = pane.options;
// Disable certain features on angular and polar axes
chart.inverted = false;
chartOptions.chart.zoomType = null;
// Start and end angle options are
// given in degrees relative to top, while internal computations are
// in radians relative to right (like SVG).
this.startAngleRad = startAngleRad = (paneOptions.startAngle - 90) * Math.PI / 180;
this.endAngleRad = endAngleRad = (pick(paneOptions.endAngle, paneOptions.startAngle + 360) - 90) * Math.PI / 180;
this.offset = options.offset || 0;
this.isCircular = isCircular;
// Automatically connect grid lines?
if (isCircular && userOptions.max === UNDEFINED && endAngleRad - startAngleRad === 2 * Math.PI) {
this.autoConnect = true;
}
}
});
/**
* Add special cases within the Tick class' methods for radial axes.
*/
wrap(tickProto, 'getPosition', function (proceed, horiz, pos, tickmarkOffset, old) {
var axis = this.axis;
return axis.getPosition ?
axis.getPosition(pos) :
proceed.call(this, horiz, pos, tickmarkOffset, old);
});
/**
* Wrap the getLabelPosition function to find the center position of the label
* based on the distance option
*/
wrap(tickProto, 'getLabelPosition', function (proceed, x, y, label, horiz, labelOptions, tickmarkOffset, index, step) {
var axis = this.axis,
optionsY = labelOptions.y,
ret,
centerSlot = 20, // 20 degrees to each side at the top and bottom
align = labelOptions.align,
angle = ((axis.translate(this.pos) + axis.startAngleRad + Math.PI / 2) / Math.PI * 180) % 360;
if (axis.isRadial) {
ret = axis.getPosition(this.pos, (axis.center[2] / 2) + pick(labelOptions.distance, -25));
// Automatically rotated
if (labelOptions.rotation === 'auto') {
label.attr({
rotation: angle
});
// Vertically centered
} else if (optionsY === null) {
optionsY = axis.chart.renderer.fontMetrics(label.styles.fontSize).b - label.getBBox().height / 2;
}
// Automatic alignment
if (align === null) {
if (axis.isCircular) {
if (this.label.getBBox().width > axis.len * axis.tickInterval / (axis.max - axis.min)) { // #3506
centerSlot = 0;
}
if (angle > centerSlot && angle < 180 - centerSlot) {
align = 'left'; // right hemisphere
} else if (angle > 180 + centerSlot && angle < 360 - centerSlot) {
align = 'right'; // left hemisphere
} else {
align = 'center'; // top or bottom
}
} else {
align = 'center';
}
label.attr({
align: align
});
}
ret.x += labelOptions.x;
ret.y += optionsY;
} else {
ret = proceed.call(this, x, y, label, horiz, labelOptions, tickmarkOffset, index, step);
}
return ret;
});
/**
* Wrap the getMarkPath function to return the path of the radial marker
*/
wrap(tickProto, 'getMarkPath', function (proceed, x, y, tickLength, tickWidth, horiz, renderer) {
var axis = this.axis,
endPoint,
ret;
if (axis.isRadial) {
endPoint = axis.getPosition(this.pos, axis.center[2] / 2 + tickLength);
ret = [
'M',
x,
y,
'L',
endPoint.x,
endPoint.y
];
} else {
ret = proceed.call(this, x, y, tickLength, tickWidth, horiz, renderer);
}
return ret;
});
/*
* The AreaRangeSeries class
*
*/
/**
* Extend the default options with map options
*/
defaultPlotOptions.arearange = merge(defaultPlotOptions.area, {
lineWidth: 1,
marker: null,
threshold: null,
tooltip: {
pointFormat: '\u25CF {series.name}: {point.low} - {point.high} '
},
trackByArea: true,
dataLabels: {
align: null,
verticalAlign: null,
xLow: 0,
xHigh: 0,
yLow: 0,
yHigh: 0
},
states: {
hover: {
halo: false
}
}
});
/**
* Add the series type
*/
seriesTypes.arearange = extendClass(seriesTypes.area, {
type: 'arearange',
pointArrayMap: ['low', 'high'],
dataLabelCollections: ['dataLabel', 'dataLabelUpper'],
toYData: function (point) {
return [point.low, point.high];
},
pointValKey: 'low',
deferTranslatePolar: true,
/**
* Translate a point's plotHigh from the internal angle and radius measures to
* true plotHigh coordinates. This is an addition of the toXY method found in
* Polar.js, because it runs too early for arearanges to be considered (#3419).
*/
highToXY: function (point) {
// Find the polar plotX and plotY
var chart = this.chart,
xy = this.xAxis.postTranslate(point.rectPlotX, this.yAxis.len - point.plotHigh);
point.plotHighX = xy.x - chart.plotLeft;
point.plotHigh = xy.y - chart.plotTop;
},
/**
* Extend getSegments to force null points if the higher value is null. #1703.
*/
getSegments: function () {
var series = this;
each(series.points, function (point) {
if (!series.options.connectNulls && (point.low === null || point.high === null)) {
point.y = null;
} else if (point.low === null && point.high !== null) {
point.y = point.high;
}
});
Series.prototype.getSegments.call(this);
},
/**
* Translate data points from raw values x and y to plotX and plotY
*/
translate: function () {
var series = this,
yAxis = series.yAxis;
seriesTypes.area.prototype.translate.apply(series);
// Set plotLow and plotHigh
each(series.points, function (point) {
var low = point.low,
high = point.high,
plotY = point.plotY;
if (high === null && low === null) {
point.y = null;
} else if (low === null) {
point.plotLow = point.plotY = null;
point.plotHigh = yAxis.translate(high, 0, 1, 0, 1);
} else if (high === null) {
point.plotLow = plotY;
point.plotHigh = null;
} else {
point.plotLow = plotY;
point.plotHigh = yAxis.translate(high, 0, 1, 0, 1);
}
});
// Postprocess plotHigh
if (this.chart.polar) {
each(this.points, function (point) {
series.highToXY(point);
});
}
},
/**
* Extend the line series' getSegmentPath method by applying the segment
* path to both lower and higher values of the range
*/
getSegmentPath: function (segment) {
var lowSegment,
highSegment = [],
i = segment.length,
baseGetSegmentPath = Series.prototype.getSegmentPath,
point,
linePath,
lowerPath,
options = this.options,
step = options.step,
higherPath;
// Remove nulls from low segment
lowSegment = HighchartsAdapter.grep(segment, function (point) {
return point.plotLow !== null;
});
// Make a segment with plotX and plotY for the top values
while (i--) {
point = segment[i];
if (point.plotHigh !== null) {
highSegment.push({
plotX: point.plotHighX || point.plotX, // plotHighX is for polar charts
plotY: point.plotHigh
});
}
}
// Get the paths
lowerPath = baseGetSegmentPath.call(this, lowSegment);
if (step) {
if (step === true) {
step = 'left';
}
options.step = { left: 'right', center: 'center', right: 'left' }[step]; // swap for reading in getSegmentPath
}
higherPath = baseGetSegmentPath.call(this, highSegment);
options.step = step;
// Create a line on both top and bottom of the range
linePath = [].concat(lowerPath, higherPath);
// For the area path, we need to change the 'move' statement into 'lineTo' or 'curveTo'
if (!this.chart.polar) {
higherPath[0] = 'L'; // this probably doesn't work for spline
}
this.areaPath = this.areaPath.concat(lowerPath, higherPath);
return linePath;
},
/**
* Extend the basic drawDataLabels method by running it for both lower and higher
* values.
*/
drawDataLabels: function () {
var data = this.data,
length = data.length,
i,
originalDataLabels = [],
seriesProto = Series.prototype,
dataLabelOptions = this.options.dataLabels,
align = dataLabelOptions.align,
inside = dataLabelOptions.inside,
point,
up,
inverted = this.chart.inverted;
if (dataLabelOptions.enabled || this._hasPointLabels) {
// Step 1: set preliminary values for plotY and dataLabel and draw the upper labels
i = length;
while (i--) {
point = data[i];
if (point) {
up = inside ? point.plotHigh < point.plotLow : point.plotHigh > point.plotLow;
// Set preliminary values
point.y = point.high;
point._plotY = point.plotY;
point.plotY = point.plotHigh;
// Store original data labels and set preliminary label objects to be picked up
// in the uber method
originalDataLabels[i] = point.dataLabel;
point.dataLabel = point.dataLabelUpper;
// Set the default offset
point.below = up;
if (inverted) {
if (!align) {
dataLabelOptions.align = up ? 'right' : 'left';
}
dataLabelOptions.x = dataLabelOptions.xHigh;
} else {
dataLabelOptions.y = dataLabelOptions.yHigh;
}
}
}
if (seriesProto.drawDataLabels) {
seriesProto.drawDataLabels.apply(this, arguments); // #1209
}
// Step 2: reorganize and handle data labels for the lower values
i = length;
while (i--) {
point = data[i];
if (point) {
up = inside ? point.plotHigh < point.plotLow : point.plotHigh > point.plotLow;
// Move the generated labels from step 1, and reassign the original data labels
point.dataLabelUpper = point.dataLabel;
point.dataLabel = originalDataLabels[i];
// Reset values
point.y = point.low;
point.plotY = point._plotY;
// Set the default offset
point.below = !up;
if (inverted) {
if (!align) {
dataLabelOptions.align = up ? 'left' : 'right';
}
dataLabelOptions.x = dataLabelOptions.xLow;
} else {
dataLabelOptions.y = dataLabelOptions.yLow;
}
}
}
if (seriesProto.drawDataLabels) {
seriesProto.drawDataLabels.apply(this, arguments);
}
}
dataLabelOptions.align = align;
},
alignDataLabel: function () {
seriesTypes.column.prototype.alignDataLabel.apply(this, arguments);
},
setStackedPoints: noop,
getSymbol: noop,
drawPoints: noop
});
/**
* The AreaSplineRangeSeries class
*/
defaultPlotOptions.areasplinerange = merge(defaultPlotOptions.arearange);
/**
* AreaSplineRangeSeries object
*/
seriesTypes.areasplinerange = extendClass(seriesTypes.arearange, {
type: 'areasplinerange',
getPointSpline: seriesTypes.spline.prototype.getPointSpline
});
(function () {
var colProto = seriesTypes.column.prototype;
/**
* The ColumnRangeSeries class
*/
defaultPlotOptions.columnrange = merge(defaultPlotOptions.column, defaultPlotOptions.arearange, {
lineWidth: 1,
pointRange: null
});
/**
* ColumnRangeSeries object
*/
seriesTypes.columnrange = extendClass(seriesTypes.arearange, {
type: 'columnrange',
/**
* Translate data points from raw values x and y to plotX and plotY
*/
translate: function () {
var series = this,
yAxis = series.yAxis,
plotHigh;
colProto.translate.apply(series);
// Set plotLow and plotHigh
each(series.points, function (point) {
var shapeArgs = point.shapeArgs,
minPointLength = series.options.minPointLength,
heightDifference,
height,
y;
point.tooltipPos = null; // don't inherit from column
point.plotHigh = plotHigh = yAxis.translate(point.high, 0, 1, 0, 1);
point.plotLow = point.plotY;
// adjust shape
y = plotHigh;
height = point.plotY - plotHigh;
// Adjust for minPointLength
if (Math.abs(height) < minPointLength) {
heightDifference = (minPointLength - height);
height += heightDifference;
y -= heightDifference / 2;
// Adjust for negative ranges or reversed Y axis (#1457)
} else if (height < 0) {
height *= -1;
y -= height;
}
shapeArgs.height = height;
shapeArgs.y = y;
});
},
directTouch: true,
trackerGroups: ['group', 'dataLabelsGroup'],
drawGraph: noop,
crispCol: colProto.crispCol,
pointAttrToOptions: colProto.pointAttrToOptions,
drawPoints: colProto.drawPoints,
drawTracker: colProto.drawTracker,
animate: colProto.animate,
getColumnMetrics: colProto.getColumnMetrics
});
}());
/*
* The GaugeSeries class
*/
/**
* Extend the default options
*/
defaultPlotOptions.gauge = merge(defaultPlotOptions.line, {
dataLabels: {
enabled: true,
defer: false,
y: 15,
borderWidth: 1,
borderColor: 'silver',
borderRadius: 3,
crop: false,
verticalAlign: 'top',
zIndex: 2
},
dial: {
// radius: '80%',
// backgroundColor: 'black',
// borderColor: 'silver',
// borderWidth: 0,
// baseWidth: 3,
// topWidth: 1,
// baseLength: '70%' // of radius
// rearLength: '10%'
},
pivot: {
//radius: 5,
//borderWidth: 0
//borderColor: 'silver',
//backgroundColor: 'black'
},
tooltip: {
headerFormat: ''
},
showInLegend: false
});
/**
* Extend the point object
*/
var GaugePoint = extendClass(Point, {
/**
* Don't do any hover colors or anything
*/
setState: function (state) {
this.state = state;
}
});
/**
* Add the series type
*/
var GaugeSeries = {
type: 'gauge',
pointClass: GaugePoint,
// chart.angular will be set to true when a gauge series is present, and this will
// be used on the axes
angular: true,
drawGraph: noop,
fixedBox: true,
forceDL: true,
trackerGroups: ['group', 'dataLabelsGroup'],
/**
* Calculate paths etc
*/
translate: function () {
var series = this,
yAxis = series.yAxis,
options = series.options,
center = yAxis.center;
series.generatePoints();
each(series.points, function (point) {
var dialOptions = merge(options.dial, point.dial),
radius = (pInt(pick(dialOptions.radius, 80)) * center[2]) / 200,
baseLength = (pInt(pick(dialOptions.baseLength, 70)) * radius) / 100,
rearLength = (pInt(pick(dialOptions.rearLength, 10)) * radius) / 100,
baseWidth = dialOptions.baseWidth || 3,
topWidth = dialOptions.topWidth || 1,
overshoot = options.overshoot,
rotation = yAxis.startAngleRad + yAxis.translate(point.y, null, null, null, true);
// Handle the wrap and overshoot options
if (overshoot && typeof overshoot === 'number') {
overshoot = overshoot / 180 * Math.PI;
rotation = Math.max(yAxis.startAngleRad - overshoot, Math.min(yAxis.endAngleRad + overshoot, rotation));
} else if (options.wrap === false) {
rotation = Math.max(yAxis.startAngleRad, Math.min(yAxis.endAngleRad, rotation));
}
rotation = rotation * 180 / Math.PI;
point.shapeType = 'path';
point.shapeArgs = {
d: dialOptions.path || [
'M',
-rearLength, -baseWidth / 2,
'L',
baseLength, -baseWidth / 2,
radius, -topWidth / 2,
radius, topWidth / 2,
baseLength, baseWidth / 2,
-rearLength, baseWidth / 2,
'z'
],
translateX: center[0],
translateY: center[1],
rotation: rotation
};
// Positions for data label
point.plotX = center[0];
point.plotY = center[1];
});
},
/**
* Draw the points where each point is one needle
*/
drawPoints: function () {
var series = this,
center = series.yAxis.center,
pivot = series.pivot,
options = series.options,
pivotOptions = options.pivot,
renderer = series.chart.renderer;
each(series.points, function (point) {
var graphic = point.graphic,
shapeArgs = point.shapeArgs,
d = shapeArgs.d,
dialOptions = merge(options.dial, point.dial); // #1233
if (graphic) {
graphic.animate(shapeArgs);
shapeArgs.d = d; // animate alters it
} else {
point.graphic = renderer[point.shapeType](shapeArgs)
.attr({
stroke: dialOptions.borderColor || 'none',
'stroke-width': dialOptions.borderWidth || 0,
fill: dialOptions.backgroundColor || 'black',
rotation: shapeArgs.rotation // required by VML when animation is false
})
.add(series.group);
}
});
// Add or move the pivot
if (pivot) {
pivot.animate({ // #1235
translateX: center[0],
translateY: center[1]
});
} else {
series.pivot = renderer.circle(0, 0, pick(pivotOptions.radius, 5))
.attr({
'stroke-width': pivotOptions.borderWidth || 0,
stroke: pivotOptions.borderColor || 'silver',
fill: pivotOptions.backgroundColor || 'black'
})
.translate(center[0], center[1])
.add(series.group);
}
},
/**
* Animate the arrow up from startAngle
*/
animate: function (init) {
var series = this;
if (!init) {
each(series.points, function (point) {
var graphic = point.graphic;
if (graphic) {
// start value
graphic.attr({
rotation: series.yAxis.startAngleRad * 180 / Math.PI
});
// animate
graphic.animate({
rotation: point.shapeArgs.rotation
}, series.options.animation);
}
});
// delete this function to allow it only once
series.animate = null;
}
},
render: function () {
this.group = this.plotGroup(
'group',
'series',
this.visible ? 'visible' : 'hidden',
this.options.zIndex,
this.chart.seriesGroup
);
Series.prototype.render.call(this);
this.group.clip(this.chart.clipRect);
},
/**
* Extend the basic setData method by running processData and generatePoints immediately,
* in order to access the points from the legend.
*/
setData: function (data, redraw) {
Series.prototype.setData.call(this, data, false);
this.processData();
this.generatePoints();
if (pick(redraw, true)) {
this.chart.redraw();
}
},
/**
* If the tracking module is loaded, add the point tracker
*/
drawTracker: TrackerMixin && TrackerMixin.drawTrackerPoint
};
seriesTypes.gauge = extendClass(seriesTypes.line, GaugeSeries);
/* ****************************************************************************
* Start Box plot series code *
*****************************************************************************/
// Set default options
defaultPlotOptions.boxplot = merge(defaultPlotOptions.column, {
fillColor: '#FFFFFF',
lineWidth: 1,
//medianColor: null,
medianWidth: 2,
states: {
hover: {
brightness: -0.3
}
},
//stemColor: null,
//stemDashStyle: 'solid'
//stemWidth: null,
threshold: null,
tooltip: {
pointFormat: '\u25CF {series.name} ' + // docs
'Maximum: {point.high} ' +
'Upper quartile: {point.q3} ' +
'Median: {point.median} ' +
'Lower quartile: {point.q1} ' +
'Minimum: {point.low} '
},
//whiskerColor: null,
whiskerLength: '50%',
whiskerWidth: 2
});
// Create the series object
seriesTypes.boxplot = extendClass(seriesTypes.column, {
type: 'boxplot',
pointArrayMap: ['low', 'q1', 'median', 'q3', 'high'], // array point configs are mapped to this
toYData: function (point) { // return a plain array for speedy calculation
return [point.low, point.q1, point.median, point.q3, point.high];
},
pointValKey: 'high', // defines the top of the tracker
/**
* One-to-one mapping from options to SVG attributes
*/
pointAttrToOptions: { // mapping between SVG attributes and the corresponding options
fill: 'fillColor',
stroke: 'color',
'stroke-width': 'lineWidth'
},
/**
* Disable data labels for box plot
*/
drawDataLabels: noop,
/**
* Translate data points from raw values x and y to plotX and plotY
*/
translate: function () {
var series = this,
yAxis = series.yAxis,
pointArrayMap = series.pointArrayMap;
seriesTypes.column.prototype.translate.apply(series);
// do the translation on each point dimension
each(series.points, function (point) {
each(pointArrayMap, function (key) {
if (point[key] !== null) {
point[key + 'Plot'] = yAxis.translate(point[key], 0, 1, 0, 1);
}
});
});
},
/**
* Draw the data points
*/
drawPoints: function () {
var series = this, //state = series.state,
points = series.points,
options = series.options,
chart = series.chart,
renderer = chart.renderer,
pointAttr,
q1Plot,
q3Plot,
highPlot,
lowPlot,
medianPlot,
crispCorr,
crispX,
graphic,
stemPath,
stemAttr,
boxPath,
whiskersPath,
whiskersAttr,
medianPath,
medianAttr,
width,
left,
right,
halfWidth,
shapeArgs,
color,
doQuartiles = series.doQuartiles !== false, // error bar inherits this series type but doesn't do quartiles
pointWiskerLength,
whiskerLength = series.options.whiskerLength;
each(points, function (point) {
graphic = point.graphic;
shapeArgs = point.shapeArgs; // the box
stemAttr = {};
whiskersAttr = {};
medianAttr = {};
color = point.color || series.color;
if (point.plotY !== UNDEFINED) {
pointAttr = point.pointAttr[point.selected ? 'selected' : ''];
// crisp vector coordinates
width = shapeArgs.width;
left = mathFloor(shapeArgs.x);
right = left + width;
halfWidth = mathRound(width / 2);
//crispX = mathRound(left + halfWidth) + crispCorr;
q1Plot = mathFloor(doQuartiles ? point.q1Plot : point.lowPlot);// + crispCorr;
q3Plot = mathFloor(doQuartiles ? point.q3Plot : point.lowPlot);// + crispCorr;
highPlot = mathFloor(point.highPlot);// + crispCorr;
lowPlot = mathFloor(point.lowPlot);// + crispCorr;
// Stem attributes
stemAttr.stroke = point.stemColor || options.stemColor || color;
stemAttr['stroke-width'] = pick(point.stemWidth, options.stemWidth, options.lineWidth);
stemAttr.dashstyle = point.stemDashStyle || options.stemDashStyle;
// Whiskers attributes
whiskersAttr.stroke = point.whiskerColor || options.whiskerColor || color;
whiskersAttr['stroke-width'] = pick(point.whiskerWidth, options.whiskerWidth, options.lineWidth);
// Median attributes
medianAttr.stroke = point.medianColor || options.medianColor || color;
medianAttr['stroke-width'] = pick(point.medianWidth, options.medianWidth, options.lineWidth);
// The stem
crispCorr = (stemAttr['stroke-width'] % 2) / 2;
crispX = left + halfWidth + crispCorr;
stemPath = [
// stem up
'M',
crispX, q3Plot,
'L',
crispX, highPlot,
// stem down
'M',
crispX, q1Plot,
'L',
crispX, lowPlot
];
// The box
if (doQuartiles) {
crispCorr = (pointAttr['stroke-width'] % 2) / 2;
crispX = mathFloor(crispX) + crispCorr;
q1Plot = mathFloor(q1Plot) + crispCorr;
q3Plot = mathFloor(q3Plot) + crispCorr;
left += crispCorr;
right += crispCorr;
boxPath = [
'M',
left, q3Plot,
'L',
left, q1Plot,
'L',
right, q1Plot,
'L',
right, q3Plot,
'L',
left, q3Plot,
'z'
];
}
// The whiskers
if (whiskerLength) {
crispCorr = (whiskersAttr['stroke-width'] % 2) / 2;
highPlot = highPlot + crispCorr;
lowPlot = lowPlot + crispCorr;
pointWiskerLength = (/%$/).test(whiskerLength) ? halfWidth * parseFloat(whiskerLength) / 100 : whiskerLength / 2;
whiskersPath = [
// High whisker
'M',
crispX - pointWiskerLength,
highPlot,
'L',
crispX + pointWiskerLength,
highPlot,
// Low whisker
'M',
crispX - pointWiskerLength,
lowPlot,
'L',
crispX + pointWiskerLength,
lowPlot
];
}
// The median
crispCorr = (medianAttr['stroke-width'] % 2) / 2;
medianPlot = mathRound(point.medianPlot) + crispCorr;
medianPath = [
'M',
left,
medianPlot,
'L',
right,
medianPlot
];
// Create or update the graphics
if (graphic) { // update
point.stem.animate({ d: stemPath });
if (whiskerLength) {
point.whiskers.animate({ d: whiskersPath });
}
if (doQuartiles) {
point.box.animate({ d: boxPath });
}
point.medianShape.animate({ d: medianPath });
} else { // create new
point.graphic = graphic = renderer.g()
.add(series.group);
point.stem = renderer.path(stemPath)
.attr(stemAttr)
.add(graphic);
if (whiskerLength) {
point.whiskers = renderer.path(whiskersPath)
.attr(whiskersAttr)
.add(graphic);
}
if (doQuartiles) {
point.box = renderer.path(boxPath)
.attr(pointAttr)
.add(graphic);
}
point.medianShape = renderer.path(medianPath)
.attr(medianAttr)
.add(graphic);
}
}
});
},
setStackedPoints: noop // #3890
});
/* ****************************************************************************
* End Box plot series code *
*****************************************************************************/
/* ****************************************************************************
* Start error bar series code *
*****************************************************************************/
// 1 - set default options
defaultPlotOptions.errorbar = merge(defaultPlotOptions.boxplot, {
color: '#000000',
grouping: false,
linkedTo: ':previous',
tooltip: {
pointFormat: '\u25CF {series.name}: {point.low} - {point.high} ' // docs
},
whiskerWidth: null
});
// 2 - Create the series object
seriesTypes.errorbar = extendClass(seriesTypes.boxplot, {
type: 'errorbar',
pointArrayMap: ['low', 'high'], // array point configs are mapped to this
toYData: function (point) { // return a plain array for speedy calculation
return [point.low, point.high];
},
pointValKey: 'high', // defines the top of the tracker
doQuartiles: false,
drawDataLabels: seriesTypes.arearange ? seriesTypes.arearange.prototype.drawDataLabels : noop,
/**
* Get the width and X offset, either on top of the linked series column
* or standalone
*/
getColumnMetrics: function () {
return (this.linkedParent && this.linkedParent.columnMetrics) ||
seriesTypes.column.prototype.getColumnMetrics.call(this);
}
});
/* ****************************************************************************
* End error bar series code *
*****************************************************************************/
/* ****************************************************************************
* Start Waterfall series code *
*****************************************************************************/
// 1 - set default options
defaultPlotOptions.waterfall = merge(defaultPlotOptions.column, {
lineWidth: 1,
lineColor: '#333',
dashStyle: 'dot',
borderColor: '#333',
dataLabels: {
inside: true
},
states: {
hover: {
lineWidthPlus: 0 // #3126
}
}
});
// 2 - Create the series object
seriesTypes.waterfall = extendClass(seriesTypes.column, {
type: 'waterfall',
upColorProp: 'fill',
pointValKey: 'y',
/**
* Translate data points from raw values
*/
translate: function () {
var series = this,
options = series.options,
yAxis = series.yAxis,
len,
i,
points,
point,
shapeArgs,
stack,
y,
yValue,
previousY,
previousIntermediate,
range,
threshold = options.threshold,
stacking = options.stacking,
tooltipY;
// run column series translate
seriesTypes.column.prototype.translate.apply(this);
previousY = previousIntermediate = threshold;
points = series.points;
for (i = 0, len = points.length; i < len; i++) {
// cache current point object
point = points[i];
yValue = this.processedYData[i];
shapeArgs = point.shapeArgs;
// get current stack
stack = stacking && yAxis.stacks[(series.negStacks && yValue < threshold ? '-' : '') + series.stackKey];
range = stack ?
stack[point.x].points[series.index + ',' + i] :
[0, yValue];
// override point value for sums
// #3710 Update point does not propagate to sum
if (point.isSum) {
point.y = yValue;
} else if (point.isIntermediateSum) {
point.y = yValue - previousIntermediate; // #3840
}
// up points
y = mathMax(previousY, previousY + point.y) + range[0];
shapeArgs.y = yAxis.translate(y, 0, 1);
// sum points
if (point.isSum) {
shapeArgs.y = yAxis.translate(range[1], 0, 1);
shapeArgs.height = Math.min(yAxis.translate(range[0], 0, 1), yAxis.len) - shapeArgs.y; // #4256
} else if (point.isIntermediateSum) {
shapeArgs.y = yAxis.translate(range[1], 0, 1);
shapeArgs.height = Math.min(yAxis.translate(previousIntermediate, 0, 1), yAxis.len) - shapeArgs.y;
previousIntermediate = range[1];
// If it's not the sum point, update previous stack end position and get
// shape height (#3886)
} else {
if (previousY !== 0) { // Not the first point
shapeArgs.height = yValue > 0 ?
yAxis.translate(previousY, 0, 1) - shapeArgs.y :
yAxis.translate(previousY, 0, 1) - yAxis.translate(previousY - yValue, 0, 1);
}
previousY += yValue;
}
// #3952 Negative sum or intermediate sum not rendered correctly
if (shapeArgs.height < 0) {
shapeArgs.y += shapeArgs.height;
shapeArgs.height *= -1;
}
point.plotY = shapeArgs.y = mathRound(shapeArgs.y) - (series.borderWidth % 2) / 2;
shapeArgs.height = mathMax(mathRound(shapeArgs.height), 0.001); // #3151
point.yBottom = shapeArgs.y + shapeArgs.height;
// Correct tooltip placement (#3014)
tooltipY = point.plotY + (point.negative ? shapeArgs.height : 0);
if (series.chart.inverted) {
point.tooltipPos[0] = yAxis.len - tooltipY;
} else {
point.tooltipPos[1] = tooltipY;
}
}
},
/**
* Call default processData then override yData to reflect waterfall's extremes on yAxis
*/
processData: function (force) {
var series = this,
options = series.options,
yData = series.yData,
points = series.options.data, // #3710 Update point does not propagate to sum
point,
dataLength = yData.length,
threshold = options.threshold || 0,
subSum,
sum,
dataMin,
dataMax,
y,
i;
sum = subSum = dataMin = dataMax = threshold;
for (i = 0; i < dataLength; i++) {
y = yData[i];
point = points && points[i] ? points[i] : {};
if (y === "sum" || point.isSum) {
yData[i] = sum;
} else if (y === "intermediateSum" || point.isIntermediateSum) {
yData[i] = subSum;
} else {
sum += y;
subSum += y;
}
dataMin = Math.min(sum, dataMin);
dataMax = Math.max(sum, dataMax);
}
Series.prototype.processData.call(this, force);
// Record extremes
series.dataMin = dataMin;
series.dataMax = dataMax;
},
/**
* Return y value or string if point is sum
*/
toYData: function (pt) {
if (pt.isSum) {
return (pt.x === 0 ? null : "sum"); //#3245 Error when first element is Sum or Intermediate Sum
} else if (pt.isIntermediateSum) {
return (pt.x === 0 ? null : "intermediateSum"); //#3245
}
return pt.y;
},
/**
* Postprocess mapping between options and SVG attributes
*/
getAttribs: function () {
seriesTypes.column.prototype.getAttribs.apply(this, arguments);
var series = this,
options = series.options,
stateOptions = options.states,
upColor = options.upColor || series.color,
hoverColor = Highcharts.Color(upColor).brighten(0.1).get(),
seriesDownPointAttr = merge(series.pointAttr),
upColorProp = series.upColorProp;
seriesDownPointAttr[''][upColorProp] = upColor;
seriesDownPointAttr.hover[upColorProp] = stateOptions.hover.upColor || hoverColor;
seriesDownPointAttr.select[upColorProp] = stateOptions.select.upColor || upColor;
each(series.points, function (point) {
if (!point.options.color) {
// Up color
if (point.y > 0) {
point.pointAttr = seriesDownPointAttr;
point.color = upColor;
// Down color (#3710, update to negative)
} else {
point.pointAttr = series.pointAttr;
}
}
});
},
/**
* Draw columns' connector lines
*/
getGraphPath: function () {
var data = this.data,
length = data.length,
lineWidth = this.options.lineWidth + this.borderWidth,
normalizer = mathRound(lineWidth) % 2 / 2,
path = [],
M = 'M',
L = 'L',
prevArgs,
pointArgs,
i,
d;
for (i = 1; i < length; i++) {
pointArgs = data[i].shapeArgs;
prevArgs = data[i - 1].shapeArgs;
d = [
M,
prevArgs.x + prevArgs.width, prevArgs.y + normalizer,
L,
pointArgs.x, prevArgs.y + normalizer
];
if (data[i - 1].y < 0) {
d[2] += prevArgs.height;
d[5] += prevArgs.height;
}
path = path.concat(d);
}
return path;
},
/**
* Extremes are recorded in processData
*/
getExtremes: noop,
drawGraph: Series.prototype.drawGraph
});
/* ****************************************************************************
* End Waterfall series code *
*****************************************************************************/
/* ****************************************************************************
* Start Bubble series code *
*****************************************************************************/
// 1 - set default options
defaultPlotOptions.bubble = merge(defaultPlotOptions.scatter, {
dataLabels: {
formatter: function () { // #2945
return this.point.z;
},
inside: true,
verticalAlign: 'middle'
},
// displayNegative: true,
marker: {
// fillOpacity: 0.5,
lineColor: null, // inherit from series.color
lineWidth: 1
},
minSize: 8,
maxSize: '20%',
// negativeColor: null,
// sizeBy: 'area'
softThreshold: false,
states: {
hover: {
halo: {
size: 5
}
}
},
tooltip: {
pointFormat: '({point.x}, {point.y}), Size: {point.z}'
},
turboThreshold: 0,
zThreshold: 0,
zoneAxis: 'z'
});
var BubblePoint = extendClass(Point, {
haloPath: function () {
return Point.prototype.haloPath.call(this, this.shapeArgs.r + this.series.options.states.hover.halo.size);
},
ttBelow: false
});
// 2 - Create the series object
seriesTypes.bubble = extendClass(seriesTypes.scatter, {
type: 'bubble',
pointClass: BubblePoint,
pointArrayMap: ['y', 'z'],
parallelArrays: ['x', 'y', 'z'],
trackerGroups: ['group', 'dataLabelsGroup'],
bubblePadding: true,
zoneAxis: 'z',
/**
* Mapping between SVG attributes and the corresponding options
*/
pointAttrToOptions: {
stroke: 'lineColor',
'stroke-width': 'lineWidth',
fill: 'fillColor'
},
/**
* Apply the fillOpacity to all fill positions
*/
applyOpacity: function (fill) {
var markerOptions = this.options.marker,
fillOpacity = pick(markerOptions.fillOpacity, 0.5);
// When called from Legend.colorizeItem, the fill isn't predefined
fill = fill || markerOptions.fillColor || this.color;
if (fillOpacity !== 1) {
fill = Color(fill).setOpacity(fillOpacity).get('rgba');
}
return fill;
},
/**
* Extend the convertAttribs method by applying opacity to the fill
*/
convertAttribs: function () {
var obj = Series.prototype.convertAttribs.apply(this, arguments);
obj.fill = this.applyOpacity(obj.fill);
return obj;
},
/**
* Get the radius for each point based on the minSize, maxSize and each point's Z value. This
* must be done prior to Series.translate because the axis needs to add padding in
* accordance with the point sizes.
*/
getRadii: function (zMin, zMax, minSize, maxSize) {
var len,
i,
pos,
zData = this.zData,
radii = [],
options = this.options,
sizeByArea = options.sizeBy !== 'width',
zThreshold = options.zThreshold,
zRange = zMax - zMin,
value,
radius;
// Set the shape type and arguments to be picked up in drawPoints
for (i = 0, len = zData.length; i < len; i++) {
value = zData[i];
// When sizing by threshold, the absolute value of z determines the size
// of the bubble.
if (options.sizeByAbsoluteValue) {
value = Math.abs(value - zThreshold);
zMax = Math.max(zMax - zThreshold, Math.abs(zMin - zThreshold));
zMin = 0;
}
if (value === null) {
radius = null;
// Issue #4419 - if value is less than zMin, push a radius that's always smaller than the minimum size
} else if (value < zMin) {
radius = minSize / 2 - 1;
} else {
// Relative size, a number between 0 and 1
pos = zRange > 0 ? (value - zMin) / zRange : 0.5;
if (sizeByArea && pos >= 0) {
pos = Math.sqrt(pos);
}
radius = math.ceil(minSize + pos * (maxSize - minSize)) / 2;
}
radii.push(radius);
}
this.radii = radii;
},
/**
* Perform animation on the bubbles
*/
animate: function (init) {
var animation = this.options.animation;
if (!init) { // run the animation
each(this.points, function (point) {
var graphic = point.graphic,
shapeArgs = point.shapeArgs;
if (graphic && shapeArgs) {
// start values
graphic.attr('r', 1);
// animate
graphic.animate({
r: shapeArgs.r
}, animation);
}
});
// delete this function to allow it only once
this.animate = null;
}
},
/**
* Extend the base translate method to handle bubble size
*/
translate: function () {
var i,
data = this.data,
point,
radius,
radii = this.radii;
// Run the parent method
seriesTypes.scatter.prototype.translate.call(this);
// Set the shape type and arguments to be picked up in drawPoints
i = data.length;
while (i--) {
point = data[i];
radius = radii ? radii[i] : 0; // #1737
if (typeof radius === 'number' && radius >= this.minPxSize / 2) {
// Shape arguments
point.shapeType = 'circle';
point.shapeArgs = {
x: point.plotX,
y: point.plotY,
r: radius
};
// Alignment box for the data label
point.dlBox = {
x: point.plotX - radius,
y: point.plotY - radius,
width: 2 * radius,
height: 2 * radius
};
} else { // below zThreshold or z = null
point.shapeArgs = point.plotY = point.dlBox = UNDEFINED; // #1691
}
}
},
/**
* Get the series' symbol in the legend
*
* @param {Object} legend The legend object
* @param {Object} item The series (this) or point
*/
drawLegendSymbol: function (legend, item) {
var radius = pInt(legend.itemStyle.fontSize) / 2;
item.legendSymbol = this.chart.renderer.circle(
radius,
legend.baseline - radius,
radius
).attr({
zIndex: 3
}).add(item.legendGroup);
item.legendSymbol.isMarker = true;
},
drawPoints: seriesTypes.column.prototype.drawPoints,
alignDataLabel: seriesTypes.column.prototype.alignDataLabel,
buildKDTree: noop,
applyZones: noop
});
/**
* Add logic to pad each axis with the amount of pixels
* necessary to avoid the bubbles to overflow.
*/
Axis.prototype.beforePadding = function () {
var axis = this,
axisLength = this.len,
chart = this.chart,
pxMin = 0,
pxMax = axisLength,
isXAxis = this.isXAxis,
dataKey = isXAxis ? 'xData' : 'yData',
min = this.min,
extremes = {},
smallestSize = math.min(chart.plotWidth, chart.plotHeight),
zMin = Number.MAX_VALUE,
zMax = -Number.MAX_VALUE,
range = this.max - min,
transA = axisLength / range,
activeSeries = [];
// Handle padding on the second pass, or on redraw
each(this.series, function (series) {
var seriesOptions = series.options,
zData;
if (series.bubblePadding && (series.visible || !chart.options.chart.ignoreHiddenSeries)) {
// Correction for #1673
axis.allowZoomOutside = true;
// Cache it
activeSeries.push(series);
if (isXAxis) { // because X axis is evaluated first
// For each series, translate the size extremes to pixel values
each(['minSize', 'maxSize'], function (prop) {
var length = seriesOptions[prop],
isPercent = /%$/.test(length);
length = pInt(length);
extremes[prop] = isPercent ?
smallestSize * length / 100 :
length;
});
series.minPxSize = extremes.minSize;
series.maxPxSize = extremes.maxSize;
// Find the min and max Z
zData = series.zData;
if (zData.length) { // #1735
zMin = pick(seriesOptions.zMin, math.min(
zMin,
math.max(
arrayMin(zData),
seriesOptions.displayNegative === false ? seriesOptions.zThreshold : -Number.MAX_VALUE
)
));
zMax = pick(seriesOptions.zMax, math.max(zMax, arrayMax(zData)));
}
}
}
});
each(activeSeries, function (series) {
var data = series[dataKey],
i = data.length,
radius;
if (isXAxis) {
series.getRadii(zMin, zMax, series.minPxSize, series.maxPxSize);
}
if (range > 0) {
while (i--) {
if (typeof data[i] === 'number') {
radius = series.radii[i];
pxMin = Math.min(((data[i] - min) * transA) - radius, pxMin);
pxMax = Math.max(((data[i] - min) * transA) + radius, pxMax);
}
}
}
});
if (activeSeries.length && range > 0 && !this.isLog) {
pxMax -= axisLength;
transA *= (axisLength + pxMin - pxMax) / axisLength;
each([['min', 'userMin', pxMin], ['max', 'userMax', pxMax]], function (keys) {
if (pick(axis.options[keys[0]], axis[keys[1]]) === UNDEFINED) {
axis[keys[0]] += keys[2] / transA;
}
});
}
};
/* ****************************************************************************
* End Bubble series code *
*****************************************************************************/
(function () {
/**
* Extensions for polar charts. Additionally, much of the geometry required for polar charts is
* gathered in RadialAxes.js.
*
*/
var seriesProto = Series.prototype,
pointerProto = Pointer.prototype,
colProto;
/**
* Search a k-d tree by the point angle, used for shared tooltips in polar charts
*/
seriesProto.searchPointByAngle = function (e) {
var series = this,
chart = series.chart,
xAxis = series.xAxis,
center = xAxis.pane.center,
plotX = e.chartX - center[0] - chart.plotLeft,
plotY = e.chartY - center[1] - chart.plotTop;
return this.searchKDTree({
clientX: 180 + (Math.atan2(plotX, plotY) * (-180 / Math.PI))
});
};
/**
* Wrap the buildKDTree function so that it searches by angle (clientX) in case of shared tooltip,
* and by two dimensional distance in case of non-shared.
*/
wrap(seriesProto, 'buildKDTree', function (proceed) {
if (this.chart.polar) {
if (this.kdByAngle) {
this.searchPoint = this.searchPointByAngle;
} else {
this.kdDimensions = 2;
}
}
proceed.apply(this);
});
/**
* Translate a point's plotX and plotY from the internal angle and radius measures to
* true plotX, plotY coordinates
*/
seriesProto.toXY = function (point) {
var xy,
chart = this.chart,
plotX = point.plotX,
plotY = point.plotY,
clientX;
// Save rectangular plotX, plotY for later computation
point.rectPlotX = plotX;
point.rectPlotY = plotY;
// Find the polar plotX and plotY
xy = this.xAxis.postTranslate(point.plotX, this.yAxis.len - plotY);
point.plotX = point.polarPlotX = xy.x - chart.plotLeft;
point.plotY = point.polarPlotY = xy.y - chart.plotTop;
// If shared tooltip, record the angle in degrees in order to align X points. Otherwise,
// use a standard k-d tree to get the nearest point in two dimensions.
if (this.kdByAngle) {
clientX = ((plotX / Math.PI * 180) + this.xAxis.pane.options.startAngle) % 360;
if (clientX < 0) { // #2665
clientX += 360;
}
point.clientX = clientX;
} else {
point.clientX = point.plotX;
}
};
/**
* Add some special init logic to areas and areasplines
*/
function initArea(proceed, chart, options) {
proceed.call(this, chart, options);
if (this.chart.polar) {
/**
* Overridden method to close a segment path. While in a cartesian plane the area
* goes down to the threshold, in the polar chart it goes to the center.
*/
this.closeSegment = function (path) {
var center = this.xAxis.center;
path.push(
'L',
center[0],
center[1]
);
};
// Instead of complicated logic to draw an area around the inner area in a stack,
// just draw it behind
this.closedStacks = true;
}
}
if (seriesTypes.area) {
wrap(seriesTypes.area.prototype, 'init', initArea);
}
if (seriesTypes.areaspline) {
wrap(seriesTypes.areaspline.prototype, 'init', initArea);
}
if (seriesTypes.spline) {
/**
* Overridden method for calculating a spline from one point to the next
*/
wrap(seriesTypes.spline.prototype, 'getPointSpline', function (proceed, segment, point, i) {
var ret,
smoothing = 1.5, // 1 means control points midway between points, 2 means 1/3 from the point, 3 is 1/4 etc;
denom = smoothing + 1,
plotX,
plotY,
lastPoint,
nextPoint,
lastX,
lastY,
nextX,
nextY,
leftContX,
leftContY,
rightContX,
rightContY,
distanceLeftControlPoint,
distanceRightControlPoint,
leftContAngle,
rightContAngle,
jointAngle;
if (this.chart.polar) {
plotX = point.plotX;
plotY = point.plotY;
lastPoint = segment[i - 1];
nextPoint = segment[i + 1];
// Connect ends
if (this.connectEnds) {
if (!lastPoint) {
lastPoint = segment[segment.length - 2]; // not the last but the second last, because the segment is already connected
}
if (!nextPoint) {
nextPoint = segment[1];
}
}
// find control points
if (lastPoint && nextPoint) {
lastX = lastPoint.plotX;
lastY = lastPoint.plotY;
nextX = nextPoint.plotX;
nextY = nextPoint.plotY;
leftContX = (smoothing * plotX + lastX) / denom;
leftContY = (smoothing * plotY + lastY) / denom;
rightContX = (smoothing * plotX + nextX) / denom;
rightContY = (smoothing * plotY + nextY) / denom;
distanceLeftControlPoint = Math.sqrt(Math.pow(leftContX - plotX, 2) + Math.pow(leftContY - plotY, 2));
distanceRightControlPoint = Math.sqrt(Math.pow(rightContX - plotX, 2) + Math.pow(rightContY - plotY, 2));
leftContAngle = Math.atan2(leftContY - plotY, leftContX - plotX);
rightContAngle = Math.atan2(rightContY - plotY, rightContX - plotX);
jointAngle = (Math.PI / 2) + ((leftContAngle + rightContAngle) / 2);
// Ensure the right direction, jointAngle should be in the same quadrant as leftContAngle
if (Math.abs(leftContAngle - jointAngle) > Math.PI / 2) {
jointAngle -= Math.PI;
}
// Find the corrected control points for a spline straight through the point
leftContX = plotX + Math.cos(jointAngle) * distanceLeftControlPoint;
leftContY = plotY + Math.sin(jointAngle) * distanceLeftControlPoint;
rightContX = plotX + Math.cos(Math.PI + jointAngle) * distanceRightControlPoint;
rightContY = plotY + Math.sin(Math.PI + jointAngle) * distanceRightControlPoint;
// Record for drawing in next point
point.rightContX = rightContX;
point.rightContY = rightContY;
}
// moveTo or lineTo
if (!i) {
ret = ['M', plotX, plotY];
} else { // curve from last point to this
ret = [
'C',
lastPoint.rightContX || lastPoint.plotX,
lastPoint.rightContY || lastPoint.plotY,
leftContX || plotX,
leftContY || plotY,
plotX,
plotY
];
lastPoint.rightContX = lastPoint.rightContY = null; // reset for updating series later
}
} else {
ret = proceed.call(this, segment, point, i);
}
return ret;
});
}
/**
* Extend translate. The plotX and plotY values are computed as if the polar chart were a
* cartesian plane, where plotX denotes the angle in radians and (yAxis.len - plotY) is the pixel distance from
* center.
*/
wrap(seriesProto, 'translate', function (proceed) {
var chart = this.chart,
points,
i;
// Run uber method
proceed.call(this);
// Postprocess plot coordinates
if (chart.polar) {
this.kdByAngle = chart.tooltip && chart.tooltip.shared;
if (!this.preventPostTranslate) {
points = this.points;
i = points.length;
while (i--) {
// Translate plotX, plotY from angle and radius to true plot coordinates
this.toXY(points[i]);
}
}
}
});
/**
* Extend getSegmentPath to allow connecting ends across 0 to provide a closed circle in
* line-like series.
*/
wrap(seriesProto, 'getSegmentPath', function (proceed, segment) {
var points = this.points;
// Connect the path
if (this.chart.polar && this.options.connectEnds !== false &&
segment[segment.length - 1] === points[points.length - 1] && points[0].y !== null) {
this.connectEnds = true; // re-used in splines
segment = [].concat(segment, [points[0]]);
}
// Run uber method
return proceed.call(this, segment);
});
function polarAnimate(proceed, init) {
var chart = this.chart,
animation = this.options.animation,
group = this.group,
markerGroup = this.markerGroup,
center = this.xAxis.center,
plotLeft = chart.plotLeft,
plotTop = chart.plotTop,
attribs;
// Specific animation for polar charts
if (chart.polar) {
// Enable animation on polar charts only in SVG. In VML, the scaling is different, plus animation
// would be so slow it would't matter.
if (chart.renderer.isSVG) {
if (animation === true) {
animation = {};
}
// Initialize the animation
if (init) {
// Scale down the group and place it in the center
attribs = {
translateX: center[0] + plotLeft,
translateY: center[1] + plotTop,
scaleX: 0.001, // #1499
scaleY: 0.001
};
group.attr(attribs);
if (markerGroup) {
//markerGroup.attrSetters = group.attrSetters;
markerGroup.attr(attribs);
}
// Run the animation
} else {
attribs = {
translateX: plotLeft,
translateY: plotTop,
scaleX: 1,
scaleY: 1
};
group.animate(attribs, animation);
if (markerGroup) {
markerGroup.animate(attribs, animation);
}
// Delete this function to allow it only once
this.animate = null;
}
}
// For non-polar charts, revert to the basic animation
} else {
proceed.call(this, init);
}
}
// Define the animate method for regular series
wrap(seriesProto, 'animate', polarAnimate);
if (seriesTypes.column) {
colProto = seriesTypes.column.prototype;
/**
* Define the animate method for columnseries
*/
wrap(colProto, 'animate', polarAnimate);
/**
* Extend the column prototype's translate method
*/
wrap(colProto, 'translate', function (proceed) {
var xAxis = this.xAxis,
len = this.yAxis.len,
center = xAxis.center,
startAngleRad = xAxis.startAngleRad,
renderer = this.chart.renderer,
start,
points,
point,
i;
this.preventPostTranslate = true;
// Run uber method
proceed.call(this);
// Postprocess plot coordinates
if (xAxis.isRadial) {
points = this.points;
i = points.length;
while (i--) {
point = points[i];
start = point.barX + startAngleRad;
point.shapeType = 'path';
point.shapeArgs = {
d: renderer.symbols.arc(
center[0],
center[1],
len - point.plotY,
null,
{
start: start,
end: start + point.pointWidth,
innerR: len - pick(point.yBottom, len)
}
)
};
// Provide correct plotX, plotY for tooltip
this.toXY(point);
point.tooltipPos = [point.plotX, point.plotY];
point.ttBelow = point.plotY > center[1];
}
}
});
/**
* Align column data labels outside the columns. #1199.
*/
wrap(colProto, 'alignDataLabel', function (proceed, point, dataLabel, options, alignTo, isNew) {
if (this.chart.polar) {
var angle = point.rectPlotX / Math.PI * 180,
align,
verticalAlign;
// Align nicely outside the perimeter of the columns
if (options.align === null) {
if (angle > 20 && angle < 160) {
align = 'left'; // right hemisphere
} else if (angle > 200 && angle < 340) {
align = 'right'; // left hemisphere
} else {
align = 'center'; // top or bottom
}
options.align = align;
}
if (options.verticalAlign === null) {
if (angle < 45 || angle > 315) {
verticalAlign = 'bottom'; // top part
} else if (angle > 135 && angle < 225) {
verticalAlign = 'top'; // bottom part
} else {
verticalAlign = 'middle'; // left or right
}
options.verticalAlign = verticalAlign;
}
seriesProto.alignDataLabel.call(this, point, dataLabel, options, alignTo, isNew);
} else {
proceed.call(this, point, dataLabel, options, alignTo, isNew);
}
});
}
/**
* Extend getCoordinates to prepare for polar axis values
*/
wrap(pointerProto, 'getCoordinates', function (proceed, e) {
var chart = this.chart,
ret = {
xAxis: [],
yAxis: []
};
if (chart.polar) {
each(chart.axes, function (axis) {
var isXAxis = axis.isXAxis,
center = axis.center,
x = e.chartX - center[0] - chart.plotLeft,
y = e.chartY - center[1] - chart.plotTop;
ret[isXAxis ? 'xAxis' : 'yAxis'].push({
axis: axis,
value: axis.translate(
isXAxis ?
Math.PI - Math.atan2(x, y) : // angle
Math.sqrt(Math.pow(x, 2) + Math.pow(y, 2)), // distance from center
true
)
});
});
} else {
ret = proceed.call(this, e);
}
return ret;
});
}());
// global variables
extend(Highcharts, {
// Constructors
Color: Color,
Point: Point,
Tick: Tick,
Renderer: Renderer,
SVGElement: SVGElement,
SVGRenderer: SVGRenderer,
// Various
arrayMin: arrayMin,
arrayMax: arrayMax,
charts: charts,
dateFormat: dateFormat,
error: error,
format: format,
pathAnim: pathAnim,
getOptions: getOptions,
hasBidiBug: hasBidiBug,
isTouchDevice: isTouchDevice,
setOptions: setOptions,
addEvent: addEvent,
removeEvent: removeEvent,
createElement: createElement,
discardElement: discardElement,
css: css,
each: each,
map: map,
merge: merge,
splat: splat,
extendClass: extendClass,
pInt: pInt,
svg: hasSVG,
canvas: useCanVG,
vml: !hasSVG && !useCanVG,
product: PRODUCT,
version: VERSION
});
}());
/**
* @license
* Highcharts funnel module
*
* (c) 2010-2014 Torstein Honsi
*
* License: www.highcharts.com/license
*/
/*global Highcharts */
(function (Highcharts) {
'use strict';
// create shortcuts
var defaultOptions = Highcharts.getOptions(),
defaultPlotOptions = defaultOptions.plotOptions,
seriesTypes = Highcharts.seriesTypes,
merge = Highcharts.merge,
noop = function () {},
each = Highcharts.each,
pick = Highcharts.pick;
// set default options
defaultPlotOptions.funnel = merge(defaultPlotOptions.pie, {
animation: false,
center: ['50%', '50%'],
width: '90%',
neckWidth: '30%',
height: '100%',
neckHeight: '25%',
reversed: false,
dataLabels: {
//position: 'right',
connectorWidth: 1,
connectorColor: '#606060'
},
size: true, // to avoid adapting to data label size in Pie.drawDataLabels
states: {
select: {
color: '#C0C0C0',
borderColor: '#000000',
shadow: false
}
}
});
seriesTypes.funnel = Highcharts.extendClass(seriesTypes.pie, {
type: 'funnel',
animate: noop,
/**
* Overrides the pie translate method
*/
translate: function () {
var
// Get positions - either an integer or a percentage string must be given
getLength = function (length, relativeTo) {
return (/%$/).test(length) ?
relativeTo * parseInt(length, 10) / 100 :
parseInt(length, 10);
},
sum = 0,
series = this,
chart = series.chart,
options = series.options,
reversed = options.reversed,
ignoreHiddenPoint = options.ignoreHiddenPoint,
plotWidth = chart.plotWidth,
plotHeight = chart.plotHeight,
cumulative = 0, // start at top
center = options.center,
centerX = getLength(center[0], plotWidth),
centerY = getLength(center[1], plotHeight),
width = getLength(options.width, plotWidth),
tempWidth,
getWidthAt,
height = getLength(options.height, plotHeight),
neckWidth = getLength(options.neckWidth, plotWidth),
neckHeight = getLength(options.neckHeight, plotHeight),
neckY = height - neckHeight,
data = series.data,
path,
fraction,
half = options.dataLabels.position === 'left' ? 1 : 0,
x1,
y1,
x2,
x3,
y3,
x4,
y5;
// Return the width at a specific y coordinate
series.getWidthAt = getWidthAt = function (y) {
return y > height - neckHeight || height === neckHeight ?
neckWidth :
neckWidth + (width - neckWidth) * ((height - neckHeight - y) / (height - neckHeight));
};
series.getX = function (y, half) {
return centerX + (half ? -1 : 1) * ((getWidthAt(reversed ? plotHeight - y : y) / 2) + options.dataLabels.distance);
};
// Expose
series.center = [centerX, centerY, height];
series.centerX = centerX;
/*
* Individual point coordinate naming:
*
* x1,y1 _________________ x2,y1
* \ /
* \ /
* \ /
* \ /
* \ /
* x3,y3 _________ x4,y3
*
* Additional for the base of the neck:
*
* | |
* | |
* | |
* x3,y5 _________ x4,y5
*/
// get the total sum
each(data, function (point) {
if (!ignoreHiddenPoint || point.visible !== false) {
sum += point.y;
}
});
each(data, function (point) {
// set start and end positions
y5 = null;
fraction = sum ? point.y / sum : 0;
y1 = centerY - height / 2 + cumulative * height;
y3 = y1 + fraction * height;
//tempWidth = neckWidth + (width - neckWidth) * ((height - neckHeight - y1) / (height - neckHeight));
tempWidth = getWidthAt(y1);
x1 = centerX - tempWidth / 2;
x2 = x1 + tempWidth;
tempWidth = getWidthAt(y3);
x3 = centerX - tempWidth / 2;
x4 = x3 + tempWidth;
// the entire point is within the neck
if (y1 > neckY) {
x1 = x3 = centerX - neckWidth / 2;
x2 = x4 = centerX + neckWidth / 2;
// the base of the neck
} else if (y3 > neckY) {
y5 = y3;
tempWidth = getWidthAt(neckY);
x3 = centerX - tempWidth / 2;
x4 = x3 + tempWidth;
y3 = neckY;
}
if (reversed) {
y1 = height - y1;
y3 = height - y3;
y5 = (y5 ? height - y5 : null);
}
// save the path
path = [
'M',
x1, y1,
'L',
x2, y1,
x4, y3
];
if (y5) {
path.push(x4, y5, x3, y5);
}
path.push(x3, y3, 'Z');
// prepare for using shared dr
point.shapeType = 'path';
point.shapeArgs = { d: path };
// for tooltips and data labels
point.percentage = fraction * 100;
point.plotX = centerX;
point.plotY = (y1 + (y5 || y3)) / 2;
// Placement of tooltips and data labels
point.tooltipPos = [
centerX,
point.plotY
];
// Slice is a noop on funnel points
point.slice = noop;
// Mimicking pie data label placement logic
point.half = half;
if (!ignoreHiddenPoint || point.visible !== false) {
cumulative += fraction;
}
});
},
/**
* Draw a single point (wedge)
* @param {Object} point The point object
* @param {Object} color The color of the point
* @param {Number} brightness The brightness relative to the color
*/
drawPoints: function () {
var series = this,
options = series.options,
chart = series.chart,
renderer = chart.renderer;
each(series.data, function (point) {
var pointOptions = point.options,
graphic = point.graphic,
shapeArgs = point.shapeArgs;
if (!graphic) { // Create the shapes
point.graphic = renderer.path(shapeArgs).
attr({
fill: point.color,
stroke: pick(pointOptions.borderColor, options.borderColor),
'stroke-width': pick(pointOptions.borderWidth, options.borderWidth)
}).
add(series.group);
} else { // Update the shapes
graphic.animate(shapeArgs);
}
});
},
/**
* Funnel items don't have angles (#2289)
*/
sortByAngle: function (points) {
points.sort(function (a, b) {
return a.plotY - b.plotY;
});
},
/**
* Extend the pie data label method
*/
drawDataLabels: function () {
var data = this.data,
labelDistance = this.options.dataLabels.distance,
leftSide,
sign,
point,
i = data.length,
x,
y;
// In the original pie label anticollision logic, the slots are distributed
// from one labelDistance above to one labelDistance below the pie. In funnels
// we don't want this.
this.center[2] -= 2 * labelDistance;
// Set the label position array for each point.
while (i--) {
point = data[i];
leftSide = point.half;
sign = leftSide ? 1 : -1;
y = point.plotY;
x = this.getX(y, leftSide);
// set the anchor point for data labels
point.labelPos = [
0, // first break of connector
y, // a/a
x + (labelDistance - 5) * sign, // second break, right outside point shape
y, // a/a
x + labelDistance * sign, // landing point for connector
y, // a/a
leftSide ? 'right' : 'left', // alignment
0 // center angle
];
}
seriesTypes.pie.prototype.drawDataLabels.call(this);
}
});
/**
* Pyramid series type.
* A pyramid series is a special type of funnel, without neck and reversed by default.
*/
defaultOptions.plotOptions.pyramid = Highcharts.merge(defaultOptions.plotOptions.funnel, {
neckWidth: '0%',
neckHeight: '0%',
reversed: true
});
Highcharts.seriesTypes.pyramid = Highcharts.extendClass(Highcharts.seriesTypes.funnel, {
type: 'pyramid'
});
}(Highcharts));
/**
* @license Highcharts 4.1.9 JS v/Highstock 2.1.9 (2015-10-07)
* Exporting module
*
* (c) 2010-2014 Torstein Honsi
*
* License: www.highcharts.com/license
*/
// JSLint options:
/*global Highcharts, HighchartsAdapter, document, window, Math, setTimeout */
(function (Highcharts) { // encapsulate
// create shortcuts
var Chart = Highcharts.Chart,
addEvent = Highcharts.addEvent,
removeEvent = Highcharts.removeEvent,
fireEvent = HighchartsAdapter.fireEvent,
createElement = Highcharts.createElement,
discardElement = Highcharts.discardElement,
css = Highcharts.css,
merge = Highcharts.merge,
each = Highcharts.each,
extend = Highcharts.extend,
splat = Highcharts.splat,
math = Math,
mathMax = math.max,
doc = document,
win = window,
isTouchDevice = Highcharts.isTouchDevice,
M = 'M',
L = 'L',
DIV = 'div',
HIDDEN = 'hidden',
NONE = 'none',
PREFIX = 'highcharts-',
ABSOLUTE = 'absolute',
PX = 'px',
UNDEFINED,
symbols = Highcharts.Renderer.prototype.symbols,
defaultOptions = Highcharts.getOptions(),
buttonOffset;
// Add language
extend(defaultOptions.lang, {
printChart: 'Print chart',
downloadPNG: 'Download PNG image',
downloadJPEG: 'Download JPEG image',
downloadPDF: 'Download PDF document',
downloadSVG: 'Download SVG vector image',
contextButtonTitle: 'Chart context menu'
});
// Buttons and menus are collected in a separate config option set called 'navigation'.
// This can be extended later to add control buttons like zoom and pan right click menus.
defaultOptions.navigation = {
menuStyle: {
border: '1px solid #A0A0A0',
background: '#FFFFFF',
padding: '5px 0'
},
menuItemStyle: {
padding: '0 10px',
background: NONE,
color: '#303030',
fontSize: isTouchDevice ? '14px' : '11px'
},
menuItemHoverStyle: {
background: '#4572A5',
color: '#FFFFFF'
},
buttonOptions: {
symbolFill: '#E0E0E0',
symbolSize: 14,
symbolStroke: '#666',
symbolStrokeWidth: 3,
symbolX: 12.5,
symbolY: 10.5,
align: 'right',
buttonSpacing: 3,
height: 22,
// text: null,
theme: {
fill: 'white', // capture hover
stroke: 'none'
},
verticalAlign: 'top',
width: 24
}
};
// Add the export related options
defaultOptions.exporting = {
//enabled: true,
//filename: 'chart',
type: 'image/png',
url: 'http://export.highcharts.com/',
//width: undefined,
//scale: 2
buttons: {
contextButton: {
menuClassName: PREFIX + 'contextmenu',
//x: -10,
symbol: 'menu',
_titleKey: 'contextButtonTitle',
menuItems: [{
textKey: 'printChart',
onclick: function () {
this.print();
}
}, {
separator: true
}, {
textKey: 'downloadPNG',
onclick: function () {
this.exportChart();
}
}, {
textKey: 'downloadJPEG',
onclick: function () {
this.exportChart({
type: 'image/jpeg'
});
}
}, {
textKey: 'downloadPDF',
onclick: function () {
this.exportChart({
type: 'application/pdf'
});
}
}, {
textKey: 'downloadSVG',
onclick: function () {
this.exportChart({
type: 'image/svg+xml'
});
}
}
// Enable this block to add "View SVG" to the dropdown menu
/*
,{
text: 'View SVG',
onclick: function () {
var svg = this.getSVG()
.replace(//g, '>');
doc.body.innerHTML = '
' + svg + '
';
}
} // */
]
}
}
};
// Add the Highcharts.post utility
Highcharts.post = function (url, data, formAttributes) {
var name,
form;
// create the form
form = createElement('form', merge({
method: 'post',
action: url,
enctype: 'multipart/form-data'
}, formAttributes), {
display: NONE
}, doc.body);
// add the data
for (name in data) {
createElement('input', {
type: HIDDEN,
name: name,
value: data[name]
}, null, form);
}
// submit
form.submit();
// clean up
discardElement(form);
};
extend(Chart.prototype, {
/**
* A collection of regex fixes on the produces SVG to account for expando properties,
* browser bugs, VML problems and other. Returns a cleaned SVG.
*/
sanitizeSVG: function (svg) {
return svg
.replace(/zIndex="[^"]+"/g, '')
.replace(/isShadow="[^"]+"/g, '')
.replace(/symbolName="[^"]+"/g, '')
.replace(/jQuery[0-9]+="[^"]+"/g, '')
.replace(/url\([^#]+#/g, 'url(#')
.replace(/')
// Batik doesn't support rgba fills and strokes (#3095)
.replace(/(fill|stroke)="rgba\(([ 0-9]+,[ 0-9]+,[ 0-9]+),([ 0-9\.]+)\)"/g, '$1="rgb($2)" $1-opacity="$3"')
/* This fails in IE < 8
.replace(/([0-9]+)\.([0-9]+)/g, function(s1, s2, s3) { // round off to save weight
return s2 +'.'+ s3[0];
})*/
// Replace HTML entities, issue #347
.replace(/ /g, '\u00A0') // no-break space
.replace(//g, '\u00AD') // soft hyphen
// IE specific
.replace(//g, '<$1title>')
.replace(/height=([^" ]+)/g, 'height="$1"')
.replace(/width=([^" ]+)/g, 'width="$1"')
.replace(/hc-svg-href="([^"]+)">/g, 'xlink:href="$1"/>')
.replace(/ id=([^" >]+)/g, ' id="$1"') // #4003
.replace(/class=([^" >]+)/g, 'class="$1"')
.replace(/ transform /g, ' ')
.replace(/:(path|rect)/g, '$1')
.replace(/style="([^"]+)"/g, function (s) {
return s.toLowerCase();
});
},
/**
* Return innerHTML of chart. Used as hook for plugins.
*/
getChartHTML: function () {
return this.container.innerHTML;
},
/**
* Return an SVG representation of the chart
*
* @param additionalOptions {Object} Additional chart options for the generated SVG representation
*/
getSVG: function (additionalOptions) {
var chart = this,
chartCopy,
sandbox,
svg,
seriesOptions,
sourceWidth,
sourceHeight,
cssWidth,
cssHeight,
html,
options = merge(chart.options, additionalOptions), // copy the options and add extra options
allowHTML = options.exporting.allowHTML; // docs: experimental, see #2473
// IE compatibility hack for generating SVG content that it doesn't really understand
if (!doc.createElementNS) {
/*jslint unparam: true*//* allow unused parameter ns in function below */
doc.createElementNS = function (ns, tagName) {
return doc.createElement(tagName);
};
/*jslint unparam: false*/
}
// create a sandbox where a new chart will be generated
sandbox = createElement(DIV, null, {
position: ABSOLUTE,
top: '-9999em',
width: chart.chartWidth + PX,
height: chart.chartHeight + PX
}, doc.body);
// get the source size
cssWidth = chart.renderTo.style.width;
cssHeight = chart.renderTo.style.height;
sourceWidth = options.exporting.sourceWidth ||
options.chart.width ||
(/px$/.test(cssWidth) && parseInt(cssWidth, 10)) ||
600;
sourceHeight = options.exporting.sourceHeight ||
options.chart.height ||
(/px$/.test(cssHeight) && parseInt(cssHeight, 10)) ||
400;
// override some options
extend(options.chart, {
animation: false,
renderTo: sandbox,
forExport: true,
renderer: 'SVGRenderer',
width: sourceWidth,
height: sourceHeight
});
options.exporting.enabled = false; // hide buttons in print
delete options.data; // #3004
// prepare for replicating the chart
options.series = [];
each(chart.series, function (serie) {
seriesOptions = merge(serie.options, {
animation: false, // turn off animation
enableMouseTracking: false,
showCheckbox: false,
visible: serie.visible
});
if (!seriesOptions.isInternal) { // used for the navigator series that has its own option set
options.series.push(seriesOptions);
}
});
// Axis options must be merged in one by one, since it may be an array or an object (#2022, #3900)
if (additionalOptions) {
each(['xAxis', 'yAxis'], function (axisType) {
each(splat(additionalOptions[axisType]), function (axisOptions, i) {
options[axisType][i] = merge(options[axisType][i], axisOptions);
});
});
}
// generate the chart copy
chartCopy = new Highcharts.Chart(options, chart.callback);
// reflect axis extremes in the export
each(['xAxis', 'yAxis'], function (axisType) {
each(chart[axisType], function (axis, i) {
var axisCopy = chartCopy[axisType][i],
extremes = axis.getExtremes(),
userMin = extremes.userMin,
userMax = extremes.userMax;
if (axisCopy && (userMin !== UNDEFINED || userMax !== UNDEFINED)) {
axisCopy.setExtremes(userMin, userMax, true, false);
}
});
});
// get the SVG from the container's innerHTML
svg = chartCopy.getChartHTML();
// free up memory
options = null;
chartCopy.destroy();
discardElement(sandbox);
// Move HTML into a foreignObject
if (allowHTML) {
html = svg.match(/<\/svg>(.*?$)/);
if (html) {
html = '' +
'' +
html[1] +
'' +
'';
svg = svg.replace('', html + '');
}
}
// sanitize
svg = this.sanitizeSVG(svg);
// IE9 beta bugs with innerHTML. Test again with final IE9.
svg = svg.replace(/(url\(#highcharts-[0-9]+)"/g, '$1')
.replace(/"/g, "'");
return svg;
},
getSVGForExport: function (options, chartOptions) {
var chartExportingOptions = this.options.exporting;
return this.getSVG(merge(
{ chart: { borderRadius: 0 } },
chartExportingOptions.chartOptions,
chartOptions,
{
exporting: {
sourceWidth: (options && options.sourceWidth) || chartExportingOptions.sourceWidth,
sourceHeight: (options && options.sourceHeight) || chartExportingOptions.sourceHeight
}
}
));
},
/**
* Submit the SVG representation of the chart to the server
* @param {Object} options Exporting options. Possible members are url, type, width and formAttributes.
* @param {Object} chartOptions Additional chart options for the SVG representation of the chart
*/
exportChart: function (options, chartOptions) {
var svg = this.getSVGForExport(options, chartOptions);
// merge the options
options = merge(this.options.exporting, options);
// do the post
Highcharts.post(options.url, {
filename: options.filename || 'chart',
type: options.type,
width: options.width || 0, // IE8 fails to post undefined correctly, so use 0
scale: options.scale || 2,
svg: svg
}, options.formAttributes);
},
/**
* Print the chart
*/
print: function () {
var chart = this,
container = chart.container,
origDisplay = [],
origParent = container.parentNode,
body = doc.body,
childNodes = body.childNodes;
if (chart.isPrinting) { // block the button while in printing mode
return;
}
chart.isPrinting = true;
fireEvent(chart, 'beforePrint');
// hide all body content
each(childNodes, function (node, i) {
if (node.nodeType === 1) {
origDisplay[i] = node.style.display;
node.style.display = NONE;
}
});
// pull out the chart
body.appendChild(container);
// print
win.focus(); // #1510
win.print();
// allow the browser to prepare before reverting
setTimeout(function () {
// put the chart back in
origParent.appendChild(container);
// restore all body content
each(childNodes, function (node, i) {
if (node.nodeType === 1) {
node.style.display = origDisplay[i];
}
});
chart.isPrinting = false;
fireEvent(chart, 'afterPrint');
}, 1000);
},
/**
* Display a popup menu for choosing the export type
*
* @param {String} className An identifier for the menu
* @param {Array} items A collection with text and onclicks for the items
* @param {Number} x The x position of the opener button
* @param {Number} y The y position of the opener button
* @param {Number} width The width of the opener button
* @param {Number} height The height of the opener button
*/
contextMenu: function (className, items, x, y, width, height, button) {
var chart = this,
navOptions = chart.options.navigation,
menuItemStyle = navOptions.menuItemStyle,
chartWidth = chart.chartWidth,
chartHeight = chart.chartHeight,
cacheName = 'cache-' + className,
menu = chart[cacheName],
menuPadding = mathMax(width, height), // for mouse leave detection
boxShadow = '3px 3px 10px #888',
innerMenu,
hide,
hideTimer,
menuStyle,
docMouseUpHandler = function (e) {
if (!chart.pointer.inClass(e.target, className)) {
hide();
}
};
// create the menu only the first time
if (!menu) {
// create a HTML element above the SVG
chart[cacheName] = menu = createElement(DIV, {
className: className
}, {
position: ABSOLUTE,
zIndex: 1000,
padding: menuPadding + PX
}, chart.container);
innerMenu = createElement(DIV, null,
extend({
MozBoxShadow: boxShadow,
WebkitBoxShadow: boxShadow,
boxShadow: boxShadow
}, navOptions.menuStyle), menu);
// hide on mouse out
hide = function () {
css(menu, { display: NONE });
if (button) {
button.setState(0);
}
chart.openMenu = false;
};
// Hide the menu some time after mouse leave (#1357)
addEvent(menu, 'mouseleave', function () {
hideTimer = setTimeout(hide, 500);
});
addEvent(menu, 'mouseenter', function () {
clearTimeout(hideTimer);
});
// Hide it on clicking or touching outside the menu (#2258, #2335, #2407)
addEvent(document, 'mouseup', docMouseUpHandler);
addEvent(chart, 'destroy', function () {
removeEvent(document, 'mouseup', docMouseUpHandler);
});
// create the items
each(items, function (item) {
if (item) {
var element = item.separator ?
createElement('hr', null, null, innerMenu) :
createElement(DIV, {
onmouseover: function () {
css(this, navOptions.menuItemHoverStyle);
},
onmouseout: function () {
css(this, menuItemStyle);
},
onclick: function (e) {
e.stopPropagation();
hide();
if (item.onclick) {
item.onclick.apply(chart, arguments);
}
},
innerHTML: item.text || chart.options.lang[item.textKey]
}, extend({
cursor: 'pointer'
}, menuItemStyle), innerMenu);
// Keep references to menu divs to be able to destroy them
chart.exportDivElements.push(element);
}
});
// Keep references to menu and innerMenu div to be able to destroy them
chart.exportDivElements.push(innerMenu, menu);
chart.exportMenuWidth = menu.offsetWidth;
chart.exportMenuHeight = menu.offsetHeight;
}
menuStyle = { display: 'block' };
// if outside right, right align it
if (x + chart.exportMenuWidth > chartWidth) {
menuStyle.right = (chartWidth - x - width - menuPadding) + PX;
} else {
menuStyle.left = (x - menuPadding) + PX;
}
// if outside bottom, bottom align it
if (y + height + chart.exportMenuHeight > chartHeight && button.alignOptions.verticalAlign !== 'top') {
menuStyle.bottom = (chartHeight - y - menuPadding) + PX;
} else {
menuStyle.top = (y + height - menuPadding) + PX;
}
css(menu, menuStyle);
chart.openMenu = true;
},
/**
* Add the export button to the chart
*/
addButton: function (options) {
var chart = this,
renderer = chart.renderer,
btnOptions = merge(chart.options.navigation.buttonOptions, options),
onclick = btnOptions.onclick,
menuItems = btnOptions.menuItems,
symbol,
button,
symbolAttr = {
stroke: btnOptions.symbolStroke,
fill: btnOptions.symbolFill
},
symbolSize = btnOptions.symbolSize || 12;
if (!chart.btnCount) {
chart.btnCount = 0;
}
// Keeps references to the button elements
if (!chart.exportDivElements) {
chart.exportDivElements = [];
chart.exportSVGElements = [];
}
if (btnOptions.enabled === false) {
return;
}
var attr = btnOptions.theme,
states = attr.states,
hover = states && states.hover,
select = states && states.select,
callback;
delete attr.states;
if (onclick) {
callback = function (e) {
e.stopPropagation();
onclick.call(chart, e);
};
} else if (menuItems) {
callback = function () {
chart.contextMenu(
button.menuClassName,
menuItems,
button.translateX,
button.translateY,
button.width,
button.height,
button
);
button.setState(2);
};
}
if (btnOptions.text && btnOptions.symbol) {
attr.paddingLeft = Highcharts.pick(attr.paddingLeft, 25);
} else if (!btnOptions.text) {
extend(attr, {
width: btnOptions.width,
height: btnOptions.height,
padding: 0
});
}
button = renderer.button(btnOptions.text, 0, 0, callback, attr, hover, select)
.attr({
title: chart.options.lang[btnOptions._titleKey],
'stroke-linecap': 'round'
});
button.menuClassName = options.menuClassName || PREFIX + 'menu-' + chart.btnCount++;
if (btnOptions.symbol) {
symbol = renderer.symbol(
btnOptions.symbol,
btnOptions.symbolX - (symbolSize / 2),
btnOptions.symbolY - (symbolSize / 2),
symbolSize,
symbolSize
)
.attr(extend(symbolAttr, {
'stroke-width': btnOptions.symbolStrokeWidth || 1,
zIndex: 1
})).add(button);
}
button.add()
.align(extend(btnOptions, {
width: button.width,
x: Highcharts.pick(btnOptions.x, buttonOffset) // #1654
}), true, 'spacingBox');
buttonOffset += (button.width + btnOptions.buttonSpacing) * (btnOptions.align === 'right' ? -1 : 1);
chart.exportSVGElements.push(button, symbol);
},
/**
* Destroy the buttons.
*/
destroyExport: function (e) {
var chart = e.target,
i,
elem;
// Destroy the extra buttons added
for (i = 0; i < chart.exportSVGElements.length; i++) {
elem = chart.exportSVGElements[i];
// Destroy and null the svg/vml elements
if (elem) { // #1822
elem.onclick = elem.ontouchstart = null;
chart.exportSVGElements[i] = elem.destroy();
}
}
// Destroy the divs for the menu
for (i = 0; i < chart.exportDivElements.length; i++) {
elem = chart.exportDivElements[i];
// Remove the event handler
removeEvent(elem, 'mouseleave');
// Remove inline events
chart.exportDivElements[i] = elem.onmouseout = elem.onmouseover = elem.ontouchstart = elem.onclick = null;
// Destroy the div by moving to garbage bin
discardElement(elem);
}
}
});
symbols.menu = function (x, y, width, height) {
var arr = [
M, x, y + 2.5,
L, x + width, y + 2.5,
M, x, y + height / 2 + 0.5,
L, x + width, y + height / 2 + 0.5,
M, x, y + height - 1.5,
L, x + width, y + height - 1.5
];
return arr;
};
// Add the buttons on chart load
Chart.prototype.callbacks.push(function (chart) {
var n,
exportingOptions = chart.options.exporting,
buttons = exportingOptions.buttons;
buttonOffset = 0;
if (exportingOptions.enabled !== false) {
for (n in buttons) {
chart.addButton(buttons[n]);
}
// Destroy the export elements at chart destroy
addEvent(chart, 'destroy', chart.destroyExport);
}
});
}(Highcharts));
/**
* @license Highcharts 4.1.9 JS v/Highstock 2.1.9 (2015-10-07)
* Data module
*
* (c) 2012-2014 Torstein Honsi
*
* License: www.highcharts.com/license
*/
// JSLint options:
/*global jQuery, HighchartsAdapter */
(function (Highcharts) {
// Utilities
var each = Highcharts.each,
pick = Highcharts.pick,
inArray = HighchartsAdapter.inArray,
splat = Highcharts.splat,
SeriesBuilder;
// The Data constructor
var Data = function (dataOptions, chartOptions) {
this.init(dataOptions, chartOptions);
};
// Set the prototype properties
Highcharts.extend(Data.prototype, {
/**
* Initialize the Data object with the given options
*/
init: function (options, chartOptions) {
this.options = options;
this.chartOptions = chartOptions;
this.columns = options.columns || this.rowsToColumns(options.rows) || [];
this.firstRowAsNames = pick(options.firstRowAsNames, true);
this.decimalRegex = options.decimalPoint && new RegExp('^([0-9]+)' + options.decimalPoint + '([0-9]+)$');
// This is a two-dimensional array holding the raw, trimmed string values
// with the same organisation as the columns array. It makes it possible
// for example to revert from interpreted timestamps to string-based
// categories.
this.rawColumns = [];
// No need to parse or interpret anything
if (this.columns.length) {
this.dataFound();
// Parse and interpret
} else {
// Parse a CSV string if options.csv is given
this.parseCSV();
// Parse a HTML table if options.table is given
this.parseTable();
// Parse a Google Spreadsheet
this.parseGoogleSpreadsheet();
}
},
/**
* Get the column distribution. For example, a line series takes a single column for
* Y values. A range series takes two columns for low and high values respectively,
* and an OHLC series takes four columns.
*/
getColumnDistribution: function () {
var chartOptions = this.chartOptions,
options = this.options,
xColumns = [],
getValueCount = function (type) {
return (Highcharts.seriesTypes[type || 'line'].prototype.pointArrayMap || [0]).length;
},
getPointArrayMap = function (type) {
return Highcharts.seriesTypes[type || 'line'].prototype.pointArrayMap;
},
globalType = chartOptions && chartOptions.chart && chartOptions.chart.type,
individualCounts = [],
seriesBuilders = [],
seriesIndex = 0,
i;
each((chartOptions && chartOptions.series) || [], function (series) {
individualCounts.push(getValueCount(series.type || globalType));
});
// Collect the x-column indexes from seriesMapping
each((options && options.seriesMapping) || [], function (mapping) {
xColumns.push(mapping.x || 0);
});
// If there are no defined series with x-columns, use the first column as x column
if (xColumns.length === 0) {
xColumns.push(0);
}
// Loop all seriesMappings and constructs SeriesBuilders from
// the mapping options.
each((options && options.seriesMapping) || [], function (mapping) {
var builder = new SeriesBuilder(),
name,
numberOfValueColumnsNeeded = individualCounts[seriesIndex] || getValueCount(globalType),
seriesArr = (chartOptions && chartOptions.series) || [],
series = seriesArr[seriesIndex] || {},
pointArrayMap = getPointArrayMap(series.type || globalType) || ['y'];
// Add an x reader from the x property or from an undefined column
// if the property is not set. It will then be auto populated later.
builder.addColumnReader(mapping.x, 'x');
// Add all column mappings
for (name in mapping) {
if (mapping.hasOwnProperty(name) && name !== 'x') {
builder.addColumnReader(mapping[name], name);
}
}
// Add missing columns
for (i = 0; i < numberOfValueColumnsNeeded; i++) {
if (!builder.hasReader(pointArrayMap[i])) {
//builder.addNextColumnReader(pointArrayMap[i]);
// Create and add a column reader for the next free column index
builder.addColumnReader(undefined, pointArrayMap[i]);
}
}
seriesBuilders.push(builder);
seriesIndex++;
});
var globalPointArrayMap = getPointArrayMap(globalType);
if (globalPointArrayMap === undefined) {
globalPointArrayMap = ['y'];
}
this.valueCount = {
global: getValueCount(globalType),
xColumns: xColumns,
individual: individualCounts,
seriesBuilders: seriesBuilders,
globalPointArrayMap: globalPointArrayMap
};
},
/**
* When the data is parsed into columns, either by CSV, table, GS or direct input,
* continue with other operations.
*/
dataFound: function () {
if (this.options.switchRowsAndColumns) {
this.columns = this.rowsToColumns(this.columns);
}
// Interpret the info about series and columns
this.getColumnDistribution();
// Interpret the values into right types
this.parseTypes();
// Handle columns if a handleColumns callback is given
if (this.parsed() !== false) {
// Complete if a complete callback is given
this.complete();
}
},
/**
* Parse a CSV input string
*/
parseCSV: function () {
var self = this,
options = this.options,
csv = options.csv,
columns = this.columns,
startRow = options.startRow || 0,
endRow = options.endRow || Number.MAX_VALUE,
startColumn = options.startColumn || 0,
endColumn = options.endColumn || Number.MAX_VALUE,
itemDelimiter,
lines,
activeRowNo = 0;
if (csv) {
lines = csv
.replace(/\r\n/g, "\n") // Unix
.replace(/\r/g, "\n") // Mac
.split(options.lineDelimiter || "\n");
itemDelimiter = options.itemDelimiter || (csv.indexOf('\t') !== -1 ? '\t' : ',');
each(lines, function (line, rowNo) {
var trimmed = self.trim(line),
isComment = trimmed.indexOf('#') === 0,
isBlank = trimmed === '',
items;
if (rowNo >= startRow && rowNo <= endRow && !isComment && !isBlank) {
items = line.split(itemDelimiter);
each(items, function (item, colNo) {
if (colNo >= startColumn && colNo <= endColumn) {
if (!columns[colNo - startColumn]) {
columns[colNo - startColumn] = [];
}
columns[colNo - startColumn][activeRowNo] = item;
}
});
activeRowNo += 1;
}
});
this.dataFound();
}
},
/**
* Parse a HTML table
*/
parseTable: function () {
var options = this.options,
table = options.table,
columns = this.columns,
startRow = options.startRow || 0,
endRow = options.endRow || Number.MAX_VALUE,
startColumn = options.startColumn || 0,
endColumn = options.endColumn || Number.MAX_VALUE;
if (table) {
if (typeof table === 'string') {
table = document.getElementById(table);
}
each(table.getElementsByTagName('tr'), function (tr, rowNo) {
if (rowNo >= startRow && rowNo <= endRow) {
each(tr.children, function (item, colNo) {
if ((item.tagName === 'TD' || item.tagName === 'TH') && colNo >= startColumn && colNo <= endColumn) {
if (!columns[colNo - startColumn]) {
columns[colNo - startColumn] = [];
}
columns[colNo - startColumn][rowNo - startRow] = item.innerHTML;
}
});
}
});
this.dataFound(); // continue
}
},
/**
*/
parseGoogleSpreadsheet: function () {
var self = this,
options = this.options,
googleSpreadsheetKey = options.googleSpreadsheetKey,
columns = this.columns,
startRow = options.startRow || 0,
endRow = options.endRow || Number.MAX_VALUE,
startColumn = options.startColumn || 0,
endColumn = options.endColumn || Number.MAX_VALUE,
gr, // google row
gc; // google column
if (googleSpreadsheetKey) {
jQuery.ajax({
dataType: 'json',
url: 'https://spreadsheets.google.com/feeds/cells/' +
googleSpreadsheetKey + '/' + (options.googleSpreadsheetWorksheet || 'od6') +
'/public/values?alt=json-in-script&callback=?',
error: options.error,
success: function (json) {
// Prepare the data from the spreadsheat
var cells = json.feed.entry,
cell,
cellCount = cells.length,
colCount = 0,
rowCount = 0,
i;
// First, find the total number of columns and rows that
// are actually filled with data
for (i = 0; i < cellCount; i++) {
cell = cells[i];
colCount = Math.max(colCount, cell.gs$cell.col);
rowCount = Math.max(rowCount, cell.gs$cell.row);
}
// Set up arrays containing the column data
for (i = 0; i < colCount; i++) {
if (i >= startColumn && i <= endColumn) {
// Create new columns with the length of either end-start or rowCount
columns[i - startColumn] = [];
// Setting the length to avoid jslint warning
columns[i - startColumn].length = Math.min(rowCount, endRow - startRow);
}
}
// Loop over the cells and assign the value to the right
// place in the column arrays
for (i = 0; i < cellCount; i++) {
cell = cells[i];
gr = cell.gs$cell.row - 1; // rows start at 1
gc = cell.gs$cell.col - 1; // columns start at 1
// If both row and col falls inside start and end
// set the transposed cell value in the newly created columns
if (gc >= startColumn && gc <= endColumn &&
gr >= startRow && gr <= endRow) {
columns[gc - startColumn][gr - startRow] = cell.content.$t;
}
}
self.dataFound();
}
});
}
},
/**
* Trim a string from whitespace
*/
trim: function (str, inside) {
if (typeof str === 'string') {
str = str.replace(/^\s+|\s+$/g, '');
// Clear white space insdie the string, like thousands separators
if (inside && /^[0-9\s]+$/.test(str)) {
str = str.replace(/\s/g, '');
}
if (this.decimalRegex) {
str = str.replace(this.decimalRegex, '$1.$2');
}
}
return str;
},
/**
* Parse numeric cells in to number types and date types in to true dates.
*/
parseTypes: function () {
var columns = this.columns,
col = columns.length;
while (col--) {
this.parseColumn(columns[col], col);
}
},
/**
* Parse a single column. Set properties like .isDatetime and .isNumeric.
*/
parseColumn: function (column, col) {
var rawColumns = this.rawColumns,
columns = this.columns,
row = column.length,
val,
floatVal,
trimVal,
trimInsideVal,
firstRowAsNames = this.firstRowAsNames,
isXColumn = inArray(col, this.valueCount.xColumns) !== -1,
dateVal,
backup = [],
diff,
chartOptions = this.chartOptions,
descending,
columnTypes = this.options.columnTypes || [],
columnType = columnTypes[col],
forceCategory = isXColumn && ((chartOptions && chartOptions.xAxis && splat(chartOptions.xAxis)[0].type === 'category') || columnType === 'string');
if (!rawColumns[col]) {
rawColumns[col] = [];
}
while (row--) {
val = backup[row] || column[row];
trimVal = this.trim(val);
trimInsideVal = this.trim(val, true);
floatVal = parseFloat(trimInsideVal);
// Set it the first time
if (rawColumns[col][row] === undefined) {
rawColumns[col][row] = trimVal;
}
// Disable number or date parsing by setting the X axis type to category
if (forceCategory || (row === 0 && firstRowAsNames)) {
column[row] = trimVal;
} else if (+trimInsideVal === floatVal) { // is numeric
column[row] = floatVal;
// If the number is greater than milliseconds in a year, assume datetime
if (floatVal > 365 * 24 * 3600 * 1000 && columnType !== 'float') {
column.isDatetime = true;
} else {
column.isNumeric = true;
}
if (column[row + 1] !== undefined) {
descending = floatVal > column[row + 1];
}
// String, continue to determine if it is a date string or really a string
} else {
dateVal = this.parseDate(val);
// Only allow parsing of dates if this column is an x-column
if (isXColumn && typeof dateVal === 'number' && !isNaN(dateVal) && columnType !== 'float') { // is date
backup[row] = val;
column[row] = dateVal;
column.isDatetime = true;
// Check if the dates are uniformly descending or ascending. If they
// are not, chances are that they are a different time format, so check
// for alternative.
if (column[row + 1] !== undefined) {
diff = dateVal > column[row + 1];
if (diff !== descending && descending !== undefined) {
if (this.alternativeFormat) {
this.dateFormat = this.alternativeFormat;
row = column.length;
this.alternativeFormat = this.dateFormats[this.dateFormat].alternative;
} else {
column.unsorted = true;
}
}
descending = diff;
}
} else { // string
column[row] = trimVal === '' ? null : trimVal;
if (row !== 0 && (column.isDatetime || column.isNumeric)) {
column.mixed = true;
}
}
}
}
// If strings are intermixed with numbers or dates in a parsed column, it is an indication
// that parsing went wrong or the data was not intended to display as numbers or dates and
// parsing is too aggressive. Fall back to categories. Demonstrated in the
// highcharts/demo/column-drilldown sample.
if (isXColumn && column.mixed) {
columns[col] = rawColumns[col];
}
// If the 0 column is date or number and descending, reverse all columns.
if (isXColumn && descending && this.options.sort) {
for (col = 0; col < columns.length; col++) {
columns[col].reverse();
if (firstRowAsNames) {
columns[col].unshift(columns[col].pop());
}
}
}
},
/**
* A collection of available date formats, extendable from the outside to support
* custom date formats.
*/
dateFormats: {
'YYYY-mm-dd': {
regex: /^([0-9]{4})[\-\/\.]([0-9]{2})[\-\/\.]([0-9]{2})$/,
parser: function (match) {
return Date.UTC(+match[1], match[2] - 1, +match[3]);
}
},
'dd/mm/YYYY': {
regex: /^([0-9]{1,2})[\-\/\.]([0-9]{1,2})[\-\/\.]([0-9]{4})$/,
parser: function (match) {
return Date.UTC(+match[3], match[2] - 1, +match[1]);
},
alternative: 'mm/dd/YYYY' // different format with the same regex
},
'mm/dd/YYYY': {
regex: /^([0-9]{1,2})[\-\/\.]([0-9]{1,2})[\-\/\.]([0-9]{4})$/,
parser: function (match) {
return Date.UTC(+match[3], match[1] - 1, +match[2]);
}
},
'dd/mm/YY': {
regex: /^([0-9]{1,2})[\-\/\.]([0-9]{1,2})[\-\/\.]([0-9]{2})$/,
parser: function (match) {
return Date.UTC(+match[3] + 2000, match[2] - 1, +match[1]);
},
alternative: 'mm/dd/YY' // different format with the same regex
},
'mm/dd/YY': {
regex: /^([0-9]{1,2})[\-\/\.]([0-9]{1,2})[\-\/\.]([0-9]{2})$/,
parser: function (match) {
return Date.UTC(+match[3] + 2000, match[1] - 1, +match[2]);
}
}
},
/**
* Parse a date and return it as a number. Overridable through options.parseDate.
*/
parseDate: function (val) {
var parseDate = this.options.parseDate,
ret,
key,
format,
dateFormat = this.options.dateFormat || this.dateFormat,
match;
if (parseDate) {
ret = parseDate(val);
} else if (typeof val === 'string') {
// Auto-detect the date format the first time
if (!dateFormat) {
for (key in this.dateFormats) {
format = this.dateFormats[key];
match = val.match(format.regex);
if (match) {
this.dateFormat = dateFormat = key;
this.alternativeFormat = format.alternative;
ret = format.parser(match);
break;
}
}
// Next time, use the one previously found
} else {
format = this.dateFormats[dateFormat];
match = val.match(format.regex);
if (match) {
ret = format.parser(match);
}
}
// Fall back to Date.parse
if (!match) {
match = Date.parse(val);
// External tools like Date.js and MooTools extend Date object and
// returns a date.
if (typeof match === 'object' && match !== null && match.getTime) {
ret = match.getTime() - match.getTimezoneOffset() * 60000;
// Timestamp
} else if (typeof match === 'number' && !isNaN(match)) {
ret = match - (new Date(match)).getTimezoneOffset() * 60000;
}
}
}
return ret;
},
/**
* Reorganize rows into columns
*/
rowsToColumns: function (rows) {
var row,
rowsLength,
col,
colsLength,
columns;
if (rows) {
columns = [];
rowsLength = rows.length;
for (row = 0; row < rowsLength; row++) {
colsLength = rows[row].length;
for (col = 0; col < colsLength; col++) {
if (!columns[col]) {
columns[col] = [];
}
columns[col][row] = rows[row][col];
}
}
}
return columns;
},
/**
* A hook for working directly on the parsed columns
*/
parsed: function () {
if (this.options.parsed) {
return this.options.parsed.call(this, this.columns);
}
},
getFreeIndexes: function (numberOfColumns, seriesBuilders) {
var s,
i,
freeIndexes = [],
freeIndexValues = [],
referencedIndexes;
// Add all columns as free
for (i = 0; i < numberOfColumns; i = i + 1) {
freeIndexes.push(true);
}
// Loop all defined builders and remove their referenced columns
for (s = 0; s < seriesBuilders.length; s = s + 1) {
referencedIndexes = seriesBuilders[s].getReferencedColumnIndexes();
for (i = 0; i < referencedIndexes.length; i = i + 1) {
freeIndexes[referencedIndexes[i]] = false;
}
}
// Collect the values for the free indexes
for (i = 0; i < freeIndexes.length; i = i + 1) {
if (freeIndexes[i]) {
freeIndexValues.push(i);
}
}
return freeIndexValues;
},
/**
* If a complete callback function is provided in the options, interpret the
* columns into a Highcharts options object.
*/
complete: function () {
var columns = this.columns,
xColumns = [],
type,
options = this.options,
series,
data,
i,
j,
r,
seriesIndex,
chartOptions,
allSeriesBuilders = [],
builder,
freeIndexes,
typeCol,
index;
xColumns.length = columns.length;
if (options.complete || options.afterComplete) {
// Get the names and shift the top row
for (i = 0; i < columns.length; i++) {
if (this.firstRowAsNames) {
columns[i].name = columns[i].shift();
}
}
// Use the next columns for series
series = [];
freeIndexes = this.getFreeIndexes(columns.length, this.valueCount.seriesBuilders);
// Populate defined series
for (seriesIndex = 0; seriesIndex < this.valueCount.seriesBuilders.length; seriesIndex++) {
builder = this.valueCount.seriesBuilders[seriesIndex];
// If the builder can be populated with remaining columns, then add it to allBuilders
if (builder.populateColumns(freeIndexes)) {
allSeriesBuilders.push(builder);
}
}
// Populate dynamic series
while (freeIndexes.length > 0) {
builder = new SeriesBuilder();
builder.addColumnReader(0, 'x');
// Mark index as used (not free)
index = inArray(0, freeIndexes);
if (index !== -1) {
freeIndexes.splice(index, 1);
}
for (i = 0; i < this.valueCount.global; i++) {
// Create and add a column reader for the next free column index
builder.addColumnReader(undefined, this.valueCount.globalPointArrayMap[i]);
}
// If the builder can be populated with remaining columns, then add it to allBuilders
if (builder.populateColumns(freeIndexes)) {
allSeriesBuilders.push(builder);
}
}
// Get the data-type from the first series x column
if (allSeriesBuilders.length > 0 && allSeriesBuilders[0].readers.length > 0) {
typeCol = columns[allSeriesBuilders[0].readers[0].columnIndex];
if (typeCol !== undefined) {
if (typeCol.isDatetime) {
type = 'datetime';
} else if (!typeCol.isNumeric) {
type = 'category';
}
}
}
// Axis type is category, then the "x" column should be called "name"
if (type === 'category') {
for (seriesIndex = 0; seriesIndex < allSeriesBuilders.length; seriesIndex++) {
builder = allSeriesBuilders[seriesIndex];
for (r = 0; r < builder.readers.length; r++) {
if (builder.readers[r].configName === 'x') {
builder.readers[r].configName = 'name';
}
}
}
}
// Read data for all builders
for (seriesIndex = 0; seriesIndex < allSeriesBuilders.length; seriesIndex++) {
builder = allSeriesBuilders[seriesIndex];
// Iterate down the cells of each column and add data to the series
data = [];
for (j = 0; j < columns[0].length; j++) { // TODO: which column's length should we use here
data[j] = builder.read(columns, j);
}
// Add the series
series[seriesIndex] = {
data: data
};
if (builder.name) {
series[seriesIndex].name = builder.name;
}
if (type === 'category') {
series[seriesIndex].turboThreshold = 0;
}
}
// Do the callback
chartOptions = {
series: series
};
if (type) {
chartOptions.xAxis = {
type: type
};
}
if (options.complete) {
options.complete(chartOptions);
}
// The afterComplete hook is used internally to avoid conflict with the externally
// available complete option.
if (options.afterComplete) {
options.afterComplete(chartOptions);
}
}
}
});
// Register the Data prototype and data function on Highcharts
Highcharts.Data = Data;
Highcharts.data = function (options, chartOptions) {
return new Data(options, chartOptions);
};
// Extend Chart.init so that the Chart constructor accepts a new configuration
// option group, data.
Highcharts.wrap(Highcharts.Chart.prototype, 'init', function (proceed, userOptions, callback) {
var chart = this;
if (userOptions && userOptions.data) {
Highcharts.data(Highcharts.extend(userOptions.data, {
afterComplete: function (dataOptions) {
var i, series;
// Merge series configs
if (userOptions.hasOwnProperty('series')) {
if (typeof userOptions.series === 'object') {
i = Math.max(userOptions.series.length, dataOptions.series.length);
while (i--) {
series = userOptions.series[i] || {};
userOptions.series[i] = Highcharts.merge(series, dataOptions.series[i]);
}
} else { // Allow merging in dataOptions.series (#2856)
delete userOptions.series;
}
}
// Do the merge
userOptions = Highcharts.merge(dataOptions, userOptions);
proceed.call(chart, userOptions, callback);
}
}), userOptions);
} else {
proceed.call(chart, userOptions, callback);
}
});
/**
* Creates a new SeriesBuilder. A SeriesBuilder consists of a number
* of ColumnReaders that reads columns and give them a name.
* Ex: A series builder can be constructed to read column 3 as 'x' and
* column 7 and 8 as 'y1' and 'y2'.
* The output would then be points/rows of the form {x: 11, y1: 22, y2: 33}
*
* The name of the builder is taken from the second column. In the above
* example it would be the column with index 7.
* @constructor
*/
SeriesBuilder = function () {
this.readers = [];
this.pointIsArray = true;
};
/**
* Populates readers with column indexes. A reader can be added without
* a specific index and for those readers the index is taken sequentially
* from the free columns (this is handled by the ColumnCursor instance).
* @returns {boolean}
*/
SeriesBuilder.prototype.populateColumns = function (freeIndexes) {
var builder = this,
enoughColumns = true;
// Loop each reader and give it an index if its missing.
// The freeIndexes.shift() will return undefined if there
// are no more columns.
each(builder.readers, function (reader) {
if (reader.columnIndex === undefined) {
reader.columnIndex = freeIndexes.shift();
}
});
// Now, all readers should have columns mapped. If not
// then return false to signal that this series should
// not be added.
each(builder.readers, function (reader) {
if (reader.columnIndex === undefined) {
enoughColumns = false;
}
});
return enoughColumns;
};
/**
* Reads a row from the dataset and returns a point or array depending
* on the names of the readers.
* @param columns
* @param rowIndex
* @returns {Array | Object}
*/
SeriesBuilder.prototype.read = function (columns, rowIndex) {
var builder = this,
pointIsArray = builder.pointIsArray,
point = pointIsArray ? [] : {},
columnIndexes;
// Loop each reader and ask it to read its value.
// Then, build an array or point based on the readers names.
each(builder.readers, function (reader) {
var value = columns[reader.columnIndex][rowIndex];
if (pointIsArray) {
point.push(value);
} else {
point[reader.configName] = value;
}
});
// The name comes from the first column (excluding the x column)
if (this.name === undefined && builder.readers.length >= 2) {
columnIndexes = builder.getReferencedColumnIndexes();
if (columnIndexes.length >= 2) {
// remove the first one (x col)
columnIndexes.shift();
// Sort the remaining
columnIndexes.sort();
// Now use the lowest index as name column
this.name = columns[columnIndexes.shift()].name;
}
}
return point;
};
/**
* Creates and adds ColumnReader from the given columnIndex and configName.
* ColumnIndex can be undefined and in that case the reader will be given
* an index when columns are populated.
* @param columnIndex {Number | undefined}
* @param configName
*/
SeriesBuilder.prototype.addColumnReader = function (columnIndex, configName) {
this.readers.push({
columnIndex: columnIndex,
configName: configName
});
if (!(configName === 'x' || configName === 'y' || configName === undefined)) {
this.pointIsArray = false;
}
};
/**
* Returns an array of column indexes that the builder will use when
* reading data.
* @returns {Array}
*/
SeriesBuilder.prototype.getReferencedColumnIndexes = function () {
var i,
referencedColumnIndexes = [],
columnReader;
for (i = 0; i < this.readers.length; i = i + 1) {
columnReader = this.readers[i];
if (columnReader.columnIndex !== undefined) {
referencedColumnIndexes.push(columnReader.columnIndex);
}
}
return referencedColumnIndexes;
};
/**
* Returns true if the builder has a reader for the given configName.
* @param configName
* @returns {boolean}
*/
SeriesBuilder.prototype.hasReader = function (configName) {
var i, columnReader;
for (i = 0; i < this.readers.length; i = i + 1) {
columnReader = this.readers[i];
if (columnReader.configName === configName) {
return true;
}
}
// Else return undefined
};
}(Highcharts));
/**
* @license Highcharts 4.1.9 JS v/Highstock 2.1.9 (2015-10-07)
* Plugin for displaying a message when there is no data visible in chart.
*
* (c) 2010-2014 Highsoft AS
* Author: Oystein Moseng
*
* License: www.highcharts.com/license
*/
(function (H) {
var seriesTypes = H.seriesTypes,
chartPrototype = H.Chart.prototype,
defaultOptions = H.getOptions(),
extend = H.extend,
each = H.each;
// Add language option
extend(defaultOptions.lang, {
noData: 'No data to display'
});
// Add default display options for message
defaultOptions.noData = {
position: {
x: 0,
y: 0,
align: 'center',
verticalAlign: 'middle'
},
attr: {
},
style: {
fontWeight: 'bold',
fontSize: '12px',
color: '#60606a'
}
// useHTML: false // docs
};
/**
* Define hasData functions for series. These return true if there are data points on this series within the plot area
*/
function hasDataPie() {
return !!this.points.length; /* != 0 */
}
each(['pie', 'gauge', 'waterfall', 'bubble'], function (type) {
if (seriesTypes[type]) {
seriesTypes[type].prototype.hasData = hasDataPie;
}
});
H.Series.prototype.hasData = function () {
return this.visible && this.dataMax !== undefined && this.dataMin !== undefined; // #3703
};
/**
* Display a no-data message.
*
* @param {String} str An optional message to show in place of the default one
*/
chartPrototype.showNoData = function (str) {
var chart = this,
options = chart.options,
text = str || options.lang.noData,
noDataOptions = options.noData;
if (!chart.noDataLabel) {
chart.noDataLabel = chart.renderer
.label(
text,
0,
0,
null,
null,
null,
noDataOptions.useHTML,
null,
'no-data'
)
.attr(noDataOptions.attr)
.css(noDataOptions.style)
.add();
chart.noDataLabel.align(extend(chart.noDataLabel.getBBox(), noDataOptions.position), false, 'plotBox');
}
};
/**
* Hide no-data message
*/
chartPrototype.hideNoData = function () {
var chart = this;
if (chart.noDataLabel) {
chart.noDataLabel = chart.noDataLabel.destroy();
}
};
/**
* Returns true if there are data points within the plot area now
*/
chartPrototype.hasData = function () {
var chart = this,
series = chart.series,
i = series.length;
while (i--) {
if (series[i].hasData() && !series[i].options.isInternal) {
return true;
}
}
return false;
};
/**
* Show no-data message if there is no data in sight. Otherwise, hide it.
*/
function handleNoData() {
var chart = this;
if (chart.hasData()) {
chart.hideNoData();
} else {
chart.showNoData();
}
}
/**
* Add event listener to handle automatic display of no-data message
*/
chartPrototype.callbacks.push(function (chart) {
H.addEvent(chart, 'load', handleNoData);
H.addEvent(chart, 'redraw', handleNoData);
});
}(Highcharts));
/**
* Highcharts Drilldown plugin
*
* Author: Torstein Honsi
* License: MIT License
*
* Demo: http://jsfiddle.net/highcharts/Vf3yT/
*/
/*global Highcharts,HighchartsAdapter*/
(function (H) {
"use strict";
var noop = function () {},
defaultOptions = H.getOptions(),
each = H.each,
extend = H.extend,
format = H.format,
pick = H.pick,
wrap = H.wrap,
Chart = H.Chart,
seriesTypes = H.seriesTypes,
PieSeries = seriesTypes.pie,
ColumnSeries = seriesTypes.column,
Tick = H.Tick,
fireEvent = HighchartsAdapter.fireEvent,
inArray = HighchartsAdapter.inArray,
ddSeriesId = 1;
// Utilities
/*
* Return an intermediate color between two colors, according to pos where 0
* is the from color and 1 is the to color. This method is copied from ColorAxis.js
* and should always be kept updated, until we get AMD support.
*/
function tweenColors(from, to, pos) {
// Check for has alpha, because rgba colors perform worse due to lack of
// support in WebKit.
var hasAlpha,
ret;
// Unsupported color, return to-color (#3920)
if (!to.rgba.length || !from.rgba.length) {
ret = to.raw || 'none';
// Interpolate
} else {
from = from.rgba;
to = to.rgba;
hasAlpha = (to[3] !== 1 || from[3] !== 1);
ret = (hasAlpha ? 'rgba(' : 'rgb(') +
Math.round(to[0] + (from[0] - to[0]) * (1 - pos)) + ',' +
Math.round(to[1] + (from[1] - to[1]) * (1 - pos)) + ',' +
Math.round(to[2] + (from[2] - to[2]) * (1 - pos)) +
(hasAlpha ? (',' + (to[3] + (from[3] - to[3]) * (1 - pos))) : '') + ')';
}
return ret;
}
/**
* Handle animation of the color attributes directly
*/
each(['fill', 'stroke'], function (prop) {
HighchartsAdapter.addAnimSetter(prop, function (fx) {
fx.elem.attr(prop, tweenColors(H.Color(fx.start), H.Color(fx.end), fx.pos));
});
});
// Add language
extend(defaultOptions.lang, {
drillUpText: '◁ Back to {series.name}'
});
defaultOptions.drilldown = {
activeAxisLabelStyle: {
cursor: 'pointer',
color: '#0d233a',
fontWeight: 'bold',
textDecoration: 'underline'
},
activeDataLabelStyle: {
cursor: 'pointer',
color: '#0d233a',
fontWeight: 'bold',
textDecoration: 'underline'
},
animation: {
duration: 500
},
drillUpButton: {
position: {
align: 'right',
x: -10,
y: 10
}
// relativeTo: 'plotBox'
// theme
}
};
/**
* A general fadeIn method
*/
H.SVGRenderer.prototype.Element.prototype.fadeIn = function (animation) {
this
.attr({
opacity: 0.1,
visibility: 'inherit'
})
.animate({
opacity: pick(this.newOpacity, 1) // newOpacity used in maps
}, animation || {
duration: 250
});
};
Chart.prototype.addSeriesAsDrilldown = function (point, ddOptions) {
this.addSingleSeriesAsDrilldown(point, ddOptions);
this.applyDrilldown();
};
Chart.prototype.addSingleSeriesAsDrilldown = function (point, ddOptions) {
var oldSeries = point.series,
xAxis = oldSeries.xAxis,
yAxis = oldSeries.yAxis,
newSeries,
color = point.color || oldSeries.color,
pointIndex,
levelSeries = [],
levelSeriesOptions = [],
level,
levelNumber,
last;
if (!this.drilldownLevels) {
this.drilldownLevels = [];
}
levelNumber = oldSeries.options._levelNumber || 0;
// See if we can reuse the registered series from last run
last = this.drilldownLevels[this.drilldownLevels.length - 1];
if (last && last.levelNumber !== levelNumber) {
last = undefined;
}
ddOptions = extend({
color: color,
_ddSeriesId: ddSeriesId++
}, ddOptions);
pointIndex = inArray(point, oldSeries.points);
// Record options for all current series
each(oldSeries.chart.series, function (series) {
if (series.xAxis === xAxis && !series.isDrilling) {
series.options._ddSeriesId = series.options._ddSeriesId || ddSeriesId++;
series.options._colorIndex = series.userOptions._colorIndex;
series.options._levelNumber = series.options._levelNumber || levelNumber; // #3182
if (last) {
levelSeries = last.levelSeries;
levelSeriesOptions = last.levelSeriesOptions;
} else {
levelSeries.push(series);
levelSeriesOptions.push(series.options);
}
}
});
// Add a record of properties for each drilldown level
level = {
levelNumber: levelNumber,
seriesOptions: oldSeries.options,
levelSeriesOptions: levelSeriesOptions,
levelSeries: levelSeries,
shapeArgs: point.shapeArgs,
bBox: point.graphic ? point.graphic.getBBox() : {}, // no graphic in line series with markers disabled
color: color,
lowerSeriesOptions: ddOptions,
pointOptions: oldSeries.options.data[pointIndex],
pointIndex: pointIndex,
oldExtremes: {
xMin: xAxis && xAxis.userMin,
xMax: xAxis && xAxis.userMax,
yMin: yAxis && yAxis.userMin,
yMax: yAxis && yAxis.userMax
}
};
// Push it to the lookup array
this.drilldownLevels.push(level);
newSeries = level.lowerSeries = this.addSeries(ddOptions, false);
newSeries.options._levelNumber = levelNumber + 1;
if (xAxis) {
xAxis.oldPos = xAxis.pos;
xAxis.userMin = xAxis.userMax = null;
yAxis.userMin = yAxis.userMax = null;
}
// Run fancy cross-animation on supported and equal types
if (oldSeries.type === newSeries.type) {
newSeries.animate = newSeries.animateDrilldown || noop;
newSeries.options.animation = true;
}
};
Chart.prototype.applyDrilldown = function () {
var drilldownLevels = this.drilldownLevels,
levelToRemove;
if (drilldownLevels && drilldownLevels.length > 0) { // #3352, async loading
levelToRemove = drilldownLevels[drilldownLevels.length - 1].levelNumber;
each(this.drilldownLevels, function (level) {
if (level.levelNumber === levelToRemove) {
each(level.levelSeries, function (series) {
if (series.options && series.options._levelNumber === levelToRemove) { // Not removed, not added as part of a multi-series drilldown
series.remove(false);
}
});
}
});
}
this.redraw();
this.showDrillUpButton();
};
Chart.prototype.getDrilldownBackText = function () {
var drilldownLevels = this.drilldownLevels,
lastLevel;
if (drilldownLevels && drilldownLevels.length > 0) { // #3352, async loading
lastLevel = drilldownLevels[drilldownLevels.length - 1];
lastLevel.series = lastLevel.seriesOptions;
return format(this.options.lang.drillUpText, lastLevel);
}
};
Chart.prototype.showDrillUpButton = function () {
var chart = this,
backText = this.getDrilldownBackText(),
buttonOptions = chart.options.drilldown.drillUpButton,
attr,
states;
if (!this.drillUpButton) {
attr = buttonOptions.theme;
states = attr && attr.states;
this.drillUpButton = this.renderer.button(
backText,
null,
null,
function () {
chart.drillUp();
},
attr,
states && states.hover,
states && states.select
)
.attr({
align: buttonOptions.position.align,
zIndex: 9
})
.add()
.align(buttonOptions.position, false, buttonOptions.relativeTo || 'plotBox');
} else {
this.drillUpButton.attr({
text: backText
})
.align();
}
};
Chart.prototype.drillUp = function () {
var chart = this,
drilldownLevels = chart.drilldownLevels,
levelNumber = drilldownLevels[drilldownLevels.length - 1].levelNumber,
i = drilldownLevels.length,
chartSeries = chart.series,
seriesI,
level,
oldSeries,
newSeries,
oldExtremes,
addSeries = function (seriesOptions) {
var addedSeries;
each(chartSeries, function (series) {
if (series.options._ddSeriesId === seriesOptions._ddSeriesId) {
addedSeries = series;
}
});
addedSeries = addedSeries || chart.addSeries(seriesOptions, false);
if (addedSeries.type === oldSeries.type && addedSeries.animateDrillupTo) {
addedSeries.animate = addedSeries.animateDrillupTo;
}
if (seriesOptions === level.seriesOptions) {
newSeries = addedSeries;
}
};
while (i--) {
level = drilldownLevels[i];
if (level.levelNumber === levelNumber) {
drilldownLevels.pop();
// Get the lower series by reference or id
oldSeries = level.lowerSeries;
if (!oldSeries.chart) { // #2786
seriesI = chartSeries.length; // #2919
while (seriesI--) {
if (chartSeries[seriesI].options.id === level.lowerSeriesOptions.id &&
chartSeries[seriesI].options._levelNumber === levelNumber + 1) { // #3867
oldSeries = chartSeries[seriesI];
break;
}
}
}
oldSeries.xData = []; // Overcome problems with minRange (#2898)
each(level.levelSeriesOptions, addSeries);
fireEvent(chart, 'drillup', { seriesOptions: level.seriesOptions });
if (newSeries.type === oldSeries.type) {
newSeries.drilldownLevel = level;
newSeries.options.animation = chart.options.drilldown.animation;
if (oldSeries.animateDrillupFrom && oldSeries.chart) { // #2919
oldSeries.animateDrillupFrom(level);
}
}
newSeries.options._levelNumber = levelNumber;
oldSeries.remove(false);
// Reset the zoom level of the upper series
if (newSeries.xAxis) {
oldExtremes = level.oldExtremes;
newSeries.xAxis.setExtremes(oldExtremes.xMin, oldExtremes.xMax, false);
newSeries.yAxis.setExtremes(oldExtremes.yMin, oldExtremes.yMax, false);
}
}
}
this.redraw();
if (this.drilldownLevels.length === 0) {
this.drillUpButton = this.drillUpButton.destroy();
} else {
this.drillUpButton.attr({
text: this.getDrilldownBackText()
})
.align();
}
this.ddDupes.length = []; // #3315
};
ColumnSeries.prototype.supportsDrilldown = true;
/**
* When drilling up, keep the upper series invisible until the lower series has
* moved into place
*/
ColumnSeries.prototype.animateDrillupTo = function (init) {
if (!init) {
var newSeries = this,
level = newSeries.drilldownLevel;
each(this.points, function (point) {
if (point.graphic) { // #3407
point.graphic.hide();
}
if (point.dataLabel) {
point.dataLabel.hide();
}
if (point.connector) {
point.connector.hide();
}
});
// Do dummy animation on first point to get to complete
setTimeout(function () {
if (newSeries.points) { // May be destroyed in the meantime, #3389
each(newSeries.points, function (point, i) {
// Fade in other points
var verb = i === (level && level.pointIndex) ? 'show' : 'fadeIn',
inherit = verb === 'show' ? true : undefined;
if (point.graphic) { // #3407
point.graphic[verb](inherit);
}
if (point.dataLabel) {
point.dataLabel[verb](inherit);
}
if (point.connector) {
point.connector[verb](inherit);
}
});
}
}, Math.max(this.chart.options.drilldown.animation.duration - 50, 0));
// Reset
this.animate = noop;
}
};
ColumnSeries.prototype.animateDrilldown = function (init) {
var series = this,
drilldownLevels = this.chart.drilldownLevels,
animateFrom,
animationOptions = this.chart.options.drilldown.animation,
xAxis = this.xAxis;
if (!init) {
each(drilldownLevels, function (level) {
if (series.options._ddSeriesId === level.lowerSeriesOptions._ddSeriesId) {
animateFrom = level.shapeArgs;
animateFrom.fill = level.color;
}
});
animateFrom.x += (pick(xAxis.oldPos, xAxis.pos) - xAxis.pos);
each(this.points, function (point) {
if (point.graphic) {
point.graphic
.attr(animateFrom)
.animate(
extend(point.shapeArgs, { fill: point.color }),
animationOptions
);
}
if (point.dataLabel) {
point.dataLabel.fadeIn(animationOptions);
}
});
this.animate = null;
}
};
/**
* When drilling up, pull out the individual point graphics from the lower series
* and animate them into the origin point in the upper series.
*/
ColumnSeries.prototype.animateDrillupFrom = function (level) {
var animationOptions = this.chart.options.drilldown.animation,
group = this.group,
series = this;
// Cancel mouse events on the series group (#2787)
each(series.trackerGroups, function (key) {
if (series[key]) { // we don't always have dataLabelsGroup
series[key].on('mouseover');
}
});
delete this.group;
each(this.points, function (point) {
var graphic = point.graphic,
complete = function () {
graphic.destroy();
if (group) {
group = group.destroy();
}
};
if (graphic) {
delete point.graphic;
if (animationOptions) {
graphic.animate(
extend(level.shapeArgs, { fill: level.color }),
H.merge(animationOptions, { complete: complete })
);
} else {
graphic.attr(level.shapeArgs);
complete();
}
}
});
};
if (PieSeries) {
extend(PieSeries.prototype, {
supportsDrilldown: true,
animateDrillupTo: ColumnSeries.prototype.animateDrillupTo,
animateDrillupFrom: ColumnSeries.prototype.animateDrillupFrom,
animateDrilldown: function (init) {
var level = this.chart.drilldownLevels[this.chart.drilldownLevels.length - 1],
animationOptions = this.chart.options.drilldown.animation,
animateFrom = level.shapeArgs,
start = animateFrom.start,
angle = animateFrom.end - start,
startAngle = angle / this.points.length;
if (!init) {
each(this.points, function (point, i) {
point.graphic
.attr(H.merge(animateFrom, {
start: start + i * startAngle,
end: start + (i + 1) * startAngle,
fill: level.color
}))[animationOptions ? 'animate' : 'attr'](
extend(point.shapeArgs, { fill: point.color }),
animationOptions
);
});
this.animate = null;
}
}
});
}
H.Point.prototype.doDrilldown = function (_holdRedraw, category) {
var series = this.series,
chart = series.chart,
drilldown = chart.options.drilldown,
i = (drilldown.series || []).length,
seriesOptions;
if (!chart.ddDupes) {
chart.ddDupes = [];
}
while (i-- && !seriesOptions) {
if (drilldown.series[i].id === this.drilldown && inArray(this.drilldown, chart.ddDupes) === -1) {
seriesOptions = drilldown.series[i];
chart.ddDupes.push(this.drilldown);
}
}
// Fire the event. If seriesOptions is undefined, the implementer can check for
// seriesOptions, and call addSeriesAsDrilldown async if necessary.
fireEvent(chart, 'drilldown', {
point: this,
seriesOptions: seriesOptions,
category: category,
points: category !== undefined && this.series.xAxis.ddPoints[category].slice(0)
});
if (seriesOptions) {
if (_holdRedraw) {
chart.addSingleSeriesAsDrilldown(this, seriesOptions);
} else {
chart.addSeriesAsDrilldown(this, seriesOptions);
}
}
};
/**
* Drill down to a given category. This is the same as clicking on an axis label.
*/
H.Axis.prototype.drilldownCategory = function (x) {
var key,
point,
ddPointsX = this.ddPoints[x];
for (key in ddPointsX) {
point = ddPointsX[key];
if (point && point.series && point.series.visible && point.doDrilldown) { // #3197
point.doDrilldown(true, x);
}
}
this.chart.applyDrilldown();
};
/**
* Create and return a collection of points associated with the X position. Reset it for each level.
*/
H.Axis.prototype.getDDPoints = function (x, levelNumber) {
var ddPoints = this.ddPoints;
if (!ddPoints) {
this.ddPoints = ddPoints = {};
}
if (!ddPoints[x]) {
ddPoints[x] = [];
}
if (ddPoints[x].levelNumber !== levelNumber) {
ddPoints[x].length = 0; // reset
}
return ddPoints[x];
};
/**
* Make a tick label drillable, or remove drilling on update
*/
Tick.prototype.drillable = function () {
var pos = this.pos,
label = this.label,
axis = this.axis,
ddPointsX = axis.ddPoints && axis.ddPoints[pos];
if (label && ddPointsX && ddPointsX.length) {
if (!label.basicStyles) {
label.basicStyles = H.merge(label.styles);
}
label
.addClass('highcharts-drilldown-axis-label')
.css(axis.chart.options.drilldown.activeAxisLabelStyle)
.on('click', function () {
axis.drilldownCategory(pos);
});
} else if (label && label.basicStyles) {
label.styles = {}; // reset for full overwrite of styles
label.css(label.basicStyles);
label.on('click', null); // #3806
}
};
/**
* Always keep the drillability updated (#3951)
*/
wrap(Tick.prototype, 'addLabel', function (proceed) {
proceed.call(this);
this.drillable();
});
/**
* On initialization of each point, identify its label and make it clickable. Also, provide a
* list of points associated to that label.
*/
wrap(H.Point.prototype, 'init', function (proceed, series, options, x) {
var point = proceed.call(this, series, options, x),
xAxis = series.xAxis,
tick = xAxis && xAxis.ticks[x],
ddPointsX = xAxis && xAxis.getDDPoints(x, series.options._levelNumber);
if (point.drilldown) {
// Add the click event to the point
H.addEvent(point, 'click', function () {
if (series.xAxis && series.chart.options.drilldown.allowPointDrilldown === false) {
series.xAxis.drilldownCategory(x);
} else {
point.doDrilldown();
}
});
/*wrap(point, 'importEvents', function (proceed) { // wrapping importEvents makes point.click event work
if (!this.hasImportedEvents) {
proceed.call(this);
H.addEvent(this, 'click', function () {
this.doDrilldown();
});
}
});*/
// Register drilldown points on this X value
if (ddPointsX) {
ddPointsX.push(point);
ddPointsX.levelNumber = series.options._levelNumber;
}
}
// Add or remove click handler and style on the tick label
if (tick) {
tick.drillable();
}
return point;
});
wrap(H.Series.prototype, 'drawDataLabels', function (proceed) {
var css = this.chart.options.drilldown.activeDataLabelStyle;
proceed.call(this);
each(this.points, function (point) {
if (point.drilldown && point.dataLabel) {
point.dataLabel
.attr({
'class': 'highcharts-drilldown-data-label'
})
.css(css);
}
});
});
// Mark the trackers with a pointer
var type,
drawTrackerWrapper = function (proceed) {
proceed.call(this);
each(this.points, function (point) {
if (point.drilldown && point.graphic) {
point.graphic
.attr({
'class': 'highcharts-drilldown-point'
})
.css({ cursor: 'pointer' });
}
});
};
for (type in seriesTypes) {
if (seriesTypes[type].prototype.supportsDrilldown) {
wrap(seriesTypes[type].prototype, 'drawTracker', drawTrackerWrapper);
}
}
}(Highcharts));
/**
* @license Highcharts 4.1.9 JS v/Highstock 2.1.9 (2015-10-07)
* Solid angular gauge module
*
* (c) 2010-2014 Torstein Honsi
*
* License: www.highcharts.com/license
*/
/*global Highcharts, HighchartsAdapter*/
(function (H) {
"use strict";
var defaultPlotOptions = H.getOptions().plotOptions,
pInt = H.pInt,
pick = H.pick,
each = H.each,
colorAxisMethods,
UNDEFINED;
// The default options
defaultPlotOptions.solidgauge = H.merge(defaultPlotOptions.gauge, {
colorByPoint: true
});
// These methods are defined in the ColorAxis object, and copied here.
// If we implement an AMD system we should make ColorAxis a dependency.
colorAxisMethods = {
initDataClasses: function (userOptions) {
var axis = this,
chart = this.chart,
dataClasses,
colorCounter = 0,
options = this.options;
this.dataClasses = dataClasses = [];
each(userOptions.dataClasses, function (dataClass, i) {
var colors;
dataClass = H.merge(dataClass);
dataClasses.push(dataClass);
if (!dataClass.color) {
if (options.dataClassColor === 'category') {
colors = chart.options.colors;
dataClass.color = colors[colorCounter++];
// loop back to zero
if (colorCounter === colors.length) {
colorCounter = 0;
}
} else {
dataClass.color = axis.tweenColors(H.Color(options.minColor), H.Color(options.maxColor), i / (userOptions.dataClasses.length - 1));
}
}
});
},
initStops: function (userOptions) {
this.stops = userOptions.stops || [
[0, this.options.minColor],
[1, this.options.maxColor]
];
each(this.stops, function (stop) {
stop.color = H.Color(stop[1]);
});
},
/**
* Translate from a value to a color
*/
toColor: function (value, point) {
var pos,
stops = this.stops,
from,
to,
color,
dataClasses = this.dataClasses,
dataClass,
i;
if (dataClasses) {
i = dataClasses.length;
while (i--) {
dataClass = dataClasses[i];
from = dataClass.from;
to = dataClass.to;
if ((from === UNDEFINED || value >= from) && (to === UNDEFINED || value <= to)) {
color = dataClass.color;
if (point) {
point.dataClass = i;
}
break;
}
}
} else {
if (this.isLog) {
value = this.val2lin(value);
}
pos = 1 - ((this.max - value) / (this.max - this.min));
i = stops.length;
while (i--) {
if (pos > stops[i][0]) {
break;
}
}
from = stops[i] || stops[i + 1];
to = stops[i + 1] || from;
// The position within the gradient
pos = 1 - (to[0] - pos) / ((to[0] - from[0]) || 1);
color = this.tweenColors(
from.color,
to.color,
pos
);
}
return color;
},
/*
* Return an intermediate color between two colors, according to pos where 0
* is the from color and 1 is the to color.
*/
tweenColors: function (from, to, pos) {
// Check for has alpha, because rgba colors perform worse due to lack of
// support in WebKit.
var hasAlpha,
ret;
// Unsupported color, return to-color (#3920)
if (!to.rgba.length || !from.rgba.length) {
ret = to.raw || 'none';
// Interpolate
} else {
from = from.rgba;
to = to.rgba;
hasAlpha = (to[3] !== 1 || from[3] !== 1);
ret = (hasAlpha ? 'rgba(' : 'rgb(') +
Math.round(to[0] + (from[0] - to[0]) * (1 - pos)) + ',' +
Math.round(to[1] + (from[1] - to[1]) * (1 - pos)) + ',' +
Math.round(to[2] + (from[2] - to[2]) * (1 - pos)) +
(hasAlpha ? (',' + (to[3] + (from[3] - to[3]) * (1 - pos))) : '') + ')';
}
return ret;
}
};
/**
* Handle animation of the color attributes directly
*/
each(['fill', 'stroke'], function (prop) {
HighchartsAdapter.addAnimSetter(prop, function (fx) {
fx.elem.attr(prop, colorAxisMethods.tweenColors(H.Color(fx.start), H.Color(fx.end), fx.pos));
});
});
// The series prototype
H.seriesTypes.solidgauge = H.extendClass(H.seriesTypes.gauge, {
type: 'solidgauge',
pointAttrToOptions: {}, // #4301, don't inherit line marker's attribs
bindAxes: function () {
var axis;
H.seriesTypes.gauge.prototype.bindAxes.call(this);
axis = this.yAxis;
H.extend(axis, colorAxisMethods);
// Prepare data classes
if (axis.options.dataClasses) {
axis.initDataClasses(axis.options);
}
axis.initStops(axis.options);
},
/**
* Draw the points where each point is one needle
*/
drawPoints: function () {
var series = this,
yAxis = series.yAxis,
center = yAxis.center,
options = series.options,
renderer = series.chart.renderer,
overshoot = options.overshoot,
overshootVal = overshoot && typeof overshoot === 'number' ? overshoot / 180 * Math.PI : 0;
H.each(series.points, function (point) {
var graphic = point.graphic,
rotation = yAxis.startAngleRad + yAxis.translate(point.y, null, null, null, true),
radius = (pInt(pick(point.options.radius, options.radius, 100)) * center[2]) / 200,
innerRadius = (pInt(pick(point.options.innerRadius, options.innerRadius, 60)) * center[2]) / 200,
shapeArgs,
d,
toColor = yAxis.toColor(point.y, point),
fromColor,
axisMinAngle = Math.min(yAxis.startAngleRad, yAxis.endAngleRad),
axisMaxAngle = Math.max(yAxis.startAngleRad, yAxis.endAngleRad),
minAngle,
maxAngle;
if (toColor === 'none') { // #3708
toColor = point.color || series.color || 'none';
}
if (toColor !== 'none') {
fromColor = point.color;
point.color = toColor;
}
// Handle overshoot and clipping to axis max/min
rotation = Math.max(axisMinAngle - overshootVal, Math.min(axisMaxAngle + overshootVal, rotation));
// Handle the wrap option
if (options.wrap === false) {
rotation = Math.max(axisMinAngle, Math.min(axisMaxAngle, rotation));
}
minAngle = Math.min(rotation, yAxis.startAngleRad);
maxAngle = Math.max(rotation, yAxis.startAngleRad);
if (maxAngle - minAngle > 2 * Math.PI) {
maxAngle = minAngle + 2 * Math.PI;
}
point.shapeArgs = shapeArgs = {
x: center[0],
y: center[1],
r: radius,
innerR: innerRadius,
start: minAngle,
end: maxAngle,
fill: toColor
};
point.startR = radius; // For PieSeries.animate
if (graphic) {
d = shapeArgs.d;
graphic.animate(shapeArgs);
if (d) {
shapeArgs.d = d; // animate alters it
}
} else {
point.graphic = renderer.arc(shapeArgs)
.attr({
stroke: options.borderColor || 'none',
'stroke-width': options.borderWidth || 0,
fill: toColor,
'sweep-flag': 0
})
.add(series.group);
}
});
},
/**
* Extend the pie slice animation by animating from start angle and up
*/
animate: function (init) {
if (!init) {
this.startAngleRad = this.yAxis.startAngleRad;
H.seriesTypes.pie.prototype.animate.call(this, init);
}
}
});
}(Highcharts));
/**
* @license Highcharts 4.1.9 JS v/Highstock 2.1.9 (2015-10-07)
*
* (c) 2011-2014 Torstein Honsi
*
* License: www.highcharts.com/license
*/
/*global HighchartsAdapter*/
(function (Highcharts) {
var UNDEFINED,
Axis = Highcharts.Axis,
Chart = Highcharts.Chart,
Color = Highcharts.Color,
Legend = Highcharts.Legend,
LegendSymbolMixin = Highcharts.LegendSymbolMixin,
Series = Highcharts.Series,
Point = Highcharts.Point,
defaultOptions = Highcharts.getOptions(),
each = Highcharts.each,
extend = Highcharts.extend,
extendClass = Highcharts.extendClass,
merge = Highcharts.merge,
pick = Highcharts.pick,
seriesTypes = Highcharts.seriesTypes,
wrap = Highcharts.wrap,
noop = function () {};
/**
* The ColorAxis object for inclusion in gradient legends
*/
var ColorAxis = Highcharts.ColorAxis = function () {
this.isColorAxis = true;
this.init.apply(this, arguments);
};
extend(ColorAxis.prototype, Axis.prototype);
extend(ColorAxis.prototype, {
defaultColorAxisOptions: {
lineWidth: 0,
minPadding: 0,
maxPadding: 0,
gridLineWidth: 1,
tickPixelInterval: 72,
startOnTick: true,
endOnTick: true,
offset: 0,
marker: {
animation: {
duration: 50
},
color: 'gray',
width: 0.01
},
labels: {
overflow: 'justify'
},
minColor: '#EFEFFF',
maxColor: '#003875',
tickLength: 5
},
init: function (chart, userOptions) {
var horiz = chart.options.legend.layout !== 'vertical',
options;
// Build the options
options = merge(this.defaultColorAxisOptions, {
side: horiz ? 2 : 1,
reversed: !horiz
}, userOptions, {
opposite: !horiz,
showEmpty: false,
title: null,
isColor: true
});
Axis.prototype.init.call(this, chart, options);
// Base init() pushes it to the xAxis array, now pop it again
//chart[this.isXAxis ? 'xAxis' : 'yAxis'].pop();
// Prepare data classes
if (userOptions.dataClasses) {
this.initDataClasses(userOptions);
}
this.initStops(userOptions);
// Override original axis properties
this.horiz = horiz;
this.zoomEnabled = false;
},
/*
* Return an intermediate color between two colors, according to pos where 0
* is the from color and 1 is the to color.
* NOTE: Changes here should be copied
* to the same function in drilldown.src.js and solid-gauge-src.js.
*/
tweenColors: function (from, to, pos) {
// Check for has alpha, because rgba colors perform worse due to lack of
// support in WebKit.
var hasAlpha,
ret;
// Unsupported color, return to-color (#3920)
if (!to.rgba.length || !from.rgba.length) {
ret = to.raw || 'none';
// Interpolate
} else {
from = from.rgba;
to = to.rgba;
hasAlpha = (to[3] !== 1 || from[3] !== 1);
ret = (hasAlpha ? 'rgba(' : 'rgb(') +
Math.round(to[0] + (from[0] - to[0]) * (1 - pos)) + ',' +
Math.round(to[1] + (from[1] - to[1]) * (1 - pos)) + ',' +
Math.round(to[2] + (from[2] - to[2]) * (1 - pos)) +
(hasAlpha ? (',' + (to[3] + (from[3] - to[3]) * (1 - pos))) : '') + ')';
}
return ret;
},
initDataClasses: function (userOptions) {
var axis = this,
chart = this.chart,
dataClasses,
colorCounter = 0,
options = this.options,
len = userOptions.dataClasses.length;
this.dataClasses = dataClasses = [];
this.legendItems = [];
each(userOptions.dataClasses, function (dataClass, i) {
var colors;
dataClass = merge(dataClass);
dataClasses.push(dataClass);
if (!dataClass.color) {
if (options.dataClassColor === 'category') {
colors = chart.options.colors;
dataClass.color = colors[colorCounter++];
// loop back to zero
if (colorCounter === colors.length) {
colorCounter = 0;
}
} else {
dataClass.color = axis.tweenColors(
Color(options.minColor),
Color(options.maxColor),
len < 2 ? 0.5 : i / (len - 1) // #3219
);
}
}
});
},
initStops: function (userOptions) {
this.stops = userOptions.stops || [
[0, this.options.minColor],
[1, this.options.maxColor]
];
each(this.stops, function (stop) {
stop.color = Color(stop[1]);
});
},
/**
* Extend the setOptions method to process extreme colors and color
* stops.
*/
setOptions: function (userOptions) {
Axis.prototype.setOptions.call(this, userOptions);
this.options.crosshair = this.options.marker;
this.coll = 'colorAxis';
},
setAxisSize: function () {
var symbol = this.legendSymbol,
chart = this.chart,
x,
y,
width,
height;
if (symbol) {
this.left = x = symbol.attr('x');
this.top = y = symbol.attr('y');
this.width = width = symbol.attr('width');
this.height = height = symbol.attr('height');
this.right = chart.chartWidth - x - width;
this.bottom = chart.chartHeight - y - height;
this.len = this.horiz ? width : height;
this.pos = this.horiz ? x : y;
}
},
/**
* Translate from a value to a color
*/
toColor: function (value, point) {
var pos,
stops = this.stops,
from,
to,
color,
dataClasses = this.dataClasses,
dataClass,
i;
if (dataClasses) {
i = dataClasses.length;
while (i--) {
dataClass = dataClasses[i];
from = dataClass.from;
to = dataClass.to;
if ((from === UNDEFINED || value >= from) && (to === UNDEFINED || value <= to)) {
color = dataClass.color;
if (point) {
point.dataClass = i;
}
break;
}
}
} else {
if (this.isLog) {
value = this.val2lin(value);
}
pos = 1 - ((this.max - value) / ((this.max - this.min) || 1));
i = stops.length;
while (i--) {
if (pos > stops[i][0]) {
break;
}
}
from = stops[i] || stops[i + 1];
to = stops[i + 1] || from;
// The position within the gradient
pos = 1 - (to[0] - pos) / ((to[0] - from[0]) || 1);
color = this.tweenColors(
from.color,
to.color,
pos
);
}
return color;
},
/**
* Override the getOffset method to add the whole axis groups inside the legend.
*/
getOffset: function () {
var group = this.legendGroup,
sideOffset = this.chart.axisOffset[this.side];
if (group) {
// Hook for the getOffset method to add groups to this parent group
this.axisParent = group;
// Call the base
Axis.prototype.getOffset.call(this);
// First time only
if (!this.added) {
this.added = true;
this.labelLeft = 0;
this.labelRight = this.width;
}
// Reset it to avoid color axis reserving space
this.chart.axisOffset[this.side] = sideOffset;
}
},
/**
* Create the color gradient
*/
setLegendColor: function () {
var grad,
horiz = this.horiz,
options = this.options,
reversed = this.reversed;
grad = horiz ? [+reversed, 0, +!reversed, 0] : [0, +!reversed, 0, +reversed]; // #3190
this.legendColor = {
linearGradient: { x1: grad[0], y1: grad[1], x2: grad[2], y2: grad[3] },
stops: options.stops || [
[0, options.minColor],
[1, options.maxColor]
]
};
},
/**
* The color axis appears inside the legend and has its own legend symbol
*/
drawLegendSymbol: function (legend, item) {
var padding = legend.padding,
legendOptions = legend.options,
horiz = this.horiz,
box,
width = pick(legendOptions.symbolWidth, horiz ? 200 : 12),
height = pick(legendOptions.symbolHeight, horiz ? 12 : 200),
labelPadding = pick(legendOptions.labelPadding, horiz ? 16 : 30),
itemDistance = pick(legendOptions.itemDistance, 10);
this.setLegendColor();
// Create the gradient
item.legendSymbol = this.chart.renderer.rect(
0,
legend.baseline - 11,
width,
height
).attr({
zIndex: 1
}).add(item.legendGroup);
box = item.legendSymbol.getBBox();
// Set how much space this legend item takes up
this.legendItemWidth = width + padding + (horiz ? itemDistance : labelPadding);
this.legendItemHeight = height + padding + (horiz ? labelPadding : 0);
},
/**
* Fool the legend
*/
setState: noop,
visible: true,
setVisible: noop,
getSeriesExtremes: function () {
var series;
if (this.series.length) {
series = this.series[0];
this.dataMin = series.valueMin;
this.dataMax = series.valueMax;
}
},
drawCrosshair: function (e, point) {
var plotX = point && point.plotX,
plotY = point && point.plotY,
crossPos,
axisPos = this.pos,
axisLen = this.len;
if (point) {
crossPos = this.toPixels(point[point.series.colorKey]);
if (crossPos < axisPos) {
crossPos = axisPos - 2;
} else if (crossPos > axisPos + axisLen) {
crossPos = axisPos + axisLen + 2;
}
point.plotX = crossPos;
point.plotY = this.len - crossPos;
Axis.prototype.drawCrosshair.call(this, e, point);
point.plotX = plotX;
point.plotY = plotY;
if (this.cross) {
this.cross
.attr({
fill: this.crosshair.color
})
.add(this.legendGroup);
}
}
},
getPlotLinePath: function (a, b, c, d, pos) {
if (typeof pos === 'number') { // crosshairs only // #3969 pos can be 0 !!
return this.horiz ?
['M', pos - 4, this.top - 6, 'L', pos + 4, this.top - 6, pos, this.top, 'Z'] :
['M', this.left, pos, 'L', this.left - 6, pos + 6, this.left - 6, pos - 6, 'Z'];
} else {
return Axis.prototype.getPlotLinePath.call(this, a, b, c, d);
}
},
update: function (newOptions, redraw) {
var chart = this.chart,
legend = chart.legend;
each(this.series, function (series) {
series.isDirtyData = true; // Needed for Axis.update when choropleth colors change
});
// When updating data classes, destroy old items and make sure new ones are created (#3207)
if (newOptions.dataClasses && legend.allItems) {
each(legend.allItems, function (item) {
if (item.isDataClass) {
item.legendGroup.destroy();
}
});
chart.isDirtyLegend = true;
}
// Keep the options structure updated for export. Unlike xAxis and yAxis, the colorAxis is
// not an array. (#3207)
chart.options[this.coll] = merge(this.userOptions, newOptions);
Axis.prototype.update.call(this, newOptions, redraw);
if (this.legendItem) {
this.setLegendColor();
legend.colorizeItem(this, true);
}
},
/**
* Get the legend item symbols for data classes
*/
getDataClassLegendSymbols: function () {
var axis = this,
chart = this.chart,
legendItems = this.legendItems,
legendOptions = chart.options.legend,
valueDecimals = legendOptions.valueDecimals,
valueSuffix = legendOptions.valueSuffix || '',
name;
if (!legendItems.length) {
each(this.dataClasses, function (dataClass, i) {
var vis = true,
from = dataClass.from,
to = dataClass.to;
// Assemble the default name. This can be overridden by legend.options.labelFormatter
name = '';
if (from === UNDEFINED) {
name = '< ';
} else if (to === UNDEFINED) {
name = '> ';
}
if (from !== UNDEFINED) {
name += Highcharts.numberFormat(from, valueDecimals) + valueSuffix;
}
if (from !== UNDEFINED && to !== UNDEFINED) {
name += ' - ';
}
if (to !== UNDEFINED) {
name += Highcharts.numberFormat(to, valueDecimals) + valueSuffix;
}
// Add a mock object to the legend items
legendItems.push(extend({
chart: chart,
name: name,
options: {},
drawLegendSymbol: LegendSymbolMixin.drawRectangle,
visible: true,
setState: noop,
isDataClass: true,
setVisible: function () {
vis = this.visible = !vis;
each(axis.series, function (series) {
each(series.points, function (point) {
if (point.dataClass === i) {
point.setVisible(vis);
}
});
});
chart.legend.colorizeItem(this, vis);
}
}, dataClass));
});
}
return legendItems;
},
name: '' // Prevents 'undefined' in legend in IE8
});
/**
* Handle animation of the color attributes directly
*/
each(['fill', 'stroke'], function (prop) {
HighchartsAdapter.addAnimSetter(prop, function (fx) {
fx.elem.attr(prop, ColorAxis.prototype.tweenColors(Color(fx.start), Color(fx.end), fx.pos));
});
});
/**
* Extend the chart getAxes method to also get the color axis
*/
wrap(Chart.prototype, 'getAxes', function (proceed) {
var options = this.options,
colorAxisOptions = options.colorAxis;
proceed.call(this);
this.colorAxis = [];
if (colorAxisOptions) {
proceed = new ColorAxis(this, colorAxisOptions); // Fake assignment for jsLint
}
});
/**
* Wrap the legend getAllItems method to add the color axis. This also removes the
* axis' own series to prevent them from showing up individually.
*/
wrap(Legend.prototype, 'getAllItems', function (proceed) {
var allItems = [],
colorAxis = this.chart.colorAxis[0];
if (colorAxis) {
// Data classes
if (colorAxis.options.dataClasses) {
allItems = allItems.concat(colorAxis.getDataClassLegendSymbols());
// Gradient legend
} else {
// Add this axis on top
allItems.push(colorAxis);
}
// Don't add the color axis' series
each(colorAxis.series, function (series) {
series.options.showInLegend = false;
});
}
return allItems.concat(proceed.call(this));
});
/**
* Mixin for maps and heatmaps
*/
var colorPointMixin = {
/**
* Set the visibility of a single point
*/
setVisible: function (vis) {
var point = this,
method = vis ? 'show' : 'hide';
// Show and hide associated elements
each(['graphic', 'dataLabel'], function (key) {
if (point[key]) {
point[key][method]();
}
});
}
};
var colorSeriesMixin = {
pointAttrToOptions: { // mapping between SVG attributes and the corresponding options
stroke: 'borderColor',
'stroke-width': 'borderWidth',
fill: 'color',
dashstyle: 'dashStyle'
},
pointArrayMap: ['value'],
axisTypes: ['xAxis', 'yAxis', 'colorAxis'],
optionalAxis: 'colorAxis',
trackerGroups: ['group', 'markerGroup', 'dataLabelsGroup'],
getSymbol: noop,
parallelArrays: ['x', 'y', 'value'],
colorKey: 'value',
/**
* In choropleth maps, the color is a result of the value, so this needs translation too
*/
translateColors: function () {
var series = this,
nullColor = this.options.nullColor,
colorAxis = this.colorAxis,
colorKey = this.colorKey;
each(this.data, function (point) {
var value = point[colorKey],
color;
color = point.options.color ||
(value === null ? nullColor : (colorAxis && value !== undefined) ? colorAxis.toColor(value, point) : point.color || series.color);
if (color) {
point.color = color;
}
});
}
};
/**
* Extend the default options with map options
*/
defaultOptions.plotOptions.heatmap = merge(defaultOptions.plotOptions.scatter, {
animation: false,
borderWidth: 0,
nullColor: '#F8F8F8',
dataLabels: {
formatter: function () { // #2945
return this.point.value;
},
inside: true,
verticalAlign: 'middle',
crop: false,
overflow: false,
padding: 0 // #3837
},
marker: null,
pointRange: null, // dynamically set to colsize by default
tooltip: {
pointFormat: '{point.x}, {point.y}: {point.value} '
},
states: {
normal: {
animation: true
},
hover: {
halo: false, // #3406, halo is not required on heatmaps
brightness: 0.2
}
}
});
// The Heatmap series type
seriesTypes.heatmap = extendClass(seriesTypes.scatter, merge(colorSeriesMixin, {
type: 'heatmap',
pointArrayMap: ['y', 'value'],
hasPointSpecificOptions: true,
pointClass: extendClass(Point, colorPointMixin),
supportsDrilldown: true,
getExtremesFromAll: true,
directTouch: true,
/**
* Override the init method to add point ranges on both axes.
*/
init: function () {
var options;
seriesTypes.scatter.prototype.init.apply(this, arguments);
options = this.options;
this.pointRange = options.pointRange = pick(options.pointRange, options.colsize || 1); // #3758, prevent resetting in setData
this.yAxis.axisPointRange = options.rowsize || 1; // general point range
},
translate: function () {
var series = this,
options = series.options,
xAxis = series.xAxis,
yAxis = series.yAxis,
between = function (x, a, b) {
return Math.min(Math.max(a, x), b);
};
series.generatePoints();
each(series.points, function (point) {
var xPad = (options.colsize || 1) / 2,
yPad = (options.rowsize || 1) / 2,
x1 = between(Math.round(xAxis.len - xAxis.translate(point.x - xPad, 0, 1, 0, 1)), 0, xAxis.len),
x2 = between(Math.round(xAxis.len - xAxis.translate(point.x + xPad, 0, 1, 0, 1)), 0, xAxis.len),
y1 = between(Math.round(yAxis.translate(point.y - yPad, 0, 1, 0, 1)), 0, yAxis.len),
y2 = between(Math.round(yAxis.translate(point.y + yPad, 0, 1, 0, 1)), 0, yAxis.len);
// Set plotX and plotY for use in K-D-Tree and more
point.plotX = point.clientX = (x1 + x2) / 2;
point.plotY = (y1 + y2) / 2;
point.shapeType = 'rect';
point.shapeArgs = {
x: Math.min(x1, x2),
y: Math.min(y1, y2),
width: Math.abs(x2 - x1),
height: Math.abs(y2 - y1)
};
});
series.translateColors();
// Make sure colors are updated on colorAxis update (#2893)
if (this.chart.hasRendered) {
each(series.points, function (point) {
point.shapeArgs.fill = point.options.color || point.color; // #3311
});
}
},
drawPoints: seriesTypes.column.prototype.drawPoints,
animate: noop,
getBox: noop,
drawLegendSymbol: LegendSymbolMixin.drawRectangle,
getExtremes: function () {
// Get the extremes from the value data
Series.prototype.getExtremes.call(this, this.valueData);
this.valueMin = this.dataMin;
this.valueMax = this.dataMax;
// Get the extremes from the y data
Series.prototype.getExtremes.call(this);
}
}));
}(Highcharts));